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145 results on '"Wang, Zhanbiao"'

13. Tracing the Carbon Footprint of Cotton Garments Based on Their Life Cycle: Evidence from an Empirical Study of Multiple Sites in China

Author

Wang, Shuchen, primary, Chong, Chenxi, additional, Huang, Weibin, additional, Guo, Simeng, additional, Wang, Yuhan, additional, Zhang, Yaopeng, additional, Pan, Zhanlei, additional, Wang, Jian, additional, Li, Xin, additional, Zhao, Wenqi, additional, Zhang, Zhenggui, additional, and Wang, Zhanbiao, additional

Published
2024
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16. 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

Author

Li, Zhipeng, primary, Wan, Sumei, additional, Chen, Guodong, additional, Han, Yingchun, additional, Lei, Yaping, additional, Ma, Yunzhen, additional, Xiong, Shiwu, additional, Mao, Tingyong, additional, Feng, Lu, additional, Wang, Guoping, additional, Li, Xiaofei, additional, Wang, Zhanbiao, additional, Zhi, Xiaoyu, additional, Jiao, Yahui, additional, Xin, Minghua, additional, Li, Yabing, additional, and Yang, Beifang, additional

Published
2023
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17. Long-term assessments of cotton fiber quality in response to plant population density: Reconciling fiber quality and its temporal stability

Author

Zhang, Shijie, primary, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Lei, Yaping, additional, Wang, Zhanbiao, additional, Xiong, Shiwu, additional, Yang, Beifang, additional, Du, Wenli, additional, Zhi, Xiaoyu, additional, Xin, Minghua, additional, Jiao, Yahui, additional, Li, Xiao-Fei, additional, and Li, Yabing, additional

Published
2023
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18. Optimizing plant type structure to adjust the temporal and spatial distribution of water consumption and promote the growth and yield formation of cotton

Author

Wang, Yaru, primary, Chen, Jiale, additional, Wu, Fengqi, additional, Yang, Beifang, additional, Han, Yingchun, additional, Feng, Lu, additional, Wang, Zhanbiao, additional, Li, Xiaofei, additional, Lei, Yaping, additional, Xiong, Shiwu, additional, Wang, Guoping, additional, Zhi, Xiaoyu, additional, and Li, Yabing, additional

Published
2023
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20. Orychophragmus violaceus/cotton relay intercropping with reduced N application maintains or improves crop productivity and soil carbon and nitrogen fractions

Author

Zhang, Zhenggui, primary, Wang, Jian, additional, Xiong, Shiwu, additional, Huang, Weibin, additional, Li, Xiaofei, additional, Xin, Minghua, additional, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Lei, Yaping, additional, Yang, Beifang, additional, Li, Yabing, additional, and Wang, Zhanbiao, additional

Published
2023
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23. Quantifying Soil Water Movement to Precisely Manage Soil Water Consumption Under Different Cotton Cropping Systems May Help Improve Cotton Yields

Author

Wu, Fengqi, primary, Guo, Simeng, additional, Huang, Weibin, additional, Han, Yingchun, additional, Wang, Zhanbiao, additional, Feng, Lu, additional, Li, Xiaofei, additional, Wang, Guoping, additional, Lei, Yaping, additional, Zhi, Xiaoyu, additional, Yang, Beifang, additional, Xiong, Shiwu, additional, Xin, Minghua, additional, and Li, Yabing, additional

Published
2023
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25. Modifying the planting density to change water utilization in various soil layers and regulate plant growth and yield formation of cotton

Author

Chen, Jiale, primary, Wang, Yaru, additional, Zhi, Xiaoyu, additional, Qiu, Yurong, additional, Han, Yingchun, additional, Feng, Lu, additional, Wang, Zhanbiao, additional, Li, Xiaofei, additional, Lei, Yaping, additional, Xiong, Shiwu, additional, Wang, Guoping, additional, Yang, Beifang, additional, and Li, Yabing, additional

Published
2022
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26. Cover crops and N fertilization affect soil ammonia volatilization and N2O emission by regulating the soil labile carbon and nitrogen fractions

