含腐植酸复合肥料对水稻生长及镉吸收的影响
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摘要
为探讨含腐植酸复合肥料对水稻生长、镉吸收的影响及其应用的可行性,采用盆栽试验,分析了施用常量和减量含腐植酸复合肥料对水稻生物量、植株镉含量和糙米镉含量的变化情况。结果表明,常量含腐植酸复合肥料处理可显著提高籽粒产量12.1%,减量含腐植酸复合肥料处理对籽粒增产不显著。在添加镉污染条件下,常量含腐植酸复合肥料处理与普通复合肥料处理相比,根系、茎秆、叶片和籽粒中镉含量可分别降低31.0%、20.3%、31.7%和21.4%;在常量和减量含腐植酸复合肥料处理的水稻糙米中的镉含量分别降低了38.2%和34.4%,效果显著。综上,腐植酸与复合肥料结合可有效运用于水稻控制重金属和化肥减量,组合方式仍待优化。
The effects of compound fertilizer containing humic acid on the growth of rice and cadmium(Cd)uptaking, the feasibility of its application were studied with pot experiment, focusing on the rice biomass and Cd content in different parts of its normal and reduced application. The results showed that using normal compound fertilizer containing humic acid could significantly increase grain yield of rice by 12.1%,while grain yield was not significantly increased by reducing in application compound fertilizer containing humic acid. Compared with normal compound fertilizer, adding normal fertilizer containing humic acid significantly decreased Cd content in root, stem, leaf, grain and brown rice by 31.0%, 20.3%, 31.7%, 21.4%and 38.2% respectively under cadmium pollution conditions, the Cd contents in brown rice was significantly reduced 34.4% by reducing in application compound fertilizer containing humic acid. Indicating that humic acid combined with compound fertilizer could control heavy metals in rice and decrease fertilizer amount,however, method of the combination still needs to be studied in detail.
The effects of compound fertilizer containing humic acid on the growth of rice and cadmium(Cd)uptaking, the feasibility of its application were studied with pot experiment, focusing on the rice biomass and Cd content in different parts of its normal and reduced application. The results showed that using normal compound fertilizer containing humic acid could significantly increase grain yield of rice by 12.1%,while grain yield was not significantly increased by reducing in application compound fertilizer containing humic acid. Compared with normal compound fertilizer, adding normal fertilizer containing humic acid significantly decreased Cd content in root, stem, leaf, grain and brown rice by 31.0%, 20.3%, 31.7%, 21.4%and 38.2% respectively under cadmium pollution conditions, the Cd contents in brown rice was significantly reduced 34.4% by reducing in application compound fertilizer containing humic acid. Indicating that humic acid combined with compound fertilizer could control heavy metals in rice and decrease fertilizer amount,however, method of the combination still needs to be studied in detail.
引文
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[12]李通,魏玉莲,陈士更,等.含腐植酸风化煤对镉污染土壤理化性质及小白菜生理指标的研究[J].腐植酸,2017(5):26~34.
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[15]李克斌,刘维屏,邵颖.重金属离子在腐植酸上吸附的研究[J].环境污染与防治,1997,19(1):9~11.
[2]傅国伟.中国水土重金属污染的防治对策[J].中国环境科学,2012,2(2):373~376.
[3]魏树和.超积累植物筛选及污染土壤植物修复过程研究[D].北京:中国科学院研究生院博士学位论文,2004.
[4]Zhang H,Wang Z F,Zhang Y L,et al.The effects of the Qinghai-Tibet railway on heavy metals enrichment in soils[J].Science of the Total Environment,2012,(439):240~248.
[5]李宇庆,陈玲,仇雁翎,等.上海化学工业区土壤重金属元素形态分析[J].生态环境,2004,13(2):154~155.
[6]莫征,王春霞,陈琴,等.重金属Cu、Pb、Zn、Cr、Cd在土壤中的形态分布和转化[J].农业环境保护,2002,21(1):9~12.
[7]李文蔚,张沁怡,罗亚成,等.腐植酸和水旱轮作对镉污染土壤种植的稻糙米品质的影响[J].湖南农业科学,2014(22):31~33.
[8]卢静,朱琨,侯彬,等.腐植酸与土壤中重金属离子的作用机理研究概况[J].腐植酸,2006(5):1~5.
[9]黄占斌,孙朋成.矿区重金属污染土壤的修复[J].科学,2013,65(6):38~42.
[10]丁园,宗良纲,徐晓炎,等.镉污染对水稻不同生育期生长和品质的影响[J].生态环境学报,2009,18(1):183~186.
[11]彭鸥.镉胁迫对水稻生长发育的影响及米镉积累的关键时期探究[D].长沙:湖南农业大学硕士学位论文,2017.
[12]李通,魏玉莲,陈士更,等.含腐植酸风化煤对镉污染土壤理化性质及小白菜生理指标的研究[J].腐植酸,2017(5):26~34.
[13]任学军,杜彬,任艳军,等.腐植酸钠对镉胁迫小麦幼苗的生物效应[J].南方农业学报,2011,42(10):233~237.
[14]王晓娟,王文斌,杨龙,等.重金属(Cd)在植物体内的转运途径及其调控机制[J].生态学报,2015,35(23):7921~7929.
[15]李克斌,刘维屏,邵颖.重金属离子在腐植酸上吸附的研究[J].环境污染与防治,1997,19(1):9~11.
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