Optimized length and application rate of chopped straw for alfalfa production in ridge-furrow rainwater-harvesting in semi-arid regions in China

IF 6.5 1区农林科学 Q1 AGRONOMY Agricultural Water Management Pub Date : 2025-04-30 Epub Date: 2025-03-02 DOI:10.1016/j.agwat.2025.109393

Xiaole Zhao , Qi Wang , Abdul Qadeer , Yuanwei Sun , Rizwan Azim , Ibrahim Awuku , Farzaneh Masoumkhani , Wen Ma , Qinglin Liu , Xunzhen Cui , Haixia Dong , Xuchun Li , Bing Liu

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Abstract

Water scarcity poses a significant challenge for alfalfa (Medicago sativa L) cultivation in semi-arid regions in China. The conventional use of ridge-furrow rainwater harvesting (RFRH) with plastic film mulching in these areas has led to notable environmental repercussions. This study proposed an innovative approach in which RFRH was integrated with chopped straw-soil crust instead of plastic film. Runoff observations and alfalfa production experiments were carried out using a split-plot design to investigate the impact of varying chopped straw lengths (2 cm and 10 cm) and application rates (0 (R₀), 3 (R₃), 6 (R₆), and 9 (R₉) t ha⁻¹) on runoff coefficient, soil water storage, temperature, fodder yield, and crop water productivity (WP_C). Results indicated that the average runoff coefficient for R₀, R₃, R₆, and R₉ was 0.36–0.49, 0.41–0.59, 0.50–0.68, and 0.64–0.74, respectively. Compared to R₀, the increase in soil water storage for R₃, R₆, and R₉ was 7.1–15.1, 15.0–26.5, and 20.1–44.2 mm, respectively. The reduction in temperature within the furrow profile for those treatments was 0.4–1.0°C, 0.8–1.3°C, and 1.1–2.0°C, respectively. The increase in fodder yield for those treatments ranged from 11.3 % to 34.0 %, 31.2 %-62.9 %, and 7.9 %-47.7 %, respectively, while the enhancement in WP_C was 1.3–14.8, 5.1–27.9, and 2.0–20.7 kg ha⁻¹ mm⁻¹. Notably, the average values for runoff coefficient, soil water storage, fodder yield, and WP_C under 10 cm length of chopped straw were 1.03–1.31, 1.02–1.03, 1.02–1.05, and 1.03–1.08 times greater than under 2 cm length of chopped straw. Runoff coefficient, soil water storage, fodder yield, and WP_C increased as chopped straw application rate and length increased. The structural equation modelling analysis showed that the chopped straw application rate had a significant direct positive effect on fodder yield and WP_C, whereas the chopped straw length had a significant indirect negative effect on those parameters. The regression equation indicated that the optimized chopped straw application rate ranged from 5.2 to 7.1 t ha⁻¹, while the optimized chopped straw length was 10 cm. This study underscored that chopped straw-soil crust was a sustainable alternative to plastic film mulching, offering valuable insights for improving alfalfa cultivation in water-scarce environments.

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半干旱区垄沟集雨苜蓿刈割秸秆长度及施用量优化研究

水资源短缺是中国半干旱区紫花苜蓿种植面临的重大挑战。在这些地区使用传统的垄沟雨水收集（RFRH）和塑料薄膜覆盖导致了显著的环境影响。本研究提出了一种创新的RFRH方法，即用切碎的秸秆-土壤结皮代替塑料薄膜。采用裂地设计进行径流观测和苜蓿生产试验，研究不同刈割秸秆长度（2 cm和10 cm）和施用量（0 （R0）、3 （R3）、6 （R6）和9 (R9) t ha - 1）对径流系数、土壤储水量、温度、饲料产量和作物水分生产力（WPC）的影响。结果表明，R0、R3、R6和R9的平均径流系数分别为0.36 ~ 0.49、0.41 ~ 0.59、0.50 ~ 0.68和0.64 ~ 0.74。与R0相比，R3、R6和R9的土壤储水量分别增加7.1 ~ 15.1、15.0 ~ 26.5和20.1 ~ 44.2 mm。垄沟内温度降低幅度分别为0.4 ~ 1.0℃、0.8 ~ 1.3℃和1.1 ~ 2.0℃。饲粮产量提高幅度分别为11.3 % ~ 34.0% %、31.2% % ~ 62.9 %和7.9 % ~ 47.7 %，料粗比提高幅度分别为1.3 ~ 14.8、5.1 ~ 27.9和2.0 ~ 20.7 kg ha−1 mm−1。值得注意的是，10 cm秸秆下的径流系数、土壤蓄水量、饲料产量和WPC平均值分别是2 cm秸秆下的1.03 ~ 1.31、1.02 ~ 1.03、1.02 ~ 1.05和1.03 ~ 1.08倍。径流系数、土壤储水量、饲料产量和木比随秸秆施用量和秸秆长度的增加而增加。结构方程模型分析表明，秸秆切碎用量对饲料产量和WPC有显著的直接正影响，而秸秆切碎长度对这两个参数有显著的间接负影响。回归方程表明，优化后的秸秆秸秆施用量为5.2 ~ 7.1 t ha−1，优化后的秸秆秸秆长度为10 cm。该研究强调了秸秆-土壤结皮是一种可持续的替代地膜覆盖的方法，为改善缺水环境下的紫花苜蓿种植提供了有价值的见解。

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来源期刊

Agricultural Water Management 农林科学-农艺学

CiteScore

12.10

自引率

14.90%

发文量

648

审稿时长

4.9 months

期刊介绍： Agricultural Water Management publishes papers of international significance relating to the science, economics, and policy of agricultural water management. In all cases, manuscripts must address implications and provide insight regarding agricultural water management.