Author

Zhang, Zhenggui, primary, Wang, Jian, additional, Huang, Weibin, additional, Chen, Jiale, additional, Wu, Fengqi, additional, Jia, Yaoyu, additional, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Li, Xiaofei, additional, Lei, Yaping, additional, Yang, Beifang, additional, Xiong, Shiwu, additional, Xin, Minghua, additional, Li, Yabing, additional, and Wang, Zhanbiao, additional

Published
2022
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29. Adopting different cotton cropping systems may regulate the spatiotemporal variation in soil moisture and affect the growth, WUE and yield of cotton

Author

Wu, Fengqi, primary, Yang, Beifang, additional, Guo, Simeng, additional, Huang, Weibin, additional, Lei, Yaping, additional, Xiong, Shiwu, additional, Han, Yingchun, additional, Wang, Zhanbiao, additional, Feng, Lu, additional, Li, Xiaofei, additional, Wang, Guoping, additional, Chen, Jie, additional, and Li, Yabing, additional

Published
2022
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30. Water and heat resource utilization of cotton under different cropping patterns and their effects on crop biomass and yield formation

Author

Wu, Fengqi, primary, Qiu, Yurong, additional, Huang, Weibin, additional, Guo, Simeng, additional, Han, Yingchun, additional, Wang, Guoping, additional, Li, Xiaofei, additional, Lei, Yaping, additional, Yang, Beifang, additional, Xiong, Shiwu, additional, Xin, Minghua, additional, Chen, Jie, additional, Wang, Zhanbiao, additional, Feng, Lu, additional, and Li, Yabing, additional

Published
2022
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31. Relay intercropping cover crop combined with reduced nitrogen application improves subsequent cotton agronomic traits while maintaining yield and quality.

Author

Guo, Xiaoyan, Zhang, Zhenggui, Sun, Guilan, Xiong, Shiwu, Han, Yingchun, Wang, Guoping, Li, Cundong, Li, Yabing, Zhang, Yongjiang, and Wang, Zhanbiao

Subjects
INTERCROPPING, COVER crops, LEAF area index, CROPPING systems, NITROGEN fertilizers, COTTON, CATCH crops, SUSTAINABILITY
Abstract

Applying cover crops to reduce nitrogen (N) fertilizer application while ensuring crop productivity is a major challenge for sustainable agricultural production. However, few studies have quantified N fertilizer application reduction through the use of February orchid (Orychophragmus violaceus) cover crops with the goal of ensuring cotton productivity. We conducted field experiments in the Yellow River basin on two cropping systems, monoculture cotton (Gossypium hirsutum L) and cotton/February orchid under four levels of N application (0 [N0], 112.5 [N1], 168.75 [N2], and 225 [N3] kg N·ha−1), to evaluate the impacts of cover cropping on cotton growth parameters, yield, and quality under different N application levels. The results indicated that replacing winter fallow with February orchid prolonged the cotton growth period and increased plant height, leaf area index (LAI), and dry matter accumulation but did not improve cotton yield or fiber quality. The Cotton/February orchid system under a 168.75 kg ha−1 N application rate improved cotton growth, and achieved yield and quality equivalent to those of monoculture cotton under a 225 kg ha−1 N application. Further analysis revealed that February orchid cover crop and N application positively affected lint yield, whereas plant height, LAI, and dry matter accumulation (positively) and phenology (negatively) predicted lint yield and fiber quality. In conclusion, cotton relay intercropping with February orchid in combination with 168.75 kg ha−1 N application is recommended as a suitable cropping system to reduce fallow fields and ensuring cotton productivity in the Yellow River basin and other areas with similar ecological conditions. Core Ideas: Replacing winter fallowing of fields with February orchid cultivation improved cotton growth parameters.Improvement in cotton growth and productivity with increasing nitrogen application rates.Relationships among cotton phenology, agronomic traits, yield, and quality were quantified.February orchid combined with 75% N fertilizer ensured cotton biomass and yield. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Loose and tower-type canopy structure can improve cotton yield in the Yellow River basin of China by increasing light interception.

