Ultra-wide film mulching with moderate irrigation water salinity enhances cotton growth under drip irrigation in Xinjiang, China
文献类型: 外文期刊
第一作者: Ma, Zhanli
作者: Ma, Zhanli;Liu, Jian;Zhang, Jinzhu;Wen, Yue;Song, Libing;Zhu, Yan;Liang, Yonghui;Wang, Zhenhua;Ma, Zhanli;Liu, Jian;Zhang, Jinzhu;Wen, Yue;Song, Libing;Zhu, Yan;Liang, Yonghui;Wang, Zhenhua;Ma, Zhanli;Liu, Jian;Zhang, Jinzhu;Wen, Yue;Song, Libing;Zhu, Yan;Liang, Yonghui;Wang, Zhenhua;Yin, Feihu;Guo, Li
作者机构:
关键词: Cotton; Yield; Water use efficiency; Soil hydrothermal environment; Plastic film width; Irrigation water salinity; Mulched drip irrigation
期刊名称:FIELD CROPS RESEARCH ( 影响因子:5.6; 五年影响因子:6.1 )
ISSN: 0378-4290
年卷期: 2024 年 315 卷
页码:
收录情况: SCI
摘要: Context: Advancements in mulching drip irrigation for cotton cultivation have led to changes in plastic film width in Xinjiang, China. Concurrently, the application of brackish water for irrigation is increasingly becoming a common practice in areas where freshwater resources are limited. Objective: The effects of varying film widths and the salinity levels of irrigation water on soil hydrothermal properties, cotton growth, and yield are comprehensively investigated. Methods: A field experiment was carried out over two years (2021-2022) in Xinjiang, China. It involved testing three film widths (F1: ultra -wide film, 4.45 m; F2: wide film; 2.05 m, F3: narrow film; 1.45 m) and three levels of irrigation salinity (S1: 1 g L -1 , S2: 3 g L -1 , S3: 5 g L -1 ). Results: Wider film widths significantly increased soil water storage (SWS) and accumulated active temperature (SAT). Compared to F3, the SAT for F1 increased by 14.6-15.7 % in 2021 and by 14.1-15.8 % in 2022, respectively. Furthermore, increasing film width was found to promote cotton growth, enhance the photosynthetic capacity, and increase cotton yield by 19.2-24.1 % in 2021 and by 17.4-23.3 % in 2022, respectively. Importantly, irrigation water with a salinity level of 3 g L -1 had no adverse effect on cotton growth and development. However, an irrigation water salinity of 5 g L -1 significantly reduced cotton yield. The highest seed cotton yield and water use efficiency were observed under the S2F1 treatment, recording 5876 kg ha -1 and 11.55 kg ha -1 mm -1 in 2021, and 5905 kg ha -1 and 11.58 kg ha -1 mm -1 in 2022, respectively. Additionally, a structural equation model was developed to explore the interrelationships between the soil hydrothermal environment, cotton growth, photosynthetic capacity, and seed cotton yield. Conclusions: The findings highlight the benefits of using ultra -wide film (4.45 m) in conjunction with irrigation water having a salinity level of up to 3 g L -1 . This combination significantly improves cotton yield and water use efficiency, showcasing a promising approach for sustainable cotton cultivation in semi -arid regions.
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