[1].Xu Ruibin, et al."A C-Terminal Encoded Peptide, ZmCEP1, is essential for kernel development in maize (Zea mays L.).." Journal of experimental botany 72.15(2021): doi:10.1093/JXB/ERAB224.(IF5.557)
[2].Wen Shaozhe, et al."A Major Quantitative Trait Loci Cluster Controlling Three Components of Yield and Plant Height Identified on Chromosome 4B of Common Wheat ." Frontiers in Plant Science .(2022): doi:10.3389/FPLS.2021.799520.(LA-S,IF4.568)
[3].Yuan Hua, et al."A natural allele of TAW1 contributes to high grain number and grain yield in rice." The Crop Journal 9.5(2021): doi:10.1016/J.CJ.2020.11.004.(SC-G)
[4].Liu Jiajia, et al."A promising crop for cadmium-contamination remediation: Broomcorn millet.." Ecotoxicology and environmental safety 224.(2021): doi:10.1016/J.ECOENV.2021.112669.(LA-S,IF5.248)
[5].Meng Tianyao, et al."Agronomic and physiological traits facilitating better yield performance of japonica/indica hybrids in saline fields." Field Crops Research 271.(2021): doi:10.1016/J.FCR.2021.108255.(LA-S,IF4.856)
[6].Ren Xiaoli, et al."Alternative Splicing of TaGS3 Differentially Regulates Grain Weight and Size in Bread Wheat." International Journal of Molecular Sciences 22.21(2021): doi:10.3390/IJMS222111692.(SC-G,IF4.602)
[7].Han, Xia, et al."Arbuscular Mycorrhizal Fungus and Exogenous Potassium Application Improved Lycium barbarum Salt Tolerance." Journal of Plant Growth Regulation .prepublish(2021): doi:10.1007/S00344-021-10489-X.(IF2.751)
[8].Li Yan, et al."Blocking miR530 Improves Rice Resistance, Yield, and Maturity ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.729560.(SC-A,IF4.568)
[9].Li Yan, et al."Blocking Osa-miR1871 enhances rice resistance against Magnaporthe oryzae and yield.." Plant biotechnology journal .(2021): doi:10.1111/PBI.13743.(IF8.738)
[10].Jing Fanli, et al."Characterization of TaSPP-5A gene associated with sucrose content in wheat (Triticum aestivum L.)." BMC Plant Biology 22.1(2022): doi:10.1186/S12870-022-03442-X.(IF3.695)
[11].Dong Shiqing, et al."Cloning and functional analysis of LH2, a gene controlling late heading in rice." Crop Science 61.4(2021): doi:10.1002/CSC2.20501.(SC-G,IF2.003)
[12].Shi Shijie, et al."Comprehensive Evaluation of 17 Qualities of 84 Types of Rice Based on Principal Component Analysis." Foods 10.11(2021): doi:10.3390/FOODS10112883.(SC-E)
[13].Riaz Aamir, et al."Development of Chromosome Segment Substitution Lines and Genetic Dissection of Grain Size Related Locus in Rice." Rice Science 28.4(2021): doi:10.1016/J.RSCI.2021.05.003.
[14].Zheng Shilu, et al."Disentangling biotic and abiotic drivers of intraspecific trait variation in woody plant seedlings at forest edges." Ecology and Evolution 11.14(2021): doi:10.1002/ECE3.7799.(LA-S,IF2.621)
[15].Gao Yutian, et al."Dissecting the genetic basis of grain morphology traits in Chinese wheat by genome wide association study." Euphytica 217.4(2021): doi:10.1007/S10681-021-02795-Y.(SC-A,IF1.697)
[16].Xue Pao, et al."Dissection of Closely Linked Quantitative Trait Locis Controlling Grain Size in Rice ." Frontiers in Plant Science .(2022): doi:10.3389/FPLS.2021.804444.(SC-G,IF4.568)
[17].Li Shunda, et al."Dissection of Genetic Basis Underpinning Kernel Weight-Related Traits in Common Wheat." Plants 10.4(2021): doi:10.3390/PLANTS10040713.(SC-G)
[18].Niu Xiaojun, et al."Dissection of two quantitative trait loci for grain length linked on the long arm of chromosome 5 in rice." Crop Science 61.6(2021): doi:10.1002/CSC2.20633.(SC-G,IF2.003)
[19].Dai Shutao, et al."Diversity and association analysis of important agricultural trait based on miniature inverted-repeat transposable element specific marker in Brassica napus L.." Oil Crop Science 6.1(2021): doi:10.1016/J.OCSCI.2021.03.004.(SC-G)
[20].Liu Jing, et al."Ectopic Expression of VRT-A2 Underlies the Origin of Triticum polonicum and T. petropavlovskyi with Long Outer Glume and Grain.." Molecular plant 14.9(2021): doi:10.1016/J.MOLP.2021.05.021.(SC-G,IF11.631)
[21].Li Lin, et al."Effects of nitrogen deep placement coupled with straw incorporation on grain quality and root traits from paddy fields." Crop Science 61.5(2021): doi:10.1002/CSC2.20578.(SC-E,IF2.003)
[22].Yang Desheng, et al."Effects of nitrogen fertilization for bud initiation and tiller growth on yield and quality of rice ratoon crop in central China." Field Crops Research 272.(2021): doi:10.1016/J.FCR.2021.108286.(SC-E,IF4.856)
[23].Li Bo, et al."Effects of Ridge Tillage and Straw Mulching on Cultivation the Fresh Faba Beans." Agronomy 11.6(2021): doi:10.3390/AGRONOMY11061054.(LA-S)
[24].Gao Runhong, et al."Enhancement of root architecture and nitrate transporter gene expression improves plant growth and nitrogen uptake under long-term low-nitrogen stress in barley (Hordeum vulgare L.) seedlings." Plant Growth Regulation 95.3(2021): doi:10.1007/S10725-021-00744-2.(LA-S,IF2.483)
[25].Sun, Guangyan, et al."Exogenous Hemin Optimized Maize Leaf Photosynthesis, Root Development, Grain Filling, and Resource Utilization on Alleviating Cadmium Stress Under Field Condition." Journal of Soil Science and Plant Nutrition .prepublish(2021): doi:10.1007/S42729-021-00674-Y.(IF2.516)
[26].Yuzhan Li, et al."Exogenous Melatonin and Catechol Application Modulate Physio-Biochemical Attributes and Early Growth of Fragrant Rice Under Cd Toxicity." Journal of Soil Science and Plant Nutrition .prepublish(2021): doi:10.1007/S42729-021-00521-0.(LA-S,IF2.516)
[27].Potcho Pouwedeou Mouloumdema, et al."Fertilizer Deep Placement Significantly Affected Yield, Rice Quality, 2-AP Biosynthesis and Physiological Characteristics of the Fragrant Rice Cultivars." Agronomy 12.1(2022): doi:10.3390/AGRONOMY12010162.(SC-E)
[28].Yuchun Rao, et al."Fine mapping and candidate gene analysis of leaf tip premature senescence and Dwarf Mutant dls-1 in Rice." Plant Growth Regulation .prepublish(2021): doi:10.1007/S10725-021-00715-7.(SC-G,IF2.483)
[29].Yuan Hua, et al."Fine mapping and candidate gene analysis of qGSN5, a novel quantitative trait locus coordinating grain size and grain number in rice.." TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik 135.1(2021): doi:10.1007/S00122-021-03951-7.
[30].Zhao Dehui, et al."Fine mapping and validation of a major QTL for grain weight on chromosome 5B in bread wheat.." TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik 134.11(2021): doi:10.1007/S00122-021-03925-9.(SC-G)
[31].Chen Jin Feng, et al."Fine-Tuning Roles of Osa-miR159a in Rice Immunity Against Magnaporthe oryzae and Development." Rice 14.1(2021): doi:10.1186/S12284-021-00469-W.(SC-A,IF4.072)
[32].Meng Tianyao, et al."Genetic Improvement of Post-Heading Root Morphology and Physiology Facilitating Yield Increase of japonica Inbred Rice." Agronomy 11.12(2021): doi:10.3390/AGRONOMY11122457.(LA-S)
[33].Qu Xiangru, et al."Genetic Mapping and Validation of Loci for Kernel-Related Traits in Wheat (Triticum aestivum L.) ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.667493.(SC-A,IF4.568)
[34].Kang Yiwei, et al."Genetic Mapping of Grain Shape Associated QTL Utilizing Recombinant Inbred Sister Lines in High Yielding Rice (Oryza sativa L.)." Agronomy 11.4(2021): doi:10.3390/AGRONOMY11040705.
[35].Gao Le, et al."Genome–wide association study of grain morphology in wheat." Euphytica 217.8(2021): doi:10.1007/S10681-021-02900-1.(SC-A,IF1.697)
[36].Wang Aijun, et al."Genome-wide association study-based identification genes influencing agronomic traits in rice (Oryza sativa L.)." Genomics 113.prepublish(2021): doi:10.1016/J.YGENO.2021.03.016.(SC-G)
[37].Zhanying Zhang, et al."GNP6 , a novel allele of MOC1 , regulates panicle and tiller development in rice." The Crop Journal .prepublish(2020): doi:10.1016/j.cj.2020.04.011.(SC-G)
[38].Chen Lin, et al."Growth and Nitrogen Retranslocation of Nutrient-Loaded Clonal Betula alnoides Transplanted with or without Fertilization." Forests 12.11(2021): doi:10.3390/F12111603.(LA-S,IF2.317)
[39].Li Fei, et al."High-Quality Genomes and High-Density Genetic Map Facilitate the Identification of Genes From a Weedy Rice ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.775051.(IF4.568)
[40].Zhang Youfu, et al."Identification and development of a KASP functional marker of TaTAP46‐5A associated with kernel weight in wheat (Triticum aestivum)." Plant Breeding 140.4(2021): doi:10.1111/PBR.12922.(SC-G,IF1.794)
[41].Ji Guangsi, et al."Identification of a major and stable QTL on chromosome 5A confers spike length in wheat (Triticum aestivum L.)." Molecular Breeding 41.9(2021): doi:10.1007/S11032-021-01249-6.(SC-E,IF2.208)
[42].Zhang Jinpeng, et al."Identification of Genetic Loci on Chromosome 4B for Improving the Grain Number per Spike in Pre-Breeding Lines of Wheat." Agronomy 12.1(2022): doi:10.3390/AGRONOMY12010171.(SC-E)
[43].Liang Dangdi, et al."Increasing the performance of Passion fruit (Passiflora edulis) seedlings by LED light regimes." Scientific Reports 11.1(2021): doi:10.1038/S41598-021-00103-1.(IF4.149)
[44].Li Zhenyi, et al."Integrative analysis of the metabolome and transcriptome reveal the phosphate deficiency response pathways of alfalfa." Plant Physiology and Biochemistry 170.(2022): doi:10.1016/J.PLAPHY.2021.11.039.(LA-S,IF3.983)
[45].Duan Yanan, et al."Isolation, Identification, and Antibacterial Mechanisms of Bacillus amyloliquefaciens QSB-6 and Its Effect on Plant Roots ." Frontiers in Microbiology 12.(2021): doi:10.3389/FMICB.2021.746799.(LA-S,IF4.443)
[46].Yang Yang, et al."Large-scale integration of meta-QTL and genome-wide association study discovers the genomic regions and candidate genes for yield and yield-related traits in bread wheat." Theoretical and Applied Genetics 134.9(2021): doi:10.1007/S00122-021-03881-4.(SC-E,IF4.643)
[47].Hei Zewen, et al."Mix-cropping of rice and water mimosa (Neptunia oleracea Lour.) increases rice photosynthetic efficiency, yield, grain quality and soil available nutrients.." Journal of the science of food and agriculture .(2021): doi:10.1002/JSFA.11744.(SC-E,IF2.802)
[48].Jiang Pingping, et al."Moderate Mn accumulation enhances growth and alters leaf hormone contents in the hyperaccumulator Celosia argentea Linn.." Environmental and Experimental Botany 191.prepublish(2021): doi:10.1016/J.ENVEXPBOT.2021.104603.(SC-E,IF4.173)
[49].Zhang Xia, et al."Molecular cytogenetic characterization of a novel wheat-Thinopyrum intermedium introgression line tolerant to phosphorus deficiency." The Crop Journal .prepublish(2020): doi:10.1016/J.CJ.2020.08.014.(LA-S)
[50].Sun ChenDong, et al."OsRLR4 binds to the OsAUX1 promoter to negatively regulate primary root development in rice.." Journal of integrative plant biology 64.1(2021): doi:10.1111/JIPB.13183.(LA-S,IF6.19)
[51].Liu, J. , et al. "QMrl-7B Enhances Root System, Biomass, Nitrogen Accumulation and Yield in Bread Wheat." Plants 10.4(2021):764.(LA-S)
[52].Ren Tianheng, et al."QTL Mapping and Validation for Kernel Area and Circumference in Common Wheat via High-Density SNP-Based Genotyping ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.713890.(SC-G,IF4.568)
[53].Xu, H. , et al. "Quality Evaluation and Important Quality Genes Genotyping of Introduced Rice Germplasm Resources." Rice Genomics and Genetics (2021).(SC-E)
[54].Cheng Yan, Ya-li Leng,and Jun-ting Wu."Quantitative microbial risk assessment for occupational health of temporary entrants and staffs equipped with various grade PPE and exposed to microbial bioaerosols in two WWTPs." International Archives of Occupational and Environmental Health .prepublish(2021): doi:10.1007/S00420-021-01663-5.(HICC-B,IF2.118)
[55].Wang Can, et al."Responses of photosynthetic characteristics and dry matter formation in waxy sorghum to row ratio configurations in waxy sorghum-soybean intercropping systems." Field Crops Research 263.(2021): doi:10.1016/J.FCR.2021.108077.(SC-G,IF4.856)
[56].Li Yan, et al."Rice miR1432 Fine-Tunes the Balance of Yield and Blast Disease Resistance via Different Modules." Rice 14.1(2021): doi:10.1186/S12284-021-00529-1.
[57].Jian Shao Fen, et al."Sulfur Regulates the Trade-Off Between Growth and Andrographolide Accumulation via Nitrogen Metabolism in Andrographis paniculata ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.687954.(LA-S,4.568)
[58].Mao Ting, et al."Superior japonica rice variety YJ144 with improved rice blast resistance, yield, and quality achieved using molecular design and multiple breeding strategies." Molecular Breeding 41.10(2021): doi:10.1007/S11032-021-01259-4.(IF2.208)
[59].Li Jihu, et al."TaNAC100 acts as an integrator of seed protein and starch synthesis conferring pleiotropic effects on agronomic traits in wheat.." The Plant journal : for cell and molecular biology 108.3(2021): doi:10.1111/TPJ.15485.(SC-G)
[60].Hwa, B , et al. "The boron transporter SiBOR1 functions in cell wall integrity, cellular homeostasis, and panicle development in foxtail millet." The Crop Journal (2021).(SC-G)
[61].Feng, Zhiyu, et al."The decreased expression of GW2 homologous genes contributed to the increased grain width and thousand‑grain weight in wheat-Dasypyrum villosum 6VS·6DL translocation lines." Theoretical and Applied Genetics 134.12(2021): doi:10.1007/S00122-021-03934-8.(IF4.643)
[62].Hao Jianqin, et al."The GW2-WG1-OsbZIP47 pathway controls grain size and weight in rice.." Molecular plant 14.8(2021): doi:10.1016/J.MOLP.2021.04.011.(IF11.631)
[63].Yue Wenjie, et al."The Landscape of Autophagy-Related (ATG) Genes and Functional Characterization of TaVAMP727 to Autophagy in Wheat." International Journal of Molecular Sciences 23.2(2022): doi:10.3390/IJMS23020891.(SC-G,IF4.602)
[64].Ji Chen, et al."The O2-ZmGRAS11 transcriptional regulatory network orchestrates the coordination of endosperm cell expansion and grain filling in maize.." Molecular plant .(2021): doi:10.1016/J.MOLP.2021.11.013.(IF11.631)
[65].Li Yan, et al."The rice miR171b–SCL6-IIs module controls blast resistance, grain yield, and flowering." The Crop Journal 10.1(2022): doi:10.1016/J.CJ.2021.05.004.(SC-A)
[66].Li Huan, et al."Unraveling hydrogen sulfide-promoted lateral root development and growth in mangrove plant Kandelia obovata: Insight into regulatory mechanism by TMT-based quantitative proteomic approaches.." Tree physiology 41.9(2021): doi:10.1093/TREEPHYS/TPAB025.(LA-S,IF3.364)
[67].Liu Jiajia, et al."A promising crop for cadmium-contamination remediation: Broomcorn millet.." Ecotoxicology and environmental safety 224.(2021): doi:10.1016/J.ECOENV.2021.112669.(LA-S,IF5.248)
[68].Shi, Cai Yun, et al."Comparison of drought resistance of rootstocks 'M9-T337' and 'M26' grafted with 'Huashuo' apple." Horticulture, Environment, and Biotechnology .prepublish(2022): doi:10.1007/S13580-021-00398-Z.(IF1.776)
[69].Wang Xiaoqi, et al."Comprehensive Analysis of the Influence of Fulvic Acid from Paper Mill Effluent on Soil Properties, Soil Microbiome, and Growth of Malus hupehensis Rehd. Seedlings under Replant Conditions.." ACS omega 6.37(2021): doi:10.1021/ACSOMEGA.1C03201.(LA-S)
[70]. Zhu, L. , et al. "Development and Application of an in Vitro Method to Evaluate Anthracnose Resistance in Soybean Germplasm." (2021).(LA-S)
[71].Qi Kai, et al."Development and characterization of novel Triticum aestivum-Agropyron cristatum 6P Robertsonian translocation lines." Molecular Breeding 41.10(2021): doi:10.1007/S11032-021-01251-Y.(IF2.208)
[72].Zheng Shilu, et al."Disentangling biotic and abiotic drivers of intraspecific trait variation in woody plant seedlings at forest edges." Ecology and Evolution 11.14(2021): doi:10.1002/ECE3.7799.(LA-S,IF2.621)
[73].Liu Dapu, et al."Diversification of plant agronomic traits by genome editing of brassinosteroid signaling family genes in rice.." Plant physiology 187.4(2021): doi:10.1093/PLPHYS/KIAB394.(SC-G,IF7.444)
[74].Jin Meifang, et al."Effect of copper on the photosynthesis and growth of Eichhornia crassipes.." Plant biology (Stuttgart, Germany) 23.5(2021): doi:10.1111/PLB.13281.(LA-S)
[75].Hao Hao-xin, et al."Erosion-reducing effects of plant roots during concentrated flow under contrasting textured soils." Catena 203.(2021): doi:10.1016/J.CATENA.2021.105378.(LA-S,IF4.882)
[76].Yuzhan Li, et al."Exogenous Melatonin and Catechol Application Modulate Physio-Biochemical Attributes and Early Growth of Fragrant Rice Under Cd Toxicity." Journal of Soil Science and Plant Nutrition .prepublish(2021): doi:10.1007/S42729-021-00521-0.(LA-S,IF2.516)
[77].Yang Weifeng, et al."Fine mapping of two grain chalkiness QTLs sensitive to high temperature in rice." Rice 14.1(2021): doi:10.1186/S12284-021-00476-X.(SC-E)
[78].Li Tao, et al."Identification and Validation of a Novel Locus Controlling Spikelet Number in Bread Wheat (Triticum aestivum L.) ." Frontiers in Plant Science .(2021): doi:10.3389/FPLS.2021.611106.(SC-G,IF4.568)
[79].Chen Weili, et al."Arbuscular Mycorrhizal Fungus Alters Root System Architecture in Camellia sinensis L. as Revealed by RNA-Seq Analysis ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.777357.(LA-S,IF4.568)
[80].Zheng Yaxiong, et al."Functional Trait Responses to Strip Clearcutting in a Moso Bamboo Forest." Forests 12.6(2021): doi:10.3390/F12060793.(LA-S,IF2.317)
[81].Li Tao, et al."Genetic dissection of quantitative trait loci for grain size and weight by high-resolution genetic mapping in bread wheat (Triticum aestivum L.).." TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik 135.1(2021): doi:10.1007/S00122-021-03964-2.(SC-G)
[82].Chen, Shiliang, et al."Genetic loci and responsible genes for pod and seed traits under diverse environments via linkage mapping analysis in soybean [Glycine max (L.) Merr.]." Genetic Resources and Crop Evolution .prepublish(2021): doi:10.1007/S10722-021-01287-1.(IF1.211)
[83].Zhao Xinpeng, et al."Genome-wide association study of grain shapes in Aegilops tauschii." Euphytica 217.7(2021): doi:10.1007/S10681-021-02877-X.(SC-G,IF1.697)
[84].Sun Mingjie, et al."Genotypic diversity of quality traits in Chinese foxtail millet (Setaria italica L.) and the establishment of a quality evaluation system." Food Chemistry 353.(2021): doi:10.1016/J.FOODCHEM.2021.129421.(SC-E)
[85].Sun, Yangyang , et al. "Identification and fine mapping of alien fragments associated with enhanced grain weight from Agropyron cristatum chromosome 7P in common wheat backgrounds." Theoretical and Applied Genetics 5(2021).(SC-G,IF4.643)
[86].Li Tao, et al."Identification and validation of two major QTLs for spike compactness and length in bread wheat (Triticum aestivum L.) showing pleiotropic effects on yield-related traits.." TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik 134.11(2021): doi:10.1007/S00122-021-03918-8.(SC-G)
[87].Niu Yanan, et al."Identification and allele mining of new candidate genes underlying rice grain weight and grain shape by genome-wide association study.." BMC genomics 22.1(2021): doi:10.1186/S12864-021-07901-X.(SC-G,IF3.675)
[88].Imaged-based phenotyping accelerated QTL mapping and qtl×environment interaction analysis of testa colour in peanut (Arachis hypogaea). Plant Breeding (2021).(SC-G,IF1.794)
[89].Raboanatahiry Nadia, et al."In Silico Analysis of Fatty Acid Desaturases Structures in Camelina sativa, and Functional Evaluation of Csafad7 and Csafad8 on Seed Oil Formation and Seed Morphology." International Journal of Molecular Sciences 22.19(2021): doi:10.3390/IJMS221910857.(SC-G,IF4.602)
[90].Peng Yan, et al."Influence of physicochemical properties and starch fine structure on the eating quality of hybrid rice with similar apparent amylose content." Food Chemistry 353.(2021): doi:10.1016/J.FOODCHEM.2021.129461.(SC-E,IF6.81)
[91].Zhou Yun, et al."Introgressing the Aegilops tauschii genome into wheat as a basis for cereal improvement.." Nature plants 7.6(2021): doi:10.1038/S41477-021-00934-W.(SC-G)
[92].Hu Zhanqiang, et al."Kinetics of water absorption expansion of rice during soaking at different temperatures and correlation analysis upon the influential factors.." Food chemistry 346.(2020): doi:10.1016/J.FOODCHEM.2020.128912.(SC-E,IF6.81)
[93].Ji, G. , et al. "Leaf surface characteristics affect the deposition and distribution of droplets in rice (Oryza sativa L.)." Scientific Reports 11.1(2021):17846.(LA-S,IF4.149)
[94].Ma Lin, et al."Melatonin and Nitrogen Applications Modulate Early Growth and Related Physio-biochemical Attributes in Maize Under Cd Stress." Journal of Soil Science and Plant Nutrition 21.2(2021): doi:10.1007/S42729-021-00415-1.(LA-S,IF2.516)
[95].Sun Yaqian, et al."Mining of quantitative trait loci and candidate genes for seed size and shape across multiple environments in soybean (Glycine max)." Plant Breeding 140.6(2021): doi:10.1111/PBR.12968.(SC-G,IF1.794)
[96].Jiang Pingping, et al."Moderate Mn accumulation enhances growth and alters leaf hormone contents in the hyperaccumulator Celosia argentea Linn.." Environmental and Experimental Botany 191.prepublish(2021): doi:10.1016/J.ENVEXPBOT.2021.104603.(LA-S,IF4.173)
[97].Huang Yuzhou, et al."New Insights into the Microplastic Enrichment in the Blue Carbon Ecosystem: Evidence from Seagrass Meadows and Mangrove Forests in Coastal South China Sea.." Environmental science & technology 55.8(2021): doi:10.1021/ACS.EST.0C07289.(AlgaeC,IF8.25)
[98].Huang Xiaorui, et al."Novel Wx alleles generated by base editing for improvement of rice grain quality.." Journal of integrative plant biology 63.9(2021): doi:10.1111/JIPB.13098.(SC-A,IF6.19)
[99].Zhu Xiuliang, et al."Overexpression of TaSTT3b-2B improves resistance to sharp eyespot and increases grain weight in wheat.." Plant biotechnology journal .(2021): doi:10.1111/PBI.13760.(SC-G,8.738)
[100].Qian Mingchao, et al."Petal size in rapeseed: novel QTL and candidate genes detected through genome-wide association study and transcriptome comparison.." Journal of experimental botany 72.10(2021): doi:10.1093/JXB/ERAB105.(LA-S,IF5.557)
[101].Kaseb Mohamed Omar, et al."Physio-Anatomical Study of Polyploid Watermelon Grafted by Different Methods." Agronomy 11.5(2021): doi:10.3390/AGRONOMY11050913.(LA-S)
[102].Wu Zhiyong, et al."Physiological and transcriptomic analyses of brassinosteroid function in kiwifruit root." Environmental and Experimental Botany 194.(2022): doi:10.1016/J.ENVEXPBOT.2021.104685.(LA-S,IF4.173)
[103].Liu, J. , et al. "QMrl-7B Enhances Root System, Biomass, Nitrogen Accumulation and Yield in Bread Wheat." Plants 10.4(2021):764.(SC-G)
[104].Zhang Dazhong, et al."Root characteristics critical for cadmium tolerance and reduced accumulation in wheat (Triticum aestivum L.).." Journal of environmental management 305.(2021): doi:10.1016/J.JENVMAN.2021.114365.(IF6.243)
[105].Wang, C. , et al. "Sedimentary Organic Matter Load Influences the Ecological Effects and Potential Risks of Submerged Macrophyte Restoration Through Rhizosphere Metabolites." (2021).(LA-S)
[106].Stable pleiotropic loci and candidate genes for fresh pod- and seed-related characteristics across multiple environments in soybean (Glycine max). Plant Breeding (2021).(SC-G,IF1.794)
[107].Yang Weifeng, et al."Substitution Mapping of Two Closely Linked QTLs on Chromosome 8 Controlling Grain Chalkiness in Rice.." Rice (New York, N.Y.) 14.1(2021): doi:10.1186/S12284-021-00526-4.(SC-E)
[108].Jia Meiling, et al."TaIAA21 represses TaARF25-mediated expression of TaERFs required for grain size and weight development in wheat.." The Plant journal : for cell and molecular biology 108.6(2021): doi:10.1111/TPJ.15541.
[109].Fan Weijuan, et al."The H+-pyrophosphatase IbVP1 regulates carbon flux to influence the starch metabolism and yield of sweet potato." Horticulture Research 8.1(2021): doi:10.1038/S41438-020-00454-2.(LA-S,IF6.793)
[110].Huang Luojiang, et al."The LARGE2-APO1/APO2 regulatory module controls panicle size and grain number in rice.." The Plant cell 33.4(2021): doi:10.1093/PLCELL/KOAB041.(SC-G,IF11.277)
[111].Luo Guangbin, et al."The MYB family transcription factor TuODORANT1 from Triticum urartu and the homolog TaODORANT1 from Triticum aestivum inhibit seed storage protein synthesis in wheat.." Plant biotechnology journal 19.9(2021): doi:10.1111/PBI.13604.(SC-G,IF9.803)
[112].Gao Xiuying, et al."The phosphoproteomic and interactomic landscape of qGL3/OsPPKL1-mediated brassinosteroid signaling in rice.." The Plant journal : for cell and molecular biology .(2021): doi:10.1111/TPJ.15613.
[113].Li Yuying, et al."Transcription Factor TaWRKY51 Is a Positive Regulator in Root Architecture and Grain Yield Contributing Traits ." Frontiers in Plant Science 12.(2021): doi:10.3389/FPLS.2021.734614.(SC-G,IF5.753)
[114].Ming-Yue Wei, et al."Transcriptomic Analyses Reveal the Effect of Nitric Oxide on the Lateral Root Development and Growth of Mangrove Plant Kandelia Obovata".Research Square.2021.10.21203/rs.3.rs-894970/v1.(LA-S)
[115].Xin Guan, Qun Li, Tusunniyaze Maimaiti, Suke Lan, Peng Ouyang, Bowei Ouyang, Xian Wu, Sheng-Tao Yang,Toxicity and photosynthetic inhibition of metal-organic framework MOF-199 to pea seedlings,Journal of Hazardous Materials,Volume 409,2021,124521,ISSN 0304-3894,https://doi.org/10.1016/j.jhazmat.2020.124521.
[116].Xu H.S., He W., Zhou L., Liu K., Yang X.L., and You A.Q., 2021, Rice quality evaluate and key quality genes genotyping of rice germplasm from Africa and Brazil, Rice Genomics and Genetics, 12(5): 1-8 (doi: 10.5376/rgg.2021.12.0005).(SC-E)
[117].Jia-xin Ma, Bei-bei Cui, Man-li Liu, Jie Yuan, Cheng Yan.Quantitative Health Risk Assessment of Wastewater Treatment Plant Worker Exposed to Staphylococcus Aureus Bioaerosol During Warm and Cold Periods: Disease Burden and Sensitivity Analysis..Research Square.2021.10.21203/rs.3.rs-1070258/v1.(HiCC)
[118].Xiuying Gao, Jiaqi Zhang, Guang Cai, Huaying Du, Jianbo Li, Ruqin Wang, Yuji Wang, Jing Yin, Wencai Zhang, Hongsheng Zhang, Ji Huang, qGL3/OsPPKL1 induces phosphorylation of 14-3-3 protein OsGF14b to inhibit OsBZR1 function in brassinosteroid signaling, Plant Physiology, Volume 188, Issue 1, January 2022, Pages 624–636, https://doi.org/10.1093/plphys/kiab484.
[119].Laibao Feng,et al.Mapping causal genes and genetic interactions for agronomic traits using a large F2 population in rice.G3, 2021, 11(11), jkab318.DOI: 10.1093/g3journal/jkab318.(SC-E)
[120].Huang, M., Cao, J., Liu, Y., Zhang, M., Hu, L., Xiao, Z., Chen, J., & Cao, F. (2021). Low-temperature stress during the flowering period alters the source–sink relationship and grain quality in field-grown late-season rice. Journal of Agronomy and Crop Science, 207, 833–839. https://doi.org/10.1111/jac.12542.(SC-E)
[121].GAO Hua-wei. et al.Identification of petiole length for soybean compact architecture mutant M657 and breeding of new line.Journal of Integrative Agriculture.2021.Doi: 10.1016/S2095-3119(21)63702-4.(SC-E)
[122].Piyi Xing, et al."High-Resolution Detection of Quantitative Trait Loci for Seven Important Yield Components in Wheat (Triticum aestivum L.) using a High-Density SALF-Seq Genetic Map".Research Square.2021.10.21203/rs.3.rs-783221/v1
[123].Piyi Xing, et al."Genome-Wide Association Study Identified Novel Genomic Loci Controlling Internode Lengths and Plant Height in Common Wheat under Different Nitrogen Treatments".Research Square.2021.10.21203/rs.3.rs-901017/v1
[124].Baojian Guo, Jiang Qi, Dongfang Li, Hongwei Sun, Chao Lyu, Feifei Wang, Juan Zhu, Ganggang Guo, Rugen Xu,Genetic analysis and gene mapping of a dwarf and liguleless mutation in barley,The Crop Journal,2022,ISSN 2214-5141,https://doi.org/10.1016/j.cj.2022.01.006.(SC-G)
[125].Yang, H.; Yang, Q.; Kang, Y.; Zhang, M.; Zhan, X.; Cao, L.; Cheng, S.; Wu, W.; Zhang, Y. Finding Stable QTL for Plant Height in Super Hybrid Rice. Agriculture 2022, 12, 165. https://doi.org/10.3390/agriculture12020165.
[126].Zhang, J., Jiao, X., Du, Q. et al. Effects of Vapor Pressure Deficit and Potassium Supply on Root Morphology, Potassium Uptake, and Biomass Allocation of Tomato Seedlings. J Plant Growth Regul 40, 509–518 (2021). https://doi.org/10.1007/s00344-020-10115-2.(LA-S)
[127].Huang, Jinpeng, et al.Natural Variation of BRD2 Allele Plays an Important Role in the Plant Height and Grain Size. Available at SSRN: https://ssrn.com/abstract=3983811 or http://dx.doi.org/10.2139/ssrn.3983811.(SC-G)
[128].D.T. GAO, et al."Drought tolerance monitoring of apple rootstock M.9-T337 based on infrared and fluorescence imaging".PHOTOSYNTHETICA 59 (SI): 458-467, 2021.10.32615/ps.2021.035.(LA-S)
[129].Manman Liu, et al."Creation of Elite Rice With High-yield, Superior-quality and Strong Resistance to Brown Planthopper Based on Molecular Design".Research Square.2021.10.21203/rs.3.rs-992897/v1.(LA-S)
[130].Duan Yanan, et al."Biocontrol Potential of The Phloridin-Degrading Bacillus Licheniformis XNRB-3 Against Apple Replant Disease".Research Square.2021.10.21203/rs.3.rs-1039511/v1.(LA-S)
[131].Wan, Lian-Jie, Yang Tian, Man He, Yong-Qiang Zheng, Qiang Lyu, Rang-Jin Xie, Yan-Yan Ma, Lie Deng, and Shi-Lai Yi. 2021. "Effects of Chemical Fertilizer Combined with Organic Fertilizer Application on Soil Properties, Citrus Growth Physiology, and Yield" Agriculture 11, no. 12: 1207. https://doi.org/10.3390/agriculture11121207
[132].黄晓瑞. 编辑水稻中Waxy基因调节稻米品质的研究[D].山东师范大学,2021.DOI:10.27280/d.cnki.gsdsu.2021.000116.
