气候对俄罗斯欧洲南部森林碳储量、植被量和垃圾储量的影响

IF 0.7 4区 环境科学与生态学 Q4 ECOLOGY
V. V. Kaganov, D. G. Zamolodchikov, A. S. Mostovaya
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引用次数: 0

摘要

摘要现代全球气候变化的表现日益加剧,影响到人类活动和自然系统。生物气候模型预测生物群落的边界将发生重大变化,包括森林-草原地区的森林面积将减少。这一过程也可能影响碳储量。这项工作的目的是通过对永久性试验地块的重复调查数据,评估气候及其变化对林分植物体碳储量值及其变化的影响。在俄罗斯欧洲南部地区(ER)选择了八片森林,并在其中布设了试验小区。2010-2011年、2014-2015年和2019-2020年对试验小区进行了重复调查。根据税收特征计算了林分活体和枯落物的碳储量。枯落物碳储量采用重量法测定。分析了离研究对象最近的气象站的气象数据。与 1961-1990 年相比,1991-2020 年的年平均气温上升了 1.13°C,是全球平均气温的 2.5 倍。年降水量从 448.2 毫米降至 445.4 毫米。1961-1990 年间,5 月至 9 月的 G.T. Selyaninov 热液系数(HTC)平均值为 0.85,1991-2020 年间为 0.79。研究林分的植物碳储量从 38.5 ± 7.4 吨碳/公顷到 270.6 ± 52.8 吨碳/公顷不等。重复调查显示,植物体碳储量既有增加也有减少,5 年间从-23.8 吨碳/公顷-1 到 31.9 吨碳/公顷-1 不等。对植物体碳储量和气候特征的分析表明,5 月至 9 月的 HTC 与植物体碳储量有显著的统计学相关性。然而,比较植物量的变化与年平均气温、年降水量和 5 月至 9 月的 HTC 的变化并没有发现明显的相关性。植物量碳的变化与气候参数之间没有明显的相关性,这可能是因为森林生态系统的稳定性确保了其功能在长达数年的时间内得以保持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Climate Effect on Carbon, Phytomass, and Litter Stocks in Forest Stands in the South of European Russia

Climate Effect on Carbon, Phytomass, and Litter Stocks in Forest Stands in the South of European Russia

Abstract

The manifestation of modern global climate change is increasingly intensifying, affecting anthropogenic and natural systems. Bioclimatic models predict significant shifts in biome boundaries, including a reduction in the portion of forests in the forest-steppe areas. This process may also affect carbon stocks. The aim of this work is to assess the impact of climate and its changes on the values and variations of carbon stocks in the phytomass of forest stands by data of repeated surveys of permanent test plots. Eight forests have been selected in the southern regions of European Russia (ER), and test plots are laid in them. Repeated surveys were performed on the test plots in 2010–2011, 2014–2015, and 2019–2020. The carbon reserves of living and dead components of forest stands were calculated according to taxation characteristics. The litter carbon stocks were determined by the gravimetric method. Meteorological data from the meteorological stations closest to the study objects were analyzed. The mean annual temperature for 1991–2020 increased as compared to 1961–1990 by 1.13°C, which was 2.5 times greater than the global mean. Annual precipitation decreased from 448.2 to 445.4 mm. The mean value of G.T. Selyaninov’s hydrothermal coefficient (HTC) for May–September was 0.85 during the period of 1961–1990 and 0.79 in 1991–2020. The stock of the phytomass carbon in the studied forest stands varied from 38.5 ± 7.4 t C ha–1 to 270.6 ± 52.8 t C ha–1. Repeated surveys revealed both increases and decreases in phytomass carbon stocks, which ranged from –23.8 to 31.9 t C ha–1 over a 5-year period. The analysis of phytomass carbon stocks and climatic characteristics revealed a statistically significant correlation with the HTC for May–September. However, the comparison of changes in phytomass with variations in the mean annual temperature, annual precipitation, and the HTC for May–September did not reveal significant dependencies. The absence of significant correlations between changes in phytomass carbon and in climatic parameters may be explained by the stability of forest ecosystems, which ensures the preservation of their functions during several-year-long periods.

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来源期刊
Contemporary Problems of Ecology
Contemporary Problems of Ecology 环境科学-生态学
CiteScore
1.40
自引率
12.50%
发文量
54
审稿时长
6-12 weeks
期刊介绍: Contemporary Problems of Ecology is a multidisciplinary periodical that publishes original works on the following subjects: theoretical and methodical issues of ecology, regional aspects of ecology, regional ecological disasters, structure and functioning of ecosystems, anthropogenic transformation of ecosystems. All basic aspects of modern ecology, including the most complicated interactions between living organisms and their environment, are presented. Some of the journal issues are dedicated to global changes in biological diversity at various levels of organization (populations, species, ecosystems) principles and methods of nature conservation.
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