149 results on '"Wang, Zhanbiao"'
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2. Comprehensive analysis on investigating water-saving potentials of irrigated cotton in semi-arid area in China
3. Environmental impacts of cotton and opportunities for improvement
4. Extreme rainfall and soil water consumption differences increase yield shedding at lower fruiting branches, reducing cotton water productivity under different sowing dates
5. Rational optimization of irrigation regimes for drip-irrigated cotton fields without mulch can alleviate the problem of residual film contamination in arid zones
6. A global synthesis of nitrous oxide emissions across cotton-planted soils
7. Soil water movement may regulate soil water consumption and improve cotton yields under different cotton cropping systems
8. Directly linking plant N, P and K nutrition to biomass production in cotton-based intercropping systems
9. Adaptation of cotton production to climate change by sowing date optimization and precision resource management
10. Soybean phenological changes in response to climate warming in three northeastern provinces of China
11. The nitrogen footprint and reactive nitrogen reduction potential of cotton production in China
12. Changes in Phosphorus Fractions in Response to Uniconazole Application in Cotton Functional Leaves
13. Quantitative evaluation of variation and driving factors of the regional water footprint for cotton production in China
14. Growing cover crop mixtures are more sustainable than single cover crop in continuous cotton cropping: Comprehensive assessment from 3-year field experiment
15. Partial substitution of chemical fertilizer by organic fertilizer benefits grain yield, water use efficiency, and economic return of summer maize
16. Tracing the Carbon Footprint of Cotton Garments Based on Their Life Cycle: Evidence from an Empirical Study of Multiple Sites in China
17. February orchid cover crop improves sustainability of cotton production systems in the Yellow River basin
18. Spatiotemporal changes and driving factors of reference evapotranspiration and crop evapotranspiration for cotton production in China from 1960 to 2019
19. Effects of irrigation regime on soil hydrothermal microenvironment, cotton biomass, and yield under non-film drip irrigation system in cotton fields in southern Xinjiang, China
20. Long-term assessments of cotton fiber quality in response to plant population density: Reconciling fiber quality and its temporal stability
21. Optimizing plant type structure to adjust the temporal and spatial distribution of water consumption and promote the growth and yield formation of cotton
22. Climate warming accelerates cotton growth while cultivar shifts extend the growth period
23. Orychophragmus violaceus/cotton relay intercropping with reduced N application maintains or improves crop productivity and soil carbon and nitrogen fractions
24. Competition for Light Interception in Different Plant Canopy Characteristics of Diverse Cotton Cultivars
25. Improving the Hydrothermal Environment of Soil and Cotton Leaves Can Reduce Irrigation Amount and Increase the Lint Yield Without the Need for Mulching
26. Quantifying Soil Water Movement to Precisely Manage Soil Water Consumption Under Different Cotton Cropping Systems May Help Improve Cotton Yields
27. Genotypic variation in spatiotemporal distribution of canopy light interception in relation to yield formation in cotton
28. Modifying the planting density to change water utilization in various soil layers and regulate plant growth and yield formation of cotton
29. Cover crops and N fertilization affect soil ammonia volatilization and N2O emission by regulating the soil labile carbon and nitrogen fractions
30. Climate variation explains more than half of cotton yield variability in China
31. Nitrogen stress inhibits root growth by regulating cell wall and hormone changes in cotton ( Gossypium hirsutum L.)
32. Adopting different cotton cropping systems may regulate the spatiotemporal variation in soil moisture and affect the growth, WUE and yield of cotton
33. Water and heat resource utilization of cotton under different cropping patterns and their effects on crop biomass and yield formation
34. Relay intercropping cover crop combined with reduced nitrogen application improves subsequent cotton agronomic traits while maintaining yield and quality.
35. Loose and tower-type canopy structure can improve cotton yield in the Yellow River basin of China by increasing light interception.
36. Mitigating greenhouse gas emissions and ammonia volatilization from cotton fields by integrating cover crops with reduced use of nitrogen fertilizer
37. Carbon footprint of cotton production in China: Composition, spatiotemporal changes and driving factors
38. Orychophragmus violaceus-maize rotation increases maize productivity by improving soil chemical properties and plant nutrient uptake
39. Loose and tower-type canopy structure can improve cotton yield in the Yellow River basin of China by increasing light interception
40. Study of the geostatistical grid maths operation method of quantifying water movement in soil layers of a cotton field *
41. Effects of Different Irrigation Regimes on Spatio-Temporal Variations of Soil Moisture and Cotton Growth in Non-Film Drip Irrigation Cotton Fields in Southern Xinjiang, China
42. Climate Warming Accelerates Cotton Growth, While Cultivar Changes Can Extend the Growth Period
43. Early Relay Intercropping of Short-Season Cotton Increases Lint Yield and Earliness by Improving the Yield Components and Boll Distribution under Wheat-Cotton Double Cropping
44. Inhibition of apical dominance affects boll spatial distribution, yield and fiber quality of field-grown cotton
45. Effect of Spatial-Temporal Light Competition on Cotton Yield and Yield Distribution
46. Advantages of an Orychophragmus violaceus-maize rotation in reducing greenhouse gas emissions and reactive nitrogen losses and increasing net ecosystem economic benefits on the North China Plain
47. The relative impacts of changes in plant density and weather on cotton yield variability
48. Nitrogen stress inhibits root growth by regulating cell wall and hormone changes in cotton ( Gossypium hirsutum L.)
49. Cotton Production in China
50. Orychophragmus violaceus as a winter cover crop is more conducive to agricultural sustainability than Vicia villosa in cotton-fallow systems.
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