[133].MOHAMED OMAR MOHAMED HUSSEIN KASEB. 不同倍性西瓜嫁接愈合的分子生理机制研究[D].中国农业科学院,2021.DOI:10.27630/d.cnki.gznky.2021.000142.
[134].丁崌平. 不同温度下水汽压差对番茄光合特性及营养吸收的影响[D].西北农林科技大学,2021.DOI:10.27409/d.cnki.gxbnu.2021.000599.
[135].陈春. 片段化生境中常见植物檵木和短尾越橘种内叶功能性状研究[D].浙江大学,2021.DOI:10.27461/d.cnki.gzjdx.2021.002210.
[136].唐诗闻. 水稻突变体zsd11和lmm3的表型鉴定及其候选基因分析[D].西南科技大学,2021.DOI:10.27415/d.cnki.gxngc.2021.000263.
[137].雷昌菊,戴小英,伍艳芳,刘新亮,郑永杰,符潮.3种楠属植物形态及显微特征分析[J].南方林业科学,2021,49(06):4-7+31.DOI:10.16259/j.cnki.36-1342/s.2021.06.002.
[138].李照杰. 23个油菜品种产油量和倒伏抗性鉴定与综合性能评价[D].西北农林科技大学,2021.DOI:10.27409/d.cnki.gxbnu.2021.001509.
[139].李传广,付沙,李峰,温亮,刘士峰,程云吉,颜石,公爱琴,张丽,侯欣.28-高芸苔素内酯对烤烟幼苗生长发育的影响[J].山东农业科学,2021,53(08):107-111.DOI:10.14083/j.issn.1001-4942.2021.08.019.
[140].马国江,马靖福,张沛沛,刘媛,陈涛,杨德龙.128份抗旱冬小麦新品系农艺性状遗传多样性分析[J].甘肃农业大学学报,2021,56(03):37-44.DOI:10.13432/j.cnki.jgsau.2021.03.006.
[141].张红杰. 152份合成小麦产量相关性状全基因组关联分析[D].山西大学,2021.DOI:10.27284/d.cnki.gsxiu.2021.000030.
[142].储零逸. AP2/ERF转录因子OsERF44调控水稻穗发芽的效应及其机制研究[D].扬州大学,2021.DOI:10.27441/d.cnki.gyzdu.2021.001857.
[143].郭宁. BnVIK和BnNAC13调控油菜种子含油量的功能研究[D].华中农业大学,2021.DOI:10.27158/d.cnki.ghznu.2021.000374.
[144].黎诗艳,阮景军,范昱,周美亮,王俊珍,李发良,程剑平.EMS诱变剂处理对苦荞种子萌发及主要农艺性状的影响[J].分子植物育种,2021,19(03):914-922.DOI:10.13271/j.mpb.019.000914.
[145].徐珊珊,刘小金,徐大平,洪舟,郭俊誉,杨曾奖.IAA和NAA对降香黄檀扦插繁殖的影响[J].林业科学研究,2021,34(05):168-176.DOI:10.13275/j.cnki.lykxyj.2021.005.020.
[146].牛小军. qGS5.1和qGS5.2对水稻粒重和粒形的遗传控制作用[D].华中农业大学,2021.DOI:10.27158/d.cnki.ghznu.2021.000135.
[147].李志永. SRN1-Tre6P-SnRK1正向调控回路协调水稻源-库碳源分配的机制研究[D].华中农业大学,2021.DOI:10.27158/d.cnki.ghznu.2021.000206.
[148].宋丽双. 澳洲野生稻与亚洲栽培稻种间杂种后代的筛选和鉴定[D].扬州大学,2021.DOI:10.27441/d.cnki.gyzdu.2021.001780.
[149].梁芳,檀小辉,邓旭,吴玉霜,吴敏,杨香春,李金玲.半红树植物玉蕊对淹水-盐度胁迫的生长及生理响应[J].广西植物,2021,41(06):872-882.
[150].刘杰,吴国瑞,张金伟,孙周平.保健型中药渣基质对日光温室袋培番茄产量及品质的影响[J].核农学报,2021,35(07):1687-1695.
[151].蒋伟勤. 钵苗机插优质食味迟熟中粳稻控混肥一次性施用效应研究[D].扬州大学,2021.DOI:10.27441/d.cnki.gyzdu.2021.001381.
[152].蔡晓惠. 播期对关中地区冬油菜籽粒产量和品质的影响[D].西北农林科技大学,2021.DOI:10.27409/d.cnki.gxbnu.2021.001520.
[153].李照杰,蔡晓惠,吴伟.不同播期对油菜产量及根系电容值的影响[J].西北农业学报,2021,30(09):1321-1330.
[154].郝凤,于铁峰,刘晓静,高凯.不同氮效率型苜蓿氮素吸收差异与根系形态的关系及其对氮的响应[J].草地学报,2021,29(11):2428-2434.
[155].于洋. 不同氮效率玉米对供氮的响应特征及转录组蛋白质组分析[D].东北农业大学,2021.DOI:10.27010/d.cnki.gdbnu.2021.000034.
[156].曲文蕊,韩晓莉,翟军团,李志军.不同发育阶段胡杨、灰杨异形叶形态结构变化特征[J].塔里木大学学报,2021,33(02):14-24.
[157].吴元华,高华军,刘好宝,马兴华.不同规格育苗盘的雪茄烟烟苗生长差异及对干旱胁迫的响应[J].江苏农业科学,2021,49(16):101-106.DOI:10.15889/j.issn.1002-1302.2021.16.018.
[158].付正豪. 不同机插方式下控释肥配比对迟熟中粳水稻产量及稻米品质的影响[D].扬州大学,2021.DOI:10.27441/d.cnki.gyzdu.2021.001094.
[159].李俊杰,杜蒲芳,石婷瑞,侯沛佳,柴新宇,赵瑞,汪妤,李红霞.不同基因型小麦苗期耐低氮性评价及筛选[J].中国农业科技导报,2021,23(07):21-32.DOI:10.13304/j.nykjdb.2020.0927.
[160].熊洁,丁戈,陈伦林,李书宇,邹小云,黄杨,宋来强.不同基因型油菜耐铝性及其根系形态对铝胁迫的响应[J].中国油料作物学报,2021,43(04):673-682.DOI:10.19802/j.issn.1007-9084.2020073.
[161].徐诚,杨建超,杨鸿基,杨平,轩正英,张娟.不同基质配比对黄瓜穴盘育苗的影响[J].陕西农业科学,2021,67(06):38-41.
[162].韩丽君,陈思,周帅,郝向春.不同基质配方对辽东栎容器苗生长的影响[J].林业科技通讯,2021(10):45-48.DOI:10.13456/j.cnki.lykt.2020.11.16.0003.
[163].卢广. 不同来源大麦的进化关系及其受选择代谢物的分化机理[D].华中农业大学,2021.DOI:10.27158/d.cnki.ghznu.2021.000495.
[164].许芳维. 不同密度玉米与苜蓿间作对玉米生产潜能的研究[D].东北农业大学,2021.
[165].于玉梅,严青青.不同品种海岛棉苗期根系耐盐碱性比较[J].农村科技,2021(04):16-17.DOI:10.19777/j.cnki.issn1002-6193.2021.04.006.
[166].贾廷伟,江晓林,刘艳阳,崔承齐,杜俊伟,杜振伟,武轲,梅鸿献,郑永战.不同品种类型芝麻品质性状的比较分析[J].中国油脂,2021,46(08):81-86.DOI:10.19902/j.cnki.zgyz.1003-7969.210216.
[167].何玉友,陈双林,郭子武,张玮,汪舍平.不同弃管年限毛竹林立竹叶片功能性状的变化特征[J].福建农林大学学报(自然科学版),2021,50(05):641-648.DOI:10.13323/j.cnki.j.fafu(nat.sci.).2021.05.010.
[168].倪胜利,何瑞,刘媛,张沛沛,李兴茂,杨德龙.不同水分条件下小麦粒重QTL定位及其元分析[J].甘肃农业大学学报,2021,56(03):45-54.DOI:10.13432/j.cnki.jgsau.2021.03.007.
[169].康佳惠,梁秀芝,郑敏娜,韩志顺,陈燕妮.不同外源氮素形态对紫花苜蓿根系的影响[J].山西农业科学,2021,49(04):467-471.
[170].王胤,姚瑞玲.不同形态氮素配比对马尾松组培苗生长的影响[J].中南林业科技大学学报,2021,41(03):18-24+71.DOI:10.14067/j.cnki.1673-923x.2021.03.003.
[171].田雅楠,曹玲玲,赵立群,曹彩红.不同营养液配方对番茄潮汐式灌溉育苗质量的影响[J].中国果菜,2021,41(09):83-87.DOI:10.19590/j.cnki.1008-1038.2021.09.015.
[172].厉广辉,王兴军,张斌,蔺儒侠,侯蕾.不同油莎豆品种在山东种植的产量与品质研究[J].山东农业科学,2021,53(03):61-64.DOI:10.14083/j.issn.1001-4942.2021.03.011.
[173].郝向春,周帅,韩丽君,翟瑜,陈天成.不同种源辽东栎种子和幼树指标变异及相关分析[J].植物资源与环境学报,2021,30(04):1-11.
[174].欧文慧. 常见真水生植物功能性状变异与环境适应[D].湖北大学,2021.DOI:10.27130/d.cnki.ghubu.2021.000494.
[175].张毛宁,黄冰艳,苗利娟,徐静,石磊,张忠信,孙子淇,刘华,齐飞艳,董文召,郑峥,张新友.巢式杂交分离群体的花生籽仁性状的主基因+多基因混合遗传模型分析[J].中国农业科学,2021,54(13):2916-2939.
[176].张毛宁,张新友,孙子淇,黄冰艳,刘华,徐静,张忠信,齐飞艳,董文召.巢式杂交群体的花生荚果性状遗传模型分析[J].中国油料作物学报,2021,43(04):573-581.DOI:10.19802/j.issn.1007-9084.2020247.
[177].蓝雅华. 成品散卵一代杂交蚕种的均匀性评价研究[D].浙江大学,2021.DOI:10.27461/d.cnki.gzjdx.2021.001740.
[178].王若辉,郑悦雯,吴书天,沈丹玉,莫润宏,倪张林,刘毅华.储藏温度对干核桃品质的影响效应[J].中国粮油学报,2021,36(10):131-137.
[179].张业伦,孟雅宁,吕亮杰,梁丹,罗巧玲,兰素缺,张凯,何飞飞,兰彩霞,李杏普.春小麦千粒重相关性状的QTL定位及其耐热性分析[J].植物遗传资源学报,2021,22(01):83-94.DOI:10.13430/j.cnki.jpgr.20200301001.
[180].刘新亮,戴小英,章挺,吴巧花,江斌,唐星林.大量元素缺乏对樟树幼苗生长的影响[J].南方林业科学,2021,49(05):16-20.DOI:10.16259/j.cnki.36-1342/s.2021.05.004.
[181].王瑞. 氮素对油茶苗木生长的影响研究[D].中南林业科技大学,2021.DOI:10.27662/d.cnki.gznlc.2021.000003.
[182].杨建超. 氮素指数施肥处理对设施甜瓜生长及养分承载的影响[D].塔里木大学,2021.DOI:10.27708/d.cnki.gtlmd.2021.000219.
[183].田孝志,徐龙晓,宋建飞,荀咪,张玮玮,杨洪强.稻壳炭对紧实土壤中苹果根系硫同化酶活性、H_2S含量及根系构型的影响[J].植物营养与肥料学报,2021,27(05):869-877.
[184].饶文婷. 稻米外观品质和食味品质相关性状QTL定位及其效应验证[D].华中农业大学,2021.DOI:10.27158/d.cnki.ghznu.2021.000736.
[185].刘合芹,陈合云,张小明,邹桂花,郑学强,刘秀慧.地方种质资源东阳红粟的调查收集与鉴定评价[J].浙江农业科学,2021,62(04):678-680.DOI:10.16178/j.issn.0528-9017.20210411.
[186].张璇. 电容法和rDNA浓度法估测小麦根系性状的研究[D].西北农林科技大学,2021.
[187].卢林. 电子舌多传感阵列信息交互及籼稻米食味量化研究[D].浙江工商大学,2021.DOI:10.27462/d.cnki.ghzhc.2021.000004.
[188].范锴. 鄂尔多斯沙地栽培苜蓿根系形态及生理特性的研究[D].中国农业科学院,2021.DOI:10.27630/d.cnki.gznky.2021.000817.
[189].张静亚. 番茄IAA甲基转移酶基因SlIAMT对胚轴伸长和根系发育的调控[D].中国农业科学院,2021.DOI:10.27630/d.cnki.gznky.2021.000319.
[190].徐巍. 番茄低温下矮化坏死调控基因ndw的克隆及功能鉴定[D].石河子大学,2021.DOI:10.27332/d.cnki.gshzu.2021.000013.
[191].徐欣韵,王宁,丁佳,陈妍,田光明.番茄青枯病拮抗菌的定向筛选及其抗病促生机制研究[J].微生物学报,2021,61(10):3276-3290.DOI:10.13343/j.cnki.wsxb.20210033.
[192].杨莹莹. 非洲栽培稻基因渗入系重要农艺性状QTL分析及qHD6的精细定位[D].中国农业科学院,2021.DOI:10.27630/d.cnki.gznky.2021.000686.
[193].于国琦. 肥料运筹对大麦产量和品质的影响研究[D].扬州大学,2021.DOI:10.27441/d.cnki.gyzdu.2021.000550.
[194].李格格. 分蘖期干旱胁迫对不同抗旱性水稻根际微生物群落的影响及其机制[D].西北农林科技大学,2021.DOI:10.27409/d.cnki.gxbnu.2021.000218.
[195].徐森,谷瑞,陈双林,郭子武,杨丽婷.覆盖下雷竹笋箨叶性状和食味品质的变化及其相关性[J].林业科学,2021,57(09):34-41.
[196].张晓晖. 甘蓝型油菜粒重主效QTL qSW.C9精细定位及候选基因BnaC9.RINGb功能分析[D].华中农业大学,2021.DOI:10.27158/d.cnki.ghznu.2021.000188.
[197].燕佳琦. 甘蓝型油菜种质资源农艺与抗逆性状的评价及优异种质筛选[D].西北农林科技大学,2021.
[198].刘家材. 高钾水溶肥对设施草莓生长发育和果实品质的影响[D].塔里木大学,2021.
[199].白瑶. 根系特征对小麦氮效率的影响[D].西北农林科技大学,2021.DOI:10.27409/d.cnki.gxbnu.2021.001817.
[200].梁悦. 供氮水平和氮肥形态对棉花生长发育及养分吸收的影响[D].新疆农业大学,2021.
[201].徐一荻,刘春花,谢富,王阳,胡凯红,张建良,张锐.供磷水平对核桃实生苗生长生理特性及酶活性的影响[J].西南林业大学学报(自然科学),2021,41(05):27-35.
[202].李俊杰. 供磷水平与施肥方法对脐橙生长发育的影响[D].西南大学,2021.DOI:10.27684/d.cnki.gxndx.2021.000516.
[203].解云,郭世华.谷子品种农艺性状的灰色关联度分析及综合评价[J].分子植物育种,2021,19(06):2064-2072.DOI:10.13271/j.mpb.019.002064.
[204].安丽东. 固定化粉红粘帚霉微球的制备及其对番茄的生防作用研究[D].东北农业大学,2021.
[205].顾晶晶,丁志强,杨乐,田文仲.灌浆中后期高温胁迫对小麦品种耐热性的影响[J].山西农业科学,2021,49(10):1152-1157.
[206].刘雅婷. 河岸带紫花苜蓿根-土相互力学作用时间效应研究[D].太原理工大学,2021.DOI:10.27352/d.cnki.gylgu.2021.000120.
[207].崔亚琴,宗世祥.核桃缘吉丁成虫的取食选择行为及机制[J].北京林业大学学报,2021,43(09):121-130.
[208].李金霞,孙小妹,刘娜,李良,陈年来.黑果枸杞功能性状对氮磷添加的响应及其可塑性[J].应用生态学报,2021,32(04):1279-1288.DOI:10.13287/j.1001-9332.202104.025.
[209].李震. 胡麻LEA基因家族的鉴定及其在种子发育过程中的遗传效应[D].中国农业科学院,2021.DOI:10.27630/d.cnki.gznky.2021.000355.
[210].范鹏敏. 花生白绢病抗性评价及转录组和代谢组分析[D].中国农业科学院,2021.DOI:10.27630/d.cnki.gznky.2021.000691.
[211].李蓉蓉. 华南沿海风铃木类植物鉴定与遗传多样性研究[D].东北林业大学,2021.DOI:10.27009/d.cnki.gdblu.2021.000586.
[212].任高磊. 淮北地区不同机插条件下优质中熟中粳控混肥一次性施用技术研究[D].扬州大学,2021.DOI:10.27441/d.cnki.gyzdu.2021.001410.
[213].张培,庞圣江,刘士玲,杨保国,劳庆祥,段润梅,蔡道雄,谌红辉.缓释肥对江南油杉容器苗生长的影响[J].西北农林科技大学学报(自然科学版),2021,49(09):92-98.DOI:10.13207/j.cnki.jnwafu.2021.09.011.
[214].李静雯, et al."黄淮麦区部分小麦品种粒重基因TaGS5-A1的等位变异分布及其效应分析." 麦类作物学报 41.03(2021):272-280. doi:
[215].王鑫.灰枣优系的比较及鉴定.2021.塔里木大学,MA thesis.
[216].黎松松.混播箭筈豌豆或施肥对燕麦草地减肥增效的影响.2021.新疆农业大学,MA thesis.
[217].白晨阳, et al."机械收获方式对油菜籽粒关键性状的影响." 中国农业科学 54.14(2021):2991-3003. doi:
[218].曹城华, 武文波,and 王钰."基于Radon变换的空间目标运动方向检测." 光学精密工程 29.07(2021):1678-1685. doi:
[219].张芳, et al."基于SNP标记的小麦籽粒性状全基因组关联分析." 中国农业科学 54.10(2021):2053-2064. doi:
[220].李金龙, et al."基于表型性状和SSR分子标记构建甜荞初级核心种质." 植物遗传资源学报 22.05(2021):1240-1247. doi:10.13430/j.cnki.jpgr.20210308001.
[221].王安贵, et al."基于高密度SNP标记对玉米籽粒相关性状的QTL定位." 分子植物育种 19.10(2021):3323-3328. doi:10.13271/j.mpb.019.003323.
[222].胡晓辉,崔凤高,杨伟强,侯名语,张胜忠,王嵩,侯刚,王晶珊,苗华荣,陈静.基于高密度遗传图谱的花生籽仁大小相关性状QTL定位[J].花生学报,2021,50(03):19-25+54.DOI:10.14001/j.issn.1002-4093.2021.03.003.
[223].陈晓军, et al."基于基因编辑技术创制高亚油酸水稻材料." 中国农业科学 54.14(2021):2931-2940. doi:
[224].王安贵, et al."基于温热玉米F_(2:3)家系产量相关性状的遗传解析." 种子 40.07(2021):130-134. doi:10.16590/j.cnki.1001-4705.2021.07.130.
[225].郭燕, et al."基于叶片解剖结构的京津冀主栽板栗品种抗旱性评价." 核农学报 35.08(2021):1771-1782. doi:
[226].董泉彬.基于杂化交联策略的可注射抗菌透明质酸水凝胶的构建及其预防CIED囊袋感染的研究.2021.南昌大学,PhD dissertation.
[227].叶廷红.钾肥施用量对水稻产量、钾素吸收利用及稻米品质的影响.2021.华中农业大学,MA thesis.
[228].张江林.钾素营养增强水稻抵抗叶鞘腐败病的生理机制.2021.华中农业大学,PhD dissertation.
[229].艾鹏睿,and 马英杰."间作模式农田小气候效应对棉花生理生态指标的影响." 新疆农业科学 58.09(2021):1594-1602. doi:
[230].罗惠.箭叶淫羊藿复合群的形态变异与系统发育研究.2021.湖北民族大学,MA thesis.
[231].刘秋员.江淮东部中粳优质高产氮高效类型及其若干形态生理特征.2021.扬州大学,PhD dissertation.
[232].田铮, et al."江苏省半糯型粳稻蒸煮食味品质性状的差异分析." 中国水稻科学 35.03(2021):249-258. doi:10.16819/j.1001-7216.2021.01103.
[233].朱娟娟, et al."解钾菌与盐胁迫对枸杞幼苗根系特征和生理代谢的影响." 干旱地区农业研究 39.05(2021):50-58+65. doi:
[234].段义三, et al."粳稻谷低温仓储期间粮堆特性及加工品质的变化." 食品工业科技 42.09(2021):289-298. doi:10.13386/j.issn1002-0306.2020070046.
[235].龙丽.聚乙烯微塑料和盐酸环丙沙星单一及联合作用对漂浮植物的影响.2021.湖北大学,MA thesis.
[236].卢培娜.菌肥与腐熟秸秆对盐碱地燕麦土壤微生态环境的调控机制.2021.内蒙古农业大学,PhD dissertation.
[237].阮俊梅.开放式增温对东北水稻产量、氮素利用及农田温室气体排放的影响.2021.中国农业科学院,MA thesis.
[238].李明珠.抗白粉病、叶锈病小偃麦衍生系的分子细胞遗传学鉴定.2021.山东农业大学,MA thesis.
[239].李春花, et al."苦荞种质资源性状评价及优异资源筛选." 干旱地区农业研究 39.06(2021):19-27. doi:
[240].郑俊青, et al."苦荞重组自交系群体粒重、粒形与蛋白组分含量的变异." 浙江农业学报 33.04(2021):565-575. doi:
[241].郑冉, et al."苦荞重组自交系群体籽粒黄酮含量与产量性状分析." 广西植物 41.02(2021):216-224. doi:
[242].梁龙, et al."乐昌含笑不同家系的叶形态与生长差异分析." 热带亚热带植物学报 29.05(2021):503-508. doi:
[243].李秋凤.利用CRISPR/Cas9技术编辑水稻SD1基因改良环江香糯株高的研究.2021.广西大学,MA thesis.
[244].吴娴, et al."利用CRISPR/Cas9基因编辑技术改良大粒香稻瘟病抗性." 种子 40.07(2021):50-55. doi:10.16590/j.cnki.1001-4705.2021.07.050.
[245].张波, et al."利用单片段代换系鉴定巴西陆稻IAPAR9中的粒型基因." 作物学报 47.08(2021):1472-1480. doi:
[246].周圣.利用机器学习优化油菜含油量和脂肪酸的快速分析模型.2021.武汉轻工大学,MA thesis.
[247].邢运高, et al."两系亚种间杂交水稻组合的产量和品质性状杂种优势分析." 江苏农业科学 49.01(2021):59-63. doi:10.15889/j.issn.1002-1302.2021.01.011.
[248].冯荣梅, 周玉竹,and 赵琳琳."两种不同消毒方法用于口腔牙椅水路消毒效果观察." 齐鲁护理杂志 27.21(2021):167-169. doi:
[249].杨贵婷.磷酸脲基复合肥制备工艺优化及其在滨海盐渍土中的磷素增效机制.2021.山东农业大学,PhD dissertation.
[250].张燕.磷添加对青海扁茎早熟禾养分重吸收的影响.2021.青海大学,MA thesis.
[251].张潇.陆地棉野生系阔叶棉产量和纤维品质QTL有利等位基因鉴定.2021.西南大学,MA thesis.
[252].涂晶晶, et al."马尾松不同叶型幼苗外生菌根真菌群落特征." 菌物学报 40.01(2021):124-134. doi:10.13346/j.mycosystema.200222.
[253].谭著明, et al."马尾松林分大径材个体异型生长模式解析." 湖南林业科技 48.03(2021):8-14. doi:
[254].王胤,and 姚瑞玲."马尾松组培苗对氮素形态的生长响应." 广西植物 41.06(2021):922-929. doi:
[255].张旭, et al."麦秆还田对直播和移栽棉花产量及氮素吸收的影响." 中国农业科技导报 23.03(2021):122-131. doi:10.13304/j.nykjdb.2019.0964.
[256].马霜.毛竹扩展蛋白家族全基因组分析及PeEXPA8功能研究.2021.西南科技大学,MA thesis.
[257].胡瑞财, et al."毛竹叶片性状及其异速增长关系的海拔梯度效应." 竹子学报 40.01(2021):52-58. doi:10.19560/j.cnki.issn1000-6567.2021.01.010.
[258].王学成, et al."棉花秸秆不同埋深对土壤水盐分布及棉花根系构型的影响." 节水灌溉 .09(2021):77-82. doi:
[259].张晓蕊, 董春娟,and 尚庆茂."苗龄对茄果类蔬菜扦插苗茎基不定根发生的影响." 中国蔬菜 .05(2021):58-63. doi:10.19928/j.cnki.1000-6346.2021.2014.
[260].杨亚飞, et al."某市政污水处理厂的微生物气溶胶排放特征及其定量风险评价研究." 给水排水 57.S1(2021):104-109. doi:10.13789/j.cnki.wwe1964.2021.S1.022.
[261].刘鹏翀.苜蓿和香根草根系-黄土抗剪力学特性研究.2021.太原理工大学,MA thesis.
[262].张俊, et al."钼肥拌种量对旱薄地花生发育及氮素积累的影响." 河南农业科学 50.03(2021):59-66. doi:10.15933/j.cnki.1004-3268.2021.03.008.
[263].王吉祥, et al."耐亚磷酸盐紫花苜蓿品种筛选及评价指标的鉴定." 草业学报 30.05(2021):186-199. doi:
[264].姜朋, et al."宁麦9号/扬麦158重组自交系群体产量性状的遗传解析." 作物学报 47.05(2021):869-881. doi:
[265].景亮亮.喷雾助剂对3种药剂的增效机制及应用研究.2021.宁夏大学,MA thesis.
[266].陶利思, et al."偏高水分粳稻谷储藏期间粮堆空气特性与品质指标的变化." 食品工业科技 43.02(2022):328-337. doi:10.13386/j.issn1002-0306.2021060097.
[267].陈春, et al."片段化森林中檵木幼苗种内叶经济性状变异及其驱动因子." 浙江大学学报(理学版) 48.06(2021):718-727. doi:
[268].陈春.片段化生境中常见植物檵木和短尾越橘种内叶功能性状研究.2021.浙江大学,MA thesis.
[269].阮振.片段化生境中凋落叶和细枝分解特征及其影响因素.2021.浙江大学,MA thesis.
[270].桑金盛.苹果根际土壤铜的形态及其对幼树养分吸收和分配的影响.2021.山东农业大学,MA thesis.
[271].李昊.苹果根区土壤钙形态及其对根系生长发育的影响.2021.山东农业大学,MA thesis.
[272].刘焱, et al."掐叶时期对宛芝16芝麻种植效益的影响." 河北农业科学 25.01(2021):40-43. doi:
[273].李鹏.荞麦直链淀粉含量测定及Waxy克隆分析.2021.贵州师范大学,MA thesis.
[274].刘晓伟, et al."缺钾对不同品种冬小麦土壤钾素和品质的影响." 新疆农业科学 58.02(2021):332-341. doi:
[275].许明宸.溶藻菌筛选、复合菌剂制备及在养殖尾水中的应用研究.2021.常州大学,MA thesis.
[276].李传广.三种植物生长调节剂对烤烟幼苗生长发育的影响.2021.山东农业大学,MA thesis.
[277].马玲, et al."沙河水库浮游植物季节变化特征." 江苏水利 .01(2022):19-22. doi:10.16310/j.cnki.jssl.2022.01.007.
[278].王文越, et al."山楂与野山楂的化学成分对比研究." 山东中医药大学学报 45.05(2021):672-679. doi:10.16294/j.cnki.1007-659x.2021.05.020.
[279].马佳琳, et al."深秋红沙棘嫩枝扦插育苗试验研究." 山西林业科技 50.03(2021):4-7+12. doi:
[280].赵伟亮.生草对苹果园微域环境及果实品质的影响.2021.塔里木大学,MA thesis.
[281].许明宸, et al."生态沟渠净化稻田排水动力学分析和生物相特征." 环境化学 40.02(2021):592-602. doi:
[282].谢呈辉, et al."施氮量对宁夏引黄灌区麦后复种糜子生长、产量及氮素利用的影响." 作物学报 48.02(2022):463-477. doi:
[283].吴子帅, et al."施氮量和栽插密度对桂育11号产量和稻米品质的影响." 中国农业科技导报 23.08(2021):154-162. doi:10.13304/j.nykjdb.2021.0102.
[284].凌晨, et al."双季稻栽培对水稻DUS测试标准品种数量性状表达的影响." 作物杂志 .04(2021):18-25. doi:10.16035/j.issn.1001-7283.2021.04.003.
[285].陈庭木, et al."水稻低直链淀粉资源筛选." 中国农学通报 37.05(2021):21-25. doi:
[286].李辉.水稻覆膜旱直播技术与装备研究.2021.吉林大学,PhD dissertation.
[287].顾正文.水稻可溶性淀粉合成酶不同突变组合创建与初步品质分析.2021.扬州大学,MA thesis.
[288].来桂玉.水稻粒长QTL GL3.4的遗传解析与OsGATA7的功能研究.2021.中国农业科学院,MA thesis.
[289].程一臣.水稻粒重粒形QTLqTGW1-2的分解和验证.2021.中国农业科学院,MA thesis.
[290].杜成兴, et al."水稻粒重粒形QTL的定位及qTGW1.2/qGL1.2的验证." 中国水稻科学 35.04(2021):359-372. doi:10.16819/j.1001-7216.2021.201205.
[291].田彪, et al."水稻苗期根部性状的遗传分析和最长根长QTL qLRL4的精细定位." 作物学报 47.10(2021):1863-1873. doi:
[292].殷春渊, et al."水稻食味品质性状间相关性分析及其与叶片光合作用的关系." 中国农业科技导报 23.04(2021):119-127. doi:10.13304/j.nykjdb.2020.0218.
[293].田彪.水稻穗部性状杂种优势的QTL分析和最长根长QTL qLRL4的精细定位.2021.中国农业科学院,MA thesis.
[294].唐诗闻.水稻突变体zsd11和lmm3的表型鉴定及其候选基因分析.2021.西南科技大学,MA thesis.
[295].王大川.水稻直穗密粒CSSL-Z749和短宽粒CSSL-Z357鉴定及重要性状QTL分析.2021.西南大学,MA thesis.
[296].王肖凤, et al."水分管理对再生稻稻米品质的影响." 华中农业大学学报 40.02(2021):103-111. doi:10.13300/j.cnki.hnlkxb.2021.02.011.
[297].李江艳.水分胁迫下7份鸭茅材料苗期耗水特性及抗旱性研究.2021.新疆农业大学,MA thesis.
[298].齐琦, 王洪芬,and 陈守刚."酸掺杂聚苯胺复合材料的制备及其pH敏感性研究." 表面技术 50.04(2021):267-274. doi:10.16490/j.cnki.issn.1001-3660.2021.04.027.
[299].施林林.太湖稻区优质食味粳稻产量品质形成的温光生态及利用研究.2021.扬州大学,PhD dissertation.
[300].付均惠, et al."泰山白首乌叶片性状变异分析." 山东林业科技 51.02(2021):7-11. doi:
[301].舒海燕, et al."通过转化脂肪酸去饱和酶基因AcoFAD2提高菠萝植株的抗寒能力." 分子植物育种 19.21(2021):7132-7137. doi:10.13271/j.mpb.019.007132.
[302].宋书婷.通气灌溉对苹果根区环境及根系发育和养分吸收的影响.2021.山东农业大学,MA thesis.
[303].田孝志.土壤紧实度对苹果幼树硫代谢的影响及稻壳炭的改良作用.2021.山东农业大学,MA thesis.
[304].高阳.土壤水分梯度变化对内蒙古典型草原草本植物形态及成分的影响.2021.中央民族大学,MA thesis.
[305].周晓鑫.土壤质地和含水量对紫花苜蓿苗期生长和根系形态的影响.2021.中国农业科学院,MA thesis.
[306].马旭辉, et al."褪黑素对玉米幼苗根系发育和抗旱性的影响." 生物技术通报 37.02(2021):1-14. doi:10.13560/j.cnki.biotech.bull.1985.2020-0575.
[307].徐华山, et al."外引水稻种质资源的品质评价与重要品质基因的基因型鉴定." 分子植物育种 19.17(2021):5891-5898. doi:10.13271/j.mpb.019.005891.
[308].李丹丹, et al."外源激素对比利时杜鹃扦插根系特征的影响." 生态科学 40.02(2021):82-88. doi:10.14108/j.cnki.1008-8873.2021.02.011.
[309].孟姝婷.外源水杨酸对盐碱条件下苹果根系生长和养分吸收的影响.2021.山东农业大学,MA thesis.
[310].寇津铭.外源棕榈酸介导西瓜对枯萎病抗性机理的初步研究.2021.东北农业大学,MA thesis.
[311].闫思华.微咸水-碳肥-根系协同调控对番茄生长发育的影响.2021.宁夏大学,MA thesis.
[312].冉盼.西藏栽培和野生苦荞资源评价及其分子标记系统关系研究.2021.贵州师范大学,MA thesis.
[313].甄子龙.向日葵苗期抗旱性鉴定及抗旱相关性状的全基因组关联分析.2021.内蒙古农业大学,MA thesis.
[314].甄子龙, et al."向日葵种质资源苗期抗旱性鉴定及抗旱指标筛选." 干旱地区农业研究 39.04(2021):228-238. doi:
[315].裴婕,and 余春梅."小麦8亲本高世代互交群体的创制与应用." 南通大学学报(自然科学版) 20.04(2021):65-71. doi:
[316].鲁星.小麦产量和抗旱性状的鉴定及GWAS分析.2021.山东农业大学,MA thesis.
