One-off basal application of nitrogen fertilizer increases the biological yield but not the economic yield of cotton in moderate fertility soil

[1]  Rebecca L. Whetton,et al.  Communicating Nitrogen Loss Mechanisms for Improving Nitrogen Use Efficiency Management, Focused on Global Wheat , 2022, Nitrogen.

[2]  Shaoming Wang,et al.  Soil properties, root morphology and physiological responses to cotton stalk biochar addition in two continuous cropping cotton field soils from Xinjiang, China , 2022, PeerJ.

[3]  Bijay-Singh,et al.  Precision Nitrogen Management in Bt Cotton (Gossypium hirsutum) Improves Seed Cotton Yield and Nitrogen Use Efficiency, and Reduces Nitrous Oxide Emissions , 2022, Sustainability.

[4]  Yanjun Zhang,et al.  Single dose fertilization at reduced nitrogen rate improves nitrogen utilization without yield reduction in late-planted cotton under a wheat–cotton cropping system , 2022, Industrial Crops and Products.

[5]  C. F. D. S. Cordeiro,et al.  Cover crops and controlled-release urea decrease nitrogen mobility and improve nitrogen stock in a tropical sandy soil with cotton cultivation , 2022, Revista Brasileira de Ciência do Solo.

[6]  M. Hasnain,et al.  Subsurface-Applied Coated Nitrogen Fertilizer Enhanced Wheat Production by Improving Nutrient-Use Efficiency with Less Ammonia Volatilization , 2021, Agronomy.

[7]  Shoaib Ahmed,et al.  Nitrogen reduction in high plant density cotton is feasible due to quicker biomass accumulation , 2021, Industrial Crops and Products.

[8]  K. Lewis,et al.  Yield and Economic Response of Modern Cotton Cultivars to Nitrogen Fertilizer , 2021, Agronomy.

[9]  G. Pan,et al.  Estimating ammonia emissions from cropland in China based on the establishment of agro-region-specific models , 2021, Agricultural and Forest Meteorology.

[10]  Ningbo Cui,et al.  Interactive effects of mulching practice and nitrogen rate on grain yield, water productivity, fertilizer use efficiency and greenhouse gas emissions of rainfed summer maize in northwest China , 2021 .

[11]  Kun Chen,et al.  Slow-release nitrogen fertiliser suitable for one-time fertilisation of spring maize in Northeast China , 2021, Plant, Soil and Environment.

[12]  Qing‐Lin Chen,et al.  Microbial communities in crop phyllosphere and root endosphere are more resistant than soil microbiota to fertilization , 2021 .

[13]  Mei-zhen Song,et al.  N-Use Efficiency and Yield of Cotton (G. hirsutumn L.) Are Improved through the Combination of N-Fertilizer Reduction and N-Efficient Cultivar , 2020, Agronomy.

[14]  L. Dongwei,et al.  Response of spatial structure of cotton root to soil-wetting patterns under mulched drip irrigation , 2020, International Journal of Agricultural and Biological Engineering.

[15]  Ó. Vicente,et al.  Enhanced Agronomic Efficiency Using a New Controlled-Released, Polymeric-Coated Nitrogen Fertilizer in Rice , 2020, Plants.

[16]  Yuan Yuan,et al.  Cotton N rate could be reduced further under the planting model of late sowing and high-density in the Yangtze River valley , 2020, Journal of Cotton Research.

[17]  Yabing Li,et al.  One-time fertilization at first flowering improves lint yield and dry matter partitioning in late planted short-season cotton , 2020 .

[18]  Chunju Zhou,et al.  Combined effects of nitrogen and sulfur fertilization on maize growth, physiological traits, N and S uptake, and their diagnosis , 2019, Field Crops Research.

[19]  Yongjiang Zhang,et al.  Nitrogen Fertilization Effects on Physiology of the Cotton Boll–Leaf System , 2019, Agronomy.

[20]  Huoyan Wang,et al.  Optimal Nitrogen Application Rates of One-Time Root Zone Fertilization and the Effect of Reducing Nitrogen Application on Summer Maize , 2019, Sustainability.

[21]  H. Piepho,et al.  Does fertilization impact production risk and yield stability across an entire crop rotation? Insights from a long-term experiment , 2019, Field Crops Research.

[22]  S. Peng,et al.  Late-season nitrogen applications improve grain yield and fertilizer-use efficiency of dry direct-seeded rice in the tropics , 2019, Field Crops Research.

[23]  Wenqing Zhao,et al.  Integrated soil-cotton system management enhances triacylglycerol yield and favourable fatty acid profile , 2018, Industrial Crops and Products.

[24]  Qiang Zhao,et al.  Effects of reduced nitrogen rate on cotton yield and nitrogen use efficiency as mediated by application mode or plant density , 2018 .

[25]  A. Rauf,et al.  Nitrogen Use Impact on Nitrogen Use Efficiency and Lint Yield in Zero Tillage Cotton , 2018 .

[26]  J. Chen,et al.  Optimizing nitrogen application rate and plant density for improving cotton yield and nitrogen use efficiency in the North China Plain , 2017, PloS one.

[27]  Zhen Luo,et al.  Competitive yield and economic benefits of cotton achieved through a combination of extensive pruning and a reduced nitrogen rate at high plant density , 2017 .

[28]  Gui-su Zhou,et al.  ASSESSING NITROGEN NUTRITIONAL STATUS, BIOMASS AND YIELD OF COTTON WITH NDVI, SPAD AND PETIOLE SAP NITRATE CONCENTRATION , 2017, Experimental Agriculture.

