基于 "水-岩-土-气-生 "相互作用的桂西南岩溶峰丛洼陷盆地时空变化及生态系统碳汇驱动机制研究

IF 5.8 2区 环境科学与生态学 Q1 ECOLOGY
Song Huang , Yichao Tian , Qiang Zhang , Jin Tao , Yali Zhang , Junliang Lin
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引用次数: 0

摘要

生态系统碳汇研究对于制定减排和加强碳固存的政策至关重要。分析碳汇的时空趋势及其驱动机制对于指导政策和措施至关重要。估算岩溶地区碳汇的传统方法主要侧重于植被-土壤碳汇,主要包括净初级生产力(NPP)和土壤异养呼吸(Rh)。然而,这些方法忽略了独特的岩溶碳汇(KCS),导致碳汇评估存在很大的不确定性。本研究以广西西南部喀斯特峰丛洼陷盆地为研究对象,基于 "水-岩-土-气-生 "耦合框架,结合岩性特征,提出了喀斯特生态系统碳汇评估体系(KECAS)。采用Theil-Sen趋势分析法和限制性三次样条回归法探讨了2000-2022年该地区碳汇的时空变化及驱动机制。结果表明(1)研究区总碳汇通量(TCSF)随时间呈上升趋势,23 年平均值为 538-929 g CO2 m-2 a-1,增长率为 3.1039a-1。这意味着 TCSF 每年增加 6.78 g CO2 m-2 a-1。(2)从空间上看,碳汇增加区占研究区面积的 34.17%,主要分布在崇左市、南宁市和文山州。碳汇减少区占总面积的 11.79%,主要分布在崇左市,南宁市和百色市面积较小。TCSF平均分布在西北部较高,东南部较低。(3)利用 RCS 回归确定了影响因子的临界值:降水量(1430 毫米)、温度(17.9 °C)、蒸散量(855 毫米)、NDVI(0.63)、DEM(637 米)、坡度(16.3°)、夜间光照指数(6.21)和人口密度(421 人/平方公里)。(4) 基于自然和人为阈值的高碳汇供应潜力区分别占广西西南部研究区的 25.09% 和 92.97%。如果同时考虑自然条件和人文条件,高潜力区约占研究区总面积的 22.31%。这些研究结果为碳汇保护和管理提供了科学依据,为政府决策提供了有价值的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatiotemporal changes and driving mechanism of ecosystem carbon sink in karst peak cluster depression basin in Southwest Guangxi based on the interaction of “water-rock-soil-air-biology”

Research on ecosystem carbon sinks is vital for developing policies to reduce emissions and enhance carbon sequestration. Analyzing the temporal and spatial trends of carbon sinks and their driving mechanisms is crucial for guiding policy and measures. Traditional methods for estimating carbon sinks in karst regions focus primarily on vegetation-soil carbon sinks, mainly comprising net primary productivity (NPP) and soil heterotrophic respiration (Rh). However, these methods overlook the unique karst carbon sink (KCS), leading to significant uncertainties in carbon sink evaluations. This study focuses on the karst peak cluster depression basin in southwest Guangxi and proposes a Karst Ecosystem Carbon Sink Assessment System (KECAS) based on the “water-rock-soil-air-biology” coupling framework, considering lithological characteristics. Theil-Sen trend analysis and restricted cubic spline (RCS) regression were used to explore the temporal and spatial variations and driving mechanisms of carbon sinks in the area from 2000 to 2022. The results show the following: (1) The total carbon sink flux (TCSF) in the study area has shown an upward trend over time, with a 23-year average ranging from 538 to 929 g CO2 m−2 a−1 and a growth rate of 3.1039a−1. This means TCSF increases by 6.78 g CO2 m−2 a−1 each year. (2) Spatially, areas with increasing carbon sinks cover 34.17 % of the study area, mainly in Chongzuo, Nanning, and Wenshan Prefecture. Areas with decreasing carbon sinks cover 11.79 % of the total area, mainly in Chongzuo, with smaller areas in Nanning and Baise. The mean TCSF distribution is higher in the northwest and lower in the southeast. (3) The critical thresholds for influencing factors were identified using RCS regression: precipitation (1430 mm), temperature (17.9 °C), evapotranspiration (855 mm), NDVI (0.63), DEM (637 m), slope (16.3°), nighttime light index (6.21), and population density (421 people/km2). (4) Areas with high carbon sink supply potential, based on natural and human thresholds, account for 25.09 % and 92.97 % of the southwestern Guangxi study area, respectively. When considering both natural and human conditions, high potential areas account for approximately 22.31 % of the total study area. These findings provide a scientific basis for carbon sink protection and management and offer valuable references for government decision-making.

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来源期刊
Ecological Informatics
Ecological Informatics 环境科学-生态学
CiteScore
8.30
自引率
11.80%
发文量
346
审稿时长
46 days
期刊介绍: The journal Ecological Informatics is devoted to the publication of high quality, peer-reviewed articles on all aspects of computational ecology, data science and biogeography. The scope of the journal takes into account the data-intensive nature of ecology, the growing capacity of information technology to access, harness and leverage complex data as well as the critical need for informing sustainable management in view of global environmental and climate change. The nature of the journal is interdisciplinary at the crossover between ecology and informatics. It focuses on novel concepts and techniques for image- and genome-based monitoring and interpretation, sensor- and multimedia-based data acquisition, internet-based data archiving and sharing, data assimilation, modelling and prediction of ecological data.
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