Carbon Sequestration in Soils: The Opportunities and Challenges

Carbon Capture, Utilization and Sequestration Pub Date : 2018-09-12 DOI:10.5772/INTECHOPEN.79347

Ahmed Chinade Abdullahi, C. Siwar, Mohamad Isma’ilShaharudin, I. Anizan

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引用次数: 19

Abstract

Recently, the contributions of the soil in various ecosystems have become more prominent with the recognition of its role as a carbon sink and the potential of that in reducing the concentration of carbon dioxide (CO2), which is a vital greenhouse gas, from the atmosphere. Conversely, the soil capacity to increase the concentration of CO2 in the atmosphere through mineralization of organic matter is also a source of concern. Mineralization of only 10% of the soil organic carbon pool globally is believed to be equivalent to about 30 years of anthropogenic emissions. This underscores the need to preventing carbon loss (emission) from the soil resource. Globally, the soil contains a large carbon pool estimated at approximately 1500Gt of organic carbon in the first one meter of the soil profile. This is much higher than the 560 Gt of carbon (C) found in the biotic pool and twice more than atmospheric CO2. By holding this huge carbon stock, the soil is preventing carbon dioxide build up in the atmosphere which will confound the problem of climate change. There are a lot of strategies used in sequestering carbon in different soils, however, many challenges are being encountered in making them cost effective and widely acceptable.

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土壤碳固存:机遇与挑战

近年来，随着人们认识到土壤作为碳汇的作用及其在降低大气中重要温室气体二氧化碳浓度方面的潜力，土壤在各种生态系统中的贡献变得更加突出。相反，土壤通过有机质矿化增加大气中CO2浓度的能力也是一个令人担忧的问题。全球土壤有机碳库中仅有10%的矿化被认为相当于大约30年的人为排放。这强调了防止土壤资源的碳损失(排放)的必要性。在全球范围内，土壤中含有一个巨大的碳库，估计在土壤剖面的前一米有大约1500Gt的有机碳。这远远高于生物库中发现的560gt碳(C)，是大气二氧化碳的两倍。通过拥有如此巨大的碳储量，土壤可以防止二氧化碳在大气中积聚，从而解决气候变化的问题。在不同的土壤中封存碳有许多策略，然而，在使它们具有成本效益和被广泛接受方面遇到了许多挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Carbon Capture, Utilization and Sequestration

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