模拟耕作对水田和旱地土壤中微生物自养二氧化碳固定的影响。

Effect of simulated tillage on microbial autotrophic CO2 fixation in paddy and upland soils.

作者信息

Ge Tida, Wu Xiaohong, Liu Qiong, Zhu Zhenke, Yuan Hongzhao, Wang Wei, Whiteley A S, Wu Jinshui

机构信息

Changsha Research Station for Agricultural and Environmental Monitoring &Key Laboratory of Agro-ecological Processes in Subtropical Region, Institute of Subtropical Agriculture, Chinese Academy of Sciences, Hunan, 410125, China.

State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences, Jiangshu, 210008, China.

出版信息

Sci Rep. 2016 Jan 22;6:19784. doi: 10.1038/srep19784.

DOI:10.1038/srep19784

PMID:26795428

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4726159/

Abstract

Tillage is a common agricultural practice affecting soil structure and biogeochemistry. To evaluate how tillage affects soil microbial CO2 fixation, we incubated and continuously labelled samples from two paddy soils and two upland soils subjected to simulated conventional tillage (CT) and no-tillage (NT) treatments. Results showed that CO2 fixation ((14)C-SOC) in CT soils was significantly higher than in NT soils. We also observed a significant, soil type- and depth-dependent effect of tillage on the incorporation rates of labelled C to the labile carbon pool. Concentrations of labelled C in the carbon pool significantly decreased with soil depth, irrespective of tillage. Additionally, quantitative PCR assays revealed that for most soils, total bacteria and cbbL-carrying bacteria were less abundant in CT versus NT treatments, and tended to decrease in abundance with increasing depth. However, specific CO2 fixation activity was significantly higher in CT than in NT soils, suggesting that the abundance of cbbL-containing bacteria may not always reflect their functional activity. This study highlights the positive effect of tillage on soil microbial CO2 fixation, and the results can be readily applied to the development of sustainable agricultural management.

摘要

耕作是一种常见的农业活动，会影响土壤结构和生物地球化学。为了评估耕作如何影响土壤微生物二氧化碳固定，我们对来自两种稻田土壤和两种旱地土壤的样本进行培养，并持续标记，这些土壤分别进行了模拟传统耕作（CT）和免耕（NT）处理。结果表明，CT土壤中的二氧化碳固定（¹⁴C-SOC）显著高于NT土壤。我们还观察到，耕作对标记碳进入不稳定碳库的掺入率有显著的、依赖于土壤类型和深度的影响。无论耕作方式如何，碳库中标记碳的浓度均随土壤深度显著降低。此外，定量PCR分析表明，对于大多数土壤，CT处理中总细菌和携带cbbL的细菌数量少于NT处理，且数量往往随深度增加而减少。然而，CT土壤中的特定二氧化碳固定活性显著高于NT土壤，这表明含cbbL细菌的数量不一定总能反映其功能活性。本研究强调了耕作对土壤微生物二氧化碳固定的积极影响，其结果可直接应用于可持续农业管理的发展。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8a8c/4726159/a7756bc58030/srep19784-f1.jpg

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模拟耕作对水田和旱地土壤中微生物自养二氧化碳固定的影响。

Effect of simulated tillage on microbial autotrophic CO2 fixation in paddy and upland soils.

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