A regional-scale estimate of the soil organic carbon isotopic composition (δ13c) and its environmental drivers: case study of the Baikal region

Q2 Agricultural and Biological Sciences Geography, Environment, Sustainability Pub Date : 2024-07-05 DOI:10.24057/2071-9388-2024-3091

V. Golubtsov, Yu. V. Vanteeva, A. Cherkashina

{"title":"A regional-scale estimate of the soil organic carbon isotopic composition (δ13c) and its environmental drivers: case study of the Baikal region","authors":"V. Golubtsov, Yu. V. Vanteeva, A. Cherkashina","doi":"10.24057/2071-9388-2024-3091","DOIUrl":null,"url":null,"abstract":"Modern plants and surface soil δ13С values from 95 sites in the Baikal region were obtained for the first time and were used to establish relationships with regional environmental factors. Studied sites were distributed along the elevation gradient from 403 to 2315 m, which defined a strong landscape and climatic gradients encompassing mountain tundra, subalpine grasslands, mountain taiga, subtaiga, and steppe. δ13С values of soil organic matter (SOM) varied from –29.50 to –22.98‰. This result showed that the stable C isotopic composition of the surface soils was mainly determined by δ13С values of C3 plants (vary from –33.0 to –24.5‰) and C isotope fractionation during stabilization of plant-derived C into SOM. The δ13С values of modern plants and surface soils were negatively correlated with mean annual and growing season precipitation (p<0.05), confirming that precipitation is the primary factor determining SOM’s stable C isotopic composition in the Baikal region. A distinct increase in the δ13С values with decreasing mean annual and growing season precipitation was found with a slope of –0.42‰/100 mm and –0.97‰/100 mm, respectively. Temperature had no significant effect on the spatial distribution of SOM δ13С values at the regional scale but played an important role in the severe environments of mountain tundra (the coldest and wettest) and steppes (the warmest and driest). Such conditions strongly impacted SOM δ13С values by influencing plant species composition and soil microbiological activity. As a result, the organic matter of these soils is characterized by the highest δ13С values. The SOM of taiga soils formed under a favorable combination of temperature and precipitation was characterized by the lowest δ13С values","PeriodicalId":37517,"journal":{"name":"Geography, Environment, Sustainability","volume":" 3","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Geography, Environment, Sustainability","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.24057/2071-9388-2024-3091","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"Agricultural and Biological Sciences","Score":null,"Total":0}

引用次数: 0

Abstract

Modern plants and surface soil δ13С values from 95 sites in the Baikal region were obtained for the first time and were used to establish relationships with regional environmental factors. Studied sites were distributed along the elevation gradient from 403 to 2315 m, which defined a strong landscape and climatic gradients encompassing mountain tundra, subalpine grasslands, mountain taiga, subtaiga, and steppe. δ13С values of soil organic matter (SOM) varied from –29.50 to –22.98‰. This result showed that the stable C isotopic composition of the surface soils was mainly determined by δ13С values of C3 plants (vary from –33.0 to –24.5‰) and C isotope fractionation during stabilization of plant-derived C into SOM. The δ13С values of modern plants and surface soils were negatively correlated with mean annual and growing season precipitation (p<0.05), confirming that precipitation is the primary factor determining SOM’s stable C isotopic composition in the Baikal region. A distinct increase in the δ13С values with decreasing mean annual and growing season precipitation was found with a slope of –0.42‰/100 mm and –0.97‰/100 mm, respectively. Temperature had no significant effect on the spatial distribution of SOM δ13С values at the regional scale but played an important role in the severe environments of mountain tundra (the coldest and wettest) and steppes (the warmest and driest). Such conditions strongly impacted SOM δ13С values by influencing plant species composition and soil microbiological activity. As a result, the organic matter of these soils is characterized by the highest δ13С values. The SOM of taiga soils formed under a favorable combination of temperature and precipitation was characterized by the lowest δ13С values

查看原文

微信好友朋友圈 QQ好友复制链接

本刊更多论文

区域尺度的土壤有机碳同位素组成（δ13c）及其环境驱动因素估算：贝加尔湖地区案例研究

贝加尔地区 95 个地点的现代植物和表层土壤 δ13С 值是首次获得的，并被用于建立与地区环境因素的关系。研究地点分布在海拔从 403 米到 2315 米的海拔梯度上，形成了强烈的地貌和气候梯度，包括高山苔原、亚高山草原、高山泰加、亚泰加和大草原。土壤有机质（SOM）的δ13С值从-29.50‰到-22.98‰不等。这一结果表明，表层土壤的稳定 C 同位素组成主要由 C3 植物的 δ13С 值（从 -33.0 到 -24.5‰）和植物源 C 稳定到 SOM 过程中的 C 同位素分馏决定。现代植物和表层土壤的δ13С值与年平均降水量和生长季节降水量呈负相关（p<0.05），证实降水量是决定贝加尔湖地区SOM稳定C同位素组成的主要因素。随着年平均降水量和生长季降水量的减少，δ13С值明显增加，斜率分别为-0.42‰/100毫米和-0.97‰/100毫米。在区域尺度上，温度对 SOM δ13С 值的空间分布没有明显影响，但在高山苔原（最寒冷和最潮湿）和大草原（最温暖和最干旱）的恶劣环境中却起着重要作用。这些条件通过影响植物物种组成和土壤微生物活动，对 SOM δ13С 值产生了强烈影响。因此，这些土壤的有机质具有δ13С值最高的特点。在温度和降水的有利组合下形成的泰加林土壤的有机质具有δ13С值最低的特点

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文去求助

来源期刊

Geography, Environment, Sustainability Social Sciences-Geography, Planning and Development

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Journal “GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY” is founded by the Faculty of Geography of Lomonosov Moscow State University, The Russian Geographical Society and by the Institute of Geography of RAS. It is the official journal of Russian Geographical Society, and a fully open access journal. Journal “GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY” publishes original, innovative, interdisciplinary and timely research letter articles and concise reviews on studies of the Earth and its environment scientific field. This goal covers a broad spectrum of scientific research areas (physical-, social-, economic-, cultural geography, environmental sciences and sustainable development) and also considers contemporary and widely used research methods, such as geoinformatics, cartography, remote sensing (including from space), geophysics, geochemistry, etc. “GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY” is the only original English-language journal in the field of geography and environmental sciences published in Russia. It is supposed to be an outlet from the Russian-speaking countries to Europe and an inlet from Europe to the Russian-speaking countries regarding environmental and Earth sciences, geography and sustainability. The main sections of the journal are the theory of geography and ecology, the theory of sustainable development, use of natural resources, natural resources assessment, global and regional changes of environment and climate, social-economical geography, ecological regional planning, sustainable regional development, applied aspects of geography and ecology, geoinformatics and ecological cartography, ecological problems of oil and gas sector, nature conservations, health and environment, and education for sustainable development. Articles are freely available to both subscribers and the wider public with permitted reuse.