Author

An, Jie, Zhang, Zhenggui, Li, Xiaofei, Xing, Fangfang, Lei, Yaping, Yang, Beifang, Wang, Zhanbiao, Han, Yingchun, Chen, Huanxuan, Wang, Guoping, Feng, Lu, Du, Wenli, and Li, Yabing

Subjects
LEAF area index, PLANT biomass, COTTON, PLANT canopies, ANNUALS (Plants)
Abstract

Determining the optimal plant architecture and canopy structure are important objectives in research on the breeding and cultivation of high-yielding crops. To address this challenge, a field experiment was conducted in Anyang, Henan, China, to assess cotton light interception, boll spatial distribution, leaf area index (LAI), plant height and biomass, lint yield and yield component during 2018–2019. Treatments including 10 cotton cultivars with belong to tower-shaped and tube-type canopy structure. Compared with compact cotton varieties, the loose and tower-shaped cotton varieties intercepted more light (average 28.6%) and had a higher LAI (average 34.2%), resulting in a higher cotton yield (average 14.8%). In addition, polynomial correlation showed that the maximum light interception rate occurred at the flowering and boll-forming stage, when the annual mean plant height (94.6 cm), LAI (3.58) and biomass (15,006 kg ha−1) all reached their peak. Moreover, yield was extremely significantly positively correlated with intercepted photosynthetically active radiation (IPAR) (R = 0.7) and positively correlated with light use efficiency (LUE) (R = 0.36). Overall, the results suggest that cotton cultivars with loose and tower-type canopy structures intercept more light and should be planted to increase cotton yield and LUE in the Yellow River basin of China and areas with similar conditions. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Mitigating greenhouse gas emissions and ammonia volatilization from cotton fields by integrating cover crops with reduced use of nitrogen fertilizer

Author

Sun, Guilan, primary, Zhang, Zhenggui, additional, Xiong, Shiwu, additional, Guo, Xiaoyan, additional, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Lei, Yaping, additional, Li, Xiaofei, additional, Yang, Beifang, additional, Xing, Fangfang, additional, Xin, Minghua, additional, Chen, Huanxuan, additional, Li, Yabing, additional, and Wang, Zhanbiao, additional

Published
2022
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34. Carbon footprint of cotton production in China: Composition, spatiotemporal changes and driving factors

Author

Huang, Weibin, primary, Wu, Fengqi, additional, Han, Wanrui, additional, Li, Qinqin, additional, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Li, Xiaofei, additional, Yang, Beifang, additional, Lei, Yaping, additional, Fan, Zhengyi, additional, Xiong, Shiwu, additional, Xin, Minghua, additional, Li, Yabing, additional, and Wang, Zhanbiao, additional

Published
2022
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35. Orychophragmus violaceus-maize rotation increases maize productivity by improving soil chemical properties and plant nutrient uptake

Author

Zhang, Zhenggui, primary, An, Jie, additional, Xiong, Shiwu, additional, Li, Xiaofei, additional, Xin, Minghua, additional, Wang, Jian, additional, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Lei, Yaping, additional, Yang, Beifang, additional, Xing, Fangfang, additional, Li, Yabing, additional, and Wang, Zhanbiao, additional

Published
2022
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36. Loose and tower-type canopy structure can improve cotton yield in the Yellow River basin of China by increasing light interception

Author

An, Jie, primary, Zhang, Zhenggui, additional, Li, Xiaofei, additional, Xing, Fangfang, additional, Lei, Yaping, additional, Yang, Beifang, additional, Wang, Zhanbiao, additional, Han, Yingchun, additional, Chen, Huanxuan, additional, Wang, Guoping, additional, Feng, Lu, additional, Du, Wenli, additional, and Li, Yabing, additional

Published
2022
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38. 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

Author

Li, Zhipeng, primary, Yang, Beifang, additional, Chen, Guodong, additional, Han, Yingchun, additional, Lei, Yaping, additional, Ma, Yunzhen, additional, Xiong, Shiwu, additional, Mao, Tingyong, additional, Feng, Lu, additional, Wang, Guoping, additional, Li, Xiaofei, additional, Wang, Zhanbiao, additional, Zhi, Xiaoyu, additional, Jiao, Yahui, additional, Xin, Minghua, additional, Wan, Sumei, additional, and Li, Yabing, additional

Published
2022
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42. Effect of Spatial-Temporal Light Competition on Cotton Yield and Yield Distribution

