水和植物介导的生态系统碳通量对中国东北松嫩草原增温和氮添加的响应。

Water- and plant-mediated responses of ecosystem carbon fluxes to warming and nitrogen addition on the Songnen grassland in northeast China.

机构信息

Key Laboratory for Vegetation Ecology, Ministry of Education, Institute of Grassland Science, Northeast Normal University, Changchun, Jilin Province, PR China.

出版信息

PLoS One. 2012;7(9):e45205. doi: 10.1371/journal.pone.0045205. Epub 2012 Sep 19.

DOI:10.1371/journal.pone.0045205

PMID:23028848

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3446953/

Abstract

BACKGROUND

Understanding how grasslands are affected by a long-term increase in temperature is crucial to predict the future impact of global climate change on terrestrial ecosystems. Additionally, it is not clear how the effects of global warming on grassland productivity are going to be altered by increased N deposition and N addition.

METHODOLOGY/PRINCIPAL FINDINGS: In-situ canopy CO(2) exchange rates were measured in a meadow steppe subjected to 4-year warming and nitrogen addition treatments. Warming treatment reduced net ecosystem CO(2) exchange (NEE) and increased ecosystem respiration (ER); but had no significant impacts on gross ecosystem productivity (GEP). N addition increased NEE, ER and GEP. However, there were no significant interactions between N addition and warming. The variation of NEE during the four experimental years was correlated with soil water content, particularly during early spring, suggesting that water availability is a primary driver of carbon fluxes in the studied semi-arid grassland.

CONCLUSION/SIGNIFICANCE: Ecosystem carbon fluxes in grassland ecosystems are sensitive to warming and N addition. In the studied water-limited grassland, both warming and N addition influence ecosystem carbon fluxes by affecting water availability, which is the primary driver in many arid and semiarid ecosystems. It remains unknown to what extent the long-term N addition would affect the turn-over of soil organic matter and the C sink size of this grassland.

摘要

背景

了解草原如何受到长期温度升高的影响对于预测全球气候变化对陆地生态系统的未来影响至关重要。此外，尚不清楚全球变暖对草原生产力的影响将如何因增加氮沉积和氮添加而改变。

方法/主要发现：在经历了 4 年的增温和氮添加处理的草甸草原上，进行了原位冠层 CO2 交换率的测量。增温处理降低了净生态系统 CO2 交换（NEE）并增加了生态系统呼吸（ER）；但对总生态生产力（GEP）没有显著影响。氮添加增加了 NEE、ER 和 GEP。然而，氮添加和增温之间没有显著的相互作用。在四个实验年中，NEE 的变化与土壤水分含量有关，特别是在早春，这表明水分供应是研究半干旱草原碳通量的主要驱动因素。

结论/意义：草原生态系统的生态系统碳通量对增温和氮添加敏感。在受水分限制的研究草原中，增温和氮添加都通过影响水分可用性来影响生态系统碳通量，这是许多干旱和半干旱生态系统的主要驱动因素。长期氮添加将在多大程度上影响土壤有机质的周转和草原的碳汇规模尚不清楚。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/217b/3446953/2984b153d828/pone.0045205.g001.jpg

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水和植物介导的生态系统碳通量对中国东北松嫩草原增温和氮添加的响应。

Water- and plant-mediated responses of ecosystem carbon fluxes to warming and nitrogen addition on the Songnen grassland in northeast China.

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