肥料螯合物质对反应时间对锌离子络合度的影响

E. Klem-Marciniak, M. Huculak-Mączka, K. Hoffmann, J. Hoffmann
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引用次数: 0

摘要

近年来,农业面临的一个大问题是土壤中可用微量营养素的短缺,从而降低了产量。这种缺乏是由于农业的集约化、新植物物种的种植需要施肥以及相当大一部分土壤中有效微量营养素含量低,这就是为什么近年来寻找适当的形式,使它们能够不对环境产生负面影响。在微量营养肥料中获得螯合物具有特别重要的意义。这些化合物的特点是稳定性。螯合剂在很宽的pH范围内稳定微量元素的阳离子。其应用优化了微量营养素缺乏症的补充。使养分适应植物的需要可以减少对环境的负面影响,而不会像盐微量营养素那样造成土壤盐化。可施用于土壤和叶面施用。它们以液体或细晶的形式生产。在欧盟,螯合剂被用作液体肥料的添加剂。这些合成化合物属于胺聚羧酸化合物(APCAs),形成稳定的可溶于水的配合物。apca以1:1的摩尔比形成微量元素螯合物。最常用的成分是乙二胺四乙酸二钠盐(EDTA)。欧洲议会和欧盟理事会2003年10月13日第2003/2003号法规包括对农业中使用的螯合剂的要求。按照这些要求,复合体的微量元素含量应至少达到申报水溶性金属总含量的80%。植物在土壤环境中吸收微量元素的时间应与该时期的可降解性相对应。太低的生物可降解性可能会对环境产生不利影响,导致底层沉积物中重金属的动员,并导致植物毒性复合物。正式的要求导致继续寻找新的螯合剂,并改进所使用的技术。本研究的目的是测定微量营养素中所选离子在不同反应时间与螯合物质的络合程度。金属配体的摩尔比等于1:1。用微分脉冲伏安法测定络合度。选取微量营养素锌。对氨基多羧酸类化合物的衍生物和天然氨基酸进行了比较。DOI: 10.2428/ecea.2015.22(2)19 ECOL CHEM ENG . A. 2015;22(2):223-230Smoluchowskiego 25, 50-372 Wroc3aw,波兰,电话:+48 71 320 20 65,传真+48 71 328 04 25。*通讯作者:krystyna.hoffmann@pwr.edu.pl研究将有助于确定肥料工业中常用的螯合剂对微量营养素络合的最佳反应时间。
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Influence reaction time to degree of comlexation zinc ions by fertilizers chelating substances
In recent years, a big problem for agriculture is the shortage of available micronutrients in the soil, thus reducing yields. This deficiency is due to the intensification of agriculture, cultivation of new species of plants require fertilization and a significant share of soils with low content of available micronutrients, which is why in recent years looking for the appropriate forms in which they can be applied to not have a negative impact on the environment. Of particular importance in the field of micronutrient fertilizers gained chelates. These compounds are characterized by stability. Chelating agents stabilize the cations of microelements in a wide pH range. Their application optimizes supplement micronutrient deficiency. Adaptation of nutrients to the needs of the plants can reduce the negative impact on the environment, without causing soil salinity, as in the case of salt micronutrients. Can be applied to both soil and foliar application. They are produced in the form of liquid or fine-crystalline. In the European Union are set chelating agents used as additives for liquid fertilizers. These are synthetic compounds belonging to the aminepolycarboxylic compounds (APCAs) which form stable complexes which are soluble in water. APCAs form chelates of trace elements in a molar ratio 1:1. The most commonly used component is the disodium salt of ethylenediaminetetraacetic acid (EDTA). The Regulation of the European Parliament and of the Council EC No 2003/2003 of 13 October 2003 includes the requirements for chelates used in agriculture. In accordance with these requirements complex the trace element level should be at least 80 % of the declared water-soluble, the total metal content. Download time micronutrient by the plant in the soil environment should correspond to the period degradability. Too low biodegradability may adversely affect the environment, causing mobilization heavy metals from bottom sediments and lead to phytotoxic complexes. Formal requirements resulted in the continued search for new chelating agents, and improving the technology used. The aim of the study was to determine the degree of complexation of the selected ions of micronutrients with chelating substance at different reaction times. The molar ratio of metal-ligand equal to 1:1. The degree of complexation was determined by differential pulse voltammetry. Was selected micronutrient zinc. Comparison was made to a compound belonging to the group of derivatives of aminepolycarboxylic compounds and for substances of natural origin – amino acid. These DOI: 10.2428/ecea.2015.22(2)19 ECOL CHEM ENG A. 2015;22(2):223-230 1 Institute of Inorganic Technology and Mineral Fertilizers, Wroclaw University of Technology, ul. Smoluchowskiego 25, 50–372 Wroc3aw, Poland, phone: +48 71 320 20 65, fax +48 71 328 04 25. * Corresponding author: krystyna.hoffmann@pwr.edu.pl studies will help determine the optimal response time complexation of micronutrients by chelating agents commonly used in the fertilizer industry.
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