盐旱双重胁迫对滴灌土壤水盐环境及棉花产量品质的影响OA
Effects of combined saline-drought stress on the soil water-salt environment,cotton yield and fiber quality of cotton under drip irrigation
干旱和盐碱问题是制约西北干旱区农业生产力的两大关键因素,而土壤水盐环境和棉花生长发育对盐旱双重胁迫的响应关系仍需进一步探索.基于此,该研究通过盆栽试验设置了 4个土壤初始含盐量水平:T1(2g/kg)、T2(4g/kg)、T3(6 g/kg)和 T4(8 g/kg),4 个灌水定额水平:W1(3 375 m3/hm2)、W2(3 750 m3/hm2)、W3(4 125 m3/hm2)和W4(4 500 m3/hm2),4 个灌溉水矿化度:S1(2g/L)、S2(5g/L)、S3(8 g/L)和 S4(11 g/L),采用三因素四水平的正交试验设计,共16个处理,并应用相关性分析、结构方程模型与熵权法TOPSIS综合评价探究了盐旱胁迫对土壤水盐环境和棉花生长发育的影响.结果表明:棉花各生育土壤含水率和土壤含盐量随土壤初始含盐量和灌溉水矿化度升高而增大.此外,随土壤初始含盐量增加,棉花株高、茎粗、叶面积指数、净光合速率、蒸腾速率、气孔导度、籽棉产量和水分利用效率呈降低趋势,纤维长度呈先增后减的变化趋势,整齐度指数、断裂强度、伸长率以及纤维综合品质指数表现为先增后减再增的波动变化趋势,马克隆值则呈相反变化趋势.随灌溉水矿化度升高,棉花株高、茎粗、叶面积指数、籽棉产量、水分利用效率、整齐度指数和断裂强度呈降低趋势,纤维长度和纤维综合品质指数呈先降后增的变化趋势,马克隆值和伸长率则呈现相反的趋势.随灌水定额升高,株高、茎粗、叶面积指数、净光合速率、蒸腾速率、气孔导度、纤维长度、整齐度指数、断裂强度和马克隆值呈先增后降的变化趋势,籽棉产量、水分利用效率和纤维综合品质指数呈增大的趋势.盐旱胁迫会改变土壤水盐环境,进而对作物生理生长和产量品质产生影响,综合评价最优前三个处理分别为T1W2S2、T1W1S1和T2W2S1.研究可为西北干旱区棉花稳产增产提供一定理论参考依据.
Drought and soil salinity are two major limiting factors on the agricultural productivity in arid northwest China.Particularly,2.96 million hm2 of cultivated land is often subjected to the saline-alkali damage,accounting for more than 40%among the 7.09 million hm2 of cultivated land in Xinjiang.The ratio of the agricultural water to total water consumption is more than 90%,which seriously impacts on the land productivity.The saline water resources have seriously threaten to the large-scale production,due to the soil secondary salinization.However,it is still unclear on the response mechanisms of the soil water-salt dynamics and cotton growth to the salt-drought stress.This study aims to explore the effects of the combined saline-drought stress on the soil water-salt environment,cotton yield,and fiber quality under drip irrigation.The test material was taken as the conventional cotton variety(Xinluzao 42)widely-grown in Xinjiang Province,China.A pot experiment was conducted using a three-factor(initial soil salinity,irrigation amount,and water salinity)and four-level orthogonal design.16 treatments were set:four initial soil salinity levels(T1:2 g/kg,T2:4 g/kg,T3:6 g/kg,and T4:8 g/kg),four irrigation volumes(W1:3375 m3/hm2,W2:3750 m3/hm2,W3:4125 m3/hm2,and W4:4500 m3/hm2),and four irrigation water salinities(S1:2 g/L,S2:5 g/L,S3:8 g/L,and S4:11 g/L)in Shihezi City,Xinjiang,China,during 2022.A comparison was then conducted to investigate the soil water and salt content,growth and physiology of cotton,as well as seed cotton yield and fiber quality under combined salinity-drought stress after drip irrigation.Their underlying relationships were constructed to integrate the soil water and salt environment with the yield and fiber quality.Correlation analysis,structural equation modeling,and the entropy weight TOPSIS were applied to evaluate the effects of the salt-drought stress on the soil water-salt dynamics and cotton growth.The results showed that soil water content and soil salinity