[317].范涛, et al."小麦单位面积穗数和粒长主效QTL紧密连锁KASP标记的开发及其效应评价." 中国农业科学 54.14(2021):2941-2951. doi:
[318].时晓磊, et al."小麦根部耐盐性状全基因组关联分析." 植物遗传资源学报 22.01(2021):57-73. doi:10.13430/j.cnki.jpgr.20200322001.
[319].刘佳熠.小麦根系性状相关基因TaEXPA5和TaDGL1的克隆及其优异单倍型发掘.2021.西北农林科技大学,MA thesis.
[320].陈华斌.小麦粒形、品质和农艺相关性状的全基因组关联分析.2021.浙江大学,MA thesis.
[321].刘佳熠, et al."小麦苗期和灌浆中期根系性状与地上形态及产量性状的相关性." 麦类作物学报 41.07(2021):875-882. doi:
[322].霍志学.小麦耐盐主效QTL的挖掘及分子标记开发.2021.山东农业大学,MA thesis.
[323].石晓涵.小麦品种抗白粉病基因功能标记分析和良星99成株期抗白粉病基因定位.2021.中国农业科学院,MA thesis.
[324].郝佳敏.小麦新矮源鉴定及小麦矮秆基因Rht12 和 Rht-B1b在六倍体小黑麦中的遗传效应研究.2021.西北农林科技大学,MA thesis.
[325].董鲁浩.小麦驯化过程中亚基因组差异核苷酸模式及粒型调控位点的研究.2021.山东农业大学,PhD dissertation.
[326].李昊哲.小麦烟农999优质高产遗传基础解析.2021.烟台大学,MA thesis.
[327].赵瑞, et al."小麦种质资源成株期氮效率评价及筛选." 中国农业科学 54.18(2021):3818-3833. doi:
[328].梅冬旭.小苏打对糙米蒸煮品质及其淀粉性质的影响研究.2021.中南林业科技大学,MA thesis.
[329].张霞.小偃麦种质系SN304的鉴定及重要性状QTL分析.2021.山东农业大学,PhD dissertation.
[330].李雅菲.锌与吡虫啉或其它微肥配合喷施对小麦籽粒富锌效果及蛋白组分的影响.2021.西北农林科技大学,MA thesis.
[331].李鹏, 田嘉,and 李疆."新疆扁桃表型指标多样性及育种方向分析." 中南林业科技大学学报 41.05(2021):29-41. doi:10.14067/j.cnki.1673-923x.2021.05.004.
[332].闫龙翔, et al."新型含硒纳米硅肥在水稻上的施用效果初探." 上海农业科技 .03(2021):85-87. doi:
[333].海日汗, et al."兴安盟地区优质水稻品种比较试验." 中国种业 .11(2021):64-70. doi:10.19462/j.cnki.1671-895x.2021.11.021.
[334].王文婷.沿江地区温光要素对优质粳稻产量与品质的影响研究.2021.扬州大学,PhD dissertation.
[335].王伟, 万佳,and 蔡梦影."盐胁迫对黄山栾树幼苗生长的影响." 南方林业科学 49.01(2021):12-14+20. doi:10.16259/j.cnki.36-1342/s.2021.01.003.
[336].韦还和, et al."盐胁迫对水稻颖花形成及籽粒充实的影响." 作物学报 47.12(2021):2471-2480. doi:
[337].齐冰洁, et al."燕麦不同锌效率品种苗期耐低锌胁迫的根系形态差异." 江苏农业学报 37.05(2021):1119-1124. doi:
[338].丁红元.燕山板栗不同品种(系)实生苗抗旱性评价.2021.河北科技师范学院,MA thesis.
[339].卢广, et al."野生大麦和栽培大麦籽粒性状及蛋白质含量的多样性分析." 华中农业大学学报 40.03(2021):113-125. doi:10.13300/j.cnki.hnlkxb.2021.03.013.
[340].苏凯, et al."叶面滞尘量对大叶黄杨光谱特征影响研究." 北京林业大学学报 43.11(2021):40-49. doi:
[341].徐诚, et al."以蛭石为主的复配基质对黄瓜育苗的影响." 江苏农业科学 49.20(2021):148-154. doi:10.15889/j.issn.1002-1302.2021.20.023.
[342].徐诚.以蛭石为主的黄瓜基质配方筛选.2021.塔里木大学,MA thesis.
[343].程欣然, et al."异源过表达Atvip1基因增强转基因高粱对盐碱胁迫的抗性." 华北农学报 36.04(2021):1-9. doi:
[344].杨瑀.有机物料对退化黑土酶活性和有机碳组分及大豆幼苗生长的影响.2021.东北农业大学,MA thesis.
[345].楚光红, et al."幼苗期不同节位摘心对高产春大豆根系生长和产量的影响." 作物杂志 .03(2021):195-201. doi:10.16035/j.issn.1001-7283.2021.03.030.
[346].楚光红, et al."幼苗期摘心对高产春大豆根系生长和产量的影响." 干旱地区农业研究 39.02(2021):102-110. doi:
[347].褚梦寒.玉米SBP基因的遗传演化及其与产量相关性状的关联分析.2021.扬州大学,MA thesis.
[348].范震, et al."玉米秸秆基纤维素保水剂对土壤持水性能及冬小麦根系生长的影响." 中国农学通报 37.17(2021):51-57. doi:
[349].王新涛, et al."玉米籽粒相关性状的QTL定位." 河南农业科学 50.09(2021):9-15. doi:10.15933/j.cnki.1004-3268.2021.09.002.
[350].王雁青.圆果化香(Platycarya longipes)与香叶树(Lindera communis)共生的水分竞争和干旱响应.2021.贵州师范大学,MA thesis.
[351].杨晨, et al."再生稻肥料管理对不同品种产量和品质的影响." 中国水稻科学 36.01(2022):65-76. doi:10.16819/j.1001-7216.2022.210315.
[352].旷娜, et al."再生季稻米蛋白质含量与外观、加工品质及营养品质的关系." 中国粮油学报 36.05(2021):1-7. doi:
[353].杨植.枣与酸枣杂交后代花与果实性状遗传规律研究.2021.塔里木大学,MA thesis.
[354].仇倩倩, 冯一峰,and 吴翠云."枣种质资源叶表型性状遗传多样性分析." 新疆农业科学 58.02(2021):282-293. doi:
[355].陈媛媛.长链非编码RNA SCARNA2介导的DNA损伤修复在结直肠癌放疗敏感性中的作用及机制.2021.中国人民解放军海军军医大学,PhD dissertation.
[356].边成贵.植物根际菌盐碱条件下促生的应用.2021.山东农业大学,MA thesis.
[357].马会珍, et al."中国部分优质粳稻外观及蒸煮食味品质特征比较." 中国农业科学 54.07(2021):1338-1353. doi:
[358].李金龙.中国甜荞种质资源性状评价及其遗传多样性分析.2021.中国农业科学院,MA thesis.
[359].王润润.种植密度和化学调控对油莎豆农艺性状及产量的影响.2021.石河子大学,MA thesis.
[360].]陈韬."种子包衣剂对小麦种子萌发及幼苗生长的影响." 农业工程 11.06(2021):131-136. doi:
[361].麻和平, et al."重离子束辐照选育高产细菌素植物乳杆菌." 食品工业科技 42.15(2021):139-143. doi:10.13386/j.issn1002-0306.2021030234.
[362].张钰, et al."重庆江津复兴河流域浮游生物群落结构、水质及鱼类资源现状." 重庆师范大学学报(自然科学版) 38.04(2021):36-47. doi:
[363].韩丽君, 周帅,and 郝向春."主根长度对辽东栎幼苗形态和光合作用的影响." 植物生理学报 57.01(2021):139-148. doi:10.13592/j.cnki.ppj.2020.0388.
[364].邵星宇.壮秧剂与播量对机插水稻不同秧龄秧苗素质及产量品质的影响.2021.扬州大学,MA thesis.
[365].胡警匀, et al."紫花苜蓿对低磷酸盐和亚磷酸盐胁迫响应机制的比较分析." 中国草地学报 43.08(2021):26-33. doi:10.16742/j.zgcdxb.20200365.
[366].郭雅琪, 姚振,and 陈中义."组培条件下空心莲子草匍匐茎段根系发育的研究." 生物灾害科学 44.02(2021):212-218. doi:
[367].Monsur, Mahmuda Binte . 利用ABE技术编辑中嘉早17 Waxya基因进而改良籼稻品种食味品质. Diss. 中国农业科学院.
[368].管红娇等. "两种不同闽楠叶片的形态比较." 农业科学与技术:英文版.
[369].Cao J, Shang Y, Xu D, et al. Identification and Validation of New Stable QTLs for Grain Weight and Size by Multiple Mapping Models in Common Wheat. Front Genet. 2020;11:584859. Published 2020 Nov 11. doi:10.3389/fgene.2020.584859
[370].Chan, A.N., Wang, LL., Zhu, YJ. et al. Identification through fine mapping and verification using CRISPR/Cas9-targeted mutagenesis for a minor QTL controlling grain weight in rice. Theor Appl Genet 134, 327–337 (2021). https://doi.org/10.1007/s00122-020-03699-6.(SC-G,IF4.439)
[371].Chang, S., Chang, T., Song, Q. et al. Architectural and Physiological Features to Gain High Yield in an Elite Rice Line YLY1. Rice 13, 60 (2020). https://doi.org/10.1186/s12284-020-00419-y.(SC-G,IF3.912)
[372].Changquan Zhang, Yong Yang, Zhuanzhuan Chen, Fei Chen, Lixu Pan, Yan Lu, Qianfeng Li, Xiaolei Fan, Zhizhong Sun, and Qiaoquan Liu, Characteristics of Grain Physicochemical Properties and the Starch Structure in Rice Carrying a Mutated ALKSSIIa Gene, Journal of Agricultural and Food Chemistry 2020 68 (47), 13950-13959, DOI: 10.1021/acs.jafc.0c01471.(IF4.192)
[373].Chen J, Zhao Z, Li Y, et al. Fine-tuning roles of Osa-miR159a in rice immunity against Magnaporthe oryzae and development. Research Square; 2020. DOI: 10.21203/rs.3.rs-66826/v1.(SC-A)
[374].Chen Yuyu, Zhu Aike, Xue Pao, Wen Xiaoxia, Cao Yongrun, Wang Beifang, Zhang Yue, Shah Liaqat, Cheng Shihua, Cao Liyong, Zhang Yingxin, Effects of GS3 and GL3.1 for Grain Size Editing by CRISPR/Cas9 in Rice, Rice Science, Volume 27, Issue 5, 2020, Pages 405-413, ISSN 1672-6308, https://doi.org/10.1016/j.rsci.2019.12.010.(SC-G,IF3.162)
[375].Chen Yuyu, Zhu Aike, Xue Pao, Wen Xiaoxia, Cao Yongrun, Wang Beifang, Zhang Yue, Shah Liaqat, Cheng Shihua, Cao Liyong, Zhang Yingxin, Effects of GS3 and GL3.1 for Grain Size Editing by CRISPR/Cas9 in Rice, Rice Science, Volume 27, Issue 5, 2020, Pages 405-413, ISSN 1672-6308, https://doi.org/10.1016/j.rsci.2019.12.010.(SC-G,IF3.162)
[376].Cheng Yan, Rui-ning Wang, Xiao-yan Zhao, Emission characteristics of bioaerosol and quantitative microbiological risk assessment for equipping individuals with various personal protective equipment in a WWTP, Chemosphere, Volume 265, 2021, 129117, ISSN 0045-6535, https://doi.org/10.1016/j.chemosphere.2020.129117.(IF5.778)
[377].Dawei Zhu, Changyun Fang, Zihui Qian, Baowei Guo, Zhongyang Huo, Differences in starch structure, physicochemical properties and texture characteristics in superior and inferior grains of rice varieties with different amylose contents, Food Hydrocolloids, Volume 110, 2021, 106170, ISSN 0268-005X, https://doi.org/10.1016/j.foodhyd.2020.106170.(SC-E,IF7.053)
[378].Dong N, Yin W, Liu D, et al. Regulation of Brassinosteroid Signaling and Salt Resistance by SERK2 and Potential Utilization for Crop Improvement in Rice. Front Plant Sci. 2020;11:621859. Published 2020 Dec 10. doi:10.3389/fpls.2020.621859.(SC-G,IF4.402)
[379].Fan X, Xu Z, Wang F, Feng B, Zhou Q, et al. (2020) Identification of colored wheat genotypes with suitable quality and yield traits in response to low nitrogen input. PLOS ONE 15(4): e0229535. https://doi.org/10.1371/journal.pone.0229535.(SC-G)
[380].Fang Y, Zhang X, Zhang X, et al. A High-Density Genetic Linkage Map of SLAFs and QTL Analysis of Grain Size and Weight in Barley (Hordeum vulgare L.). Front Plant Sci. 2020;11:620922. Published 2020 Dec 17. doi:10.3389/fpls.2020.620922.(SC-G,IF4.402)
[381].Fu, L., Wu, J., Yang, S. et al. Genome-wide association analysis of stem water-soluble carbohydrate content in bread wheat. Theor Appl Genet 133, 2897–2914 (2020). https://doi.org/10.1007/s00122-020-03640-x.(IF4.439)
[382].Gongduan Fan, Zhuoyi Chen, Mingqian Xia, Banghao Du, Minchen Bao, Shimin Wu, Jiajun Zhan, Jing Luo, Optimization of remedial nano-agent and its effect on dominant algal species succession in eutrophic water body, Journal of Environmental Management, Volume 281, 2021, 111884, ISSN 0301-4797, https://doi.org/10.1016/j.jenvman.2020.111884.(AlgaeC,IF5.647)
[383].Guan, P., Shen, X., Mu, Q. et al. Dissection and validation of a QTL cluster linked to Rht-B1 locus controlling grain weight in common wheat (Triticum aestivum L.) using near-isogenic lines. Theor Appl Genet 133, 2639–2653 (2020). https://doi.org/10.1007/s00122-020-03622-z.(SC-G,IF4.439)
[384].Guihua Zou, Guowei Zhai, Song Yan, Sujuan Li, Lengbo Zhou, Yanqing Ding, Heqin Liu, Zhipeng Zhang, Jianqiu Zou, Liyi Zhang, Junping Chen, Zhanguo Xin, Yuezhi Tao, Sorghum qTGW1a encodes a G-protein subunit and acts as a negative regulator of grain size, Journal of Experimental Botany, Volume 71, Issue 18, 19 September 2020, Pages 5389–5401, https://doi.org/10.1093/jxb/eraa277.(IF5.908)
[385].Hao, H, Cheng, L, Guo, Z, Wang, L, Shi, Z. Plant community characteristics and functional traits as drivers of soil erodibility mitigation along a land degradation gradient. Land Degrad Dev. 2020; 31: 1851– 1863. https://doi.org/10.1002/ldr.3579.(LA-S,IF3.775)
[386].He C, Ding Z, Mubeen S, Guo X, Fu H, Xin G. 2020. Evaluation of three wheat (Triticum aestivum L.) cultivars as sensitive Cd biomarkers during the seedling stage. PeerJ 8:e8478 https://doi.org/10.7717/peerj.8478.(LA-S)
[387].Huan Li, Junyuan Shi, Zepeng Wang, Weiwei Zhang, Hongqiang Yang, H2S pretreatment mitigates the alkaline salt stress on Malus hupehensis roots by regulating Na+/K+ homeostasis and oxidative stress, Plant Physiology and Biochemistry, Volume 156, 2020, Pages 233-241, ISSN 0981-9428, https://doi.org/10.1016/j.plaphy.2020.09.009.(LA-S,IF3.72)
[388].Jia Lyu, Dekai Wang, Penggen Duan, Yapei Liu, Ke Huang, Dali Zeng, Limin Zhang, Guojun Dong, Yingjie Li, Ran Xu, Baolan Zhang, Xiahe Huang, Na Li, Yingchun Wang, Qian Qian, Yunhai Li, Control of Grain Size and Weight by the GSK2-LARGE1/OML4 Pathway in Rice, The Plant Cell Jun 2020, 32 (6) 1905-1918; DOI: 10.1105/tpc.19.00468
[389].Jianqing Niu, Shusong Zheng, Xiaoli Shi, Yaoqi Si, Shuiquan Tian, Yilin He, Hong-Qing Ling, Fine mapping and characterization of the awn inhibitor B1 locus in common wheat (Triticum aestivum L.), The Crop Journal, Volume 8, Issue 4, 2020, Pages 613-622, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2019.12.005.(IF3.395)
[390].Jianqing Niu, Shusong Zheng, Xiaoli Shi, Yaoqi Si, Shuiquan Tian, Yilin He, Hong-Qing Ling, Fine mapping and characterization of the awn inhibitor B1 locus in common wheat (Triticum aestivum L.), The Crop Journal, Volume 8, Issue 4, 2020, Pages 613-622, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2019.12.005.(SC-G,IF3.395)
[391].Jingyi Wang, Ruitong Wang, Xinguo Mao, Jialing Zhang, Yanna Liu, Qi Xie, Xiaoyuan Yang, Xiaoping Chang, Chaonan Li, Xueyong Zhang, Ruilian Jing, RING finger ubiquitin E3 ligase gene TaSDIR1-4A contributes to determination of grain size in common wheat, Journal of Experimental Botany, Volume 71, Issue 18, 19 September 2020, Pages 5377–5388, https://doi.org/10.1093/jxb/eraa271.(SC-A,IF5.908)
[392].Jinshan Zhang, Zhenyu Zhou, Jinjuan Bai, Xiaoping Tao, Ling Wang, Hui Zhang, Jian-Kang Zhu, Disruption of MIR396e and MIR396f improves rice yield under nitrogen-deficient conditions, National Science Review, Volume 7, Issue 1, January 2020, Pages 102–112, https://doi.org/10.1093/nsr/nwz142.(SC-A,IF16.693)
[393].Kashif Hussain, Zhang Yingxing, Workie Anley, Aamir Riaz, Adil Abbas, Md. Hasanuzzaman Rani, Wang Hong, Shen Xihong, Cao Liyong, Cheng Shihua, Association Mapping of Quantitative Trait Loci for Grain Size in Introgression Line Derived from Oryza Rufipogon, Rice Science, Volume 27, Issue 3, 2020, Pages 246-254, ISSN 1672-6308, https://doi.org/10.1016/j.rsci.2020.04.007.(IF3.162)
[394].Kong, M, Qiao, Q, Ma, X, Tao, Y, Maharjan Raj, P, Zhen, W. Isolation and functional analysis of the zmARM4 locus in a novel maize (Zea mays) grain‐filling mutant. Plant Breed. 2020; 139: 217– 226. https://doi.org/10.1111/pbr.12786.(SC-G)
[395].Lei L, Wang L, Wang S and Wu J (2020) Marker-Trait Association Analysis of Seed Traits in Accessions of Common Bean (Phaseolus vulgaris L.) in China. Front. Genet. 11:698. doi: 10.3389/fgene.2020.00698.(SC-G,IF3.26)
[396].Lei Wang, Qing-Lai Dang, Binyam Tedla, Biochar and alternate partial root-zone irrigation greatly enhance the effectiveness of mulberry in remediating lead-contaminated soils, Journal of Plant Ecology, Volume 13, Issue 6, December 2020, Pages 757–764, https://doi.org/10.1093/jpe/rtaa063
[397].Li Zhang, Bill Shipley, Shurong Zhou, Exploring the relationship between functional structure and ecosystem multifunctionality requires intraspecific trait variability, bioRxiv 2020.11.03.366054; doi: https://doi.org/10.1101/2020.11.03.366054.(LA-S)
[398].Li, H., Zeng, S., Luo, X. et al. Effects of small ridge and furrow mulching degradable film on dry direct seeded rice. Sci Rep 11, 317 (2021). https://doi.org/10.1038/s41598-020-79227-9.(IF3.998)
[399].LI, H., ZENG, S., LUO, X. W, et al. EFFECTS OF DEGRADABLE MULCHING FILM ON SOIL TEMPERATURE, SEED GERMINATION AND SEEDLING GROWTH OF DIRECT-SEEDED RICE (ORYZA SATIVA L.), APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH 18(6):8233-8249.(LA-S)
[400].Li, X., Chen, Z., Zhang, G. et al. Analysis of genetic architecture and favorable allele usage of agronomic traits in a large collection of Chinese rice accessions. Sci. China Life Sci. 63, 1688–1702 (2020). https://doi.org/10.1007/s11427-019-1682-6.(SC-G,IF4.611)
[401].Li, XP., Ma, XC., Wang, H. et al. Osa-miR162a fine-tunes rice resistance to Magnaporthe oryzae and Yield. Rice 13, 38 (2020). https://doi.org/10.1186/s12284-020-00396-2.(SC-A,IF3.912)
[402].Liu J, Li H, Zhang N, et al. Transcriptomic Analysis Reveals the Contribution of QMrl-7B to Wheat Root Growth and Development. Research Square; 2020. DOI: 10.21203/rs.3.rs-124839/v1.
[403].Liu L, Shi H, Li S, Sun M, Zhang R, Wang Y and Ren F (2020) Integrated Analysis of Molybdenum Nutrition and Nitrate Metabolism in Strawberry. Front. Plant Sci. 11:1117. doi: 10.3389/fpls.2020.01117.(LA-S,IF4.402)
[404].Liu, H., Sun, Z., Zhang, X. et al. QTL mapping of web blotch resistance in peanut by high-throughput genome-wide sequencing. BMC Plant Biol 20, 249 (2020). https://doi.org/10.1186/s12870-020-02455-8.(LA-S,IF3.497)
[405].Liu, H., Zhang, X., Xu, Y. et al. Identification and validation of quantitative trait loci for kernel traits in common wheat (Triticum aestivum L.). BMC Plant Biol 20, 529 (2020). https://doi.org/10.1186/s12870-020-02661-4.(SC-G,IF3.497)
[406].Lu P, Yang T, Li L, Zhao B, Liu J (2020) Response of oat morphologies, root exudates, and rhizosphere fungal communities to amendments in a saline-alkaline environment. PLOS ONE 15(12): e0243301. https://doi.org/10.1371/journal.pone.0243301.(LA-S)
[407].Lu Z, Fang Z, Liu W, et al. Grain Quality Characteristics and RVA Profile Analysis of Yuenongsimiao, a High Yield and Disease-resistant Rice Variety. Research Square; 2020. DOI: 10.21203/rs.3.rs-119602/v1.(SC-E)
[408].Luo, Q., Zheng, Q., Hu, P. et al. Mapping QTL for agronomic traits under two levels of salt stress in a new constructed RIL wheat population. Theor Appl Genet 134, 171–189 (2021). https://doi.org/10.1007/s00122-020-03689-8.(IF4.439)
[409].Min Xi, Wenge Wu, Youzun Xu, Yongjin Zhou, Gang Chen, Yalan Ji, Xueyuan Sun, iTRAQ-based quantitative proteomic analysis reveals the metabolic pathways of grain chalkiness in response to nitrogen topdressing in rice, Plant Physiology and Biochemistry, Volume 154, 2020, Pages 622-635, ISSN 0981-9428, https://doi.org/10.1016/j.plaphy.2020.06.012.(IF3.72)
[410].Niu Y, Chen T, Chen K, et al. Identification and Allele Mining of New Candidate Genes Underlying Rice Grain Weight and Grain Shape by Genome-Wide Association Study. Research Square; 2020. DOI: 10.21203/rs.3.rs-28490/v1.(SC-G)
[411].Pan, L., Lin, Wq., Yu, M. et al. Effects of Elevated Ozone Concentrations on Root Characteristics and Soil Properties of Elaeocarpus sylvestris and Michelia chapensis. Bull Environ Contam Toxicol 104, 682–688 (2020). https://doi.org/10.1007/s00128-020-02832-x.(LA-S)
[412].Peng Y, Mao B, Zhang C, Shao Y, Wu T, Hu L, Hu Y, Tang L, Li Y, Zhao B, Tang W and Xiao Y (2021) Correlations Between Parental Lines and Indica Hybrid Rice in Terms of Eating Quality Traits. Front. Nutr. 7:583997. doi: 10.3389/fnut.2020.583997.(IF3.365)
[413].Peng Zhang, Yuxiang Wen, Lei Wang, Hui Zhang, G. Geoff Wang, Tonggui Wu. Leaf Structural Carbohydrate Decreased for Pinus thunbergii along Coast–Inland Gradients. Forests 2020, 11, 449; doi:10.3390/f11040449.(LA-S)
[414].Rehman, F., Gong, H., Li, Z. et al. Identification of fruit size associated quantitative trait loci featuring SLAF based high-density linkage map of goji berry (Lycium spp.). BMC Plant Biol 20, 474 (2020). https://doi.org/10.1186/s12870-020-02567-1.(IF3.497)
[415].Ren, T., Fan, T., Chen, S. et al. Utilization of a Wheat55K SNP array-derived high-density genetic map for high-resolution mapping of quantitative trait loci for important kernel-related traits in common wheat. Theor Appl Genet (2021). https://doi.org/10.1007/s00122-020-03732-8.(IF4.439)
[416].Shi‐Rong Zhou, Hong‐Wei Xue. The rice PLATZ protein SHORT GRAIN6 determines grain size by regulating spikelet hull cell division. Journal of Integrative Plant Biology. June 2020, Volume 62, Issue 6, 847–864.(SC-E,IF4.885)
[417].Sun, K‐K, Yu, W‐S, Jiang, J‐J, et al. Mismatches between the resources for adult herbivores and their offspring suggest invasive Spartina alterniflora is an ecological trap. J Ecol. 2020; 108: 719– 732. https://doi.org/10.1111/1365-2745.13277.(LA-S,IF5.762)
[418].Tang Xinglin, Liu Guangzheng, Jiang Jiang, Lei Changju, Zhang Yunxing, Wang Liyan, Liu Xinliang (2020) Effects of growth irradiance on photosynthesis and photorespiration of Phoebe bournei leaves. Functional Plant Biology 47, 1053-1061.(LA-S)
[419].Wang a, Shu X, Jiang y, et al. Genome-wide Association Study-based Identification Genes Influencing Agronomic Traits in Rice (Oryza Sativa L.). Research Square; 2020. DOI: 10.21203/rs.3.rs-74749/v1.(SC-G)
[420].Wang, D., Yu, K., Jin, D., Sun, L., Chu, J., Wu, W., Xin, P., Gregová, E., Li, X., Sun, J., Yang, W., Zhan, K., Zhang, A. and Liu, D. (2020), Natural variations in the promoter of Awn Length Inhibitor 1 (ALI‐1) are associated with awn elongation and grain length in common wheat. Plant J, 101: 1075-1090. https://doi.org/10.1111/tpj.14575.(IF6.141)
[421].Wang, GJ., Wang, Y., Ying, JZ. et al. Identification of qLG2, qLG8, and qWG2 as novel quantitative trait loci for grain shape and the allelic analysis in cultivated rice. Planta 252, 18 (2020). https://doi.org/10.1007/s00425-020-03420-3.(SC-G,IF3.39)
[422].Wang, X., Zheng, M., Liu, H. et al. Fine-mapping and transcriptome analysis of a candidate gene controlling plant height in Brassica napus L.. Biotechnol Biofuels 13, 42 (2020). https://doi.org/10.1186/s13068-020-01687-y.(LA-S,IF4.815)
[423].Wei Zhang, Huifang Li, Liya Zhi, Qiannan Su, Jiajia Liu, Xiaoli Ren, Deyuan Meng, Na Zhang, Jun Ji, Xueyong Zhang, Junming Li, Functional markers developed from TaGS3, a negative regulator of grain weight and size, for marker-assisted selection in wheat, The Crop Journal, Volume 8, Issue 6, 2020, Pages 943-952, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2020.03.003.(SC-G,IF3.395)
[424].Wei Zhang, Huifang Li, Liya Zhi, Qiannan Su, Jiajia Liu, Xiaoli Ren, Deyuan Meng, Na Zhang, Jun Ji, Xueyong Zhang, Junming Li, Functional markers developed from TaGS3, a negative regulator of grain weight and size, for marker-assisted selection in wheat, The Crop Journal, Volume 8, Issue 6, 2020, Pages 943-952, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2020.03.003.(SC-G,IF3.395)
[425].Wenchao Yin, Yunhua Xiao, Mei Niu, Wenjing Meng, Lulu Li, Xiaoxing Zhang, Dapu Liu, Guoxia Zhang, Yangwen Qian, Zongtao Sun, Renyan Huang, Shiping Wang, Chun-Ming Liu, Chengcai Chu, Hongning Tong,ARGONAUTE2 Enhances Grain Length and Salt Tolerance by Activating BIG GRAIN3 to Modulate Cytokinin Distribution in Rice, The Plant Cell Jul 2020, 32 (7) 2292-2306; DOI: 10.1105/tpc.19.00542
[426].Xia Zhang, Caihong Cui, Yinguang Bao, Honggang Wang, Xingfeng Li, Molecular cytogenetic characterization of a novel wheat-Thinopyrum intermedium introgression line tolerant to phosphorus deficiency, The Crop Journal, 2020, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2020.08.014.(LA-S,IF3.395)
[427].Xiao, Y., Liu, X., Zhang, L., Song, Z. and Zhou, S. (2021), The allometry of plant height explains species loss under nitrogen addition. Ecology Letters. https://doi.org/10.1111/ele.13673.(LA-S,IF8.665)
[428].Xiaohong Wang, Liming Yin, Feike A. Dijkstra, Jiayu Lu, Peng Wang, Weixin Cheng, Rhizosphere priming is tightly associated with root-driven aggregate turnover, Soil Biology and Biochemistry, Volume 149, 2020, 107964, ISSN 0038-0717, https://doi.org/10.1016/j.soilbio.2020.107964.(LA-S,IF5.795)
[429].Xiao-lan LI, Xiang LÜ, Xiao-hong WANG, Qin PENG, Ming-sheng ZHANG, Ming-jian REN, Biotic and abiotic stress-responsive genes are stimulated to resist drought stress in purple wheat, Journal of Integrative Agriculture, Volume 19, Issue 1, 2020, Pages 33-50, ISSN 2095-3119, https://doi.org/10.1016/S2095-3119(19)62659-6.(SC-G)
[430].Xin Guan, Qun Li, Tusunniyaze Maimaiti, Suke Lan, Peng Ouyang, Bowei Ouyang, Xian Wu, Sheng-Tao Yang, Toxicity and photosynthetic inhibition of metal-organic framework MOF-199 to pea seedlings, Journal of Hazardous Materials, 2020, 124521, ISSN 0304-3894, https://doi.org/10.1016/j.jhazmat.2020.124521.(IF9.038)
[431].Xu, H, Li, X, Zhang, H, et al. High temperature inhibits the accumulation of storage materials by inducing alternative splicing of OsbZIP58 during filling stage in rice. Plant Cell Environ. 2020; 43: 1879– 1896. https://doi.org/10.1111/pce.13779.(SC-E,IF6.362)
[432].Yang, L., Zhao, D., Meng, Z. et al. QTL mapping for grain yield-related traits in bread wheat via SNP-based selective genotyping. Theor Appl Genet 133, 857–872 (2020). https://doi.org/10.1007/s00122-019-03511-0.(IF4.439)
[433].Yan-huan Chen, Cheng Yan, Ya-fei Yang, Jia-xin Ma, Quantitative microbial risk assessment and sensitivity analysis for workers exposed to pathogenic bacterial bioaerosols under various aeration modes in two wastewater treatment plants, Science of The Total Environment, Volume 755, Part 2, 2021, 142615, ISSN 0048-9697, https://doi.org/10.1016/j.scitotenv.2020.142615.(HICC-B,IF6.551)
[434].Yujiao Gao, Kexin An, Weiwei Guo, Yongming Chen, Ruijie Zhang, Xue Zhang, Siyuan Chang, Vincenzo Rossi, Fangming Jin, Xinyou Cao, Mingming Xin, Huiru Peng, Zhaorong Hu, Weilong Guo, Jinkun Du, Zhongfu Ni, Qixin Sun, Yingyin Yao, The endosperm-specific transcription factor TaNAC019 regulates glutenin and starch accumulation and its elite allele improves wheat grain quality, The Plant Cell, 2021;, koaa040, https://doi.org/10.1093/plcell/koaa040.(IF9.618)
[435].Yu-Juan Lin, Yu-Xi Feng, Yan-Hong Li, Guo Yu, Xiao-Zhang Yu, Fuzzy synthetic evaluation of the impact of plant growth regulators on the root phenotype traits of rice seedlings under thiocyanate stress, Plant Physiology and Biochemistry, Volume 158, 2021, Pages 182-189, ISSN 0981-9428, https://doi.org/10.1016/j.plaphy.2020.10.029.(LA-S,IF3.72)
[436].Yunhua Chi, Kimani Wilson, Zhiquan Liu, Xiaoyuan Wu, Li Shang, Limin Zhang, Haichun Jing, Huaiqing Hao, Vacuolar invertase genes SbVIN1 and SbVIN2 are differently associated with stem and grain traits in sorghum (Sorghum bicolor), The Crop Journal, Volume 8, Issue 2, 2020, Pages 299-312, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2019.06.012.(IF3.395)
[437].Yunhua Chi, Kimani Wilson, Zhiquan Liu, Xiaoyuan Wu, Li Shang, Limin Zhang, Haichun Jing, Huaiqing Hao, Vacuolar invertase genes SbVIN1 and SbVIN2 are differently associated with stem and grain traits in sorghum (Sorghum bicolor), The Crop Journal, Volume 8, Issue 2, 2020, Pages 299-312, ISSN 2214-5141, https://doi.org/10.1016/j.cj.2019.06.012.(SC-E,IF3.395)
[438].Yunlong Pang, Chunxia Liu, Danfeng Wang, Paul St. Amand, Amy Bernardo, Wenhui Li, Fang He, Linzhi Li, Liming Wang, Xiufang Yuan, Lei Dong, Yu Su, Huirui Zhang, Meng Zhao, Yunlong Liang, Hongze Jia, Xitong Shen, Yue Lu, Hongming Jiang, Yuye Wu, Anfei Li, Honggang Wang, Lingrang Kong, Guihua Bai, Shubing Liu, High-Resolution Genome-wide Association Study Identifies Genomic Regions and Candidate Genes for Important Agronomic Traits in Wheat, Molecular Plant, Volume 13, Issue 9, 2020, Pages 1311-1327, ISSN 1674-2052, https://doi.org/10.1016/j.molp.2020.07.008.(IF12.084)
[439].Zeng, X., Luo, Y., Vu, N.T.Q. et al. CRISPR/Cas9-mediated mutation of OsSWEET14 in rice cv. Zhonghua11 confers resistance to Xanthomonas oryzae pv. oryzae without yield penalty. BMC Plant Biol 20, 313 (2020). https://doi.org/10.1186/s12870-020-02524-y.(SC-G,IF3.497)
[440].Zhang L-L, Li Y, Zheng Y-P, Wang H, Yang X, Chen J-F, Zhou S-X, Wang L-F, Li X-P, Ma X-C, Zhao J-Q, Pu M, Feng H, Fan J, Zhang J-W, Huang Y-Y and Wang W-M (2020) Expressing a Target Mimic of miR156fhl-3p Enhances Rice Blast Disease Resistance Without Yield Penalty by Improving SPL14 Expression. Front. Genet. 11:327. doi: 10.3389/fgene.2020.00327.(SC-G,IF3.26)
[441].Zhang, J., Jiao, X., Du, Q. et al. Effects of Vapor Pressure Deficit and Potassium Supply on Root Morphology, Potassium Uptake, and Biomass Allocation of Tomato Seedlings. J Plant Growth Regul (2020). https://doi.org/10.1007/s00344-020-10115-2.(IF2.672)
[442].Zhang, J.; Tong, T.; Potcho, P.M.; Huang, S.; Ma, L.; Tang, X. Nitrogen Effects on Yield, Quality and Physiological Characteristics of Giant Rice. Agronomy 2020, 10, 1816. https://doi.org/10.3390/agronomy10111816.(SC-E)
[443].Zhang, L., Ma, B., Bian, Z. et al. Grain Size Selection Using Novel Functional Markers Targeting 14 Genes in Rice. Rice 13, 63 (2020). https://doi.org/10.1186/s12284-020-00427-y.(SC-G,IF3.912)
[444].Zhang, M., Zhou, Zp., Chen, Yy. et al. Finding new addictive QTL for yield traits based on a high-density genetic map in hybrid rice. Plant Growth Regul 93, 105–115 (2021). https://doi.org/10.1007/s10725-020-00669-2.(IF2.388)
[445].Zhang, N., Zhang, X., Song, L. et al. Identification and validation of the superior alleles for wheat kernel traits detected by genome-wide association study under different nitrogen environments. Euphytica 216, 52 (2020). https://doi.org/10.1007/s10681-020-2572-5.(SC-G)
[446].Zhanqiang Hu, Hua Yang, Mamoun Chaima, Changyun Fang, Lin Lu, Xianqiao Hu, Bai Du, Zhiwei Zhu, Jianying Huang, A visualization and quantification method to evaluate the water-absorbing characteristics of rice, Food Chemistry, Volume 331, 2020, 127050, ISSN 0308-8146, https://doi.org/10.1016/j.foodchem.2020.127050.(SC-E,IF6.306)
[447].Zhanqiang Hu, Yuexi Yang, Lin Lu, Ye Chen, Zhiwei Zhu, Jianying Huang, Kinetics of water absorption expansion of rice during soaking at different temperatures and correlation analysis upon the influential factors, Food Chemistry, Volume 346, 2021, 128912, ISSN 0308-8146, https://doi.org/10.1016/j.foodchem.2020.128912.(SC-E,IF6.306)
[448].Zhao H., Yan W., Yu K., Wang T., Khattak A.N., Tian E. (2021): QTL identification for nine seed-related traits in Brassica juncea using a multiparent advanced generation intercross (MAGIC) population. Czech J. Genet. Plant Breed., 57: 9−18.(SC-G)
[449].Zhao, B, Wang, L, Shang, J, et al. Application of pearling in modified roller milling of hull-less barley and effect on noodles quality. J Food Process Preserv. 2020; 44:e14838. https://doi.org/10.1111/jfpp.14838.(SC-A)
[450].Zhao, J.; Ajadi, A.A.; Wang, Y.; Tong, X.; Wang, H.; Tang, L.; Li, Z.; Shu, Y.; Liu, X.; Li, S.; Wang, S.; Liu, W.; Zhang, J. Genome-Wide Identification of lncRNAs During Rice Seed Development. Genes 2020, 11, 243. https://doi.org/10.3390/genes11030243.(SC-G,IF3.759)
[451].Zheng, L., Liu, P., Zhang, S. et al. Favorable allele mining and breeding utilization of ALK in rice. Mol Breeding 40, 107 (2020). https://doi.org/10.1007/s11032-020-01183-z.(SC-G)
[452].Zhou, S.‐R. and Xue, H.‐W. (2020), The rice PLATZ protein SHORT GRAIN6 determines grain size by regulating spikelet hull cell division. J. Integr. Plant Biol, 62: 847-864. https://doi.org/10.1111/jipb.12851.(SC-E)
[453].Zhou, S.‐X., Zhu, Y., Wang, L.‐F., Zheng, Y.‐P., Chen, J.‐F., Li, T.‐T., Yang, X.‐M., Wang, H., Li, X.‐P., Ma, X.‐C., Zhao, J.‐Q., Pu, M., Feng, H., Li, Y., Fan, J., Zhang, J.‐W., Huang, Y.‐Y. and Wang, W.‐M. (2020), Osa‐miR1873 fine‐tunes rice immunity against Magnaporthe oryzae and yield traits. J. Integr. Plant Biol, 62: 1213-1226. https://doi.org/10.1111/jipb.12900.(SC-A,IF4.885)
[454].Zhu, Z., Zhang, H., Leng, J. et al. Isolation and characterization of plant growth-promoting rhizobacteria and their effects on the growth of Medicago sativa L. under salinity conditions. Antonie van Leeuwenhoek 113, 1263–1278 (2020). https://doi.org/10.1007/s10482-020-01434-1.(LA-S)
[455].Workie Anley Zegeye. 水稻半矮秆基因OsFBK4的定位及功能分析[D].中国农业科学院,2020.
