铁螯合物与EDTA、DTPA和EDDHA钠盐在两种碱性土壤中的反应及其对大麦生长的影响

Samir A. Aboulroos, Ezzat A. El Beissary, Assia A. El Falaky
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引用次数: 6

摘要

研究了EDTA、DTPA和EDDHA的铁螯合剂和钠盐在钙质(缺铁)和冲积质(缺铁边缘)土壤中的行为及其在植物生长过程中的有效性。铁螯合剂维持可溶性铁和为大麦提供铁的有效性依次为Fe-EDTA <Fe-DTPA & lt;Fe-EDDHA。Fe-EDTA和Fe-DTPA中其他阳离子对铁的替代作用,而不是土壤对铁螯合物的吸附作用,是影响其有效性的主要因素。Fe-EDTA与土壤的平衡以铁与钙的竞争为主,而Fe-DTPA与土壤的平衡以铁与锰的竞争为主,而后与钙、锌、铜的竞争为主。竞争阳离子螯合的相对优势度随土壤类型的不同而不同。Fe-EDDHA既不被土壤吸附,也不被土壤大量固定。DTPA和EDDHA钠盐持续溶解原生土壤铁,但只暂时增加可溶性锰。EDTA和EDDHA对天然锌和铜的溶解作用最小,DTPA对天然锌和铜的溶解作用最大。在冲积土中,螯合剂中的钠盐与铁螯合剂对大麦的补铁效果相当,而在钙质土壤中,钠盐的补铁效果要差得多,因为钙质土壤的补铁问题更严重。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reactions of the iron chelates and the sodium salts of EDTA, DTPA and EDDHA with two alkaline soils, and their effectiveness during growth of barley

The behaviour of the iron chelates and sodium salts of EDTA, DTPA and EDDHA in calcareous (iron deficient) and alluvial (border-line iron deficient) soils and their effectiveness during plant growth were studied. The effectiveness of the iron chelates in maintaining soluble iron and in supplying barley with iron was in the order Fe-EDTA < Fe-DTPA < Fe-EDDHA. Replacement of iron by other cations in Fe-EDTA and Fe-DTPA, rather than adsorption of iron chelate by the soil, was the main factor influencing their effectiveness. The equilibrium of Fe-EDTA with soils was dominated by competition between iron and calcium, whereas that of Fe-DTPA was dominated by iron being in competition with manganese initially and with calcium, zinc and copper afterwards. The relative dominance of the chelate of the competing cation varied with soil type. Fe-EDDHA was neither adsorbed nor was its iron fixed by the soil to any great extent.

The sodium salt of DTPA and EDDHA continually dissolved native soil iron but increased soluble manganese only temporarily. Dissolution of native zinc and copper was least with EDTA and EDDHA and most with DTPA. The sodium salts of the chelating agents were as effective as the iron chelates in supplying barley with iron in the alluvial soil, which was marginally deficient, whereas they were much less effective in the calcareous soil, where iron supply is a greater problem.

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