沸石-矿物肥料增效作用对玉米土壤微生物群落的影响

R. Vidican, V. Stoian, I. Rotar, F. Păcurar, S. Sfechiș
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引用次数: 0

摘要

农业生态系统中的微生物群落的特点是由于应用的技术投入而发生强烈的动态和彻底的变化。玉米种植面积大,对养分要求高,对特定微生物群的激活潜力增加。本研究旨在探讨沸石和矿质肥料对玉米根际微生物功能群发育和转化的单侧效应和协同效应。在底物诱导呼吸的基础上进行了微生物群落的生理概况评估,并在6小时的孵育期间进行了监测。Microresp板上记录的二氧化碳量代表了每种类型的底物在分解过程中官能团的活性。玉米根际微生物的特征群能够分解酸:柠檬酸、l -苹果酸、草酸和I±-酮戊二酸。这些基质表明土壤中存在高浓度的有机物,表面存在生物外壳(柠檬酸),分别存在放线菌分解有机物质的强大过程(I±-酮戊二酸)。微生物活性最高的是参与植物生长促进过程的菌群和在反硝化过程中起重要作用的菌群(草酸)。在施用尿素的情况下,观察到这类微生物群的活性为三倍。在玉米种植的土壤中共优势的官能团专门用于有机物和生物外壳的有效降解,沸石为这些微生物的发展提供了必要的复杂基质。
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Changes of the Microbial Community in Corn Soil Due to the Synergism Zeolite-Mineral Fertilizers
Microbial communities in agricultural ecosystems are characterized by a strong dynamic and radical change due to technological inputs applied. Corn is cultivated on large areas with high requirements for nutrients and an increased potential for activation of specific microbial groups. The aim of this study was to assess the unilateral and synergic effect of zeolite and mineral fertilizers on the development and transformation of microbial functional groups in the rhizosphere of corn. Physiological profile assessment of microbial communities has been carried out on the basis of substrate induced respiration, monitored over a period of 6 hours of incubation. The amount of CO2 registered in Microresp plates represents the activity of functional groups in decomposition of each type of substrate applied. Characteristic groups of microorganisms in maize rhizosphere are capable of decomposing acids: citric, L-malic, oxalic and I±-Ketoglutaric. These substrates indicate the presence of high concentrations of organic matter in soil and the existence of a biological crust on the surface (citric acid), respectively the existence of powerful processes for the decomposition of organic material by actinomycetes (I±-Ketoglutaric acid). The highest microbial activities were observed in groups of bacteria involved in processes of plant growth promotion and microbial groups with an important role in the processes of denitrification (oxalic acid). For the application of urea a triple value of activity of this type of microflora is observed. Functional groups codominant in soils cultivated with corn are specialized in efficient degradation of organic matter and biological crust, zeolite providing the complex substrate necessary for the development of these microorganisms.
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