Soil water movement may regulate soil water consumption and improve cotton yields under different cotton cropping systems

皮棉 农学 种植 灌溉 环境科学 单作 生物量(生态学) 产量(工程) 土壤水分 播种 用水效率 用水 苗木 数学 土壤科学 农业 作物 生物 生态学 材料科学 冶金
作者
Fengqi Wu,Simeng Guo,Weibin Huang,Yingchun Han,Zhanbiao Wang,Lu Feng,Guoping Wang,Xiaofei Li,Yaping Lei,Xiaoyu Zhi,Shiwu Xiong,Yahui Jiao,Minghua Xin,Beifang Yang,Yabing Li
出处
期刊:Industrial Crops and Products [Elsevier BV]
卷期号:211: 118278-118278 被引量:5
标识
DOI:10.1016/j.indcrop.2024.118278
摘要

By quantifying the soil water movement (SWM) in crop planting systems, we can better understand the soil water consumption (SWC) and crop yield relationship; this finding is significant for determining the field water cycle and reducing agricultural water waste. In this paper, a case study was conducted on cotton production. Soil moisture sensors were set at depths of 10–110 cm under three cotton cropping systems (monoculture cotton (MC), wheat/delayed intercropped cotton (WIC), and wheat/direct-seeded cotton (WDC)) based on spatial grid methods; a geostatistical grid calculus was used to calculate SWM; and the crop and meteorological influence mechanisms on cotton lint yield were comprehensively analyzed. At the squaring stage, SWC and vertical SWM were significantly correlated with light, temperature and water conditions. At the flowering and boll development stage, SWC and vertical SWM were collectively affected by meteorological conditions and crops, and they were positively correlated with lint yield. The aboveground and belowground biomass accumulation at the flowering and boll development stage positively affected vertical SWM in and between cotton rows. Vertical SWM in cotton rows increased SWC in cotton rows. SWC in cotton rows and aboveground biomass positively impacted lint yield formation; SWC between rows negatively impacted lint yield. The SWC and vertical SWM between rows in the MC seedling stage exceeded those in cotton rows, and more precise irrigation at the seedling stage reduced water waste. The WIC horizontal SWC at the squaring and flowering and boll opening stages was relatively high, moving from the row midline to cotton row. A better SWC distribution in and between cotton rows promoted water utilization in the cotton rows; this method was feasible for improving cotton yield in diverse planting systems. The results could optimize precision irrigation management at different cotton growth stages and provide a theoretical reference for promoting sustainable agricultural production and climate adaptation.
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