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【目的】揭示生态功能区土地利用(LULC)与生态系统服务价值(ESV)之间的内在关系,对于科学发挥生态系统效益和推进区域生态文明建设具有重要意义。【方法】文章利用修正后的标准等效因子,对图们江流域的ESV进行了评估,并采用地理探测器分析了ESV与温度(TEM)、降水(PRE)、归一化植被指数(NDVI)、高程(DEM)、土壤有机质含量(SOMC)和陆地表层人类活动强度(HAILS)等潜在因素的关系及其驱动下的ESV时空演变。基于《吉林省国土空间规划(2021—2035年)》和《延边朝鲜族自治州国土空间总体规划(2021—2035年)》,利用PLUS模型进行了空间约束的多情景设置,探讨在自然发展情景(S1)和目标导向情景(S2)下2030年图们江流域ESV的空间变化。【结果】结果表明,2000—2020年,研究区总ESV虽有波动但整体呈上升趋势,其中2005—2010年期间增幅最大,五年内增加了0.87×1010元。林地的ESV最高,占总价值的近94%;调节服务价值(RSV)和支持服务价值(SSV)是主要的生态系统服务。因子探测结果显示,HAILS(q=0.678)是影响ESV空间分异的主要因子,其次是TEM(q=0.470)和NDVI(q=0.435),而DEM和SOMC的影响较小。相关性分析表明,ESV与景观形状指数(SI)呈负相关(-0.65),与香农多样性指数(SHDI)(0.72)和聚合指数(AI)(0.60)呈正相关。PLUS模拟结果显示,2030年林地的ESV仍将最高。灰色模型GM(1,1)预测的2030年各土地利用类型的单位ESV分别为:耕地3 394.79元/hm2、草地10 367.71元/hm2、水域107 954.26元/hm2、未利用地558.64元/hm2、湿地44 708.07元/hm2。【结论】不同情景下ESV高值区和低值区的变化进一步验证了《规划》的科学性和实施的必要性。本研究通过预测不同土地资源管理策略下的ESV空间演变,为实现规划目标提供了空间可视化分析和数据支持,并为土地资源与环境保护综合规划及东北边疆生态功能区的可持续发展提供了参考。
Abstract:[Objective]This study aims to reveal the intrinsic relationship between land use and land cover(LULC) in ecological function zones and ecosystem service value(ESV), which is crucial for effectively maximizing ecosystem benefits and advancing regional ecological civilization.[Methods]The ESV of the Tumen River Basin was assessed using modified standard equivalent factors. Geodetector was used to analyze the relationships between ESV and potential influencing factors, including temperature(TEM), precipitation(PRE), normalized difference vegetation index(NDVI), elevation(DEM), soil organic matter content(SOMC), and human activity intensity on land surfaces(HAILS), as well as their influence on the spatiotemporal evolution of ESV. Furthermore, based on the Territorial Spatial Plan of Jilin Province(2021—2035) and the Overall Territorial Spatial Plan of Yanbian Korean Autonomous Prefecture(2021—2035), the PLUS model was used for spatially constrained multi-scenario settings to explore the spatial changes of ESV in the Tumen River Basin under the natural development scenario(S1) and the target-oriented scenario(S2) in 2030.[Results]The result indicated that from 2000 to 2020, the total ESV of the study area fluctuated but showed an overall upward trend, with the largest increase observed between 2005 and 2010, where the ESV increased by 0.87×1010 yuan within five years. Forestland contributed the highest ESV, accounting for nearly 94% of the total value. Regulating service value(RSV) and supporting service value(SSV) were the dominant ecosystem services. Geodetector result showed that HAILS(q=0.678) was the primary factor influencing the spatial variation of ESV, followed by TEM(q=0.470) and NDVI(q=0.435), while DEM and SOMC had relatively minor impacts. Correlation analysis revealed that ESV was negatively correlated with the landscape shape index(SI)(-0.65) but positively correlated with the Shannon diversity index(SHDI)(0.72) and aggregation index(AI)(0.60). The PLUS simulation result indicated that, by 2030, forestland would still have the highest ESV. The unit ESV of different land use types in 2030, predicted by the grey model(GM)(1,1) were: cultivated land, 3 394.79 yuan/hm2; grassland, 10 367.71 yuan/hm2; water areas, 107 954.26 yuan/hm2; unused land, 558.64 yuan/hm2; and wetlands, 44 708.07 yuan/hm2.[Conclusion]The observed changes in high-value and low-value ESV areas under different scenarios further validate the scientific basis of the Plans and the necessity of their implementation. This study provides spatial visualization analysis and data support for achieving planning goals by predicting the spatial evolution of ESV under different land resource management strategies. Additionally, it serves as a reference for comprehensive land resources and environmental protection planning and the sustainable development of ecological function zones in China's northeastern border area.