[456].艾鹏睿,马英杰,海英.边行效应对间作棉花生理性状及产量的影响[J].水资源与水工程学报,2020,31(04):138-144.
[457].蔡俊. SlWRKY3通过TPK1b负调控番茄对灰霉病的抗性[D].华中农业大学,2020.
[458].蔡梦颖,张平,宋炜涵,余江峰,郝栖贤,王平,刘世家,王益华,江玲,万建民.通过CRISPR/Cas9技术靶向编辑SSSⅡb基因改良稻米品质[J].南京农业大学学报,2021,44(01):18-26.
[459].蔡欣月. 转录因子AtVIP1介导IAA与ABA信号途径调控高粱侧根发育的分子机制初探[D].黑龙江八一农垦大学,2020.
[460].曹彩红,曹玲玲,赵立群,田雅楠.不同基质配比对草莓脱毒苗驯化移栽的影响[J].蔬菜,2020(06):57-62.
[461].曹珊. 生态条件和后期干旱对小麦种子活力形成的影响及生理差异分析[D].山东农业大学,2020.
[462].陈博宁,章洁琼,崔娅松,霍冬敖,陈庆富.苦荞遗传群体农艺性状分析[J].耕作与栽培,2020,40(03):13-16.
[463].陈吉宝.绿豆产量性状的QTL定位[J].中国农业科技导报,2020,22(10):38-48.
[464].陈黎,朱超,朱庆祥,王翠鸣,鲍佳书,莫辰,施婷婷,万志兵.NaN_3处理对乌桕种子萌发及幼苗生长的影响[J].南京林业大学学报(自然科学版),2020,44(04):47-54.
[465].陈庭木,方兆伟,王宝祥,刘艳,邢运高,徐大勇.高黄酮水稻品种资源的鉴定与筛选[J].中国稻米,2020,26(02):41-43.
[466].陈庭木,邢运高,孙志广,方兆伟,王宝祥,刘艳,徐大勇.水稻高脂肪含量资源筛选[J].江苏农业科学,2020,48(08):74-77.
[467].陈曦. 多群体定位水稻粒形数量性状位点[D].广西大学,2020.
[468].褚云霞,任丽,邓姗,李寿国,张靖立,陈海荣.基于DUS测试的上海地区小麦新品种评价[J].分子植物育种,2020,18(07):2399-2408.
[469].单飞彪,闫文芝,杜瑞霞,王永行,杨钦方,刘春晖,白立华,苗雨,赖运平.救荒野豌豆品种DUS测试主要数量性状筛选与评价[J].中国种业,2020(08):60-65.
[470].丁一然,李英文.长溪河浮游生物群落特征及水质评价[J].西华师范大学学报(自然科学版),2020,41(03):242-248.
[471].董晨星. 草莓种质资源生物学鉴定及对激素的反应[D].山东农业大学,2020.
[472].杜冬冬. 盐碱条件下植物根际菌促生作用的研究[D].山东农业大学,2020.
[473].范可欣. 小麦NGli-D2、Sec-1~s和1Dx5+1Dy10高代聚合体的品质和农艺性状分析[D].山东农业大学,2020.
[474].付路平. 小麦茎秆水溶性碳水化合物含量遗传解析与标记发掘[D].中国农业科学院,2020.
[475].付路平. 小麦茎秆水溶性碳水化合物含量遗传解析与标记发掘[D].中国农业科学院,2020.
[476].龚睿,毕玉科,张杰,奉树成,张春英.Cu、Zn制剂处理对贴梗海棠容器苗生长的影响[J].东北林业大学学报,2020,48(05):16-20.
[477].龚睿,夏溪,张春英.Cu、Zn制剂的化学控根对平邑甜茶容器苗根构型影响[J].西部林业科学,2020,49(02):154-159.
[478].谷瑞,徐森,陈双林,郭子武,章超.鞭长和鞭径对地被竹鞭段繁育容器苗生长和叶片养分的影响[J].东北林业大学学报,2020,48(09):34-40.
[479].关志林. 甘蓝型油菜生态型分化的遗传基础解析[D].华中农业大学,2020.
[480].管柳蓉,刘祖培,徐冉,段朋根,张国政,于海跃,李静,罗越华,李云海.一个新的OsBRI1弱等位突变体的鉴定及其调控种子大小的功能研究[J].植物学报,2020,55(03):279-286.
[481].管祥洋,孔明,张毅敏,韩巍,杨飞,张志伟,顾诗云,钱文瀚.滆湖水华初期浮游植物群落特征及与水环境因子相关性分析[J].环境科学学报,2020,40(03):901-914.
[482].郭燕,张树航,李颖,张馨方,王广鹏.中国板栗238份品种(系)叶片形态、解剖结构及其抗旱性评价[J].园艺学报,2020,47(06):1033-1046.
[483].韩志顺,郑敏娜,梁秀芝,康佳惠,陈燕妮.干旱胁迫对不同紫花苜蓿品种形态特征和生理特性的影响[J].中国草地学报,2020,42(03):37-43.
[484].郝好鑫. 侵蚀环境下根系功能性状对土壤保持的影响及机制[D].华中农业大学,2020.
[485].何瑞,马靖福,刘媛,张沛沛,栗孟飞,王彩香,宿俊吉,程宏波,杨德龙.小麦粒形QTL定位及其与水分环境互作遗传分析[J].麦类作物学报,2020,40(08):906-914.
[486].何瑞. 小麦粒形相关性状QTL定位及其元分析[D].甘肃农业大学,2020.
[487].洪佳乐. 水稻细胞分裂素氧化酶OsCKX3的生物学功能研究[D].浙江师范大学,2020.
[488].胡群. 中期氮肥调控对优良食味粳稻产量和品质的效应及其机理[D].扬州大学,2020.
[489].黄婧芬,康敏,殷勤,王艳艳,杨子怡,郑晓明,乔卫华,杨庆文,孙希平.茶陵野生稻导入系遗传分析及重要性状相关QTL鉴定[J].植物遗传资源学报,2020,21(03):674-686.
[490].黄梦迪,吴会琴,王娜,杨璞,高金锋,高小丽.不同品种绿豆理化特性和抗氧化性研究[J].食品研究与开发,2020,41(06):32-37.
[491].黄梦迪. 不同品种绿豆及其豆芽品质研究与评价[D].西北农林科技大学,2020.
[492].黄鹏. 山葵植物水培技术研究[D].成都大学,2020.
[493].黄世杰. 不同番茄品种对弱光生理响应差异的研究[D].山东农业大学,2020.
[494].黄文功. 亚麻和水曲柳对低钾或磷耐受性及基因表达调控研究[D].东北林业大学,2020.
[495].计宏蕊,张梦瑜,王晓娜.重金属镉影响下油松外生菌根的形态特征[J].林业与生态科学,2020,35(04):377-386.
[496].姜朋. 小麦核心种质宁麦9号与扬麦158重要农艺性状及赤霉病抗性的遗传解析[D].山东农业大学,2020.
[497].姜顺邦,韦小丽.水分供应量与灌溉方式对花榈木容器苗生长及节水节肥的影响[J].西北农林科技大学学报(自然科学版),2020,48(08):69-77.
[498].黎雨薇. 施氮量对水稻籽粒灌浆特性、产量和品质的影响[D].华中农业大学,2020.
[499].李丹竹,曾宁波,张志飞,刘宁芳,徐倩,胡龙兴.渍水胁迫对不同磷水平下紫花苜蓿根系生长的影响[J].草地学报,2020,28(06):1563-1571.
[500].李丹竹,张强,徐倩,张志飞,刘宁芳,曾宁波,胡龙兴.渍水胁迫对不同秋眠级紫花苜蓿苗期根系形态的影响[J].草地学报,2020,28(02):420-428.
[501].李发奎,李金霞,孙小妹,陈年来.黑果枸杞茎叶生长及其生态化学计量特征对灌水施肥的响应[J].干旱区研究,2020,37(02):452-461.
[502].李发奎. 黑果枸杞器官间生态化学计量特征比较研究[D].甘肃农业大学,2019.
[503].李虎,陈传华,刘广林,吴子帅,罗群昌,朱其南,李秋雯.铜、锌肥对优质稻桂育9号的影响效应研究[J].江西农业大学学报,2020,42(03):448-457.
[504].李虎,黄秋要,陈传华,刘广林,吴子帅,罗群昌,朱其南,李秋雯.种植密度和施氮量对桂育8号产量及稻米外观和加工品质的影响[J].西南农业学报,2020,33(04):718-724.
[505].李欢,陈惠查,阮仁超,黎小冰,康秀晗,谭金玉.贵州特色蚕豆种质资源主要农艺性状分析与综合评价[J].农技服务,2020,37(08):74-76+78.
[506].李嘉琦. 基于GWAS解析水稻粒型变异的遗传基础[D].沈阳师范大学,2020.
[507].李进. 水稻穗长QTL qPL-3的精细定位[D].扬州大学,2020.
[508].李军军. 不同N、P供给水平对骆驼刺和芨芨草组织养分特征及根系构型的影响[D].兰州大学,2020.
[509].李乐晨. 野生二粒小麦居群进化及其产量性状全基因组关联分析[D].河南大学,2020.
[510].李敏. 玉米自交系种子萌发期间物质利用率差异及全基因组关联分析[D].山东农业大学,2020.
[511].李明,李朝苏,刘淼,吴晓丽,魏会廷,汤永禄,熊涛.耕作播种方式对稻茬小麦根系发育、土壤水分和硝态氮含量的影响[J].应用生态学报,2020,31(05):1425-1434.
[512].李盼盼,朱玉君,郭梁,庄杰云,樊叶杨.利用剩余杂合体衍生的近等基因系精细定位水稻粒长微效QTL qGL1.1[J].中国水稻科学,2020,34(02):125-134.
[513].李盼盼. 水稻粒长QTL qGL1.1的精细定位[D].中国农业科学院,2020.
[514].李倩,董春娟,田雅楠,曹玲玲,尚庆茂.潮汐灌溉供液高度对黄瓜穴盘苗生长发育与水肥利用的影响[J].中国蔬菜,2020(01):56-62.
[515].李如雪. 小麦种子活力状况分析与种子活力评价技术研究[D].山东农业大学,2020.
[516].李珊珊. 调环酸钙和CPPU对苹果营养生长和花芽形成的影响[D].山东农业大学,2020.
[517].李月娟,马锦林,王东雪,魏育,叶航.不同基质理化性质对香花油茶扦插生根的影响[J].热带农业科学,2020,40(03):25-30.
[518].李月娟,王东雪,魏育,朱慧,马锦林.不同外源激素处理下香花油茶扦插生根效果的综合评价[J].广西林业科学,2020,49(01):49-53.
[519].林升丽. 全基因组和全转录组关联分析解析油菜千粒重自然变异的遗传机制[D].华中农业大学,2020.
[520].刘春花. 供磷水平对核桃实生苗生长、生理特性及土壤养分的影响[D].塔里木大学,2020.
[521].刘寒. 营养平衡对刺五加生长代谢的生物调控机制[D].黑龙江中医药大学,2020.
[522].刘凯强,刘文辉,贾志锋,马祥,梁国玲.干旱胁迫对‘青燕1号’燕麦器官生长及水分利用效率的影响[J].草地学报,2020,28(06):1552-1562.
[523].刘凯强. 水分胁迫对燕麦生长发育及产量构成的影响[D].青海大学,2020.
[524].刘娜. 过表达ZmDWF4提高玉米产量的研究[D].山东农业大学,2020.
[525].刘守旭. 玉米Mu/MuDr突变体库的构建和LSC1基因的精细定位[D].山东农业大学,2020.
[526].刘同金. 基于机器视觉的苹果体尺参数测量方法研究[D].塔里木大学,2020.
[527].刘晓伟. 土壤缺钾对不同品种冬小麦钾素吸收、品质及碳氮代谢的影响[D].河北农业大学,2020.
[528].刘迎超. 光照强度对烟草漂浮育苗基质理化生物性状影响研究[D].山东农业大学,2020.
[529].刘盈盈,韦小丽,周紫晶,邵畅畅.硝态氮供应水平对棕榈幼苗根系形态及苗木生长的影响[J].东北林业大学学报,2020,48(11):1-7.
[530].罗进. 钛表面钴掺入羟基磷灰石复合涂层的制备及表征和生物活性研究[D].遵义医科大学,2020.
[531].吕丹. 苦荞种质资源产量性状和籽粒黄酮含量与SSR标记的关联分析[D].贵州师范大学,2020.
[532].吕立军,石奡坤,袁瑞江,李衍素,闫妍,于贤昌,贺超兴.大葱品种苗期耐低氮性的综合评价及鉴定指标筛选[J].中国蔬菜,2020(12):49-55.
[533].马本贺,陶志英,吴早保,吴斌,王海华,徐先栋,陈翠云.大鳞副泥鳅新品系的人工繁殖及胚胎发育[J].水产科学,2020,39(06):863-870.
[534].马鸿润. 面向人工智能育种的大豆种子表型特征数据采集与分析[D].山东大学,2020.
[535].马瑞,黄成亮,孟英,刘猷红.播期对三江平原主栽水稻品种品质的影响[J].中国稻米,2020,26(02):80-83.
[536].马旭辉. 褪黑素对玉米根系构型及其抗旱性影响的初步研究[D].中国农业科学院,2020.
[537].马艳明,冯智宇,王威,张胜军,郭营,倪中福,刘杰.新疆冬小麦品种农艺及产量性状遗传多样性分析[J].作物学报,2020,46(12):1997-2007.
[538].毛恒,熊跃东,李馨,周放姣,胡铫,尹忠良,周萌,邓化冰.4个籼稻光温敏核不育系及其所配组合的稻米品质评价[J].杂交水稻,2020,35(05):88-93.
[539].牟立同,荀咪,曹辉,杨洪强,王利,范伟国,陈金旭,冯丰,李萍.果木屑腐熟物对平邑甜茶幼苗生长和土壤养分及酶活性的影响[J].山东农业大学学报(自然科学版),2020,51(06):1027-1031.
[540].饶泽来,朱桂才,姚振.融合表达乙醇酸氧化酶和过氧化氢酶转基因马铃薯的表型分析[J].种子,2020,39(03):39-42+51.
[541].饶泽来. 在马铃薯中融合表达GLO-CAT构建光呼吸支路的研究[D].长江大学,2020.
[542].任达.断根处理对辽东栎1年生裸根苗成活率及生长指标的影响[J].山西林业科技,2020,49(03):13-14+56.
[543].邵畅畅,韦小丽,周紫晶,刘盈盈.供磷水平对棕榈幼苗生长及根系形态的影响[J].东北林业大学学报,2021,49(01):12-15.
[544].佘远国,张莹,曹克丽,李秀梅,章璐,汪洋.基质配方对油茶容器苗根系生物量及形态的影响[J].经济林研究,2020,38(04):11-16.
[545].时晓磊,严勇亮,石书兵,张金波,王继庆,谢磊,耿洪伟.NaCl胁迫下小麦根部耐盐性状QTL分析[J].新疆农业大学学报,2020,43(01):1-9.
[546].宋岩,张锐,鱼尚奇,刘春花,高山,王雨,罗立新,张建良.不同施氮水平对核桃砧木苗形态特征及生理特性的影响[J].福建农业学报,2020,35(03):309-316.
[547].孙艳楠. 燕麦不同品种锌效率的评价及对低锌胁迫的响应[D].内蒙古农业大学,2020.
[548].陶菊红,季向东,王小虎,兰国防,陆燕,柯瑷,潘斌清,唐乐尧,马刚,端木银熙,张涛.三个江南地区适用粳稻选育品系的常规农艺性状[J].常熟理工学院学报,2020,34(05):86-90.
[549].陶若芙. 水稻转录因子OsBBX4的功能研究[D].浙江大学,2020.
[550].田贵生,王志宾,李小坤,朱丹丹,张江林,刘秋霞.“稻-再-油/肥”轮作和施氮对水稻产量及籽粒灌浆特性的影响[J].中国农业科技导报,2021,23(01):146-153.
[551].万海霞,蔡进军,郭永忠,马璠,许浩,韩新生,王月玲,董立国.宁夏南部黄土丘陵区典型草本根系分布特征[J].水土保持研究,2020,27(04):149-156+163.
[552].汪文佳. (普通小麦×长穗偃麦草)F_1鉴定及生理特性的比较研究[D].淮北师范大学,2020.
[553].王亮. 防治三七黑斑病的多抗霉素发酵生产技术研究[D].陕西科技大学,2020.
[554].王顺斌. 适应亚热带环境的亚麻荠突变体的筛选与研究[D].浙江农林大学,2020.
[555].王文静. 脱水剂和收获方式对小麦种子活力的调控作用[D].山东农业大学,2020.
[556].王文团. 耐盐碱细菌筛选与生物菌肥对盐碱地作物的影响[D].山东农业大学,2020.
[557].王小雷,李炜星,曾博虹,孙晓棠,欧阳林娟,陈小荣,贺浩华,朱昌兰.基于染色体片段置换系对水稻粒形及千粒重QTL检测与稳定性分析[J].作物学报,2020,46(10):1517-1525.
[558].王宇智. 氮肥运筹对旱直播水稻产量、品质及氮素利用率的影响[D].沈阳农业大学,2020.
[559].王园园. 丛枝菌根真菌和钾调控宁夏枸杞耐盐及钾吸收机制[D].西北农林科技大学,2020.
[560].王泽鹏,岳松青,荀咪,石钧元,张玮玮,杨洪强.H_2S预处理对NaCl胁迫下平邑甜茶根系氧化损伤和细胞死亡的影响[J].植物生理学报,2020,56(10):2241-2247.
[561].王泽鹏. NaHS对NaCl胁迫下平邑甜茶根系离子流及相关基因表达的影响[D].山东农业大学,2020.
[562].卫平洋,裘实,唐健,肖丹丹,朱盈,刘国栋,邢志鹏,胡雅杰,郭保卫,高尚勤,魏海燕,张洪程.安徽沿淮地区优质高产常规粳稻品种筛选及特征特性[J].作物学报,2020,46(04):571-585.
[563].魏琦. 硫酸钾/铵片剂肥料对苹果根区土壤环境及幼树生长的影响[D].山东农业大学,2020.
[564].乌国俊,龚梨霞,李丹竹,张志飞.原花青素对酸铜胁迫下紫花苜蓿种子萌发的影响[J].草学,2020(02):40-45+53.
[565].吴江,庞澜,阿里木江·阿不都热合曼,朱勇荷,马秀英,陈鹏,张荔霜,岳跃明,吴涛.聚维酮碘胃部灌洗对内镜下黏膜剥离术患者胃部细菌菌落及感染率的影响[J].中华医院感染学杂志,2020,30(06):903-907.
[566].肖月华,高建芹,王洁,邹玉国,陈松,周晓婴,龙卫华,彭琦.种子处理剂对甘蓝型油菜生长发育及菌核病的效应[J].江苏农业科学,2020,48(23):111-114.
[567].熊洁,丁戈,李书宇,陈伦林,宋来强.铝胁迫对不同耐铝油菜品种苗期生长发育和养分吸收的影响[J].华北农学报,2020,35(06):165-171.
[568].徐飞,王纾馨,程甲,张毓梅,焦彬彬.可视化自动识别技术与传统人眼识别在大米外观品质检验中的比较分析[J].食品安全质量检测学报,2020,11(20):7280-7286.
[569].徐易如. 小麦苗期生物量、成熟期农艺性状对氮、磷、钾胁迫的响应及其遗传解析[D].山东农业大学,2020.
[570].许赵蒙. 水稻纹枯病抗性相关基因OsSBR1的功能鉴定和组学分析[D].浙江师范大学,2020.
[571].薛其勤,别茹,常宇涵,邢明,杨会,张昆,刘风珍,万勇善.花生种皮颜色及花青素含量的遗传分析[J].花生学报,2020,49(01):19-24.
[572].晏权. GZ95-6分枝麦穗分枝性状的遗传分析及改良[D].贵州大学,2020.
[573].杨莉. 普通小麦籽粒相关性状QTL定位与验证[D].中国农业科学院,2020.
[574].杨娜,杨鑫,李英文,刘智皓,陈启亮,沈彦君.重庆市涪陵区梨香溪流域和麻溪河流域浮游生物及鱼类资源现状[J].重庆师范大学学报(自然科学版),2020,37(06):63-77.
[575].殷敏,刘少文,褚光,徐春梅,王丹英,章秀福,陈松.长江下游稻区不同类型双季晚粳稻产量与生育特性差异[J].中国农业科学,2020,53(05):890-903.
[576].于潇. 烟台扇贝养殖区水质变化及其对扇贝生长的影响[D].烟台大学,2020.
[577].俞宁宁. 水杨酸羟化酶在调节水稻抗病和生长中的功能研究[D].浙江师范大学,2020.
[578].张芳,任毅,严勇亮,付婧璇,耿洪伟.小麦TaGS-D1与TaFlo2-A1等位变异对粒重的影响[J].麦类作物学报,2020,40(05):533-546.
[579].张国庆. 西藏“一江两河”流域典型区段藻类群落时空分布特征及其与环境因子间的关系[D].西藏大学,2020.
[580].张洪超. 三唑酮在不同作物、不同土壤类型中的吸收、转运规律及特性[D].浙江大学,2020.
[581].张纪. 引进大麦种质资源籽粒性状间关系研究与评价利用[D].西北农林科技大学,2020.
[582].张嘉宇. 水汽压差(VPD)与钾素对不同温度下番前营养吸收与光合生理的影响[D].西北农林科技大学,2020.
[583].张金波,王小波,严勇亮,肖菁,彭惠茹,丛花.新疆春小麦育成品种耐热性评价[J].麦类作物学报,2020,40(09):1055-1063.
[584].张金波,严勇亮,王小波,路子峰,肖菁,彭惠茹,丛花.新疆春小麦育成品种遗传演变分析[J].新疆农业科学,2020,57(03):418-426.
[585].张俊,郝西,朱亚娟,臧秀旺,刘娟,张佳蕾,张曼,崔亚男,汤丰收,董文召.不同保水剂用量对花生发育及氮素积累的影响[J].花生学报,2020,49(02):43-48.
[586].张淼. 超级稻内2优6号产量性状QTL的定位[D].中国农业科学院,2020.
[587].张晓蕊,谢露露,董春娟,尚庆茂.叶片切除对番茄扦插苗茎基部糖含量及不定根发生的影响[J].中国蔬菜,2020(11):60-65.
[588].张晓蕊. 茄果类蔬菜扦插苗茎基部碳水化合物积累与不定根发生[D].中国农业科学院,2020.
[589].张郑伟. 中国多年生野生大豆Glycine tomentella和Glycine tabacina的遗传多样性研究[D].中国农业科学院,2020.
[590].赵晨浩. 新型保水剂和保水型控释肥的研制及对土壤持水性状改良的机制[D].山东农业大学,2020.
[591].赵靓,战勇,张恒斌,曾凯,刘涛.灌水量和种植密度互作对籽瓜产量及籽粒性状的影响[J].北方园艺,2020(22):1-9.
[592].赵坤. 固氮蓝藻和叶面肥对水稻生育及产量品质的影响[D].黑龙江八一农垦大学,2020.
[593].郑冉,黎瑞源,吕丹,郑俊青,黄娟,石桃雄,陈庆富.苦荞重组自交系群体籽粒性状遗传变异分析[J].安徽农业大学学报,2020,47(05):818-825.
[594].郑冉. 苦荞重组自交系群体籽粒黄酮含量与农艺性状的QTL定位[D].贵州师范大学,2020.
[595].朱红菊,赵胜杰,路绪强,何楠,刘文革.二倍体和四倍体西瓜幼苗根系形态差异比较[J].中国瓜菜,2020,33(11):18-21.
[596].朱丽霞,韩琰,陆銮眉,张琼,蔡月琴,陈清森.四种花灌木对镉的耐性和富集特性研究[J].闽南师范大学学报(自然科学版),2020,33(01):74-80.
[597].朱丽霞,林逸涵,陆銮眉,张琼,蔡月琴,鲁俊,韩欣刚.茉莉花对四种重金属污染土壤的抗性和富集特性研究[J].福建热作科技,2020,45(02):17-22.
[598].朱琳. 花生种子大小相关基因及其定位研究[D].山东师范大学,2020.
[599].朱秀茹,王永舟,萧楚健,方潇,周文滔,赵李,杨建伟,芦芮冰,高聪.农家旱稻品种特性的鉴定[J].金陵科技学院学报,2020,36(01):65-70.
[600].朱亚琼,于辉,郑伟,黎松松,娜尔克孜,刘岳含,郝帅,艾丽菲热.燕麦+箭筈豌豆混播草地混播优势的测度与影响因素分析[J].草业学报,2020,29(01):74-85.
[601].邹其珍. 四个水稻油菜素内酯降解相关基因的功能研究[D].中国农业科学院,2020.
[602].Ahong Wang, Qingqing Hou, Lizhen Si. et al. The PLATZ Transcription Factor GL6 Affects Grain Length and Number in Rice[J]Plant Physiology,2019.(SC-E,IF6.305)
[603].Cao, P., Liang, X., Zhao, H. et al. Identification of the quantitative trait loci controlling spike-related traits in hexaploid wheat (Triticum aestivum L.). Planta 250, 1967–1981 (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s00425-019-03278-0.(SC-G,IF3.06)
[604].Chen, Z., Cheng, X., Chai, L. et al. Dissection of genetic factors underlying grain size and fine mapping of QTgw.cau-7D in common wheat (Triticum aestivum L.). Theor Appl Genet 133, 149–162 (2020). https://xs.scihub.ltd/https://doi.org/10.1007/s00122-019-03447-5. (SC-G,IF3.926)
[605].Christine J.Bergman. 9 - Rice end-use quality analysis[J]. Rice, 2019, Pages 273-337.(SC-E,IF3.513)
[606].CongqiZhang, RuiZhong, ZhongsuoWang. et al. Intra-annual variation of zooplankton community structure and dynamics in response to the changing strength of bio-manipulation with two planktivorous fishes[J].Ecological Indicators, Volume 101, June 2019, Pages 670-678.(AlgaeC,IF4.49)
[607].Dongzhi Wang, Kang Yu, Di Jin. et al. ALI-1, candidate gene of B1 locus, is associated with awn length and grain weight in common wheat[J]. 2019
[608].Dongzhi Wang, Kang Yu, Di Jin. et al. Natural variations in the promoter of Awn Length Inhibitor 1 (ALI‐1) are associated with awn elongation and grain length in common wheat[J].The Plant Journal,19 October 2019.(SC-G,IF5.726)
[609].Du, B., Wang, Q., Sun, G. et al. Mapping dynamic QTL dissects the genetic architecture of grain size and grain filling rate at different grain-filling stages in barley. Sci Rep 9, 18823 (2019). https://xs.scihub.ltd/https://doi.org/10.1038/s41598-019-53620-5.
