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红壤养分扩容与离子平衡调理对玉米生长的影响OA

Effects of Nutrient Capacity Expansion and Ionic Balance Regulation in Red Soil on Maize Growth

中文摘要英文摘要

本研究针对红壤养分库容小、盐基饱和度低、养分不平衡等问题,以钙基膨润土、风化褐煤、有机肥、七水合硫酸镁、钙镁磷肥、硫酸钾等材料,布置土壤养分库容增容和土壤阳离子平衡调理试验,研究上述物料对土壤阳离子交换量(CEC)和阳离子平衡的影响及玉米生长效应.结果表明,钙基膨润土、风化褐煤、有机肥均能提高土壤CEC,膨润土+风化褐煤+有机肥组合处理(BWO)的CEC达到了8.70 cmol/kg,较空白对照处理(CK)显著提高72.96%(P<0.05).在土壤养分扩容的基础上,阳离子平衡调理处理(BWO1,BWO处理基础上+钙镁磷肥+七水合硫酸镁+硫酸钾)显著促进了玉米地上部生长,其株高、茎粗、生物量等较CK分别增加55.5%、80.0%、152.7%(P<0.05);同时也促进了玉米根系生长发育,表现为总根长、总根体积、根表面积、平均根系直径、根尖数及分支数显著增加(P<0.05),较CK分别增长147.0%、425.0%、234.3%、50.0%、101.6%、134.3%.综上所述,钙基膨润土、风化褐煤、有机肥、七水合硫酸镁、钙镁磷肥、硫酸钾等材料可用于红壤养分扩容及阳离子平衡调理,改善土壤养分平衡状况,从而提高玉米的养分利用效率,促进玉米生长发育.

This study addressed the issues of low nutrient storage capacity,low base saturation,and nutrient imbalance in red soil.Using materials including calcium-based bentonite,weathered lignite,organic fertilizer,magnesium sulfate heptahydrate,calcium magnesium phosphate fertilizer,and potassium sulfate,an experiment on soil storage capacity expansion and soil cation balance regulation was conducted to investigate the effects of the above materials on soil cation exchange capacity(CEC),cation balance,and maize growth.Results showed that,calcium-based bentonite,weathered lignite,and organic fertilizer all enhanced soil CEC.The combined treatment of bentonite+weathered lignite+organic fertilizer(BWO)achieved a CEC of 8.70 cmol/kg,increased by 72.96%compared to the control(CK)(P<0.05).Based on soil nutrient capacity improvement,the cation balance regulation treatment(BWO1,BWO+magnesium sulfate heptahydrate+calcium magnesium phosphate fertilizer+potassium sulfate)significantly promoted maize above-ground growth,with plant height,stem diameter,and biomass increased by 55.5%、80.0%and 152.7%,respectively compared to CK(P<0.05).It also enhanced root system development,demonstrating significant increases in total root length(147.0%),total root volume(425.0%),root surface area(234.3%),average root diameter(50.0%),root tip number(101.6%),and branch number(134.3%)compared to CK(P<0.05).The findings indicated that these materials can effectively improve the nutrient storage capacity and cation balance of red soil,thereby enhancing maize nutrient use efficiency and overall growth development.

陈硕;杨梦圆;苏纪康;恽文荣;刘建刚;赵耕毛

南京农业大学资源与环境科学学院,南京 210095南京农业大学资源与环境科学学院,南京 210095南京农业大学资源与环境科学学院,南京 210095常州市武进区水利局,江苏 常州 213161常州市武进区水利局,江苏 常州 213161南京农业大学资源与环境科学学院,南京 210095

农业科技

土壤改良土壤阳离子交换量土壤增容土壤盐基离子平衡

Soil improvementSoil cation exchange capacitySoil capacity incrementSoil base ions balance

《土壤》 2026 (2)

311-319,9

国家重点研发计划项目(2019YFD0900702,2020YFD0900703)和江苏省水利工程建设项目(CZWJ-QY-2024-LYYJ)资助.

10.13758/j.cnki.tr.202503150096

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