摘要
磷脂脂肪酸 (PL FA)被认为是有效指示活体土壤微生物群落结构变化的标记物之一 ,该方法已在土壤微生物的研究中被大量应用。采用特制容器 ,模拟尿素肥斑在土壤中的扩散行为 ,观察距尿素肥斑不同距离微域中养分形态和浓度变化及其对土壤微生物群落结构的影响。试验结果表明 ,培养 7d后 ,No.7(距肥斑 7cm)和 No.8(距肥斑 8cm )微域的 NH+ 4、NO- 2 、NO- 3浓度最高 ,NO- 2 是尿素扩散区域的主要离子存在形态。对提取到的 2 5种 PL FA进行主成分分析 (PCA) ,发现 PL FA组成随不同微域养分浓度变化而变化 ,说明微生物群落结构发生了改变。就标记性 PL FA而言 ,尿素扩散导致真菌 PL FA在高浓度养分微域浓度增加 ,细菌 PL FA浓度下降 ,其中 ,No.7微域的真菌 PL FA18∶ 2ω6 ,9和 PL FA18∶ 1ω9浓度分别比对照 (No.2 0微域 )增加 173%和 4 7.2 %。然而 ,放线菌 PL FA 10 Me18∶
Distribution of nutrients in soils is highly heterogeneous (nutrient patchiness) due to natural and anthropogenic factors. In agricultural soils, this inherent patchiness is increased by fertilizers application. As a fertilizer granule dissolves, its salts diffuse outwards and water move inwards. This creates local, transient gradients in ionic concentrations and moisture contents. In the nutrient patch, soil physico-chemical properties, microbial community and activity, nutrient transformation and availability, fertilizer behavior, and root proliferation might change. However, apart from root proliferation, little is known about others. The soil microbial community is probably the most important functional component of the soil biota. Soil microorganisms play a key role in the energy flows, nutrient transformations and element cycles in the environment. Microbial biomass itself is the essential source and sink of nutrients for the whole terrestrial ecosystem, supporting the soil fertility. They also make an important contribution to humus production and soil structure stabilization. However, the sensitivity of microbes to environmental changes determines which is affected first, and many processes related to microbial activities are also changed. It is, therefore necessary to investigate the microbial communities in order to understand other changes in nutrient patches. Phospholipid fatty acids (PLFA) analyses have been used to describe microbial communities in soil. This method is based the fact that PLFA are the major constituents of membranes of all living cells and different subsets of a community have different PLFA pattern. Some specific PLFAs can be used as indicators of microorganisms. For example, PLFA i14∶0, (a15∶0) are specific to Gram-positive bacteria, and cy17∶0, cy19∶0 are specific to Gram-negative bacteria. Fungal PLFA are (18∶2ω6,)9、(18∶1ω9,) and 10Me18∶0 is suitable for actinomycetes. The current study aimed to: (1) investigate the transformation of nitrogen forms
出处
《生态学报》
CAS
CSCD
北大核心
2004年第10期2269-2274,共6页
Acta Ecologica Sinica
基金
国家自然科学基金资助项目 ( 4 0 0 710 5 3 )~~
关键词
微生物群落结构
磷脂脂肪酸
尿素
养分转化
microbial communities in soil
phospholipid fatty acids (PLFA)
urea
changes in nutrient patches