[29]  D. Tan,et al.  Rational Water and Nitrogen Management Improves Root Growth, Increases Yield and Maintains Water Use Efficiency of Cotton under Mulch Drip Irrigation , 2017, Front. Plant Sci..

[30]  Fengmin Li,et al.  Continuous plastic-film mulching increases soil aggregation but decreases soil pH in semiarid areas of China , 2017 .

[31]  L. Jia,et al.  Chemical signals and their regulations on the plant growth and water use efficiency of cotton seedlings under partial root-zone drying and different nitrogen applications , 2017, Saudi journal of biological sciences.

[32]  Wei Tang,et al.  Yield and economic benefits of late planted short-season cotton versus full-season cotton relayed with garlic , 2017 .

[33]  Jibiao Geng,et al.  Cumulative release characteristics of controlled-release nitrogen and potassium fertilizers and their effects on soil fertility, and cotton growth , 2016, Scientific Reports.

[34]  Zhaoming Chen,et al.  Effect of N Fertilization Pattern on Rice Yield, N Use Efficiency and Fertilizer–N Fate in the Yangtze River Basin, China , 2016, PloS one.

[35]  X. Tian,et al.  Effect of planting date and plant density on cotton traits as relating to mechanical harvesting in the Yellow River valley region of China , 2016 .

[36]  E. Sánchez,et al.  Nitrate reductase activity, biomass, yield, and quality in cotton in response to nitrogen fertilization , 2016 .

[37]  H. Q. Zhang,et al.  Effect of manure under different nitrogen application rates on winter wheat production and soil fertility in dryland , 2016 .

[38]  Wenqing Zhao,et al.  Effect of N fertilization rate on soil alkali-hydrolyzable N, subtending leaf N concentration, fiber yield, and quality of cotton , 2016 .

[39]  M. Bange,et al.  Nitrogen fertiliser requirements of high-yielding irrigated transgenic cotton , 2016, Crop and Pasture Science.

[40]  Q. Ma,et al.  Synchronized relationships between nitrogen release of controlled release nitrogen fertilizers and nitrogen requirements of cotton , 2015 .

[41]  Wei Tang,et al.  Manipulation of dry matter accumulation and partitioning with plant density in relation to yield stability of cotton under intensive management , 2015 .

[42]  K. R. Reddy,et al.  Cotton reproductive and fiber quality responses to nitrogen nutrition , 2015 .

[43]  Wei Tang,et al.  A simplified pruning method for profitable cotton production in the Yellow River valley of China , 2014 .

[44]  Jianlong Dai,et al.  Intensive cotton farming technologies in China: Achievements, challenges and countermeasures ☆ , 2014 .

[45]  Zhenan Hou,et al.  Effects of water salinity and N application rate on water- and N-use efficiency of cotton under drip irrigation , 2014, Journal of Arid Land.

[46]  K. Sayre,et al.  Tillage and nitrogen fertilization effects on yield and nitrogen use efficiency of irrigated cotton , 2013 .

[47]  R. K. Boman,et al.  Effects of Nitrogen and Planting Seed Size on Cotton Growth, Development, and Yield , 2013 .

[48]  Xianlong Zhang,et al.  Fertilizer 15N Accumulation, Recovery and Distribution in Cotton Plant as Affected by N Rate and Split , 2013 .

[49]  Wei Tang,et al.  Lint yield and nitrogen use efficiency of field-grown cotton vary with soil salinity and nitrogen application rate , 2012 .

[50]  G. Hammer,et al.  Physiological determinants of high yielding ultra-narrow row cotton: Biomass accumulation and partitioning , 2012 .

[51]  Dongmei Zhang,et al.  Nitrogen rate and plant density effects on yield and late-season leaf senescence of cotton raised on a saline field , 2012 .

[52]  Xianlong Zhang,et al.  Effect of fertilization frequency on cotton yield and biomass accumulation , 2012 .

[53]  Xianlong Zhang,et al.  Responses of cotton growth, yield, and biomass to nitrogen split application ratio , 2011 .

[54]  Qichun Zhang,et al.  Recovery of 15N-labeled urea and soil nitrogen dynamics as affected by irrigation management and nitrogen application rate in a double rice cropping system , 2011, Plant and Soil.

[55]  Wei Tang,et al.  Effects of plant density and nitrogen and potassium fertilization on cotton yield and uptake of major nutrients in two fields with varying fertility , 2010 .

[56]  Laosheng Wu,et al.  Effects of salinity and fertigation practice on cotton yield and 15N recovery , 2009 .

[57]  F. Sallaku,et al.  Cotton row spacing and plant density cropping systems I. Effects on accumulation and partitioning of dry mass and LAI. , 2009 .

[58]  D. Oosterhuis,et al.  Effects of N fertilization on root development and activity of water-stressed cotton (Gossypium hirsutum L.) plants , 2008 .

[59]  Wei Tang,et al.  Yield, quality and leaf senescence of cotton grown at varying planting dates and plant densities in the Yellow River Valley of China , 2006 .

[60]  Wu Wang,et al.  Biochemical Genetics of Short‐Season Cotton Cultivars that Express Early Maturity Without Senescence , 2005 .

[61]  P. R. Cusick,et al.  Evaluation of dairy manure nitrogen-15 enrichment methods on short-term crop and soil nitrogen budgets , 2005 .

[62]  M. Bange,et al.  Growth and dry matter partitioning of diverse cotton genotypes , 2004 .