[610].Fan Xu, Jiuyou Tang, Shaopei Gao. et al. Control of rice pre‐harvest sprouting by glutaredoxin‐mediated abscisic acid signaling[J].The Plant Journal, 22 August 2019.(SC-E,IF5.726)
[611].Fang, C., Li, L., He, R. et al. Identification of S23 causing both interspecific hybrid male sterility and environment-conditioned male sterility in rice. Rice 12, 10 (2019). https://xs.scihub.ltd/https://doi.org/10.1186/s12284-019-0271-4.(SC-E,IF3.513)
[612].Fengxian Zhen, Wei Wang, Haoyu Wang. et al. Effects of short-term heat stress at booting stage on rice-grain quality[J].Crop and Pasture Science 70(6) 486-498 https://doi.org/10.1071/CP18260.(SC-E,IF1.33)
[613].Gongduan Fan, Zhong Chen, Bo Wang. et al. Photocatalytic Removal of Harmful Algae in Natural Waters by AgAgCl@ZIF-8 Coating under Sunlight[J].Catalysts 2019, 9(8), 698; https://doi.org/10.3390/catal9080698.(AlgeaC,IF3.444)
[614].Guan, P., Di, N., Mu, Q. et al. Use of near-isogenic lines to precisely map and validate a major QTL for grain weight on chromosome 4AL in bread wheat (Triticum aestivum L.). Theor Appl Genet 132, 2367–2379 (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s00122-019-03359-4.(SC-G, IF3.926)
[615].Hanyang Zhang, Jianhang Jiao & Hui Jin (2019) Degradable poly-L-lysinemodified PLGA cell microcarriers with excellent antibacterial and osteogenic activity, Artificial Cells, Nanomedicine, and Biotechnology, 47:1, 2391-2404, DOI: 10.1080/21691401.2019.1623230.(HiCC,IF4.462)
[616].Hao, H., Di, H., Jiao, X. et al. Fine roots benefit soil physical properties key to mitigate soil detachment capacity following the restoration of eroded land. Plant Soil 446, 487–501 (2020). https://xs.scihub.ltd/https://doi.org/10.1007/s11104-019-04353-x.(LA-S,IF3.259)
[617].He C, Ding Z, Mubeen S, Guo X, Fu H, Xin G. 2020. Evaluation of three wheat (Triticum aestivum L.) cultivars as sensitive Cd biomarkers during the seedling stage. PeerJ 8:e8478 https://doi.org/10.7717/peerj.8478.
[618].Jiajia Lia, Jinghui Zhaoa, Yinghui Li. et al. Identification of a novel seed size associated locus SW9-1 in soybean[J]. The Crop Journal, Volume 7, Issue 4, August 2019, Pages 548-559.(SC-G,IF3.179)
[619].Jiangzhe Zhao, Ningning Yu, Min Ju. et al. ABC transporter OsABCG18 controls the shootward transport of cytokinins and grain yield in rice[J]. Journal of Experimental Botany, Volume 70, Issue 21, 1 November 2019, Pages 6277–6291(SC-G,IF5.36)
[620].Jinshan Zhang, Zhenyu Zhou, Jinjuan Bai. et al. Disruption of MIR396e and MIR396f improves rice yield under nitrogen-deficient conditions[J]. National Science Review, nwz142, https://doi.org/10.1093/nsr/nwz142.(SC-A,IF13.222)
[621].Kang Chen, Yongtai Yin, Si Liu. et al. Genome-wide identification and functional analysis of oleosin genes in Brassica napus L.[J]. BMC Plant Biology (2019) 19:294.(SC-G,IF3.67)
[622].Kang Yu, Dongcheng Liu, Yong Chen. et al. Unraveling the genetic architecture of grain size in einkorn wheat through linkage and homology mapping and transcriptomic profiling[J]. Journal of Experimental Botany, Vol. 70, No. 18 pp. 4671–4687, 2019.(SC-G,IF5.36)
[623].Kashif HUSSAIN, ZHANG Yingxing, Workie ANLEY. et al. Association Mapping of Quantitative Trait Loci Increase Grain Size in An Introgression Line Derived by Oryza Ruffipogon Griff[J]. Rice Science, 2020.
[624].Ke‐Ke Sun, Wen‐Sheng, Yu Jia‐Jia Jiang. et al. Mismatches between the resources for adult herbivores and their offspring suggest invasive Spartina alterniflora is an ecological trap[J].Journal Of Ecology,04 September 2019 https://doi.org/10.1111/1365-2745.13277(LA-S,IF5.687)
[625].Lei Liu, Yubo Wang, Zhijia Gai. et al. Responses of Soil Microorganisms and Enzymatic Activities to Alkaline Stress in Sugar Beet Rhizosphere[J].Pol. J. Environ. Stud. Vol. 29, No. 1 (2020), 739-748(LA-S,IF1.186)
[626].LI Xiao-lan, LÜ Xiang, WANG Xiao-hong. et al. Biotic and abiotic stress-responsive genes are stimulated to resist drought stress in purple wheat[J]. Journal of Integrative Agriculture 2019, 18(0): 2–19.(SC-G,IF1.337)
[627].Meijuan Li, Jiaen Zhang, Shiwei Liu. et al. Mixed‐cropping systems of different rice cultivars have grain yield and quality advantages over mono‐cropping systems[J].Journal Of The Science Of Food And Agriculture, Volume99, Issue7 May 2019 Pages 3326-3334.(IF2.422)
[628].Meijuan Lia, Ronghua Lia, Shiwei Liu. et al. Rice-duck co-culture benefits grain 2-acetyl-1-pyrroline accumulation and quality and yield enhancement of fragrant rice[J].The Crop Journal,Volume 7, Issue 4, August 2019, Pages 419-430.(SC-E,IF3.179)
[629].Mengsi Kong, Qiao Qiao, Xiaolin Ma. et al. Isolation and functional analysis of the zmARM4 locus in a novel maize (Zea mays) grain‐filling mutant[J]. Plant Breeding,01 December 2019(SC-G,IF1.251)
[630].Mohammad AbubakarSiddika, JunZhanga, JinChen. et al. Responses of indica rice yield and quality to extreme high and low temperatures during the reproductive period[J].European Journal of Agronomy,Volume 106, May 2019, Pages 30-38.(SC-E,IF3.384)
[631].Pan, L., Lie, G., Xue, L. et al. Changes of Cinnamomum camphora root characteristics and soil properties under ozone stress in South China. Environ Sci Pollut Res 26, 30684–30692 (2019).(LA-S,IF2.914)
[632].Paul R. Armstrong, Anna M. McClung, Elizabeth B. Maghirang. et al. Detection of chalk in single kernels of long‐grain milled rice using imaging and visiblenear‐infrared instruments[J]. Cereal Chemistry,14 September 2019.(SC-G,IF1.289)
[633].Qiao-YunLi, Qiao-QiaoXu, Yu-MeiJiang. et al. The correlation between wheat black point and agronomic traits in the North China Plain[J].Crop Protection,Volume 119, May 2019, Pages 17-23(SC-G,IF2.172)
[634].Qifei Wang, Genlou Sun, Xifeng Ren. et al.Dissecting the Genetic Basis of Grain Size and Weight in Barley (Hordeum vulgare L.) by QTL and Comparative Genetic Analyses[J].Front. Plant Sci., 24 April 2019 | https://doi.org/10.3389/fpls.2019.00469.(SC-G,IF4.106)
[635].Ren, H., Wen, L., Guo, Y. et al. Expressional and Functional Verification of the Involvement of CmEXPA4 in Chrysanthemum Root Development. J Plant Growth Regul 38, 1375–1386 (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s00344-019-09940-x.(LA-S,IF2.179)
[636].Ruixin Xu, Wei Hu, Yanchen Zhou. et al. Use of near-infrared spectroscopy for the rapid evaluation of soybean [Glycine max (L.) Merri.] water soluble protein content[J].Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy,224(2020)(SC-G,IF2.931)
[637].Shi‐Xin Zhou, Yong Zhu, Liang‐Fang Wang. et al. Osa‐miR1873 fine‐tunes rice immunity against Magnaporthe oryzae and yield traits[J]. JIPB,21 December 2019.
[638].ShuhaoLia, YimanLia, XinruiHe. et al. Response of water balance and nitrogen assimilation in cucumber seedlings to CO2 enrichment and salt stress[J].Plant Physiology and Biochemistry, Volume 139, June 2019, Pages 256-263.(LA-S,IF3.404)
[639].Tiecheng Bai, Nannan Zhang, Benoit Mercatoris. et al. Improving Jujube Fruit Tree Yield Estimation at the Field Scale by Assimilating a Single Landsat Remotely-Sensed LAI into the WOFOST Model[J].Remote Sens. 2019, 11(9), 1119; https://doi.org/10.3390/rs11091119.(LA-S,IF4.118)
[640].Wang, W., Shen, J., Wang, C. et al. Safety and Feasibility of Helical I-125 Seed Implants Combined with Transcatheter Arterial Chemoembolization in Hepatocellular Carcinomas with Main Portal Vein Tumor Thrombus. Cardiovasc Intervent Radiol 42, 1420–1428 (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s00270-019-02256-z.(IF1.928)
[641].Wencai, D., Fangfei, C., Qiang, F. et al. Effect of soybean roots and a plough pan on the movement of soil water along a profile during rain. Appl Water Sci 9, 138 (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s13201-019-1025-6.
[642].Wu, J., Wang, L., Fu, J. et al. Resequencing of 683 common bean genotypes identifies yield component trait associations across a north–south cline. Nat Genet 52, 118–125 (2020). https://xs.scihub.ltd/https://doi.org/10.1038/s41588-019-0546-0.(SC-G,IF31.077)
[643].Xi, Y., Liu, H., Johnson, D. et al. Selenium enhances Conyza canadensis phytoremediation of polycyclic aromatic hydrocarbons in soil. J Soils Sediments 19, 2823–2835 (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s11368-019-02274-x.(IF2.669)
[644].Xia Zhang, Junling Pang, Xuhui Ma. et al. Multivariate analyses of root phenotype and dynamic transcriptome underscore valuable root traits and water‐deficit responsive gene networks in maize[J]. Plant Direct,Volume3, Issue3 March 2019 e00130
[645].Xiaolan Li, Xiang Lv, Xiaohong Wang. et al. Effects of abiotic stress on anthocyanin accumulation and grain weight in purple wheat[J].Crop and Pasture Science 69(12) 1208-1214 https://doi.org/10.1071/CP18341(SC-G,IF1.33)
[646].XiaolongYang, BenfuWang, LiangChen. et al. The different influences of drought stress at the flowering stage on rice physiological traits, grain yield, and quality[J].Scientific reports,2019.(SC-E,IF4.011)
[647].Xiaoqian Wang, Luhao Dong, Junmei Hu. et al. Dissecting genetic loci affecting grain morphological traits to improve grain weight via nested association mapping[J].Theoretical and Applied Genetics (2019) 132:3115–3128.(SC-E,IF3.926)
[648].Xin, F., Zhu, T., Wei, S. et al. QTL Mapping of Kernel Traits and Validation of a Major QTL for Kernel Length-Width Ratio Using SNP and Bulked Segregant Analysis in Wheat. Sci Rep 10, 25 (2020). https://xs.scihub.ltd/https://doi.org/10.1038/s41598-019-56979-7.(SC-G,IF4.011)
[649].Xinyu Chen, Zepeng Yin, Yang Yin. et al. Effects of Elevated Root-Zone CO2 on Root Morphology and Nitrogen Metabolism Revealed by Physiological and Transcriptome Analysis in Oriental Melon Seedling Roots[J].Int. J. Mol. Sci. 2020, 21(3), 803; https://doi.org/10.3390/ijms21030803
[650].Xiuying Gao, Jia-Qi Zhang, Xiaojun Zhang. et al. Rice qGL3OsPPKL1 Functions with the GSK3SHAGGY-Like Kinase OsGSK3 to Modulate Brassinosteroid Signaling[J]. The Plant Cell, May 2019. DOI: https://doi.org/10.1105/tpc.18.00836.(SC-E,IF8.631)
[651].XUE Pao, ZHANG Ying-xin, LOU Xiang-yang. et al. Mapping and genetic validation of a grain size QTL qGS7.1 in rice (Oryza sativa L.)[J].Journal of Integrative Agriculture 2019, 18(8): 1838–1850.(SC-G,IF1.337)
[652].Ya‐Fan Zhao, Ting Peng, Hong‐Zheng Sun. et al. miR1432‐OsACOT (Acyl‐CoA thioesterase) module determines grain yield via enhancing grain filling rate in rice[J].Plant Biotechnology Journal, 05 September 2018.(SC-G,IF6.84)
[653].Yang, L., Zhao, D., Meng, Z. et al. QTL mapping for grain yield-related traits in bread wheat via SNP-based selective genotyping. Theor Appl Genet (2019). https://xs.scihub.ltd/https://doi.org/10.1007/s00122-019-03511-0.(SC-G,IF3.996)
[654].Yanhong Song, Guangbin Luo, Lisha Shen. et al. TubZIP28, a novel bZIP family transcription factor from Triticum urartu, and TabZIP28, its homologue from Triticum aestivum, enhance starch synthesis in wheat[J]. The New Phytologist Trust,18 January 2020.
[655].Ying Xuan, Yang Yi, He Liang. et al. Effects of Meteorological Factors on the Yield and Quality of Special Rice in Different Periods after Anthesis[J].Agricultural Sciences, 2019, 10, 451-475.
[656].Yingying Liu, Xiaoli Wei , Zijing Zhou. et al. Influence of Heterogeneous Karst Microhabitats on the Root Foraging Ability of Chinese Windmill Palm (Trachycarpus fortunei) Seedlings[J].Int. J. Environ. Res. Public Health 2020, 17(2), 434; https://doi.org/10.3390/ijerph17020434.
[657].YingyingYang, ShiwuGaoYa, chunSuZhaoliLin. et al. Transcripts and low nitrogen tolerance Regulatory and metabolic pathways in sugarcane under low nitrogen stress[J].Environmental and Experimental Botany,Volume 163, July 2019, Pages 97-111(LA-S,IF3.712)
[658].Yiwang Zhu, Yarong Lin, Songbiao Chen. et al. CRISPR/Cas9‐mediated functional recovery of the recessive rc allele to develop red rice[J].Plant Biotechnology Journal (2019) 17, pp. 2096–2105.(SC-E,IF6.84)
[659].Yongbo Hong, Qunen Liu, Yongrun Cao. et al. The OsMPK15 Negatively Regulates Magnaporthe oryza and Xoo Disease Resistance via SA and JA Signaling Pathway in Rice[J].Front. Plant Sci., 21 June 2019 | https://doi.org/10.3389/fpls.2019.00752. (SC-G,IF4.106)
[660].Yunhua Chia, Kimani Wilson, Zhiquan Liu. et al. Vacuolar invertase genes SbVIN1 and SbVIN2 are differently associated with stem and kernel traits in sorghum (Sorghum bicolor)[J].The Crop Journal, Available online 29 October 2019(SC-E,IF3.179)
[661].YuzhouHuang, XiXiao, CaicaiXu. et al. Seagrass beds acting as a trap of microplastics - Emerging hotspot in the coastal region[J].Environmental Pollution, Volume 257, February 2020, 113450(AlgaeC,IF5.714)
[662].Zhang, H., Zhou, L., Xu, H. et al. The qSAC3 locus from indica rice effectively increases amylose content under a variety of conditions. BMC Plant Biol 19, 275 (2019). https://xs.scihub.ltd/https://doi.org/10.1186/s12870-019-1860-5.(SC-G,IF3.67)
[663].Zhang, K., Nie, L., Cheng, Q. et al. Effective editing for lysophosphatidic acid acyltransferase 2/5 in allotetraploid rapeseed (Brassica napus L.) using CRISPR-Cas9 system. Biotechnol Biofuels 12, 225 (2019). https://doi.org/10.1186/s13068-019-1567-8.(SC-G,IF5.452)
[664].ZhiqiangGao, QunenLiu, YingxinZhang. et al. A proteomic approach identifies novel proteins and metabolites for lesion mimic formation and disease resistance enhancement in rice[J]. Plant Science, Volume 287, October 2019, 110182.(SC-G,IF3.785)
[665].Zhiyu Fenga, Zhongqi Qia, Dejie Du. et al. Characterization of a new hexaploid triticale 6D(6A) substitution line with increased grain weight and decreased spikelet number[J].The Crop Journal, Volume 7, Issue 5, October 2019, Pages 598-607.(SC-G,IF3.179)
[666].JIN Jian-chu, LI Xiao-xiang, LI Yong-chao, et al. Genetic Similarity Analysis of Hunan Rice Landraces with Same or Similar Name in Household and Genebank Conservations[J]. Agricultural Science & Technology, 2018, 19(3): 9-20.
[667].Kashif Hussain.普通野生稻主效粒型QTL的遗传剖析[D].北京:中国农业科学院,2019
[668].Mohammad Abubakar Siddik.抽穗前后极端温度对籼稻产量和品质的影响及其机理[D].北京:中国农业科学院,2019
[669].Sadaruddin Chachar.C3植物籼、粳水稻光合作用相关基因及其与DNA甲基化关系的研究[D].北京:中国农业科学院,2019
[670].白磊.施氮量与密度对高油大豆光合生产及产质量的影响[D].东北农业大学,2019
[671].白云星,周运超.马尾松人工林根系对近自然经营措施的响应[J].中南林业科技大学学报,第39卷第11期2019年11月
[672].曹立勇,程式华,洪永波等.OsMPK15基因、编码蛋白和重组载体在水稻中的应用:CN 110184286 A,2019.08.30
[673].曾新颖,郭建斌,赵姣姣等.花生籽仁大小相关性状QTL定位[J].作物学报 ACTA AGRONOMICA SINICA 2019, 45(8): 12001207
[674].陈敬.长江上游杂交水稻亲本遗传多样性及其品质分析[D].西南科技大学,2019
[675].陈思,韩丽君.皂荚物候期初步研究[J].山西林业科技,第 48卷第3期,2019年9月
[676].陈总会,赵长臣,江小燕等.复合微生物菌剂对鲫鱼生长及消化功能的影响[J].水产养殖,第40卷 第7期,2019年7月
[677].陈祖静,高晓翠,周玮等.不同施肥量对辣木幼苗生长、光合和养分特征的影响[J].林业与环境科学.2019 年 4 月第 35 卷第 2 期
[678].戴妙飞.ICARDA小麦种质抗条锈资源筛选和抗病基因分析[D].西北农林科技大学,2019
[679].单云鹏,陈新慧,万平等.小豆种质资源苗期抗旱性评价及抗旱资源筛选[J].植物遗传资源学报,2019,20(5):1151-1159
[680].单云鹏.小豆种质资源抗旱性筛选鉴定及相关基因关联分析[D].北京农学院,2019
[681].邓娇燕.1-甲基环丙烯(1-MCP)缓解黄瓜和辣椒高温伤害的研究[D].北京:中国农业科学院,2019
[682].段朋根,徐劲松,李云海.用于增加籽粒产量的方法:CN 110603264 A,2019.12.20
[683].段伟,王保平,乔杰等.水肥控制对楸叶泡桐苗期生长和生物量及其分配的影响[J].中南林业科技大学学报,第39卷第10期2019年10月
[684].范萍.一种减轻赤潮的可降解塑料袋及其制作方法:CN 110003593 A,2019.07.12
[685].范昱.中国苦荞种质资源性状评价和荞麦属植物亲缘关系分析[D].成都大学,2019
[686].奉宝兵,魏祥进,焦桂爱等.CRISPR/Cas9技术编辑淀粉合成基因PUL[J].中国稻米 2019,25(5):99-104
[687].符超.小麦籽粒缺陷型QTL定位和候选基因分析[D].北京:中国农业科学院,2019
[688].付士朋,沈宏伟,王谦博等.刺五加种苗质量分级标准及其方法的优选[J].中国实验方剂学杂志,第 25 卷第 17 期,2019 年 9 月
[689].高文硕.插秧密度对水稻生长发育及产量形成的影响[D].东北农业大学,2019
[690].龚守贺,郑应龙,陶志英等.洪门水库浮游生物的群落结构特征[J].江西水产科技 2019 年第 4 期
[691].郭军,李家前,李豪圣等.高大山羊草Pm13染色体片段对小麦农艺和产量性状的影响[J].麦类作物学报,2019,39(4):387-392
[692].郭军,刘建军,李豪圣等.一种快速检测长穗偃麦草高产基因的分子:CN 109266779 A,2019.01.25
[693].郭军卢明娇,武智民等.1Ee染色体对小麦农艺和品质性状的影响研究[J].植物遗传资源学报 2019,20(4):854-860
[694].贺翔翔.两个甘蓝型油菜遗传作图群体的重测序及QTL定位分析[D].华中农业大学,2019
[695].贺鑫.不同磷水平下燕麦磷素营养及根系差异蛋白质组学研究[D].内蒙古农业大学,2019
[696].胡丹丹.新型甘蓝型油菜的群体改良和杂种优势分析[D].华中农业大学,2019
[697].胡晓飞,赵建国,高利岩等.石墨烯对树莓组培苗生长发育影响[J].新型碳材料,第34卷第5期2019年10月
[698].胡晓飞.石墨烯对树莓生长的影响及其在防治植物枯萎病中的应用[D].太原理工大学,2019
[699].扈战强,黄建颖,方长云等.基于计算机视觉技术测定大米吸水膨胀及饱和时间的方法:CN 110596329 A,2019.12.20
[700].黄冰艳,齐飞艳 ,孙子淇等.以分子标记辅助连续回交快速提高花生品种油酸含量及对其后代农艺性状的评价[J].作物学报,2019, 45(4): 546−555,DOI: 10.3724/SP.J.1006.2019.84096
[701].黄思思.基于SNP的150份硬粒小麦43个性状的关联分析[D].华中农业大学,2019
[702].焦灰敏,党艳青,周小魏.苹果砧木实生后代与亲本之间相关性状的研究[J].江苏农业科学 2019 年第 47 卷第 17 期
[703].荆瑞勇,王丽艳,郑桂萍等.水稻萌发期和幼苗期耐盐性鉴定指标筛选及综合评价[J].黑龙江八一农垦大学学报,第31卷第6期,2019年12月
[704].李发奎.黑果枸杞器官间生态化学计量特征比较研究[D].甘肃农业大学,2019
[705].李洪果,陈达镇,劳庆祥等.基于表型性状初步构建格木核心种质[J].分子植物育种,2019 年,第 17 卷,第 20 期,第 6881-6890页
[706].李洪果,陈达镇,许靖诗等.濒危植物格木天然种群的表型多样性及变异[J].林业科学,第55卷第4期2019年4月,doi: 10.11707 / j.1001-7488.20190408
[707].李锦明.基于机器视觉的玉米考种技术研究[D].杭州:杭州电子科技大学,2019
[708].李倩,田雅楠,尚庆茂等.潮汐灌溉供液高度对番茄穴盘苗水分和氮素利用效率的影响[J].华北农学报 ·2019 ,34 ( 6 ) : 126 -132
[709].李倩.番茄潮汐式育苗营养液细菌和真菌群落结构动态分析[D].北京:中国农业科学院,2019
[710].李盛婷,杨城,王冉等.草珊瑚植株表型对光照和氮素营养的响应[J].植物营养与肥料学报 2019, 25(8): 1441–1450
[711].李涛,陆炳,李俊等.2个小麦株高QTL位点验证及其对产量相关性状的效应分析[J].西南农业学报,2019年32卷3期
[712].刘臣艳,王德炉.蓝莓根系形态对不同肥种的响应特征及模糊综合评价[J].经济林研究,第37卷第3期2019年9月
[713].刘臣艳.蓝莓根系对不同肥种的生态响应研究[D].贵州大学,2019
[714].刘士玲,陈琳,杨保国等.氮磷肥对西南桦无性系生物量分配和根系形态的影响[J].南京 林 业 大 学 学 报 ( 自 然 科 学 版 )第 43 卷 第 5 期,2019 年 9 月
[715].刘士玲,贾宏炎,陈琳等.容器规格和添加生物炭的基质配方对西南桦幼苗生长的影响[J].生态学杂志 Chinese Journal of Ecology 2019,38( 9) : 2875-2882
[716].刘小玲,张亨,陈文等.种植物生长调节剂对楝叶吴萸叶绿素荧光和根系生长的影响[J].林业与环境科学,第35卷第4期2019年8月
[717].刘鑫铭,陈婷,刘锡铭等.含氨基酸水溶性肥料对巨峰葡萄的影响[J].福建农业学报 2019,34(7):782-789
[718].龙海,李涛,邓光兵等.一种用于辅助检测小麦高单穗小穗数性状[J].CN 109811074 A,2019.05.28
[719].龙起樟,黄永兰,唐秀英等.利用CRISPR_Cas9敲除OsNramp5基因创制低镉籼稻[J].中国水稻科学(Chin J Rice Sci), 2019, 33(5): 407-420
[720].罗艳,屈洋,杨清华等.播期对糜子农艺性状及淀粉理化性质的影响[J].中国农业科学 2019,52(22):4154-4165
[721].牟立同,土壤钻孔和果木屑腐熟物对苹果树生长及根区环境的影响[D].山东农业大学,2019
[722].倪明理,任勃,陈灿等.稻鱼(鳅)耦合对稻米品质的影响[J].作物研究,2019,33(5):398-401
[723].彭绪冰,邱法展,龚佃明等.玉米百粒重及粒长性状紧密连锁的分子标记及应用:CN 110106278 A,2019.08.09
[724].祁金玉,邓继峰,尹大川等.外生菌根菌对油松幼苗抗氧化酶活性及根系构型的影响.生态学报,2019,39( 8) :2826-2832.
[725].卿冬进,刘开强,邓国富等.基于PARMS技术的水稻粒形基因GW8分子标记的开发[J].西南农业学报,2019年32卷3期
[726].任红剑,柳斌,张冲等.山东地区茶用元宝枫品系的比较与筛选[J].山东林业科技 2019 年第 2 期
[727].石妮.长江重庆段四大家鱼国家级水产种质资源保护区鱼类时空分布特征的研究[D].重庆师范大学,2019
[728].史鹏.NaCl胁迫对3种沙棘幼苗生长发育的影响[J].山 西 林 业 科 技,2019 年 3 月,第 48 卷 第 1 期
[729].苏美玲.四种砧木对沃柑嫁接亲和性和生长结果比较研究[D].广西大学,2019
[730].唐鑫华,郭佳卓,张丽等.NaCl胁迫处理对马铃薯组培苗生理性状和荧光参数的影响[J].马铃薯产业与健康消费,2019
[731].万海霞,马璠,许浩等.宁夏南部黄土丘陵区典型草本群落根系垂直分布特征与土壤团聚体的关系[J].水土保持研究,第26卷第6期,2019年12月
[732].王汉中,师家勤,李娜等.油菜BnbHLH60基因在提高油菜产量中的应用:CN 106434740 B,2019.06.21
[733].王进宾.水稻异分支酸合成酶OsICS1在水杨酸合成途径中的功能研究[D].浙江师范大学,2019
[734].王磊,申皓月,骆灵喜等.再论硅藻生长促进复合物对蓝藻水华的控制作用[J].广东化工,第46卷总第405期,2019年第19期
[735].王丽艳,唐金敏,郑桂萍等.水稻萌发期和幼苗期耐低温指标体系构建及综合评价[J].中国农业科技导报,2019,21( 10) : 58-65
[736].王胜凡,王波,王磊等.益生藻生长促进剂及其制备方法和应用:CN 109810903 A,2019.05.28
[737].王文慧.水稻千粒重QTLqTGW1.2a的解析与精细定位[D].北京:中国农业科学院,2019
[738].王小波,关攀锋,辛明明等.小麦种质资源耐热性评价[J].中国农业科学,2019,52(23):4191-4200
[739].王晓琪,姚媛媛,刘之广等.宛氏拟青霉提取物对盐胁迫下水稻幼苗的生理适应性[J].农业资源与环境学报,2020,37(1): 98-105
[740].韦如萍,胡德活,晏姝等.植物生长调节剂和基质种类对杉木无性系瓶外生根组培苗质量的影响[J].西南林业大学学报,第39卷第6期,2019 年11月
[741].魏珂.调控水稻淀粉代谢及糖转运关键基因表达的效应研究[D].扬州大学,2019
[742].魏其超,张海洋,刘文萍等.干旱胁迫下芝麻籽粒品质及抗氧化能力变化分析[J].河南农业科学,2019,48( 9) : 30-39
[743].魏其超.干旱处理对芝麻品质和营养特性的影响研究[D].河南工业大学,2019
[744].吴敏,邓平,赵英等.不同林龄红锥人工林细根垂直分布和衰老生理特征[J].生态学杂志 Chinese Journal of Ecology 2019,38( 9) : 2622-2629
[745].吴少俊.基于计算机视觉的水稻叶绿素含量测定[J].农机化研究,2020 年 4 月第 4 期
[746].伍晓明,闫贵欣,曾长立等.一种蛋白及其基因在控制植物种子性状中的应用:CN 110606878 A,2019.12.24
[747].伍晓明,闫贵欣,张美丽等.一种蛋白及其基因在控制粒重和/或含油量中的应用:CN 110606879 A,2019.12.24
[748].伍晓明,闫贵欣,张美丽等.一种蛋白及其基因在控制植物性状中的应用:CN 110564735 A,2019.12.13
[749].谢娇.普通小麦RIL群体籽粒性状与穗部性状相 关性分析及人工合成小麦RIL群体创建与初步分析[D].西北农林科技大学,2019
[750].谢立红,黄庆阳,曹宏杰等.五大连池火山色木槭叶功能性状特征[J].生物多样性,2019, 27 (3): 286–296
[751].辛芳.小麦籽粒形状主效QTL定位分析[D].西北农林科技大学,2019
[752].徐高伟.大垄膜上交错双行丹参移栽机关键部件研究及整机设计[D].东北农业大学,2019
[753].徐志华,许 浩,李生宝.百里香群落根系特征研究[J].南方论坛,2019年6月上
[754].徐志华.黄土丘陵区主要草地群落根系特征研究[D].宁夏大学,2019
[755].薛亚荣,巴特尔·巴克.沙尘和遮阴复合胁迫对西梅叶片光合作用的影响[J].中国农业气象,2019,40(3):170-179
[756].鄢鹏,李国雷,冉红达等.蘸根处理方式对彰武松造林成效的影响-以北京山区为例[J].水土保持通报,第39卷第5期2019年10月
[757].严青青,张巨松,徐海江等.盐碱胁迫对海岛棉幼苗生物量分配和根系形态的影响[J].生态学报,第39卷第20期2019年10月
[758].颜丹丹.小麦抗倒伏相关性状的全基因组关联分析[D].山东农业大学,2019
[759].杨崇毅.大麦籽粒大小的全基因组关联分析[D].浙江大学,2019
[760].杨光,梁坤南,黄桂华等.柚木无性系扦插育苗研究[J].中南林业科技大学学报,第39卷第10期2019年10月
[761].杨澜,黄腐酸对平邑甜茶和八棱海棠耐盐生理特性的影响[D].山东农业大学,2019
[762].杨勇,陆彦,郭淑青等.籼稻背景下导入Wxin等位基因改良稻米食味和理化品质[J].作物学报 ACTA AGRONOMICA SINICA 2019, 45(11): 16281637
[763].杨哲.枣实生与杂交后代群体主要性状的遗传变异分析[D].塔里木大学,2019
[764].叶李波,江丽伟,江春华等.日本花柏人工林生长过程及其模型研究[J].绿色科技,2019
[765].殷月辉,小麦-长穗偃麦草异染色体系筛选与鉴定[J].山 东 农 业 科 学 2019,51( 4) : 1 ~ 6
[766].殷月辉.普通小麦中国春背景异染色体系的筛选与鉴定[D].山东农业大学,2019
[767].游慧,向珣朝,杨博文等.重穗型变异材料爪哇稻22的生理性状和遗传特性[J].农 业 生 物 技 术 学 报,2019, 27(6): 961~971
[768].游佳,谷晗,朱泽等.水稻粒质量和粒形QTL定位及粒长位点qGL3.2的鉴定[J].南京农业大学学报 2019,42( 4) : 612-621
[769].于潇,卢钰博,李希磊等.莱州湾浮游植物时空变化及其与环境因子的关系[J].烟台大学学报( 自然科学与工程版),第33卷第1期,2020年1月
[770].余 明,蔡金桓,薛立等.樟树(Cinnamomum)幼苗细根形态对氮磷添加和幼苗密度的响应[J].生态学报,第39卷第20期2019年10月
[771].余佳雯.过表达OsDWF4和OsBZR1基因对水稻产量和品质的影响[D].扬州大学,2019
[772].张爱敏,周国顺,付丽军等.低温胁迫下油菜素内酯对黄瓜种子萌发及幼苗生长的影响[J].中国瓜菜,2019,32(12):31-36
[773].张国庆,董丽丽,杨雨玲等.新安江流域水西河(黄山学院段)浮游植物群落结构周年调查[J].黄山学院学报,第21卷第5期,2019年10月
[774].张宏娟,李玉莹,苗丽丽等.小麦转录因子基因TaNAC67参与调控穗长和每穗小穗数[J].作物学报 ACTA AGRONOMICA SINICA 2019, 45(11): 16151627
[775].张宏娟.小麦TaNAC67基因抗逆分子机理及优异单倍型发掘[D].甘肃农业大学,2019
[776].张金汕.匀播和密度对小麦萌发及幼苗性状的影响[J].中国农学通报 2019.35(25):8-15
[777].张俊,刘 娟,臧秀旺等.麦秸覆盖对土壤理化性质及夏花生生长发育的影响[J].土壤通报,Vol . 50 , No . 3.Jun . , 2019
[778].张林,卞中,刘巧泉等.水稻粒长基因功能标记及其应用:CN 110616277 A,2019.12.27
[779].张鹏,杨颖,奚如春等.油茶大规格容器苗质量及其造林效果评价[J].经济林研究,Vol.37 No.1 Mar.2019
[780].张平,伍洪铭,张福鳞等.通过RNAi技术下调OsLOX提高水稻种子耐储性[J].南京农业大学学报 2019,42( 6) : 996-1005
[781].张胜忠,苗华荣,赵立波等.花生种子长宽比性状遗传分析和相关SSR标记筛选[J].花生学报2019,18(3):1-8
[782].张伟珍,段廷玉.AM真菌对箭筈豌豆响应豌豆蚜取食的影响[J].草地学报,第27卷第6期,2019年11月
[783].张晓霞,杨会,张秀荣等.花生子仁长宽及单仁重的遗传分析[J].山东农业科学 2019,51( 9) : 73 ~ 78,86
[784].张新友,郑峥,齐飞艳等.一种采用分生孢子接种鉴定花生网斑病抗病性的方法:CN 110100685 A,2019.08.09
[785].张玉娟.硬粒小麦灌浆特性及粒重与SNP标记的关联分析[D].华中农业大学,2019
[786].张鋆.绿豆开花结荚习性及籽粒形成过程中物质积累研究[D].西北农林科技大学,2019
[787].赵春华,崔法,张萌娜等.与小麦旗叶宽度主效QTL紧密连锁的分子标记及应用:CN 109913574 A,2019.06.21
[788].赵达.稻米品质性状的全基因组关联分析及品质相关基因的遗传解析[D].华中农业大学,2019
[789].赵思怡,陈菲,张鹤山等.51份红三叶种质资源萌发期耐铜性评价[J].种子,第38卷 第4期 2019年4月
[790].赵滢.华南水稻重要农艺性状演变规律及粒型性状GWAS分析[D].长江大学,2019
[791].赵占营,楚光红,李思忠等.栽培密度对高产大豆根系生长及花荚形成的影响[J].干旱地区农业研究,第37卷第5期2019年9月
[792].郑敏娜,韩志顺,梁秀芝等.不同生长年限紫花苜蓿根系形态特征分析[J].中国草地学报,第41卷第6期,2019年11月
[793].周雷,游艾青,李二敬等.水稻细长粒基因SLG7分子标记引物及其应用:CN 110592079 A,2019.12.20
[794].周帅,郝向春,翟瑜等.4种激素浸种对南极假山毛榉萌发与幼苗生长的影响[J].西北林学院学报2019,34(2):92-97
[795].朱安东.水稻微效粒重粒形QTL定位及其中5个QTL的验证[D].北京:中国农业科学院,2019
[796].朱灿,刘慧刚,顾彦等.外源硒对萘胁迫下车前草生长及土壤修复能力的影响[J].农业环境科学学报,2019,38(11): 2511-2519
[797].朱红菊.四倍体西瓜幼苗耐盐机制研究[D].华中农业大学,2019
[798].朱盈,徐栋,胡蕾等.江淮优良食味高产中熟常规粳稻品种的特征[J].作物学报,2019, 45(4):578−588, DOI:10.3724/SP.J.1006.2019.82040
[799].朱玉君.水稻千粒重QTL_qTGW10_20.8的精细定位和候选基因分析[D].华中农业大学,2019
[800].朱子超,何永歆,欧阳杰等.水稻早代跟踪叶绿素b含量创制耐寡照不育系初探[J].南方农业,,第13卷第34期,2019年12月
[801].邹金伟.ICARDA引进小麦的品质性状优异种质鉴定[D].西北农林科技大学,2019
[802].Huang, X. et al. Genomic analysis of hybrid rice varieties reveals numerous superior alleles that contribute to heterosis. Nat. Commun. 6:6258 doi: 10.1038/ncomms7258 (2015).
