植被恢复对土壤有机碳储量的影响

Taanloumi Said Bacar, Yiben Cheng, Yunqi Wang, Kenza Kaboul, N. R. Lopes
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引用次数: 2

摘要

本文对植被恢复及其对土壤有机碳含量影响的研究进展进行了综述。植被恢复是一种有影响力的技术,可以用来应对这些影响。为了应对全球生物多样性危机,人们采取了更多的恢复行动。欧盟理事会2010年后关于多样性种类的结果强调了阻止生物多样性丧失和欧盟生态系统崩溃等词语。联合国生物多样性会议的2022年增长战略,其中包括恢复至少15%的退化生态系统,使这一目标成为可能。由于气候变化、土地退化和生物多样性减少等因素,土壤类型是地球上最脆弱的资源之一。土壤表层的有机碳可能储存的碳是空气中的三倍,几乎是植物中的两倍。系统的文献综述,选取了2013年至2022年的最新论文,提取了以往关于植被恢复的论文。结果总结包括论文的主要发现、综述论文的解释和相关参考文献。通过对30篇文献的分析,评估了植被恢复对土壤有机碳(SOC)的显著影响。研究结果还表明,土壤有机碳动态预测的主要来源包括土壤性质、质量、碳输入数量和碳库组成的变化。植被恢复在控制水土流失等改善生态系统服务方面也发挥着重要作用
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of Vegetation Restoration in Soil Organic Carbon Storage
This review paper has been made to assess the past studies reviewed regarding vegetation restoration and its impact on soil organic carbon content. A Vegetation Restoration is an influential technique that can be used to respond to these effects. As a response to the global biodiversity crisis, more restoration actions have been taken. The European Union Council’s results on kinds of diversity after 2010 highlight words like stopping biodiversity loss and the breakdown of ecological systems in the European Union. The United Nations Conference on Biological Diversity’s growth strategy for 2022, which includes restoring at least 15% of degraded ecosystems, has made this possible. Soil types are among the most vulnerable resources on the planet due to factors such as climate change, land degradation, and the reduction of biodiversity. Organic Carbon, the top meter of soil, could potentially store three times as much carbon as is found in the air and almost twice as much as in plants. For the systematic literature review, past papers on vegetation restoration have been extracted from the latest papers of 2013 and onwards to 2022. The summary of results included key findings of the papers, the interpretation of papers reviewed, and the relevant references. Thirty papers were reviewed and selected from authentic databases and assessed that vegetation restoration significantly affects soil organic carbon (SOC). The findings also exhibit that the primary sources of prediction for SOC dynamics include changes in soil properties, quality, the number of carbon inputs, and the composition of the C pool. Vegetation restoration also plays an important role in improving the services of ecosystems such as controlling the erosion of
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