at different cotton growth stages increased with increasing initial soil salinity and irrigation water salinity.With increasing initial soil salinity,cotton plant height,stem diameter,leaf area index,net photosynthetic rate,transpiration rate,stomatal conductance,seed cotton yield,and water use efficiency exhibited decreasing trends.Fiber length initially increased and then decreased,while the uniformity index,breaking strength,elongation,and comprehensive fiber quality index showed fluctuating trends characterized by an initial increase,followed by a decrease and then another increase.In contrast,the micronaire value exhibited an opposite trend.As irrigation water salinity increased,cotton plant height,stem diameter,leaf area index,seed cotton yield,water use efficiency,uniformity index,and breaking strength declined.Fiber length and the comprehensive fiber quality index decreased initially and then increased,whereas the micronaire value and elongation displayed opposite trends.With increasing irrigation quota,plant height,stem diameter,leaf area index,net photosynthetic rate,transpiration rate,stomatal conductance,fiber length,uniformity index,breaking strength,and micronaire value increased initially and then decreased,while seed cotton yield,water use efficiency,and the comprehensive fiber quality index showed increasing trends.Salt-drought stress was altered the soil water-salt environment,thereby resulting on the cotton growth and development.Specifically,there were the negative effects of the soil initial salinity and irrigation water salinity on the cotton growth,photosynthetic properties,yield,water use efficiency,and fiber quality index.While the irrigation amount shared the positive effects on these five factors.Furthermore,the top three optimal treatments were T1W2S2,T1W1S1,and T2W2S1.While the least three treatments were T4W1S4,T3W2S4,and T4W2S3,respectively.These findings can also provide the theoretical reference to increase the cotton yields in the arid regions of Northwest China.
马占利;王振华;王菲;温越;李文昊;张金珠
石河子大学水利建筑工程学院,石河子 832000||现代节水灌溉兵团重点实验室,石河子 832000||兵团农业水肥高效关键装备技术创新中心,石河子 832000||兵团盐碱地综合利用工程技术中心,石河子 832000石河子大学水利建筑工程学院,石河子 832000||现代节水灌溉兵团重点实验室,石河子 832000||兵团农业水肥高效关键装备技术创新中心,石河子 832000||兵团盐碱地综合利用工程技术中心,石河子 832000石河子大学水利建筑工程学院,石河子 832000||现代节水灌溉兵团重点实验室,石河子 832000||兵团农业水肥高效关键装备技术创新中心,石河子 832000||兵团盐碱地综合利用工程技术中心,石河子 832000石河子大学水利建筑工程学院,石河子 832000||现代节水灌溉兵团重点实验室,石河子 832000||兵团农业水肥高效关键装备技术创新中心,石河子 832000||兵团盐碱地综合利用工程技术中心,石河子 832000石河子大学水利建筑工程学院,石河子 832000||现代节水灌溉兵团重点实验室,石河子 832000||兵团农业水肥高效关键装备技术创新中心,石河子 832000||兵团盐碱地综合利用工程技术中心,石河子 832000石河子大学水利建筑工程学院,石河子 832000||现代节水灌溉兵团重点实验室,石河子 832000||兵团农业水肥高效关键装备技术创新中心,石河子 832000||兵团盐碱地综合利用工程技术中心,石河子 832000
农业科技
膜下滴灌棉花盐旱胁迫生长特性光合特性产量
mulched drip irrigationcottonsalt-drought stressgrowth characteristicsphotosynthetic characteristicyield
《农业工程学报》 2026 (1)
90-100,11
十四五国家重点研发计划项目课题(2021YFD1900802)国家自然科学基金项目(52369011)
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