[803].Chunyun Jiang,Danny Tholen,Jiajia Mercedes Xu,Changpeng Xin,Hui Zhang,Xinguang Zhu,Yanxiu Zhao.Increased expression of mitochondria-localized carbonic anhydrase activity resulted in an increased biomass accumulation in Arabidopsis thaliana[J].Journal of Plant Biology,December 2014,Volume 57,Issue 6,pp 366-374
[804].Jianguo Mana,Dong Wanga,Philip J. Whiteb,Zhenwen Yu.The length of micro-sprinkling hoses delivering supplemental irrigation affects photosynthesis and dry matter production of winter wheat[J].Field Crops Research,Volume 168,November 2014,Pages 65-74
[805].Pengliang Yao,Civil Eng.,Xinguang Dong.Using HYDRUS-2D Simulate Soil Water Dynamic in jujube root zone under drip irrigation[J].Water Resource and Environmental Protection,Vol.1:684-688
[806].Q Qiu,JY Li,JH Wang,Q He,Y Su.Interactions between Soil Water and Fertilizer Application on Fine Root Biomass Yield and Morphology of Catalpa bungei Seedling[J].Applied Mechanics and Materials,Vol.700(2015)pp 323-333
[807].Xiaodong Wang,Huiqing Liu.RESPONSES OF TREE ISLANDS TO AIR TEMPERATURE CHANGE AT TREELINE ON NORTH-FACING SLOPES OF THE CHANGBAI MOUNTAINS[J].Physical Geography,2011,32,4,pp.374–392
[808].Xingang Zhou,Fengzhi Wu.Artificially applied vanillic acid changed soil microbial communities in the rhizosphere of cucumber (Cucumis sativus L.)[J].Canadian Journal of Soil Science,2013,93(1):13-21
[809].Changyun Fang,Xianqiao Hu,Chengxiao Sun,Binwu Duan,Lihong Xie,Ping Zhou.Simultaneous Determination of Multi Rice Quality Parameters Using Image Analysis Method.Food Analytical Methods[J].January 2015,Volume 8,Issue 1,pp 70-78
[810].Xingang Zhou,Gaobo Yu,Fengzhi Wu.Responses of Soil Microbial Communities in the Rhizosphere of Cucumber (Cucumis sativus L.) to Exogenously Applied p-Hydroxybenzoic Acid[J].J Chem Ecol,2012,38:975–983
[811].Zhou X,Wu F.p-Coumaric Acid Influenced Cucumber Rhizosphere Soil Microbial Communities and the Growth of Fusarium oxysporum f.sp. cucumerinum Owen[J]. PLoS ONE 7(10): e48288. doi:10.1371/journal.pone.0048288
[812].蔡坚,丁晓纲,张应中,刘喻娟,李永泉,朱雯,张祥宇.缺素对广宁红花油茶幼苗生长的影响[J].中国农学通报,2014,30(28):53-56
[813].陈功,张其圣,余文华,宋萍,刘竹,李恒,游敬刚.四川泡菜乳酸菌多样性及其功能特性[J].食品与发酵工业,2013,39(3):1-4
[814].陈为序,李瑶,李太强,鲍印广,童依平,王洪刚,李兴锋.小偃麦种质系山农0095耐低磷胁迫特性研究[J].麦类作物学报,2013,33(4):765-770
[815].陈为序.小偃麦种质系山农303耐低磷特性研究及相关性状QTL分析[D].泰安:山东农业大学,2013
[816].陈媛文,高健,张颖,马艳军,齐飞艳.水培条件下不同磷水平对毛竹实生苗生长发育的影响[J].热带亚热带植物学报,2013,21(1):78-84
[817].陈媛文.毛竹实生苗对磷的响应及PheWRKY2基因的研究[D].北京:中国林业科学研究院,2012
[818].崔嘉成,刘佳,梅德圣,李云昌,付丽,彭鹏飞,王军,胡琼.甘蓝型油菜裂角相关性状的遗传与相关分析[J].作物学,2013,39(10):1791-1798
[819].崔嘉成,梅德圣,李云昌,刘佳,付丽,彭鹏飞,王军,王会,胡琼.甘蓝型油菜角果相关性状对抗裂角性遗传贡献率分析[J].中国油料作物学报,2013,35(5):461-468
[820].崔嘉成.杂交油菜优异亲本重要农艺性状的遗传分析[D].北京:中国农业科学院,2013
[821].丁晓纲,刘喻娟,张晓珊,张应中,蔡坚,贾朋,陈清凤.不同浓度指数施肥对美丽异木棉等3个树种幼苗生长的影响[J].生态环境学报,2013, 22(4):619-624
[822].丁晓纲,刘喻娟,张应中,蔡坚,梁梓毅,朱雯,陈清凤.不同氮素浓度指数施肥对银桦、蓝花楹幼苗生长及其根系和叶片的影响[J].中国农学通报2013,29(19):39-45
[823].丁晓纲,张应中,刘喻娟,张祥宇,陈清凤,蔡 坚,李永泉,李远平.广东省油茶幼林大田平衡施肥技术[J].经济林研究,2013,31(3):21-28
[824].丁晓纲.黑木相思苗期平茬与施肥技术研究[D].北京:北京林业大学,2011
[825].冯梅.胡杨叶形变化与个体发育阶段的关系研究[D].阿拉尔:塔里木大学,2014
[826].高晓旭.黄瓜、番茄幼苗下胚轴徒长制御及作用机理[D].北京:中国农业科学院,2011
[827].关颂娜,不同氮效率黄瓜品种根际土壤生态环境特征研究[D].哈尔滨:东北农业大学,2013
[828].郭孝玉,刘燕,孙玉军,宁阳翠.使用万深LA-S年轮分析仪测定年轮宽度[J].江西农业大学学报,2011,33(S1):68-72
[829].郭孝玉.长白落叶松人工林树冠结构及生长模型研究[D].北京:北京林业大学,2013
[830].何茜,丁晓纲,王冉,李吉跃,张方秋,潘文.指数施肥下黑木相思根系特征值的动态变化[J].广东林业科技,2011,27(5):1-6
[831].何茜,王冉,李吉跃,张方秋,丁晓纲,潘文.不同浓度指数施肥方法下马来沉香与土沉香苗期需肥规律[J].植物营养与肥料学报,2012,18(5):1193-1203
[832].胡迪.植物叶片测量方法的研究[D].沈阳:沈阳工业大学,2011
[833].江静.水稻粒型性状的遗传研究及主效QTL的精细定位[D].金华:浙江师范大学,2014
[834].姜爽.不同氮效率黄瓜品种筛选及其根系生物学差异[D].哈尔滨:东北农业大学,2012
[835].李国瑜,李瑶,陈为序,王洪刚.济麦22及其转TaPHR1基因植株的磷胁迫反应研究[J].山东农业科学,2012,44(9):63-69
[836].李国瑜.小麦磷高效基因TaPHR1的转化及遗传分析[D].泰安:山东农业大学,2012
[837].李楠,廖康,成小龙,耿文娟,李永闲,宁万军,邱晨.‘库尔勒香梨’根系分布特征研究[J].果树学报,2012,29(6):1036-1039
[838].李楠.‘库尔勒香梨’生长发育动态及施肥技术研究[D].乌鲁木齐:新疆农业大学,2013
[839].李欣怡,王海珍,李加好.胡杨不同冠层叶片的形态特征及对水胁迫的响应[J].安徽农业科学,2015,43(5):156-158
[840].李瑶.山东省小麦品种(系)及携带TaPHR1基因新种质的磷效率鉴定[D].泰安:山东农业大学,2013
[841].林文春,余守武,阮关海,樊叶杨,谢建坤.水稻千粒重QTL qtgw1基因的精细定位[J].核农学报,2014,28(2):0217-0223
[842].林文春.水稻第1染色体上千粒重和粒型QTL的精细定位[D].南昌:江西师范大学,2013
[843].林雯,何茜,苏艳,李吉跃,王军辉,邱权.干旱胁迫对欧洲云杉水分生理特征的影响[J].西北农林科技大学学报(自然科学版),2014,42(6):69-77
[844].刘德良,张晓珊,丁晓纲.指数施肥对美丽异木棉幼苗生长及光合生理的影响[J].林业世界,2013,2,40-46
[845].刘君红.海岛棉高产群体生长分析及水分生理指标空间变异规律研究[D].阿拉尔:塔里木大学,2011
[846].刘明峰,胡先朋,廖宜涛,廖庆喜,万星宇,冀牧野.不同油菜品种适栽期机械化移栽植株形态特征研究[J].农业工程学报,2015,31(s1):79-88
[847].刘奇华,吴修,陈博聪,信彩云,陈峰,王瑜,孙召文,马加清.灌溉方式对黄淮稻区优质粳米品质的影响[J].应用生态学报,2014,25(9):2583-2590
[848].刘艳春.稻米外观品质相关性状QTL分析[D].北京:中国农业科学院,2012
[849].陆燕梅,徐柄光,沈有信.云南石林地区喀斯特山地萌生团花新木姜子年轮特征与环境因子的关系[J].广西植物,2014,34(2):276-280
[850].罗丽丽.水稻颖壳厚度及相关性状的遗传分析和QTL定位[D].杭州:杭州师范大学,2013
[851].马科.粳稻多基因型杂种优势利用研究[D].长春:吉林农业大学,2014
[852].朴锦,王坤,具红光.关苍术种子种用性能比较研究[J].种子,2015,34(2):28-31
[853].齐明阳.日光温室黄瓜CO2施肥技术研究[D].洛阳:河南科技大学,2014
[854].邱权,李吉跃,王军辉,何茜,苏艳,马建伟,杜坤,潘昕.干旱胁迫下青藏高原4种灌木生物量和根系变化特征及抗旱性[J].西北林学院学报,2013,28(3):1-6
[855].邱权,潘昕,李吉跃,何茜,苏艳,董蕾.速生树种尾巨桉和竹柳幼苗的光合特性和根系特征比较[J].中南林业科技大学学报,2014,34(1):53-59
[856].邱权,潘昕,李吉跃,王军辉,董蕾,马建伟,杜坤.青藏高原20种灌木生长时期根系特征及抗旱性初探[J].中南林业科技大学学报,2014,43(3):29-37
[857].邱权,潘昕,李吉跃,王军辉,马建伟,杜 坤.青藏高原20种灌木抗旱形态和生理特征[J].植物生态学报,2014,38(6):562-575
[858].史婷婷,深浩,林涛,杨清,黄三文.黄瓜叶面积主效QTL小叶2基因(ll2)的遗传定位[J].农业生物技术学报,2014,22(4):415-421
[859].宋宏峰,郭磊,张斌斌,汪晨雨.除草剂对毛桃幼苗生长与光合的影响[J].园艺学报,2014,41(11):2208-2214
[860].宋秖苏,华娇,蓝景针,夏世峰.转盘斜刮式光电自动数粒仪设计[J].农业机械学报,第42卷第11期
[861].苏军,张武君,杜琳,宋亚娜,付艳萍.磷胁迫下蔗糖对水稻苗期根适应性和磷酸转运蛋白基因表达的影响[J].中国生态农业学报,2014,22(11):1334-1340
[862].孙坤,蒋碧玉,张世虎,侯勤正,苏雪.西藏沙棘叶片性状对水热条件的响应研究[J].西北师范大学学报(自然科学版),2014,50(6):71-76
[863].孙艺文.不同作物残茬及秸秆对连作土壤的修复作用[D].哈尔滨:东北农业大学,2013
[864].汤秋香,林涛,苏秀娟,石大伟,高文伟,田立文,郭仁松,叶强涛,林毅.施氮对南疆干旱荒漠绿洲枣棉间作棉田根际微生物区系的影响研究[J].中国农学通报,2014,30(21):118-123
[865].田福宽.水稻产量相关性状的遗传研究和QTL定位[D].杭州:杭州师范大学,2013
[866].王静.不同磷水平处理对水稻幼苗生长及部分矿质元素吸收的影响[D].重庆:西南大学,2014
[867].王力朋,晏紫伊,李吉跃,王军辉,何茜,苏艳.指数施肥对楸树无性系生物量分配和根系形态的影响[J].生态学报,2012,32(23):7452-7462
[868].王冉,何茜,丁晓纲,李吉跃,张方秋,朱报著,苏艳.N素指数施肥对沉香苗期光合生理特性的影响[J].北京林业大学学报,2011,33(6):58-64
[869].王冉,何茜,丁晓纲,李吉跃,张方秋,朱报著.氮磷钾配比施肥对珍贵树种马来沉香苗期光合生理特性的影响[C].中国科协年会: 中国西部生态林业和民生林业与科技创新学术研讨会,2013
[870].王冉,李吉跃,张方秋,朱报著,潘文.不同施肥方法对马来沉香和土沉香苗期根系生长的影响[J].生态学报,2011,31(1):0098-0106
[871].王冉.沉香植物苗期营养特性与施肥效应研究[D].北京:北京林业大学,2011
[872].王月海,许景伟,韩友吉,佀庆柱,姜福成.黄河三角洲5个耐盐树种苗木根系形态结构特征[J].水土保持研究,2014,21(1):261-266
[873].王月海,许景伟,韩友吉,佀庆柱,姜福成.黄河三角洲五个耐盐树种苗木生物量比较[J].林业技术开发,2013,27(4):52-55
[874].吴月燕,崔鹏,李波.薄膜覆盖对葡萄生长和生理特性的影响[J].果树学报,2011,28(6):991-997
[875].徐丽红.小麦残茬对连作西瓜生长及根际土壤微生物的影响[D].哈尔滨:东北农业大学,2014
[876].闫丽娟,杨洪强,苏倩,门秀巾,张玮玮.施用炭化苹果枝粉末对平邑甜茶生长及根系构型的影响[J].园艺学报,2014,41(7):1436-1442
[877].闫丽娟.生物炭对苹果根系及根区土壤硝酸盐代谢的影响[D].泰安:山东农业大学,2014
[878].杨孟拓.基于视频的隧道火灾早期预报技术研究[D].西安:长安大学,2014
[879].杨伟,高疆生,徐崇志,吴翠云,金强,红枣叶面积指数与产量的相关性分析[J].新疆农业科学,2012.08.004:1397-1400
[880].杨韵龙,吴建国,周元飞,石春海.一个新的水稻小穗梗弯曲突变体的形态特征及基因定位[J].遗传HEREDITAS(Beijing),2013年2月,35(2):208-214
[881].杨韵龙.水稻穗形突变体的形态特征和基因定位[D].杭州:浙江大学,2013
[882].姚鹏亮,董新光,郭开政,马英杰,岳文俊.滴灌条件下干旱区枣树根区的土壤水分动态模拟[J].西北农林科技大学学报(自然科学版),2011,39(10):149-156
[883].姚鹏亮.干旱区枣树小气候试验和根区土壤水分模拟研究[D].乌鲁木齐:新疆农业大学,2011
[884].姚玉仙.水稻直链淀粉合成基因Osgbss Ⅱ的研究[D].福州:福建农林大学,2013
[885].余曼丽.小麦籽粒性状的QTL定位分析[D].北京:中国农业科学院,2014
[886].翟书华,王斌,苏源,岑晓江,张飞梦.波叶海菜花不同居群叶面积指数的变化及分析[J].北方园艺,2014年(9):90-92
[887].占小登.水稻农艺性状QTL分析及抽穗期QTLqHD5的鉴定[D].北京:中国农业科学院,2013
[888].张宏伟,陈玉宇,陈俊宇,朱玉君,黄得润,应杰政,樊叶杨,庄杰云.微效千粒重QTL qTGW1.1的验证[J].中国作物学会2013年学术年会论文摘要集
[889].张宏伟.水稻千粒重QTL qTGW1.1的验证[D].北京:中国农业科学院,2014
[890].张启莉.籼稻米蛋白质影响米饭蒸煮食味品质的研究[D].成都:四川农业大学,2012
[891].张亚兰.肠杆菌科中产超广谱β-内酰胺酶菌株的基因型分析[D].武汉:湖北中医药大学,2012
[892].郑萌.乳品企业产品质量控制及发酵蔬菜乳饮料研发[D],呼和浩特:内蒙古农业大学,2012
[893].朱雯,丁晓纲,张应中,刘喻娟,蔡坚,李永泉.缺素对高州油茶幼苗生长的影响[J].中国农学通报,2014,30(25):61-65
[894].Gaoneng Shao,Xiangjin Wei,Mingliang Chen,Shaoqing Tang,Ju Luo,Guiai Jiao,Lihong Xie,Peisong Hu.Allelic variation for a candidate gene for GS7, responsible for grain shape in rice[J].Theoretical and Applied Genetics,2012,125(6):1303-1312
[895].Tang Shao-qing,Shao Gao-neng,Wei Xiang-jin,Chen Ming-liang,Sheng Zhong-hua,Luo Ju,Jiao Gui-ai,Xie Li-hong,Hu Pei-song.QTL mapping of grain weight in rice and the validation of the QTL qTGW3.2[J].Gene,2013,527(1):20-206
[896].Fengxia Wu,Li Lin,Jian-Wen Qiu,Hao Chen,Shaoping Weng,Tiangang Luan.Complex effects of two presumably antagonistic endocrine disrupting compounds on the goldfish Carassius aumtus: A comprehensive study with multiple toxicological endpoints[J].Aquatic Toxicology,2014,155:43-51
[897].Lihong Xie,Shaoqing Tang,Neng Chen,Ju Luo,Guiai Jiao,Gaoneng Shao,Xiangjin Wei,Peisong Hu.Rice Grain Morphological Characteristics Correlate with Grain Weight and Milling Quality[J].Cereal Chemistry,2013,90(6):587-593
[898].Qihua Liu,Xiu Wu,Jiaqing Ma,Caiyun Xin.Effects of Cultivars, Transplanting Patterns, Environment and Their Interactions on Grain Quality of Japonica Rice[J].Cereal Chemistry,2015
[899].ZHANG Hong-wei,CHEN Yu-yu,CHEN Jun-yu,ZHU Yu-jun,HUANG De-run,FAN Ye-yang,ZHUANG Jie-yun.Mapping of qTGW1.1, a Quantitative Trait Locus for 1000-Grain Weight in Rice (Oryza sativa L.)[J].Rice Science,2015,22(1):9-15
[900].Zhenyuan Shi, Yuchun Rao, Jie Xu, et al.Characterization and cloning of SMALL GRAIN 4, a novel DWARF11 allele that affects brassinosteroid biosynthesis in rice[J].Science Bulletin,2015
[901].李雪倩,徐冉,段朋根,伍应保,罗越华,李云海.水稻窄叶突变体zy17的遗传分析和候选基因鉴定[J].遗传,2015
[902].李加好,刘帅飞,李志军.胡杨枝、叶和花芽形态数量变化与个体发育阶段的关系[J],生态学杂志,201534(4):941-946
[903].XINGANG ZHOU,FENGZHI WU.CHANGES IN SOIL CHEMICAL CHARACTERS AND ENZYME ACTIVITIES DURING CONTINUOUS MONOCROPPING OF CUCUMBER (CUCUMIS SATIVUS)[J].Pak. J. Bot., 47(2): 691-697, 2015.
[904].Changbin Yin,Huihui Li,Shanshan Li,Lidong Xu,Zhigang Zhao,Jiankang Wang.Genetic dissection on rice grain shape by the two-dimensional image analysis in one japonica×indica population consisting of recombinant inbred lines[J].Theoretical and Applied Genetics(2015年IF:3.790),DOI 10.1007/s00122-015-2560-7
[905].Fang Changyun, Hu Xianqiao, Sun Chengxiao, et al. Simultaneous Determination of Multi Rice Quality Parameters Using Image Analysis Method[J].Food Analytical Methods (2014)8:70-78
[906].Wu, Yueyan; Fu, Tao; Liu, Rong; Rao, Huiyun. Physiological and Biochemical Responses of Grape Yinhong Seedlings to Short-term Weak-light Stress[J].Agricultural Science & Technology16.2 (Feb 2015): 200-204,223.
[907].韩亚楠.Co-γ辐射对盐胁迫下乌拉尔甘草耐盐性的影响[D].石河子:石河子大学,2015
[908].杨丽聪.7种玄参科植物种子萌发期抗逆性评价研究[D].阿拉尔:塔里木大学,2015
[909].Liu Mingfeng,Hu Xianpeng,Liao Yitao,Liao Qingxi,Wan Xingyu,Ji Muye.Morphological parameters characteristics of mechanically transplanted plant in suitable transplanting period for different rape varieties[J].Transactions of the Chinese Society of Agricultural Engineering,2015 Supplement,Vol.31,p79-88.10p
[910].李加好,刘帅飞,李志军.胡杨枝、叶和花芽形态数量变化与个体发育阶段的关系[J].生态学杂志Chinese Journal of Ecology 2015,34(4):941-946
[911].朱春群,侯启瑞,何恩洁,徐杰,陈涛.SC-C型蚕卵数自动检测系统应用效果比较[J].中国蚕业,2015,36( 3): 28-31
[912].宋礽苏,蓝景针,夏世峰,华娇.ZPXG-18型转盘斜刮式自动光电数粒仪和千粒重仪的设计[J].浙江农业学报 Acta Agriculturae Zhejiangensis,2011,23(5):1023-1028
[913].潘圣刚,闻祥成,田华,陈益培,莫钊文,段美洋,唐湘如.播种密度和壮秧剂对水稻秧苗生理特性的影响[J].华南农业大学学报 2015,36(3):32-36
[914].俞超,章泽焕,汪财生,马世迎,金从标.不同断根方式对“鄞红”葡萄生长及品质的影响[J].中国南方果树,2015,44(3):117-119
[915].王静,章林平,王利鹃,朱亦君,邵国胜,崔翠.不同磷素水平对水稻根系生长及部分营养元素吸收的影响[J].西南大学学报(自然科学版),2015,37(7):30-36
[916].李恒,冉茂林,张其圣,李晓梅,王国芳,王志强,张伟,吴奇谦,陈功.不同萝卜品种盐渍的适宜性评价[J].食品与发酵科学,2015,51(2):39-45
[917].柯用春,曹明,杨小锋,任红,黄植,王育瑞,陈广旺,林福,许江伟.不同浓度有机水溶肥对热带设施甜瓜产量和品质的影响[J].新疆农业科学 2015,52(2):217-221
[918].高疆生,唐都,徐崇志,李湘钰,王艳,冯一峰.不同施肥方案对幼龄枣树营养生长特性及产量的影响[J].新疆农业科学,2015,52(4):637-642
[919].王燕,晏紫依,苏艳,何茜,李吉跃,王军辉,王力朋.不同施肥方法对欧洲云杉生长生理和根系形态的影响[J].西北林学院学报2015,30(6):15-21
[920].牛莹莹,廖康,赵世荣,贾杨,彭晓莉,庞洪翔,江振斌.不同栽植密度库尔勒香梨树冠结构及产量品质差异分析[J].新疆农业科学 2015,52(8):1425-1431
[921].魏彪,邹威,刘影,金虎,王庆斌,陶双勇.不同种源和家系山丁子幼苗叶片生长及苗高差异性分析[J].安徽农业科学,Journal of Anhui Agri.Sci.2015,43(25):148-150
[922].朱晋宇,惠 放,李苗,马韫韬,余宏军,蒋卫杰.氮水平对盆栽沙培番茄苗期根系三维构型与氮素利用的影响[J].农业工程学报,2015,31(23):131-137
[923].苏艳,何茜,晏紫依,李吉跃,王军辉.氮素供应对欧洲云杉根系生长发育效应分析[J].中国农学通报 2015,31(16):1-5
[924].李晶,张丽芳,焦 健,李改玲,顾万荣.低温胁迫下外源ABA对玉米幼苗生长影响[J].东北农业大学学报,2015,46(11):1-7
[925].耿翠敏.丁草胺、毒死蜱对浮游生物的生态风险研究[D].杭州:浙江大学,2015
[926].王傲雪,张莉莉,王旭,曲薇,康立功,陈秀玲.粉红粘帚菌对番茄促生作用及施用方式研究[J].东北农业大学学报,2015,46(10):37-44
[927].李娜.甘蓝型油菜粒重母体调控机理解析[D].中国农业科学院,2015
[928].陈雪.干旱胁迫对不同大麦生长发育、产量和品质的影响[D].杭州:浙江大学,2015
[929].俞超,马世迎,汪财生,章泽焕,金从标.根域限制对“鄞红”葡萄长势及品质的影响[J].现代园艺,2015,7:13-14
[930].李加好.胡杨阶段转变过程枝、叶和花芽形态数量变化及生理特征研究[D].阿拉尔:塔里木大学,2015
[931].李加好,冯梅,李志军.胡杨叶片碳水化合物及可溶性蛋白特征与叶形变化和个体发育阶段的关系[J].植物研究,2015,35(4):521-527
[932].赖苏雯.基于土壤氮磷比的生境资源梯度水平和次序对结缕草克隆生长的影响[D].上海:华东师范大学,2015
[933].汤秋香,林涛,苏秀娟,董文杰,石书兵.极端干旱区滴灌量对冬小麦水氮利用及根系分布的影响[J].麦类作物学报,2015,35(10):1412-1418
[934].潘磊,李依,余晓露,郭瑞,陈禅友.豇豆产量性状与SSR分子标记的关联分析[J].湖北农业科学,2015,54(16):3953-3958
[935].李丽,陈林,张婷婷,银永安,朱江艳,赵双玲.膜下滴灌对水稻根系形态及生理性状的影响[J].排灌机械工程学报,2015,33(6):536-540
[936].冯芳玖,李静婷,郭丹凤,王海,钱英,莫亿伟.年份气温差异对野生型和转OsPIN1a基因水稻胚乳发育及种子萌发的影响[J].核农学报,2015,29(11):2198-2207
[937].张海波.碾磨度对稻米蒸煮品质和营养品质的影响[D].杭州:浙江大学,2015
[938].柯用春,曹明,杨小锋,黄植,宋利强,刘莹.喷施不同浓度有机硅肥对热带地区甜瓜产量和品质的影响[J].南方农业学报 Journal of Southern Agriculture 2015,46(1):53-57
[939].吴晓丽,汤永禄,李朝苏,吴春,黄钢.秋季玉米秸秆覆盖对丘陵旱地小麦生理特性及水分利用效率的影响[J].作物学报,2015,41(6):929-937
[940].王琳琳.水稻第1染色体qTGW1_2区域3个QTL的分解和验证[D].中国农业科学院,2015
[941].王琳琳,陈玉宇,郭梁,张宏伟,樊叶杨,庄杰云.水稻第1染色体qTGW1.2区域粒重组分性状QTL的剖析[J].中国水稻科学,2015,29(3):232-240
[942].高方远,罗正良,任鄄胜,吴贤婷,陆贤军,苏相文,吕建群,任光俊.水稻粒厚主效位点qGT8 精细定位和候选基因分析[J].中国农业科学,2015,48(24):4859-4871
[943].石珍源.水稻粒型QTLqGW12的精细定位和粒长调控基因SG4的克隆与功能验证[D].中国农业科学院,2015
[944].Zhenyuan Shi,Yuchun Rao,Jie Xu,Shikai Hu,Yunxia Fang,et.al.Characterization and cloning of SMALL GRAIN 4, a novel DWARF11 allele that affects brassinosteroid biosynthesis in rice[J].Sci. Bull. (2015) 60(10):905–915
[945].丁华,王婧,赵明明,严伟,周有祥,杨洁.图像法在稻米外观品质测定中的应用研究[J].湖北农业科学,2015,54(23):6012-6014
[946].张冬冬.小麦TaGASR7部分同源基因表达调控及其功能初步研究[D].中国农业科学院,2015
[947].许秀玉,肖莉,王明怀,张华新.沿海抗台风树种评价体系构建与选择[J].浙江农林大学学报,2015,32(4):516-522
[948].李学孚,倪智敏,吴月燕,李美芹,刘蓉,饶慧云.盐胁迫对‘鄞红’葡萄光合特性及叶片细胞结构的影响[J]. 生态学报,2015,35(13):4436-4444
[949].王志刚,胡云龙,徐伟慧,胡影,刘帅,张颖,王春龙.一株溶磷菌的分离鉴定及对西瓜根系的促生效应[J].浙江农业学报,2015,27(5):798-803
[950].何茜,苏艳,晏紫伊,李吉跃,王军辉,王力朋.增施氮肥对欧洲云杉光合生理特性的影响[J].生态科学,2015,34(3):109-115
[951].钱萍仙,李学孚,吴月燕,饶慧云,刘蓉,李美芹,付涛.江苏农业学报,2015,31(3):667-672
[952].郭海宇.植物根系图像的特征分析方法研究与实现[D].成都:电子科技大学,2013
[953].孙阳.高产优质粳稻品种引种湖北的农艺性状评估[D].武汉:华中农业大学,2014
[954].王自奎.小麦、玉米间作复合群体光能和水分传输利用试验与模拟研究[D].西安:西北农林科技大学,2015
[955].Ming-Jian, HuHai-Ping, ZhangJia-Jia Cao, et al. Characterization of an IAA-glucose hydrolase gene TaTGW6 associated with grain weight in common wheat (Triticum aestivum L.)[J].Molecular Breeding(2016) 36: 25. doi:10.1007/s11032-016-0449-z
[956].Changquan Zhang, Lihui Zhou, Zhengbin Zhu, et al. Characterization of Grain Quality and Starch Fine Structure of Two Japonica Rice (Oryza Sativa) Cultivars with Good Sensory Properties at Different Temperatures during the Filling Stage[J].J. Agric. Food Chem., 2016, 64 (20), pp 4048–4057
[957].Peng Wang, Shao-Hui Wu, Ming-Xia Wen, Yin Wang, Qiang-Sheng Wu. Effects of combined inoculation with Rhizophagus intraradices and Paenibacillus mucilaginosus on plant growth, root morphology, and physiological status of trifoliate orange (Poncirus trifoliata L. Raf.) seedlings under different levels of phosphorus[J].Scientia Horticulturae Volume 205, 23 June 2016, Pages 97–105
[958].Hong-Wei Zhang, Ye-Yang Fan, Yu-Jun Zhu, et al. Dissection of the qTGW1.1 region into two tightly-linked minor QTLs having stable effects for grain weight in rice[J]. BMC Genetics 2016, 17(1):1-10 DOI 10.1186/s12863-016-0410-5
[959].Guanfu Fu, Baohua Feng, Caixia Zhang, et al. Heat Stress Is More Damaging to Superior Spikelets than Inferiors of Rice (Oryza sativa L.) due to Their Different Organ Temperatures[J]. Front Plant Sci. 2016; 7: 1637.doi:10.3389/fpls.2016.01637
[960].Chao Wu, Kehui Cui, Wencheng Wang, et al. Heat-induced phytohormone changes are associated with disrupted early reproductive development and reduced yield in rice[J]. Sci Rep. 2016; 6: 34978. doi:10.1038/srep34978
[961].Wu T, Zhang P, Zhang L, Wang GG, Yu M (2016) Morphological Response of Eight Quercus Species to Simulated Wind Load. PLoS ONE 11(9): e0163613. doi:10.1371/journal.pone.0163613
[962].Bai L, Deng H, Zhang X, Yu X, Li Y (2016) Gibberellin Is Involved in Inhibition of Cucumber Growth and Nitrogen Uptake at Suboptimal Root-Zone Temperatures. PLoS ONE 11(5): e0156188. doi:10.1371/journal.pone.0156188
[963].Yingheng, WangYanmei, ZhengQiuhua Cai, et al. Population structure and association analysis of yield and grain quality traits in hybrid rice primal parental lines[J]. Euphytica (2016) 212: 261. doi:10.1007/s10681-016-1766-3
[964].Yupeng WANG, Hongfei OUYANG, Zhiquan WANG, Weiping JIANG, Xinhong PENG, Ruicai HAN, Xueming TAN, Qinghua SHI, Xiaohua PAN, Ziming WU.Analysis on Phenotypic, Physiological and Genetic Characteristics of Large Grain Rice Line lg1.Agricultural Science & Technology, 2016, 17(10): 2247-2252, 2348
[965].许建兰,马瑞娟,俞明亮,张斌斌,周懋,郭磊.不同断根方式对桃胚培苗移栽的影响[J].江西农业学报 2016,28(9):23~26
[966].韦如萍,胡德活,晏 姝,郑会全,王润辉.不同供磷浓度对杉木苗根系和盆栽土壤的影响[J].华南农业大学学报 2016,37(6):77-83
[967].汤丹,龚榜初,江锡兵,吴开云,徐阳.不同甜柿砧穗组合根系差异性研究[J].林业科学研究 2016,29(1):85-92
[968].于洪杰,陈少灿,周新刚,吴凤芝.不同土层深度及磷水平对番茄生物量及根系形态的影响[J].中国蔬菜 CHINA VEGETABLES 2016(4):42-47
[969].杨生华,刘荣,杨涛,张红岩,杜萌莹,宗绪晓.蚕豆种质资源种子表型性状精准评价[J].中国蔬菜 CHINA VEGETABLES 2016(10):32-40
[970].蒋艾平,姜景民,刘军.檫木叶片性状沿海拔梯度的响应特征[J].生态学杂志 Chinese Journal of Ecology 2016,35(6):1467-1474
[971].白龙强,刘玉梅,苗丽,张小翠,李衍素,贺超兴,于贤昌.赤霉素对黄瓜幼苗在根区亚低温下生长与氮积累的影响[J].园艺学报,2016,43 (7):1383–1390.
