生态学报2024,Vol.44Issue(18):8021-8032,12.DOI:10.20103/j.stxb.202309041899
1987-2020年昕水河流域土地利用变化对碳储量的影响
Impact of land use change on carbon storage in Xinshui River Basin from 1987 to 2020
摘要
Abstract
Significant forestry ecological projects implemented in China,such as the Three-North Protective Forest Project and the Grain for Green Project,have triggered substantial alterations in land use patterns,notably across regions like the Loess Plateau.These initiatives have profoundly impacted carbon storage dynamics within the plateau's expanse.Nevertheless,a conspicuous gap persists in quantitative research,particularly concerning the precise influence of land use changes resulting from these forestry ecological projects on carbon storage within the Loess Plateau.To address this gap,we conducted a comprehensive analysis leveraging extensive land use datasets spanning from 1987 to 2020,in conjunction with field measurements of aboveground biomass and soil organic carbon conducted in 2017.Our rigorous investigation aimed at unraveling the intricate interplay between land use dynamics and carbon storage within the Xinshui River Basin of the Loess Plateau.Utilizing the InVEST model,we endeavored to dissect the spatiotemporal evolution of carbon storage patterns within the basin,shedding light on the multifaceted factors shaping its ecological landscape.The results showed that:(1)spanning from 1987 to 2020,69.30%of the Xinshui River Basin experienced land use change,and the expanse of forested areas within the basin exhibited a notable upward trajectory,marking a 33.39%increase,while concurrent observations revealed diminishing extents of grassland and cropland,registering declines of 31.11%and 4.02%respectively.Construction land in the basin slightly expanded along stream systems while nonobvious changes were detected for water bodies.(2)Carbon storage in the basin during 1987 to 2020 dispalyed evident spatial distribution patterns with high carbon storage in the east and south while low values in the west and north.The total carbon storage in the basin experienced a considerable augmentation during this period,witnessing a surge of 249.19x104 t.This augmentation was primarily fueled by forested regions,which contributed an impressive increment of 1177.85 × 104 t.Conversely,grassland and cropland witnessed declines of 835.84×104 t and 92.79×104 t,respectively.(3)The implementation of forestry ecological projects was a dominant factor for the increase of the total carbon storage in the basin,and the contribution of forest land expansion to the increase of carbon storage in the basin was also significant.Particularly noteworthy was the significant role played by forested areas,with their contribution to the basin's carbon storage enhancement reaching a remarkable 472.67%.However,the declines in grassland conctibuted to-335.42%of the net augmentation of total carbon storage in the basin.The study offers policymakers and stakeholders empirical evidence and quantitative metrics to support the implementation of forestry ecological construction,conservation,and sustainable land management practices.Additionally,it provides guidance for enhancing carbon sequestration efforts in the watershed.关键词
碳储量/时空变化/土地利用/InVEST模型/昕水河流域Key words
carbon storage/spatial-temporal variation/land use/InVEST model/Xinshui River Basin引用本文复制引用
谢晨新,张守红,李华林,章孙逊,宋卓远,刘晔,张馨予,许行..1987-2020年昕水河流域土地利用变化对碳储量的影响[J].生态学报,2024,44(18):8021-8032,12.基金项目
国家重点研发计划(2023YFF1305101) (2023YFF1305101)
