宁夏植被碳汇能力时空变化及驱动力的多维探测

doi:10.13292/j.1000-4890.202412.002

生态学杂志 ›› 2024, Vol. 43 ›› Issue (12): 3746-3753.doi: 10.13292/j.1000-4890.202412.002

宁夏植被碳汇能力时空变化及驱动力的多维探测

侯迎^1,2,褚阳¹,杨千龙¹,郑芳^1,2*,张舒欣¹,皇甫霞丹¹

（¹宁夏大学地理科学与规划学院，银川 750021； ²宁夏（中阿）旱区资源评价与环境调控重点实验室，银川 750021）

出版日期:2024-12-10 发布日期:2024-12-10

Multi-dimensional detection of spatiotemporal variations and driving factors in vegetation carbon sink capacity in Ningxia, China.

HOU Ying^1,2, CHU Yang¹, YANG Qianlong¹, ZHENG Fang^1,2*, ZHANG Shuxin¹, HUANGFU Xiadan¹

(¹School of Geography and Planning, Ningxia University, Yinchuan 750021, China; ²Ningxia (China-Arab) Key Laboratory of Resource Assessment and Environment Regulation in Arid Region, Yinchuan 750021, China).

Online:2024-12-10 Published:2024-12-10

摘要/Abstract

摘要： 开展区域植被碳汇时空变化及驱动力分析，对提升植被固碳能力、助力国家碳中和起到关键作用。基于宁夏MODIS遥感数据和土壤微生物呼吸方程，综合应用随机森林、地理探测器和空间偏相关分析，探讨不同空间尺度植被碳汇的时空演变特征及主要驱动因素，为宁夏黄河流域生态保护和高质量发展先行区建设提供科学依据。结果表明：2000—2020年宁夏植被碳汇能力呈整体增加（南部>中部>北部）、局部显著减弱的变化趋势（北部银川平原、石嘴山市、沙坡头区等城市中心显著减弱）；宁夏全域植被碳汇主要受自然因子及其交互作用影响，植被、植被∩气候、植被∩高程为主要驱动力，其次是人文因子的国内生产总值（GDP）和土地利用类型；其中植被归一化指数（NDVI）与降水量的非线性增强交互作用对植被碳汇能力的驱动力最高（84.8%）；就不同区域而言，北部引黄灌区主要是植被、人口密度、植被∩人口密度、植被∩气候为主要驱动力；中部干旱带和南部山区的主要驱动力为植被、气候、植被∩气候和植被∩GDP。

关键词: 植被碳汇能力, 净生态系统生产力, 随机森林, 地理探测器, 宁夏

Abstract: The analysis of spatiotemporal variations and driving forces of regional vegetation carbon sink has implications for improving the carbon sequestration capacity of vegetation and contributing to national carbon neutrality. Based on MODIS remote sensing data and soil microbial respiration equations, the spatiotemporal variations and main driving factors of vegetation carbon sink capacity at different spatial scales in Ningxia were explored by using random forest, GeoDetector, and spatial partial correlation analysis. The results would provide scientific basis for ecological protection and high-quality development of the Yellow River Basin in Ningxia. The results showed that the vegetation carbon sink capacity in Ningxia increased overall (with southern part > central part > northern part) but significantly decreased locally in urban centers such as Yinchuan City, Shizuishan City, and Shapotou District in the northern irrigation area from 2000 to 2020. The vegetation carbon sink capacity in Ningxia was mainly influenced by natural factors and the interactions among them, including vegetation, vegetation-climate, and vegetation-elevation, followed by human factors (gross domestic product (GDP) and land use type). The nonlinear enhanced interaction between vegetation normalized index (NDVI) and precipitation was the main driving factor of variations in vegetation carbon sink capacity (84.8%). In terms of different regions, vegetation, population density, vegetation-population density, and vegetation-climate were the main driving forces of vegetation carbon sink capacity in the northern irrigation area, while vegetation, climate, vegetation-climate and vegetation-GDP were the main driving forces in the central arid zone and the southern mountainous area.

Key words: vegetation carbon sink, net ecosystem productivity, random forest, GeoDetector, Ningxia

侯迎, 褚阳, 杨千龙, 郑芳, 张舒欣, 皇甫霞丹. 宁夏植被碳汇能力时空变化及驱动力的多维探测[J]. 生态学杂志, 2024, 43(12): 3746-3753.

HOU Ying, CHU Yang, YANG Qianlong, ZHENG Fang, ZHANG Shuxin, HUANGFU Xiadan. Multi-dimensional detection of spatiotemporal variations and driving factors in vegetation carbon sink capacity in Ningxia, China.[J]. Chinese Journal of Ecology, 2024, 43(12): 3746-3753.

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宁夏植被碳汇能力时空变化及驱动力的多维探测

Multi-dimensional detection of spatiotemporal variations and driving factors in vegetation carbon sink capacity in Ningxia, China.

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