[972].汪欲鹏,王根发,武志峰,王智权,石庆华,潘晓华,吴自明.大粒型水稻材料粒型性状的QTL定位[J]. 核农学报 2016,30(12):2295 ~ 2303
[973].张新忠,李英哲,郭宝健,苗凌峰,吕超,许如根.二棱大麦与六棱大麦籽粒性状的差异性及其相关性[J]. 麦类作物学报 2016,36(11):1474-1481
[974].宁留芳,杨洪强,曹辉,周春然,张玮玮,孟凡尧.发酵果树枝碎屑对苹果幼树根系特征及叶片光合蒸腾的影响[J]. 园艺学报,2016,43 (10):1989–1994.
[975].王明华,李明,高祺,甄善继,李乔,高红秀,金萍.改良剂对苏打盐碱土玉米幼苗生长和生理特性的影响[J]. 生态学杂志 Chinese Journal of Ecology 2016,35(11):2966 - 2973
[976].陈亮.干旱胁迫对水稻叶片光合作用和产量及稻米品质的影响研究[D].武汉:华中农业大学,2015
[977].陆炳,邓光兵,张海莉,李俊,万洪深,潘志芬,杨武云,余懋群,龙海.高产小麦品种川麦42产量性状QTL分析[J].应用与环境生物学报, 2017(01):1-12
[978].李堃,余海英,黄富,陈光登,张路.镉低积累水稻亲本及其杂交组合镉积累特征分析[J].农业环境科学学报,2016,35(8):1444-1450
[979].姜顺邦,韦小丽.供水量对花榈木苗期耗水、生长和生理的影响及灌溉制度优化[J].林业科学,2016,52(10):22-30
[980].陈峰,李景岭,袁守江,姜明松,徐建第,周学标,杨连群,朱文银.韩国引进水稻品种的鉴定与利用评价[J].山东农业科学,2016,48(11) : 26 ~ 28
[981].赵鹏宇.胡杨、灰杨异形叶形态解剖特征与个体发育阶段的关系[D].阿拉尔:塔里木大学,2016
[982].刘帅飞.灰叶胡杨不同径级枝、叶和花芽形态学及生理生化特性研究[D].阿拉尔:塔里木大学,2016
[983].龚朝勇.基于机器视觉裂颖稻种在线双面识别与剔除系统研究[D].杭州:浙江大学,2015
[984].陈利娜,裘珍飞,丁晓纲,张方秋,李吉跃,何 茜,杨海燕.钾对黑木相思苗木生长、根系形态的影响[J].中国农学通报 2016,32(22):5-9
[985].李扬,徐小艳,严明,冯芳君,马孝松,梅捍卫.利用GS3基因功能性分子标记改良水稻粒型的研究[J].上海农业学报2016,32(1):1-5
[986].员小涛.两种养分水平条件下分株生根比例及排布方式对结缕草克隆生长的影响[D].上海:华东师范大学,2016
[987].戴海英,毛伟英,高慧慧,练华窑.轮叶蒲桃优良单株叶片形态特征分析[J].南方林业科学,2016,44(1):20-23
[988].洪宜聪.杉木闽粤栲混交林分特征与水土保持功能研究[J].江苏林业科技,2016,43(5):18-24
[989].郑家,裘珍飞,丁晓纲,张方秋,李吉跃,杨海燕,张祥宇.施磷量对黑木相思苗木生长的影响[J].中国农学通报 2016,32(19):1-6
[990].WANG Zhen,CHEN Jun-yu,ZHU Yu-jun,FAN Ye-yang,ZHUANG Jie-yun.Validation of qGS10, a quantitative trait locus for grain size on the long arm of chromosome 10 in rice (Oryza sativa L.)[J].Journal of Integrative Agriculture 2016, 15(0): 60345-7
[991].刘志奇.作物生长可控环境优化控制方法的研究[D].天津:天津职业技术师范大学,2016
[992].罗春旺,于健,刘琪璟,徐倩倩,张国春.应用照片测量技术提取和自动校正年轮宽度[J].生态学杂志 Chinese Journal of Ecology 2016,35(10) : 2845-2851
[993].罗春旺.湿地松生物量分配及细根的养分供应能力研究[D].北京:北京林业大学,2016
[994].汪欲鹏,欧阳鸿飞,王智权,江卫平,彭新红,韩瑞才,谭雪明,石庆华,潘晓华,吴自明.水稻大粒型材料lg1的生理特性与遗传分析[J].江西农业大学学报 2016,38(2) : 223-231
[995].蒋悦,孙娟,韩思迪,范磊,许凯文,江玲.水稻黄叶突变体yl的遗传分析与基因定位[J].南京农业大学学报 2016,39(6):889-897
[996].王亚梁,张玉屏,朱德峰,向镜,武辉,陈惠哲,张义凯.水稻穗分化期高温胁迫对颖花退化及籽粒充实的影响[J].作物学报 2016, 42(9): 1402-1410
[997].立红,孙影影,李星星,阿曼古丽·买买提阿力,拉扎提·努尔布拉提,张巨松.水杨酸浸种对NaCl胁迫下棉花种子萌发和幼苗根系生长的影响[J].中国农业大学学报 2016,21(4):10-17
[998].孙亚强,吴翠云,王德,王志强.酸枣花器官结构、花粉形态及生活力比较研究[J].中国农学通报 2016,32(4):87-91
[999].刘昌乾,彭海峰,邱振国,何玉琼,李文安,唐培洵,李少泽,陈雄辉.籼型杂交水稻新不育系和新恢复系的品质配合力分析[J].华南农业大学学报 2016,37(2) : 30-35
[1000].孙云云,古佳玉,赵林姝,郭会君,谢永盾,赵世荣,赵紫伟,宋希云,刘录祥.小麦微核心种质γ射线辐射敏感性分析[J].植物遗传资源学报 2016,17(2) : 189-196
[1001].刘玉梅,白龙强,慕英,李衍素.新型白色遮阳网对番茄育苗环境及幼苗生长的影响[J].中国蔬菜 2016(10):44-51
[1002].张小翠,刘玉梅,白龙强,贺超兴,于贤昌,李衍素.亚适宜温光环境下不同硝铵比营养液对黄瓜幼苗生长、氮吸收和代谢的影响[J].应用生态学报 2016,27(8) : 2527-2534
[1003].潘威,马文广,郑昀晔,耿世兵.应用种皮叶绿素荧光指示烟草种子成熟度的研究[J].西南农业学报 2016,29(4):966-969
[1004].朱雯,徐佳琦,许逸林,戚嘉敏,奚如春.油茶轻基质育苗效果[J].经济林研究 2016,34(3):158-162
[1005].屈佳伟,高聚林,志刚,于晓芳,胡树平,孙继颖.玉米根系特征的基因型差异及与氮吸收效率的关系[J].玉米科学 2016,24(2):72-78
[1006].屈佳伟.玉米冠层-根系-土壤系统氮素吸收与转运的品种差异及生理机制[D].内蒙古农业大学,2016
[1007].王德.枣新品系鉴定及其经济生物学性状研究.阿拉尔:塔里木大学,2016
[1008].张艳婷,张建军,王建修,吴晓洪,陈宝强,李鹏飞,王志臻.长期水淹对‘中山杉118’幼苗呼吸代谢的影响[J].植物生态学报 2016, 40 (6): 585–593
[1009].张艳婷.中山杉耐淹机理研究[D].北京:北京林业大学,2016
[1010].张江林,张赓,鲁剑巍,侯文峰,任涛,丛日环,李小坤.资源型功能磷复肥对水稻产量、养分吸收及抗折力的影响[J].磷肥与复肥 2016,31(2):43-46
[1011].穆麟,王航,赵红凯,孙鳌,曾宁波,张志飞.紫花苜蓿在湖南酸性红壤地区的生长适应性研究 [J].湖南农业科学 2016,(5):16-18,21
[1012].韩保林,张洪凯,刘志坚,廖泳祥,杜康兮,彭永彬,张红宇,徐培洲,陈晓琼,吴先军.水稻粒形及千粒重QTL定位与上位性分析[J].杂交水稻 2016,(6):46-51,58
[1013].Hu M-J, Zhang H-P, Liu K, Cao J-J,Wang S-X, Jiang H, Wu Z-Y, Lu J, Zhu XF, Xia X-C, Sun G-L, Ma C-X and Chang C (2016) Cloning and Characterization of TaTGW-7A Gene Associated with Grain Weight in Wheat via SLAF-seq-BSA. Front. Plant Sci. 7:1902. doi: 10.3389/fpls.2016.01902
[1014].徐静.水稻叶宽基因qFLW7和OsNAAL1的图位克隆及其分子调控机制[D].沈阳:沈阳农业大学,2017
[1015].Zhenyuan Shi,Yuchun Rao,Jie Xu,Shikai Hu. et al.Characterization and cloning of SMALL GRAIN 4, a novel DWARF11 allele that affects brassinosteroid biosynthesis in rice.Sci. Bull. (2015) 60(10):905–915
[1016].张喆.以尼瓦拉野生稻为供体的单片段代换系的构建及QTLs鉴定[D].广州:华南农业大学,2016
[1017].郭云平.NaCl胁迫对西瓜幼苗的影响及腐植酸的缓解效应[D].泰安:山东农业大学,2016
[1018].高晶晶.中草药提取物类抗菌包装材料的制备与应用[D].天津:天津科技大学,2016
[1019].张瑞雪.稻草苫等覆盖对苹果土壤硝酸盐代谢及根系与叶片光合蒸腾的影响.泰安:山东农业大学,2016
[1020].高双.冻融作用下根系对解冻期土壤抗冲性的影响[D].沈阳:沈阳农业大学,2016
[1021].唐广.水稻恢复系的优质_抗病虫基因的聚合育种[D].广州:华南农业大学,2016
[1022].孙晓慧.植物生长调节剂DA_6与控释氮肥配施对菠菜生长及土壤肥力的影响[D].泰安:山东农业大学,2016
[1023].杨枭.农大333_农大335玉米DH群体构建与百粒重QTL定位[D].泰安:山东农业大学,2016
[1024].马雪丽.不同区域生产的小麦种子活力差异及生理基础研究[D].泰安:山东农业大学,2016
[1025].徐伟娜.小麦穗发育相关基因TaSPL20的生物学功能分析[D].北京:中国农业科学院,2016
[1026].王明华.改良剂对苏打盐碱土及玉米生理特性的影响[D].哈尔滨:东北农业大学,2016
[1027].胡明建.小麦粒重相关基因TaTGW6、TaTGW-7A克隆及其功能标记开发[D].合肥:安徽农业大学,2016
[1028].刘聪.基于农业有机物料生态利用的蔬菜育苗基质配方研究[D].哈尔滨:东北农业大学,2016
[1029].高烽焱.控制水稻粒型基因GLW2的功能验证及调控机理[D].成都:四川农业大学,2016
[1030].刘文秀.生物炭基肥料对玉米和菠菜生长的影响研究[D].泰安:山东农业大学,2016
[1031].朱海军.薄壳山核桃容器苗培育关键技术研究[D].南京:南京林业大学,2016
[1032].李伟,杨雨玲,董丽丽,黄松,王金币,刘家凯,方杰,陆术伟,高心明,韩兴.短期酸化对新安江流域屯溪段水体浮游植物群落结构及多样性的影响[J].生态独毒理学报.2016年第11卷第6期,313-322
[1033].王祯.水稻第10染色体长臂上QTLqGS10的验证[D].北京:中国农业科学院,2016
[1034].张小翠.亚适宜温光环境下营养液NO3-N/Nh4-N对黄瓜幼苗生长、氮吸收与代谢的影响[D].北京:中国农业科学院,2016
[1035].谭全亚.基于SSSL水稻柱头外露率QTL的鉴定和聚合效应分析[D].广州:华南农业大学,2016
[1036].阿丽腾˙吐尔孙哈力.南疆主要果树叶片抗污能力分析[D].乌鲁木齐:新疆农业大学,2016
[1037].邓惠惠.亚适宜温光下GA_3对黄瓜生长和生理特性的影响[D].泰安:山东农业大学,2016
[1038].张肖.胡杨异形叶表达谱分析[D].阿拉尔:塔里木大学,2016
[1039].张巧妹.基于GWAS定位的番茄灰霉菌抗性_省略_关基因GW9和GW13的功能鉴定[D].武汉:华中科技大学,2016
[1040].邱权.楸树无性系苗期水肥光互作效应研究[D].广州:华南农业大学,2016
[1041].项超.利用导入系剖析水稻产量性状配合力和杂种优势及一般配合力QTL精细定位[D].北京:中国农业科学院,2016
[1042].刘思.拟南芥和甘蓝型油菜油体蛋白功能分析[D].武汉:华中科技大学,2016
[1043].白龙强.赤霉素调控根区亚低温下黄瓜幼苗氮吸收和代谢的分子生理机制[D].北京:中国农业科学院,2016
[1044].尹永泰.甘蓝型油菜溶血磷脂酰基转移酶家族基因的克隆与表达[D].武汉:华中科技大学,2016
[1045].樊世军.一份水稻短粒突变体08sg2的表型分析、基因鉴定与功能验证[D].成都:四川农业大学,2016
[1046].韩平安.高丹草杂种优势的比较蛋白质组学研究[D].呼和浩特:内蒙古农业大学,2016
[1047].朱晓峰.普通小麦千粒重相关基因TaPTF1和Tabas1的克隆与表达分析[D].合肥:安徽农业大学,2016
[1048].王亚梁.高温对水稻穗发育及穗部性状的影响[D].北京:中国农业科学院,2016
[1049].方建波,窦宁,张亨,郑诗雅,陈红跃.3种植物生长调节剂对火力楠根系形态建成的影响[J].林业与环境科学,2017年10月第33卷第5期
[1050].杨修一,李圣会,梅宇超,杨广,孙晓慧,赵晨浩,张民,李成亮.DA-6对水培生菜生长及生理特性的影响[J].农业环境科学学报,2017,36(1):32-38
[1051].韦辰,王士雷,孔宪刚,藏圆圆,李瑜.补阳还五汤对脑缺血再灌注损伤大鼠线粒体分裂蛋白Drpl、Fisl及细胞色素C表达的影响[J].陕西中医,2017年10月第38卷第10期
[1052].孙晓慧,李成亮,陈剑秋,刘龙飞,王秋双,杨帆.不同胺鲜酯(DA-6)浓度及施用方式对菠菜生长的影响[J].北方园艺,2017(13):122-128
[1053].李星星,严青青,王立红,魏鑫,张巨松.不同棉花品种生长特性分析及耐寒性鉴定[J].南京农业大学学报,2017,40(4):584-591
[1054].萨吉旦·阿卜杜克日木,巴特尔·巴克,艾克来木·艾合买提,祖力克艳·麻那甫,王孟辉,罗那那.不同沙尘和遮阴处理梯度对4种果树叶片有机渗透调节物质的影响[J].新疆农业科学,2017,54(8):1460-1468
[1055].侯维海,王建林,旦巴,胡单.不同生态因子条件下西藏青稞种子表型性状的相关分析[J].核农学报,2017,31(10):2063-2071
[1056].张江林,侯文峰,鲁剑巍,任涛,丛日环,李小坤.不同施氮量和移栽密度对水稻产量及灌浆特性的影响[J].中国农业科技导报,2017,19(2):75-85
[1057].栗振义,张绮芯,仝宗永,李跃,徐洪雨,万修福,毕舒贻,曹婧,何峰,万里强,李向林.不同紫花苜蓿品种对低磷环境的形态与生理响应分析[J].中国农业科学,2017,50(20):3898-3907
[1058].赵艳琳,张正健,杨立颖.茶叶提取物的抑菌作用研究[J].包装工程,2017,第38卷第11期
[1059].杨帆,李捷,于淑亭,张宇.船舶压载水浮游生物检测方法研究进展[J].环境科学与技术,2017,第40卷第4期
[1060].汪欲鹏,武志峰,欧阳鸿飞,王智权,谭雪明,石庆华,潘晓华,吴自明.大粒型水稻材料千粒质量的QTL检测[J].江苏农业科学,2017年第45卷第13期
[1061].邢志鹏,朱明,吴培,钱海军,曹伟伟,胡雅杰,郭保卫,魏海燕,许轲,霍中洋,戴其根,张洪程.稻麦两熟制条件下钵苗机插方式对不同类型水稻品种米质的影响[J].作物学报,2017,43(4):581-595
[1062].李洪果.杜仲遗传多样性分析、核心种质构建及分子鉴别[D].北京:中国林业科学研究院,2017
[1063].邹小云,刘宝林,宋来强,官春云.甘蓝型油菜种质苗期氮素营养效率的鉴定与评价[J].中国油料作物学报,2017,39(1):069-077
[1064].谭亮,刘智皓,陈启亮,李英文.河道整治对水质及浮游生物群落特征的影响[J].重庆师范大学学报(自然科学版),2017,第34卷第4期
[1065].李雁玲,张肖,冯梅,韩占江,李志军.胡杨(Populuseuphratica)异形叶叶片内源激素特征研究[J].塔里木大学学报
[1066].李雁玲.胡杨异形叶光合水分生理特性与个体发育阶段的关系[D].阿拉尔:塔里木大学,2017
[1067].黄文娟,韩铃,焦培培,张丹.胡杨异形叶叶柄长度与叶片形态指标的关系[J].江苏农业科学2017年第45卷第1期
[1068].邢志鹏.机械化种植方式对水稻综合生产力及稻麦周年生产的影响[D].扬州:扬州大学,2017
[1069].李丹丹.基于SNP芯片的"潍麦8号/安农91168"群体农艺及产量性状QTL定位[D].泰安:山东农业大学,2017
[1070].苏琳琳,杨珍平,夏清,王宝青,孙敏,高志强.加拿大硬麦在晋麦区产量与籽粒品质的研究[J].山西农业大学学报(自然科学版),2017,37(3):158
[1071].公婷婷.中国水稻起源、驯化及传播研究[D].北京:中央民族大学,2017
[1072].高圣风,刘爱勤,桑利伟,苟亚峰,孙世伟,王政,孟倩倩.枯草芽胞杆菌VD18R19在胡椒上的定殖动态及促生作用和对胡椒瘟病的防治效果[J].中国生物防治学报,2017,33(5)650-657
[1073].牛凯萌,徐俊波,钟亮,王华,朱英.利用分子标记辅助选择改良浙恢7954的稻米品质[J].浙江农业学报,2017,29(8):1221-227
[1074].杨小翠.苜蓿遗传多样性及3个主栽品种的产草量和品质分析[D].蚌埠:安徽科技学院,2017
[1075].刘之广,贾继文,李成亮,诸葛玉平,王一川,盛艳萍,李剑.农业院校依托国家级科研平台的实验教学改革[J].实验室科学,2017,第20卷第4期
[1076].耿庆河,王兰芬,武晶,王述民.普通菜豆籽粒大小与形状的QTL定位[J].作物学报,2017,43(8):1149-1160
[1077].苟小兰,李亚松,苏艳秋,刘梅,张良.乳酸菌制剂塘口扩培技术及在南美白对虾中的应用[J].虾蟹养殖,DOI:10.14184/j.cnki.issn1004-843x.2017.09.021
[1078].刁松锋,李芳东,段伟,韩卫娟,孙鹏,傅建敏.柿杂交F1代叶表型遗传多样性研究[J].中国农业大学学报,2017,22(2):32-44
[1079].蒋欣梅,王波,于锡宏,吴凤芝,张修国,杨光鹏,王欣.双断根套管嫁接方法对番茄苗愈合及根系再生的影响[J].东北农业大学学报,第48卷第9期
[1080].何冰纾,钟雨越,乔永利,郭东伟.水稻粉质胚乳突变体flo(t)的子粒性状及淀粉理化特性分析[J].作物杂志,2017(4):67-71
[1081].杨会肖,曹彦斌,廖焕琴,潘文,徐斌.水肥胁迫对尾叶桉无性系生长及叶片变异的影响研究[J].热带亚热带植物学报,2017,25(3):218-224
[1082].张志飞,龚梨霞,文昭竹,穆麟,李志才.酸铜对紫花苜蓿种子萌发及根系生长的影响[J].中国草地学报,2017,第39卷第3期
[1083].崔世钢,秦建华.图像处理法测定油菜叶面积的研究[J].湖北农业科学,第55卷第13期
[1084].崔石新.微垄覆膜侧播栽培对旱作马铃薯生长发育及产量的影响[D].呼和浩特:内蒙古大学,2017
[1085].才硕,时红,潘晓华,刘方平,谢亨旺,许亚群,徐涛,曹娜.微纳米气泡增氧灌溉对双季稻需水特性及产量的影响[J].节水灌溉,2017年第2期
[1086].王升星,牛影,陈聪灵,郑乐,马欢欢,时曼丽,秦学峰,黄陈,朱玉磊,张海萍,卢杰,常成,马传喜.小麦单株产量及其相关性状的全基因组QTL分析[J].安徽农业大学学报,2017,44(4):720-725
[1087].刘子会,孙书娈,李强,赵明辉,李会敏,乔文臣,孟祥海,李丁,魏建伟,丁倩,郭秀林,赵凤梧.小麦基因型衡9966与亲本及近缘品种籽粒性状与沉降值测试及分析[J].AgriculturalScience&Technology,2017,18(8):1378-1383
[1088].陈路路.小麦种子发育过程中活力变化及成熟脱水保护机制研究[D].泰安:山东农业大学,2017
[1089].王绪春,欧欢,徐崇志,林敏娟.新疆扁桃杂交子代花性状变异与产量性状相关分析[J].2017
[1090].郭卫红,王华,虞木奎,吴统贵,韩有志.沿海地区水杉叶片性状的纬度变化机制[J].应用生态学报,2017年3月第28卷第3期
[1091].张雷,张鹏,王华,周新华,虞木奎,吴统贵.沿海水杉防护林带三维结构参数模型[J].生态学杂志,2017,36(4):1127-1133
[1092].李媛,赵波,王天奇,李奕松,王秀金,扎西措姆,杨凯,万平.野生小豆和栽培小豆种子表型性状分析[J].北京农学院学报,2017,32(4):8-13
[1093].张天雨,周春雷,刘喜,孙爱伶,曹鹏辉,ThanhliemNGUYEN,田云录,翟虎渠,江玲.一个水稻温敏黄化突变体的表型分析和基因定位[J].作物学报,2017,43(10):1426-1433
[1094].丁蒙蒙.引进枣品种在新疆地区花粉育性和结实性研究[D].阿拉尔:塔里木大学,2017
[1095].尚佳薇,王创云,王楠,李国君,段运平,郝转芳,王振华.玉米耐深播优异种质的表型与生理特征分析[J].植物遗传资源学报,2017,18(1):80-87
[1096].隋丹.长期灌溉造纸废水对湿地芦苇根系吸收重金属的作用研究[D].沈阳:沈阳农业大学,2017
[1097].温大兴.种子生产过程中氮肥和水分调控小麦种子活力的机理解析[D].泰安:山东农业大学,2017
[1098].Jing Xu,Li Wang,Mengyu Zhou. et al. Narrow albino leaf 1 is allelic to CHR729, regulates leaf morphogenesis and development by affecting auxin metabolism in rice.Plant Growth Regulation.May 2017, Volume 82, Issue 1, pp 175–186
[1099].Danmei Gao,Xingang Zhou,Yadong Duan,Xuepeng Fu,Fengzhi Wu.Wheat cover crop promoted cucumber seedling growth through regulating soil nutrient resources or soil microbial communities.Plant and Soil.September 2017, Volume 418, Issue 1–2, pp 459–475
[1100].Ke Huang,Dekai Wang,Penggen Duan,Baolan Zhang,Ran Xu,Na Li,Yunhai Li.WIDE AND THICK GRAIN 1, which encodes an otubain-like protease with deubiquitination activity, influences grain size and shape in rice.the plant journal.Volume 91, Issue 5 September 2017 Pages 849–860
[1101].Yipu Li,Lixiu Tong,Lele Deng,Qiyu Liu,Yuexian Xing,Chao Wang,Baoshen Liu,Xiaohong Yang,Mingliang Xu.Evaluation of ZmCCT haplotypes for genetic improvement of maize hybrids.Theoretical and Applied Genetics.December 2017, Volume 130, Issue 12, pp 2587–2600
[1102].Zheng B-Q, Zou L-H, Li K, Wan X, Wang Y (2017) Photosynthetic, morphological, and reproductive variations in Cypripedium tibeticum in relation to different light regimes in a subalpine forest. PLoS ONE12(7): e0181274. https://doi.org/10.1371/journal.pone.0181274
[1103].Zhang, H., Xu, H., Feng, M. and Zhu, Y. (2017) Suppression of OsMADS7 in rice endosperm stabilizes amylose content under high temperature stress. Plant Biotechnol. J., doi: 10.1111/pbi.12745
[1104].Hui Zhang, Jinshan Zhang, Jun Yan, Feng Gou, Yanfei Mao, Guiliang Tang, José Ramón Botella, and Jian-Kang Zhu Short tandem target mimic rice lines uncover functions of miRNAs in regulating important agronomic traits PNAS 2017 114: 5277-5282.
[1105].Penggen Duan,Jinsong Xu,Dali Zeng,Baolan Zhang,Mufan Geng,Guozheng Zhang,Ke Huang,Luojiang Huang,Ran Xu,Song Ge,Qian Qian,Yunhai Li.Natural Variation in the Promoter of GSE5 Contributes to Grain Size Diversity in Rice.Molecular Plant[J].Volume 10, Issue 5, 1 May 2017, Pages 685-694
[1106].Shuduan Tan,Fangxu Dong,Yuting Yang,Qingru Zeng,Bin ChenLi,hong Jiang.Effects of waterlogging and cadmium on ecophysiological responses and metal bio-accumulation in Bermuda grass (Cynodon dactylon).Environmental Earth Sciences[J].October 2017, 76:719
[1107].He Z, Zeng J, Ren Y, Chen D, Li W, Gao F, Cao Y, Luo T, Yuan G, Wu X, Liang Y, Deng Q, Wang S, Zheng A, Zhu J, Liu H, Wang L, Li P and Li S (2017) OsGIF1 Positively Regulates the Sizes of Stems, Leaves, and Grains in Rice. Front. Plant Sci. 8:1730. doi: 10.3389/fpls.2017.01730
[1108].Daxing Wen, Haicheng Xu, Liuyong Xie, Mingrong He, Hongcun Hou, and Chunqing Zhang. A loose endosperm structure of wheat seed produced under low nitrogen level promotes early germination by accelerating water uptake.Sci Rep. 2017; 7: 3116.Published online 2017 Jun 8. doi: 10.1038/s41598-017-03333-4
[1109].C Fan, H Zhai, H Wang, Y Yue. et al.Identification of QTLs controlling grain protein concentration using a high-density SNP and SSR linkage map in barley (Hordeum vulgare L.).BMC Plant BiologyBMC series – open, inclusive and trusted201717:122 https://doi.org/10.1186/s12870-017-1067-6
[1110].X Wang, G Luo, W Yang, Y Li. et al.Genetic diversity, population structure and marker-trait associations for agronomic and grain traits in wild diploid wheat Triticum urartu.BMC Plant BiologyBMC series – open, inclusive and trusted201717:112 https://doi.org/10.1186/s12870-017-1058-7
[1111].Wang X, Pang Y, Wang C, Chen K, Zhu Y, Shen C, Ali J, Xu J and Li Z (2017) New Candidate Genes Affecting Rice Grain Appearance and Milling Quality Detected by Genome-Wide and Gene-Based Association Analyses. Front. Plant Sci. 7:1998. doi: 10.3389/fpls.2016.01998
[1112].Yan L, Liang F, Xu H, Zhang X, Zhai H, Sun Q and Ni Z (2017) Identification of QTL for Grain Size and Shape on the D Genome of Natural and Synthetic Allohexaploid Wheats with Near-Identical AABB Genomes. Front. Plant Sci. 8:1705. doi: 10.3389/fpls.2017.01705
[1113].Zhai, H., Feng, Z., Du, X. et al. A novel allele of TaGW2-A1 is located in a finely mapped QTL that increases grain weight but decreases grain number in wheat (Triticum aestivum L.).Theor Appl Genet (2017). https://doi.org/10.1007/s00122-017-3017-y
[1114].Yang Wang, Jianwei Lu, Tao Ren, Saddam Hussain, Chen Guo, Sen Wang, Rihuan Cong, Xiaokun Li; Effects of nitrogen and tiller type on grain yield and physiological responses in rice, AoB PLANTS, Volume 9, Issue 2, 1 March 2017, plx012, https://doi.org/10.1093/aobpla/plx012
[1115].Y. Wanga, J.W. Lua, T. Rena, S. Hussain. et al. Influence of tiller heterogeneity on yield components of rice grown under different nitrogen regimes.International Journal of Plant Production 11 (3), July 2017
[1116].Lan Qi, Yan Sun, Jing Li, Long Su, Xiaoming Zheng, Xiaoning Wang, Kaimian Li, Qingwen Yang, Weihua Qiao.Identify QTLs for grain size and weight in common wild rice using chromosome segment substitution lines across six environments.Breeding Science 2017 http://doi.org/10.1270/jsbbs.16082
[1117].Li, S., Gao, F., Xie, K., Zeng, X., Cao, Y., Zeng, J., He, Z., Ren, Y., Li, W., Deng, Q., Wang, S., Zheng, A., Zhu, J., Liu, H., Wang, L. and Li, P. (2016), The OsmiR396c-OsGRF4-OsGIF1 regulatory module determines grain size and yield in rice. Plant Biotechnol J, 14: 2134–2146. doi:10.1111/pbi.12569
[1118].ZHANG Hong-wei, CHEN Yu-yu, CHEN Jun-yu, ZHU Yu-jun, HUANG De-run, FAN Ye-yang, ZHUANG Jie-yun.Mapping of q TGW1.1, a Quantitative Trait Locus for 1000-Grain Weight in Rice (Oryza sativa L.).Rice Science, 2015, 22(1): 9?15
[1119].WANG Zhen, CHEN Jun-yu, ZHU Yu-jun, FAN Ye-yang, ZHUANG Jie-yun.Validation of q GS10, a quantitative trait locus for grain size on the long arm of chromosome 10 in rice (Oryza sativa L.).Journal of Integrative Agriculture 2017, 16(1): 16–26
[1120].Zhenbin JIANG, Kang LIAO, Nasi’er MANSUER, Yingying NIU, Hongxiang PANG, Qi SUN, Le XU, Shikui ZHANG.Differences in Light Response Curve and CO2 Response Curve of Korla Fragrant Pear Trees in Different Training Systems.Agricultural Science & Technology, 2016, 17(8): 1762-1766
[1121].Zhang, P.; Wang, H.; Wu, Q.; Yu, M.; Wu, T.Effect of Wind on the Relation of Leaf N, P Stoichiometry with Leaf Morphology in Quercus Species. Forests 2018, 9, 110.
