[The influence of local anthropogenic factors on soil emission of biogenic greenhouse gases in cryogenic ecosystems].

Pub Date : 2016-05-01
D V Karelin, S V Goriachkin, D G Zamolodchikov, A V Dolgikh, E P Zazovskaya, V A Shishkov, A V Pochikalov, A A Sirin, G G Suvorov, G N Kraev
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引用次数: 0

Abstract

For the first time were the results of studies on influence of main kinds of local anthropogenic factors on soil emission of biogenic greenhouse gases (CO2, CH4, and N2O) in permafrost ecosystems of Arctic and North-Boreal zones of the Russian Federation, and also of the Spitsbergen Archipelag summarized. Different types of land use can, depending on their manner, lead to significant enhancing or suppression of soil CO2 emission. On average, anthropogenic factors (AFs), acting in concert, favor the enhancement of local CO2 soil emission, promoting, at the same time, an increase in its dispersion. AFs directly influence the microbial-root respiration in soil, modify the soil itself, and indirectly affect important natural respiration regulators, phytomass reserves in particular, which makes them primary factors with relation to respiration pattern. AFs influence also the emission of other biogenic greenhouse gases (CH4 and N2O), though this influence can be exercised in different ways. Methane emission is mediated by degree of the territory drainage. However, in all studied cases, AFs have led to source reduction or sink intensification of this gas from the atmosphere. Unlike methane emission, N2O emission increased under the influence of AFs considered. As for the whole complex of AFs that impacts the carbon balance and fluxes of CO2 in cryogenic ecosystems, its role is expressed through the enhancement of soil respiration at the beginning of the cold season, when AFs are capable of soil emission increasing, at the level of meso-landscape, almost by 50%.

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[局部人为因素对低温生态系统土壤生物源性温室气体排放的影响]。
第一次总结了俄罗斯联邦北极和北寒带以及斯匹次卑尔根群岛永久冻土生态系统中主要类型的当地人为因子对生物源温室气体(CO2、CH4和N2O)土壤排放影响的研究结果。不同类型的土地利用方式可以显著提高或抑制土壤二氧化碳的排放。平均而言,人为因素的共同作用有利于局地土壤CO2排放的增加,同时促进其弥散度的增加。AFs直接影响土壤微生物根呼吸,修饰土壤本身,并间接影响重要的天然呼吸调节因子,特别是植物质量储备,是影响呼吸模式的主要因素。AFs还影响其他生物源性温室气体(CH4和N2O)的排放,尽管这种影响可以通过不同的方式实现。甲烷排放受区域排水程度的调节。然而,在所有研究的案例中,af都导致大气中这种气体的源减少或汇增强。与甲烷排放不同,N2O排放量在考虑了AFs的影响下有所增加。对于影响低温生态系统碳平衡和CO2通量的整个AFs复合物,其作用表现为在寒冷季节开始时土壤呼吸的增强,此时AFs能够在中景观水平上增加土壤排放,几乎增加了50%。
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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