科研产出
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21SOIL PLUS FOLIAR NITROGEN APPLICATION INCREASES COTTON GROWTH AND SALINITY TOLERANCE
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来源:JOURNAL OF PLANT NUTRITION
关键词: cotton foliar application nitrogen fertilizer soil application salinity stress
22Waterlogging stress in cotton: Damage, adaptability alleviation strategies, and mechanisms
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来源:CROP JOURNAL
关键词: Abiotic stress; Adaptability; Agronomic measures; Cotton; Waterlogging
年份:2021
23Seeding depth and seeding rate regulate apical hook formation by inducing GhHLS1 expression via ethylene during cotton emergence
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来源:PLANT PHYSIOLOGY AND BIOCHEMISTRY
关键词: Mechanical pressure; Apical hook; Ethylene; ACO1; ACS2; HLS1
年份:2021
24H2O2 and ABA signaling are responsible for the increased Na+ efflux and water uptake in Gossypium hirsutum L. roots in the non-saline side under non-uniform root zone salinity
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来源:JOURNAL OF EXPERIMENTAL BOTANY
关键词: ABA cotton H2O2 Na+ efflux non-uniform salinity water use
25Seed Priming With Melatonin Promotes Seed Germination and Seedling Growth of Triticale hexaploide L. Under PEG-6000 Induced Drought Stress
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来源:FRONTIERS IN PLANT SCIENCE
关键词: drought stress; melatonin; triticale; germination; seedling; antioxidative activity
年份:2022
26Late-planted short-season cotton without plastic mulching is an alternative to early-planted mulched full-season cotton
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来源:INDUSTRIAL CROPS AND PRODUCTS
关键词: Short-season cotton; Plastic mulching; Yield; Economic benefits; Leaf senescence
年份:2021
27Wide-strip intercropping of cotton and peanut combined with strip rotation increases crop productivity and economic returns
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来源:FIELD CROPS RESEARCH
关键词: Alternate intercropping; Physiological parameters; Continuous cropping constraints; Economic benefit
年份:2019
28Impact of climate change and crop management on cotton phenology based on statistical analysis in the main-cotton-planting areas of China
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来源:JOURNAL OF CLEANER PRODUCTION
关键词: Climate change; Crop management; Cotton phenology; Seed cotton yield; Statistical analysis
年份:2021
29Nitric oxide increases the biomass and lint yield of field-grown cotton under temporary waterlogging through physiological and molecular regulation
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来源:FIELD CROPS RESEARCH
关键词: Cotton; Waterlogging; Nitric oxide; Physiological event; Gene expression
年份:2021
30Global gene expression in cotton (Gossypium hirsutum L.) leaves to waterlogging stress
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来源:PLOS ONE
年份:2017