[1122].Wang S-X, Zhu Y-L, Zhang D-X, Shao H, Liu P, Hu J-B, et al. (2017) Genome-wide association study for grain yield and related traits in elite wheat varieties and advanced lines using SNP markers. PLoS ONE 12(11): e0188662. https://doi.org/10.1371/journal.pone.0188662
[1123].Lulu Chen, Zhenlin Wang, Meiling Li Xueli Ma, Enyun Tian, Aiqing Sun, Yanping Yin. Analysis of the natural dehydration mechanism during middle and late stages of wheat seeds development by some physiological traits and iTRAQ-based proteomic. Journal of Cereal Science Volume 80, March 2018, Pages 102-110
[1124].Ying Xi, Yizhi Song, David M.Johnson, Meng Li, Huigang Liu, Yingping Huang. Se enhanced phytoremediation of diesel in soil by Trifolium repens. Ecotoxicology and Environmental Safety, Volume 154, 15 June 2018, Pages 137-144
[1125].Yang, H., Wang, W., He, Q. et al. Chromosome segment detection for seed size and shape traits using an improved population of wild soybean chromosome segment substitution lines. Physiol Mol Biol Plants (2017) 23: 877. https://doi.org/10.1007/s12298-017-0468-1
[1126].Bao-Ming Chen, Jin-Quan Su, Hui-Xuan Liao, Shao-Lin Peng.A greater foraging scale, not a higher foraging precision, may facilitate invasion by exotic plants in nutrient-heterogeneous conditions. Annals of Botany, Volume 121, Issue 3, 5 March 2018, Pages 561–569, https://doi.org/10.1093/aob/mcx172
[1127].Jinshan Zhang, Hui Zhang, José Ramón Botella, Jian‐Kang Zhu. Generation of new glutinous rice by CRISPR/Cas9‐targeted mutagenesis of the Waxy gene in elite rice varieties. Journal of Integrative Plant Biology, First published: 23 January 2018 https://doi.org/10.1111/jipb.12620
[1128].He, N., Wu, R., Pan, X. et al. Development and trait evaluation of chromosome single-segment substitution lines of O. meridionalis in the background of O. sativa. Euphytica (2017) 213: 281. https://doi.org/10.1007/s10681-017-2072-4
[1129].Yafan Zhao, Huili Wen, Sachin Teotia, Yanxiu Du, Jing Zhang, Junzhou Li, Hongzheng Sun, Guiliang Tang, Ting Peng, Quanzhi Zhao. Suppression of microRNA159 impacts multiple agronomic traits in rice (Oryza sativa L.). BMC Plant BiologyBMC series – open, inclusive and trusted201717:215.https://doi.org/10.1186/s12870-017-1171-7
[1130].Liu, J., Feng, B., Xu, Z. et al. A genome-wide association study of wheat yield and quality-related traits in southwest China. Mol Breeding (2018) 38: 1. https://doi.org/10.1007/s11032-017-0759-9
[1131].Qinghua Yang, Panpan Zhang, Yang Qu, XiaoliGao, Jibao Liang, Pu Yang, Baili Feng.Comparison of physicochemical properties and cooking edibility of waxy and non-waxy proso millet (Panicum miliaceum L.).Food Chemistry Volume 257, 15 August 2018, Pages 271-278
[1132].Jiafeng JIANG, Jiangang LI, Yuanhua DONG. Effect of cold plasma treatment on seedling growth and nutrient absorption of tomato. Plasma Science and Technology, Volume 20, Number 4
[1133].Tan, KY., Lu, GH., Piao, HT. et al. Current Contamination Status of Perfluoroalkyl Substances in Tapwater from 17 Cities in the Eastern China and Their Correlations with Surface Waters. Bull Environ Contam Toxicol (2017) 99: 224. https://doi.org/10.1007/s00128-017-2109-3
[1134].许乐峰,许昕阳,张欢,等. 水稻晚开花突变体lft1的鉴定与基因克隆[J]. 南京农业大学学报, 2018, 41(1): 38-48.
[1135].黄萍,曹辉,张瑞雪,纪拓,李燕歌,杨洪强.苹果根系生理和叶片光合对地面不同覆盖物的差异反应[J].中国农业科学, 2018-111.203.21.2
[1136].李 博,王 容,赵林姝,刘录祥,张文英,徐延浩. Li离子束注入对大麦粒型、品质及遗传变异的影响[J]. 核农学报 2018,32(2):0209-0215.
[1137].陈伟玉,麦志通,蔡开朗,等.不同丛枝菌根菌株对 3 种珍贵树种促生效应试验[J].广东农业科学,2017,44(11):13-19.
[1138].熊贤荣,欧 静,龙海燕,欧阳嘉晖,熊 丹.干旱胁迫对桃叶杜鹃菌根苗生长的影响[J]. 西南林业大学学报,2018.Vol.38 N0.1
[1139].佟静,李素艳,孙向阳,等. 供磷水平对一串红橙香公主生长及根系发育的影响[J].浙江农业学报, 2018,30(3):386-392.
[1140].朱亚琼,郑伟,王祥,等.混播方式对豆禾混播草地植物根系构型特征的影响.草业学报2018,27(1):73-85.
[1141].祖力克艳·麻那甫, 巴特尔·巴克,萨吉旦·阿卜杜克日木,王孟辉. 沙尘胁迫对杏叶片光合及荧光特性的影响[J]. 西南农业学报,2018.Vol.31 No.2
[1142].刘新春,赖运平,袁金娥,巴桑玉珍,余毅,冯宗云.育成青稞品种的粒型性状的非条件与条件关联分析[J].分子植物育种,2017 年,第 15 卷,第 11 期,第 4614-4624 页
[1143].汪洋.氮素营养对水稻分蘖的产量异质性影响及调控[D].武汉:华中农业大学,2017
[1144].张青松.油菜直播机开沟旋耕降附减阻机理与仿真分析[D].武汉:华中农业大学,2017
[1145].王小倩.利用双向回交导入系和种质资源剖析水稻品质相关性状的遗传基础[D].北京:中国农业科学院,2017
[1146].Xingang Zhou,Fengzhi Wu.Effects of amendments of ferulic acid on soil microbial communities in the rhizosphere of cucumber (Cucumis sativus L.)[J].European Journal of Soil Biology Volume 50,May–June 2012,Pages 191–197
[1147].Xu R, Yu H, Wang J, et al. A mitogen-activated protein kinase phosphatase influences grain size and weight in rice.[J]. Plant Journal for Cell & Molecular Biology, 2018.
[1148].Zhai H, Feng Z, Du X, et al. A novel allele of TaGW2 - A1, is located in a finely mapped QTL that increases grain weight but decreases grain number in wheat ( Triticum aestivum, L.)[J]. Theoretical & Applied Genetics, 2018(1):1-15.
[1149].Zhang Y, Li D, Zhang D, et al. Analysis of the functions of TaGW2 homoeologs in wheat grain weight and protein content traits.[J]. Plant Journal for Cell & Molecular Biology, 2018, 94(5).
[1150].Zhou M, Song X, Jing X U, et al. Construction of Genetic Map and Mapping and Verification of Grain Traits QTLs Using Recombinant Inbred Lines Derived from a Cross Between indica C84 and japonica CJ16B[J]. Chinese Journal of Rice Science, 2018.
[1151].Wang Y, Cai Q, Xie H, et al. Determination of Heterotic Groups and Heterosis Analysis of Yield Performance in indica Rice[J]. Rice Science, 2018(5).
[1152].Wang S, Ma B, Gao Q, et al. Dissecting the genetic basis of heavy panicle hybrid rice uncovered Gn1a, and GS3, as key genes[J]. Theoretical & Applied Genetics, 2018, 131(6):1-13.
[1153].Ling L, Jiafeng J, Jiangang L, et al. Effects of cold plasma treatment on seed germination and seedling growth of soybean.[J]. Scientific Reports, 2014, 4:5859.
[1154].王孟辉,巴特尔·巴克,康丽娟,薛亚荣,萨吉旦·阿卜杜克日木,祖力克艳·麻那甫.沙尘胁迫对榅桲叶片光合和叶绿素荧光特性的影响[J].中国农业气象,2018,39(10):685-692.
[1155].Qi L, Ding Y, Zheng X, et al. Fine mapping and identification of a novel locus qGL12.2, control grain length in wild rice ( Oryza rufipogon, Griff.)[J]. Theoretical & Applied Genetics, 2018, 131(7):1497-1508.
[1156].Xiaoli Fan, Wei Zhang, Na Zhang, et al. Identification of QTL regions for seedling root traits and their effect on nitrogen use efficiency in wheat ( Triticum aestivum, L.)[J]. Theoretical and Applied Genetics:1-22.
[1157].Zhang J, Zhang H, Srivastava A K, et al. Knockdown of Rice MicroRNA166 Confers Drought Resistance by Causing Leaf Rolling and Altering Stem Xylem Development[J]. Plant Physiology, 2018, 176(3):2082.
[1158].肖之源, 王青霞, 王贺,等. 水稻miR444b.2调控稻瘟病抗性及分蘖[J]. 植物病理学报, 2017(4):511-522.
[1159].郭淑华, 翟衡, 韩宁,等. 葡萄种间杂交砧木育种F_1代植株耐碱性盐能力分析[J]. 植物学报, 2018, 53(1).
[1160].Zhu A, Zhang Y, Zhang Z, et al. Genetic Dissection of qPCG1 for a Quantitative Trait Locus for Percentage of Chalky Grain in Rice (Oryza sativa L.)[J]. Frontiers in plant science, 2018, 9.
[1161].Zhu H, Zhao S, Lu X, et al. Genome duplication improves the resistance of watermelon root to salt stress[J]. Plant Physiology and Biochemistry, 2018.
[1162].Zhang C X, Feng B H, Chen T T, et al. Heat stress-reduced kernel weight in rice at anthesis is associated with impaired source-sink relationship and sugars allocation[J]. Environmental and Experimental Botany, 2018, 155: 718-733.
[1163].Zhao Y F, Peng T, Sun H Z, et al. miR1432‐Os ACOT (Acyl‐CoA thioesterase) module determines grain yield via enhancing grain filling rate in rice[J]. Plant biotechnology journal, 2018.
[1164].Li M, Zhang J, Liu S, et al. Mixed-cropping systems of different rice cultivars have grain yield and quality advantages over mono-cropping systems[J]. bioRxiv, 2018: 317545.
[1165].Yaobin Q I N, Peng C, Yichen C, et al. QTL-Seq Identified a Major QTL for Grain Length and Weight in Rice Using Near Isogenic F 2 Population[J]. Rice Science, 2018, 25(3): 121-131.
[1166].Zhao D Y, Zheng S S, Naeem M K, et al. Screening wheat genotypes for better performance on reduced phosphorus supply by comparing glasshouse experiments with field trials[J]. Plant and Soil, 2018, 430(1-2): 349-360.
[1167].Luo C, Deng Y, Inubushi K, et al. Sludge Biochar Amendment and Alfalfa Revegetation Improve Soil Physicochemical Properties and Increase Diversity of Soil Microbes in Soils from a Rare Earth Element Mining Wasteland[J]. International journal of environmental research and public health, 2018, 15(5): 965.
[1168].Zhang H, Xu H, Feng M, et al. Suppression of OsMADS7 in rice endosperm stabilizes amylose content under high temperature stress[J]. Plant biotechnology journal, 2018, 16(1): 18-26.
[1169].Jin X, Feng B, Xu Z, et al. TaAAP6-3B, a regulator of grain protein content selected during wheat improvement[J]. BMC plant biology, 2018, 18(1): 71.
[1170].Yu K, Liu D, Chen Y, et al. Unraveling the genetic architecture of grain size in einkorn wheat through linkage and homology mapping, and transcriptomic profiling[J]. bioRxiv, 2018: 377820.
[1171].Wang H, Zhang Y, Sun L, et al. WB1, a Regulator of Endosperm Development in Rice, Is Identified by a Modified MutMap Method[J]. International journal of molecular sciences, 2018, 19(8): 2159.
[1172].李亚会. 白芝麻与黑芝麻功能品质差异的研究[D]. 河南工业大学, 2018.
[1173].肖之源. miR444b.2和RPW8.1调控稻瘟病抗性及水稻农艺性状的研究[D]. 四川农业大学,2018.
[1174].郭淑华. NaHCO3胁迫对'左山一'杂交砧木株系生长发育及有机酸分泌的影响[D].山东农业大学,2018.
[1175].陈伟玉, 麦志通, 蔡开朗,等. 不同丛枝菌根菌株对3种珍贵树种促生效应试验[J]. 广东农业科学, 2017(11).
[1176].李然, 徐应明, 王林,等. 不同锰处理对镉胁迫下2种油菜重金属累积和根系形态的影响[J]. 生态毒理学报, 2018(2).
[1177].宫文萍,李洪振,付希强,李豪圣,韩冉,刘成,刘建军.部分CIMMYT小麦种质的耐盐性鉴定与评价[J].麦类作物学报,2018(09):1065-1071.
[1178].刘慧东, 丁欢欢, 朱景乐,等. 杜仲短周期矮林的密度效应[J]. 东北林业大学学报, 2018(4).
[1179].李晓燕. 甘蔗赤条病菌的分离鉴定与遗传多样性研究[D].福建农林大学,2017.
[1180].姬娇娇. 灌水频率与施肥方式对苜蓿产量及水肥利用效率的影响[D].兰州大学,2018.
[1181].房元瑾,孙子淇,苗利娟,齐飞艳,黄冰艳,郑峥,董文召,汤丰收,张新友.花生籽仁外观和营养品质特征及食用型花生育种利用分析[J/OL].植物遗传资源学报:1-15[2018-10-26].https://doi-org-s.vpn2.njau.edu.cn/10.13430/j.cnki.jpgr.20180110001.
[1182].刘红岩, 周正朝, 王宁,等. 黄土丘陵沟壑区不同植被群落土壤分离速率及其与影响因素的关系[J]. 河南科学, 2017, 35(6):897-902.
[1183].孙妍, 苏龙, 乔卫华,等. 基于染色体片段置换系的野生稻粒宽QTL-qGW8.1的精细定位[J]. 植物遗传资源学报, 2018(1):135-142.
[1184].丁膺宾,张莉珍,许睿,王艳艳,郑晓明,张丽芳,程云连,吴凡,杨庆文,乔卫华,兰进好.基于染色体片段置换系的野生稻粒长QTL——qGL12的精细定位[J].中国农业科学,2018,51(18):3435-3444.
[1185].崔世钢,秦建华,张永立.基于图像处理技术的植物叶片面积和周长测量[J].江苏农业科学,2018,46(15):187-189.
[1186].黄千容. 江南油杉苗期根叶物候相关性及其节点养分含量变化研究[D].中南林业科技大学,2017.
[1187].苏樑, 王华. 喀斯特峰丛洼地不同植被恢复阶段细根生物量、形态特征及其影响因素[J]. 应用生态学报, 2018, 29(3):783-789.
[1188].奉宝兵. 利用CRISPR/Cas9技术编辑淀粉合成基因Pullulan[D]. 中国农业科学院, 2017.
[1189].王晓琪,姚媛媛,陈宝成,刘之广,朱家辉,周华敏,梁海,陈剑秋.硫酸法钛石膏作为土壤调理剂在油菜上的施用效果研究[J].水土保持学报,2018,32(04):333-338+345.
[1190].何中山. 水稻OsGIF1基因功能分析[D].四川农业大学,2017.
[1191].梁安民. 水稻成蘖特性及主要农艺性状的比较分析[D]. 武汉大学, 2017.
[1192].代明笠. 水稻库源多效性基因SS1、SS2、Ghd7、Ghd8的聚合效应分析, 2018.
[1193].周梦玉, 宋昕蔚, 徐静,等. 籼稻C84和粳稻春江16B重组自交系遗传图谱构建及籽粒性状QTL定位与验证[J]. 中国水稻科学, 2018(3).
[1194].裴艳茹. 小麦—长穗偃麦草后代种质系的鉴定及遗传分析[D].山东农业大学,2018.
[1195].王新. 应用CRISPR/Cas9基因编辑技术定向改良靖西香糯株高[D].广西大学,2018.
[1196].魏丹,胡柔璇,赵庆,唐洪辉.指数施肥下不同氮素浓度对羊蹄甲2个家系幼苗的生长影响[J].西北林学院学报,2018,33(05):116-122+207.
[1197].袁青丽, 张海洋, 苗红梅,等. 渍害胁迫对芝麻籽粒及制油品质的影响[J]. 华北农学报, 2018, 33(2):202-208.
[1198].Qin Ran,Delara AKHTER,Yang C C, et al. SRG1 Encoding a Kinesin-4 Protein Is an Important Factor for Determining Grain Shape in Rice[J].Rice Science,2018,25(6):297-307
[1199].Fan, X., Zhang, W., Zhang, N. et al. Identification of QTL regions for seedling root traits and their effect on nitrogen use efficiency in wheat (Triticum aestivum L.)[J].Theor Appl Genet (2018). https://doi.org/10.1007/s00122-018-3183-6
[1200].Liangrong Jiang, Jingsheng Zheng, Zhiyong Zhang et al. Two independent grain-length mutants mapped to a single region on the long arm of chromosome 2 in rice[J]. Bragantia vol.77 no.3 Campinas Jul./Sept. 2018 Epub Aug 02, 2018. http://dx.doi.org/10.1590/1678-4499.2017119
[1201].陶巧静, 付涛, 项锡娜, 等. 模拟酸雨对西洋杜鹃生理生态特性的影响[J]. 生态学报, 2014, 34(8): 2020-2027. http://dx.doi.org/10.5846/stxb2013060915311531
[1202].姚程, 胡小贞, 耿荣妹, 等. 几种水陆交错带植物对湖滨带底质的稳固作用[J]. 湖泊科学,2017,29(1):105-115.
[1203].Zhaoyong Gong, Fang Cheng, Zihao Liu, et al. Recent developments of seeds quality inspection and grading based on machine vision[J].2015 ASABE Annual International Meeting 152188378.(doi:10.13031/aim.20152188378)
[1204].武建新, 李丹竹, 陈桂华, 等. 9个白三叶品种对渗透胁迫和干旱胁迫的响应[J]. 湖南农业大学学报(自然科学版), 2018, 44(05):13-18.
[1205].张志飞, 武建新, 曾宁波, 等. 66份白三叶种质资源萌发期耐盐性综合评价[J]. 草业科学, 2018, 35(9):2157-2165.
[1206].Liu J, Xu Z, Fan X, et al. A genome-wide association study of wheat spike related traits in China[J]. Frontiers in plant science, 2018, 9.
[1207].Yao X, Wu K, Yao Y, et al. Construction of a high-density genetic map: genotyping by sequencing (GBS) to map purple seed coat color (Psc) in hulless barley[J]. 2018, 155(1).
[1208].Zhou C, Huang Y, Jia B, et al. Effects of Cultivar, Nitrogen Rate, and Planting Density on Rice-Grain Quality[J]. Agronomy, 2018, 8(11): 246.
[1209].Ren H, Wen L, Guo Y, et al. Expressional and Functional Verification of the Involvement of CmEXPA4 in Chrysanthemum Root Development[J]. Journal of Plant Growth Regulation, 2019: 1-12.
[1210].Liu H, Zhu J, Ding H, et al. Foliar spray of growth regulators significantly increases trans-1, 4-polyisoprene production from Eucommia ulmoides Oliver short-rotation coppice[J]. Industrial crops and products, 2018, 113: 383-390.
[1211].Li J, Zhao J, Li Y, et al. Identification of a novel seed size associated locus SW9-1 in soybean[J]. The Crop Journal, 2019.
[1212].朱安东, 孙志超, 朱玉君, 等. 应用剩余杂合体衍生群体定位水稻粒重粒形 QTL[J]. 中国水稻科学, 2019, 33(2): 144-151.
[1213].Fang C, Li L, He R, et al. Identification of S23 causing both interspecific hybrid male sterility and environment-conditioned male sterility in rice[J]. 2019.
[1214].XUE P, ZHANG Y, LOU X, et al. Mapping and genetic validation of a grain size QTL qGS7. 1 in rice (Oryza sativa L.)[J]. 2018.
[1215].Sun L, Wang X, Yu K, et al. Mapping of QTLs controlling seed weight and seed-shape traits in Brassica napus L. using a high-density SNP map[J]. Euphytica, 2018, 214(12): 228.
[1216].Wu M, Wei Q, Xu L, et al. Piriformospora indica enhances phosphorus absorption by stimulating acid phosphatase activities and organic acid accumulation in Brassica napus[J]. Plant and Soil, 2018, 432(1-2): 333-344.
[1217].Su Q, Zhang X, Zhang W, et al. QTL Detection for Kernel Size and Weight in Bread Wheat (Triticum aestivum L.) Using a High-Density SNP and SSR-Based Linkage Map[J]. Frontiers in plant science, 2018, 9.
[1218].Xi Y, Liu H, Johnson D, et al. Selenium enhances Conyza canadensis phytoremediation of polycyclic aromatic hydrocarbons in soil[J]. Journal of Soils and Sediments, 2019: 1-13.
[1219].Sun L, Wang X, Yu K, et al. Mapping of QTLs controlling seed weight and seed-shape traits in Brassica napus L. using a high-density SNP map[J]. Euphytica, 2018, 214(12): 228.
[1220].Li Q Y, Xu Q Q, Jiang Y M, et al. The correlation between wheat black point and agronomic traits in the North China Plain[J]. Crop Protection, 2019, 119: 17-23.
[1221].Yang X, Wang B, Chen L, et al. The different influences of drought stress at the flowering stage on rice physiological traits, grain yield, and quality[J]. Scientific reports, 2019, 9(1): 3742.
[1222].李振松, 栗振义, 张绮芯, 等. 敖汉和维多利亚紫花苜蓿对低磷环境应激机制的比较[J]. 草业学报, 2019(1).
[1223].罗颖洁, 武建新, 文昭竹, 等. 白三叶萌发期耐旱性评价中PEG6000适宜浓度筛选[J]. 湖南生态科学学报, 2018(4):6-11.
[1224].武建新, 张志飞, 张鹤山, 等. 白三叶耐酸铝种质资源筛选研究[J]. 草地学报, 2018, 26(2):497-504.
[1225].刘光发, 宋海燕, 罗婉如, 等. 百里香-丁香罗勒精油抗菌纸对草莓的防腐保鲜效果[J]. 包装工程, 2018, 39(19):101-107.
[1226].朱林生. 不同桉树肥料利用率差异及根系转录组比较研究[D]. 中国林业科学研究院, 2018.
[1227].李萍. 不同草类及活体草根对苹果根系及根区土壤环境的影响[D]. 山东农业大学, 2018.
[1228].徐味, 韦小丽. 不同基质对棕榈容器苗生长和生理特性的影响[J]. 山地农业生物学报, 2018 (2018 年 03): 27-32, 43.
[1229].许苗苗. 不同镰孢菌侵染玉米茎部的效能分析[D]. 河北农业大学, 2018.
[1230].穆帝秀. 不同磷水平下 AM 真菌对丹参生长发育的影响[D]. 成都中医药大学, 2018.
[1231].于洪杰, 陈少灿, 周晓静, 等. 不同溶剂萃取对分蘖洋葱根系分泌物化感作用的影响[J]. 北方园艺, 2019(1).
[1232].Xu R, Duan P, Yu H, et al. Control of grain size and weight by the OsMKKK10-OsMKK4-OsMAPK6 signaling pathway in rice[J]. Molecular Plant, 2018, 11(6): 860-873.
[1233].穆帝秀. 不同磷水平下 AM 真菌对丹参生长发育的影响[D]. 成都中医药大学, 2018.
[1234].周梦玉. 超级稻春优84重组自交系遗传图谱构建及其籽粒和叶片性状QTL定位[D]. 2018.
[1235].邱东, 吴甘霖, 刘玲, 等. 城市香樟叶片干物质含量及比叶面积的时空变异[J]. 2019.
[1236].黄萍. 地面覆盖和钻孔通气对苹果根系和植株生长发育的影响[D]. 山东农业大学, 2018.
[1237].刘慧东. 杜仲短周期矮林的密度效应和调节剂调控作用[D]. 中国林业科学研究院, 2018.
[1238].冯丰. 改性苹果废枝及其与肥料配用对苹果根区土壤及植株生长发育的影响[D]. 山东农业大学, 2018.
[1239].冯丰, 曹辉, 荀咪, 等. 改性苹果废枝与化肥配施对苹果根区土壤及根系构型的影响[J]. 山东农业科学, 2018, 50(09):89-94.
[1240].艾鹏睿, 马英杰, 马亮. 干旱区滴灌枣棉间作模式下枣树棵间蒸发的变化规律[J]. 生 态 学 报, 2018, 38(13).
[1241].时俊帅, 陈双林, 郭子武, 等. 高节竹立竹干形, 冠形和叶形变化的海拔效应[J]. 东北林业大学学报, 2018 (10): 4.
[1242].张彩霞, 符冠富, 奉保华, 等. 水稻同化物转运及其对逆境胁迫响应的机理[J]. 中国农业气象, 2018, 39(02): 73-83.
[1243].纪拓, 杨洪强. 根区控氧对平邑甜茶幼苗根系及根/冠比的影响[J]. 植物生理学报, 2018 (6): 8.
[1244].刘玉梅, 艾希珍, 于贤昌. 5-氨基乙酰丙酸对亚适宜温光条件下黄瓜幼苗光合特性的影响[J]. 园艺学报, 2010, 37(1): 65-71.
[1245].于海涛. 功能基因对小麦苗期不同氮磷水平下根系性状的影响[J]. 安徽农业科学(21):55-60.
[1246].纪拓. 果园土壤CO_2和O_2浓度变化及苹果根区增氧的生物学效应[D]. 2018.
[1247].张鹏, 孙阳, 虞木奎, 等. 海岸梯度上黑松针叶形态与解剖结构性状的变化规律[J]. 植物研究, 2018, 38(3):343-348.
[1248].祁金玉, 宋瑞清. 褐环乳牛肝菌与绿木霉复合接种对辽西北地区樟子松根系的影响[J]. 林业科学, 2018, 54(5).
[1249].刘光发, 张正健, 杨立颖, 等. 厚朴提取物抗菌包装纸对奶酪货架寿命的影响[J]. 包装工程, 2018.
[1250].金建楚. 湖南地方稻品种表型性状与SSR遗传多样性研究[D]. 2018.
[1251].郭孝玉, 余坤勇, 李增禄, 等. 基于最优权重的落叶松单木叶面积组合预测模型[J]. 森林与环境学报, 2018.
[1252].安常蓉, 韦小丽, 段如雁, 等. 接种方式对花榈木幼苗结瘤效应的影响[J]. 南京林业大学学报:自然科学版, 2018.
[1253].宋娇. 藜麦种质资源遗传多样性研究及藜麦品种(系)变异率分析[D]. 2018.
[1254].李洪果, 杜红岩, 贾宏炎, 等. 利用表型性状构建杜仲雄性资源核心种质[J]. 分子植物育种, 2018(2).
[1255].祁金玉. 绿木霉与褐环乳牛肝菌互作提高樟子松对立枯病抗病性机制的研究[D]. 2018.
[1256].高方远, 任鄄胜, 陆贤军, 等. 绿色优质高产水稻新品种的选育与应用[J]. 生命科学, 2018, 30(10):87-93.
[1257].何丹丹, 贾立国, 秦永林,等. 马铃薯氮效率基因型差异及生理机制研究进展[J]. 北方农业学报, 2018(1).
[1258].张迪, 吕思琪, 张婉婷, 等. 锰胁迫对不同基因型玉米幼苗抗氧化酶活性及丙二醛含量的影响[J]. 东北农业大学学报, 2018(12):27-35.
[1259].金建楚, 李小湘, 黎用朝, 等. 农户保存与种质库保存的同近名地方稻品种的遗传多样性研究[J]. 植物遗传资源学报, 2018, v.19(03):106-115+125.
[1260].吴婷. 铅污染不同粒径土壤重金属地球化学行为及其植物转运[D]. 陕西师范大学, 2018.
[1261].全基因组关联定位籼稻种质资源外观和加工品质QTL[J]. 作物学报, 2018.
[1262].薛亚荣. 沙尘和遮阴复合胁迫对西梅叶片光合作用的影响[J]. 中国农业气象, 2019, 40(03):170-179.
[1263].刘梦玲, 朱启良, 李佳梅,等. 基于细根解剖特征的树种耐旱性解析[J]. 中国水土保持科学, 2018, 16(3).
[1264].段云轩. 施肥量对水稻生长发育及产量的影响[D]. 东北农业大学, 2018.
[1265].张金汕, 贾永红, 孙鹏, 等. 施钾和叶面喷施赤霉素对春小麦种子萌发的影响[J]. 新疆农业科学, 2018, 55(8): 1384-1391.
[1266].蔡怡聪. 水稻垩白基因 OsPK2 的图位克隆与功能研究[D]. 中国农业科学院, 2018.
[1267].冯博. 水稻抗旱和耐低氮 QTL 定位及优异等位基因的聚合效应评价[D]. 沈阳农业大学, 2018.
[1268].李紫荷. 水稻粒形 QTL 的检测和 qTGW4 的遗传分解[D]. 中国农业科学院, 2018.
[1269].肖连杰, 黄捷, 曹鹏辉, 等. 水稻早衰突变体 zs 的鉴定与基因定位[J]. 南京农业大学学报, 2018, 41(5): 793-800.
[1270].巴特尔, 巴克, 萨吉旦, 等. 四种果树叶片光响应曲线研究及短时间沙尘覆盖对光合参数的影响[J]. 北方园艺, 2018 (2): 38-45.
[1271].邹慧, 曾杰. 土著菌根真菌侵染对西南桦无性系幼苗生长和叶片养分的影响[J]. 分子植物育种, 2018, 16(19):312-321.
[1272].邹慧. 西南桦幼苗接种丛枝菌根真菌的生长与光合生理响应[J]. 热带亚热带植物学报, 2018, v.26(4):65-72.
[1273].郑雅月, 杨璐, 张炳慧, et al. 小麦TaCYP78A5基因的克隆及生物信息学分析[J]. 西北农业学报, 2018, v.27(05):63-70.
[1274].仝靖洋, 李少鹏, 刘胜杰, et al. 小麦粒重基因等位变异的高通量分子检测及组合分析[J]. 麦类作物学报, 2018, 38(11):42-50.
[1275].王玉娇, 吴薇, 郭忠军, et al. 小麦种子老化处理对发芽指标及根系的影响[J]. 核农学报, 2017, 32(12).
[1276].朱浩. 小麦重要性状基因的分子检测及遗传效应分析[D]. 西北农林科技大学, 2018.
[1277].宋政儒, 王峥嵘, 杨先裕, et al. 小叶蚊母春季叶质体色素含量变化和叶动态变化研究[J]. 湖北农业科学, 2018, 57(21):79-81,84.
[1278].Li X, Lv X, Wang X, et al. Effects of abiotic stress on anthocyanin accumulation and grain weight in purple wheat[J]. Crop and Pasture Science, 2019, 69(12): 1208-1214.
[1279].赵攀衡. 燕麦不同磷效率品种耐低磷胁迫的根系形态及对磷素吸收的研究[D]. 2018.
[1280].陈静静. 野生大豆种子硬实相关QTL发掘[D]. 2018.
[1281].钞书粉. 异淀粉酶基因ISA1的定向编辑对稻米品质的影响[D]. 2018.
[1282].王丹. 用农艺性状和分子标记评估引入小麦资源的遗传多样性[D]. 西北农林科技大学, 2018.
[1283].肖文立, 肖文芳, 廖宜涛, 等. 油菜直播机犁式正位深施肥装置设计与性能试验[J]. 华中农业大学学报, 2018, 37(4): 131-137.
[1284].王明怀, 张应中, 唐旭晓. 油茶轻基质育苗试验[J]. 林业与环境科学, 2018 (6): 10.
[1285].任红剑, 丰震, 乔谦, 等. 元宝枫叶片形态特征的地理变异[J]. 西北林学院学报, 2018 (2018 年 01): 113-119.
[1286].公华锐, 骆洪义, 亓艳艳, 等. 增施铵态氮对北方冬季基质栽培普通白菜根系特性及养分利用的影响[J]. 中国蔬菜, 2018 (12): 33-39.
[1287].何张齐, 季志利, 唐丽. 浙西南山地日本扁柏人工林生长过程及模型研究[J]. 湖南林业科技, 2018 (2018 年 02): 1-5.
[1288].魏其超, 苗红梅, 汪学德, 等. 芝麻枯萎病害条件下籽粒及其制油品质变化分析[J]. 河南农业科学, 2018, 47(12):70-77.
[1289].张亨, 孙同高, 郭智威, 等. 植物生长调节剂对乐昌含笑根系生长的影响[J]. 绿色科技, 2018(11).
[1290].栗振义. 紫花苜蓿对低磷胁迫的响应及相关 miRNAs 的功能分析[D]. 中国农业科学院, 2018.
[1291].袁青丽. 渍害处理对芝麻籽粒及制品品质的影响[D]. 河南工业大学, 2018.
[1292].杨万基. 不同栽培措施对冬季日光温室辣椒生长及产量的影响[D].东北农业大学,2018.
[1293].黄婷. 淡紫拟青霉代谢产物对番茄生长及根结线虫病的影响[D].东北农业大学,2018.
[1294].周同喜. 甘蓝型油菜粒重位点TSWA7a的精细定位及候选基因鉴定[D].华中农业大学,2018.
[1295].张鹏. 海岸梯度上黑松针叶性状的适应性研究[D].中国林业科学研究院,2018.
[1296].杜芳芳. 海藻精的施用对水稻生长和产量的影响[D].广西大学,2018.
[1297].商林.基于图像边缘检测的水稻粒型分析研究[J].农机化研究,2019,41(12):180-183.
[1298].薛亚荣,巴特尔·巴克.沙尘胁迫对新疆引进欧洲李叶片光合和荧光特性的影响[J].经济林研究,2018,36(04):123-129.
[1299].王孟辉,巴特尔·巴克,萨吉旦·阿卜杜克日木,薛亚荣,康丽娟,祖力克艳·麻那甫.沙尘胁迫对山楂光合、荧光特性的影响[J].干旱区资源与环境,2019,33(03):189-194.
[1300].薛炮. 水稻粒形QTLqGS7.1的定位与验证[D].中国农业科学院,2018.
[1301].土壤改良剂对农田土壤理化性质及小麦生长的影响研究[D].安徽农业大学,2018.
[1302].小麦Glu-1启动子保守顺式调控模块及转录因子TaNAC100的功能解析[D].中国农业大学,2019.
[1303].玉米苗期耐盐碱生理特性及其杂种优势分析[D].东北农业大学,2018.
[1304].韩新桐. 玉米籽粒容重相关性状及一般配合力QTL定位[D].河北农业大学,2018.
[1305].易腾飞. 中国冬麦区小麦品种农艺性状与品质性状的全基因组关联分析[D].河北农业大学,2018.
[1306].张栋栋,李萌,甘龙,李晓玲,任东,胥焘,黄应平.重金属Cd-Cu复合污染对苍耳生长及叶绿素荧光特性的影响[J].武汉大学学报(理学版),2019,65(01):66-76.