Author

Wang, Qingru, primary, Chen, Huanxuan, additional, Han, Yingchun, additional, Xing, Fangfang, additional, Wang, Zhanbiao, additional, Feng, Lu, additional, Wang, Guoping, additional, Yang, Beifang, additional, Lei, Yaping, additional, Xiong, Shiwu, additional, Li, Xiaofei, additional, Xin, Minghua, additional, Du, Wenli, additional, and Li, Yabing, additional

Published
2021
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43. 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

Author

Zhang, Zhenggui, primary, An, Jie, additional, Han, Yingchun, additional, Feng, Lu, additional, Li, Xiaofei, additional, Xiong, Shiwu, additional, Xing, Fangfang, additional, Xin, Minghua, additional, Li, Yabing, additional, and Wang, Zhanbiao, additional

Published
2021
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46. Cotton Production in China

Author

Xue Huiyun, Li Yabing, Li Pengcheng, Wang Zhanbiao, Mao Shuchun, and Zhi Xiaoyu

Subjects
Environmental science, Production (economics), China, Agricultural economics
Published
2019

47. Orychophragmus violaceus as a winter cover crop is more conducive to agricultural sustainability than Vicia villosa in cotton-fallow systems.

Author

Zhang, Zhenggui, Li, Xiaofei, Xiong, Shiwu, an, Jie, Han, Yingchun, Wang, Guoping, Feng, Lu, Lei, Yaping, Yang, Beifang, Xing, Fangfang, Xin, Minghua, Du, Wenli, Wang, Zhanbiao, and Li, Yabing

Subjects
COVER crops, VETCH, CROP quality, COTTON, SOIL depth, GENITALIA
Abstract

The current cotton (Gossypium hirsutum L.) fallow farming system causes soil degeneration and cotton yield reduction. Cover cropping is commonly associated with improved soil fertility and crop productivity, while the effect of cover crops on soil quality and cotton productivity remains unclear in the region. Using a monoculture cotton (cotton-fallow) as the control, a field experiment was conducted to verify the impacts of cotton with two cover crops, Orychophragmus violaceus (cotton/O. violaceus) and Vicia villosa (cotton/V. villosa), on soil chemical properties and cotton productivity. The results showed that cotton/O. violaceus increased the soil organic matter (SOM), total nitrogen (TN), and available nitrogen (AN) by 5.77%, 2.03%, and 13.07% compared to cotton-fallow at a 0–100 cm soil depth, respectively. Cotton/O. violaceus developed relatively greater cotton biomass accumulation and higher cotton yield than cotton/V. villosa and cotton-fallow, an immediate cause of which was greater reproductive organ biomass accumulation and a larger number of bolls per unit area. Furthermore, SOM and TN had a significantly positive correlation with cotton biomass and yield. Cotton/O. violaceus were more conducive than cotton/V. villosa and cotton-fallow in the Yellow River basin of China and in other areas with similar requirements. [ABSTRACT FROM AUTHOR]

Published
2022
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48. Orychophragmus violaceus as a winter cover crop is more conducive to agricultural sustainability than Vicia villosa in cotton-fallow systems

Author

Zhang, Zhenggui, primary, Li, Xiaofei, additional, Xiong, Shiwu, additional, an, Jie, additional, Han, Yingchun, additional, Wang, Guoping, additional, Feng, Lu, additional, Lei, Yaping, additional, Yang, Beifang, additional, Xing, Fangfang, additional, Xin, Minghua, additional, Du, Wenli, additional, Wang, Zhanbiao, additional, and Li, Yabing, additional

Published
2021
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50. Competition for Light Interception in Cotton Populations of Different Densities

Author

Chen, Huanxuan, primary, Zhao, Xinxin, additional, Han, Yingchun, additional, Xing, Fangfang, additional, Feng, Lu, additional, Wang, Zhanbiao, additional, Wang, Guoping, additional, Yang, Beifang, additional, Lei, Yaping, additional, Xiong, Shiwu, additional, Li, Xiaofei, additional, Xin, Minghua, additional, An, Jie, additional, Du, Wenli, additional, and Li, Yabing, additional

Published
2021
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