[1] COSTANZA R,DE GROOT R,SUTTON P,et al.Changes in the global value of ecosystem services[J].Global Environmental Change,2014,26:152-158.
[2] COSTANZA R,D’ARGE R,DE GROOT R,et al.The value of the world’s ecosystem services and natural capital[J].Nature,1997,387(6630):253-260.
[3] COSTANZA R,DE GROOT R,BRAAT L,et al.Twenty years of ecosystem services:how far have we come and how far do we still need to go?[J].Ecosystem Services,2017,28:1-16.
[4] XIE L,WANG H,LIU S.The ecosystem service values simulation and driving force analysis based on land use/land cover:A case study in inland rivers in arid areas of the Aksu River Basin,China[J].Ecological Indicators,2022,138:108828.
[5] DAILY G C.The value of nature and the nature of value[J].Science,2000,289(5478):395-396.
[6] LAUTENBACH S,KUGEL C,LAUSCH A,et al.Analysis of historic changes in regional ecosystem service provisioning using land use data[J].Ecological Indicators,2011,11:676-687.
[7] ZHANG S,JIN C,PAN X,et al.Coastal land use change and evaluation of ecosystem services value enhancement under the background of Yangtze River protection:Taking Jiangyin coastal areas as an example[J].Frontiers in Environmental Science,2023,11:1088816.
[8] SUN G,HALLEMA D,ASBJORNSEN H.Ecohydrological processes and ecosystem services in the Anthropocene:A review[J].Ecological Processes,2017,6(1):1-9.
[9] DAILY G C,MATSON P A.Ecosystem services:From theory to implementation[J].Proceedings of the National Academy of Sciences,2008,105(28):9455-9456.
[10] DE GROOT R,BRANDER L,VAN DER PLOEG S,et al.Global estimates of the value of ecosystems and their services in monetary units[J].Ecosystem Services,2012,1(1):50-61.
[11] 黄艳霞,梁志鑫,王玉杰,等.生态服务价值当量法的适用性研究:以广西典型岩溶区小流域为例[J].中国水土保持,2020(1):43-47.HUANG Y X,LIANG Z X,WANG Y J,et al.Applicability study of ecosystem service value equivalent method:A case study of a typical small watershed in Karst Region of Guangxi[J].China Soil and Water Conservation,2020(1):43-47.
[12] SUTTON P C,ANDERSON S J,COSTANZA R,et al.The ecological economics of land degradation:Impacts on ecosystem service values[J].Ecological Economics,2016,129:182-192.
[13] BRANDER L M,WAGTENDONK A J,HUSSAIN S S,et al.Ecosystem service values for mangroves in Southeast Asia:A meta-analysis and value transfer application[J].Ecosystem Services,2012,1(1):62-69.
[14] DE GROOT R S,ALKEMADE R,BRAAT L,et al.Challenges in integrating the concept of ecosystem services and values in landscape planning,management and decision making[J].Ecological Complexity,2010,7(3):260-272.
[15] SANNIGRAHI S,BHATT S,RAHMAT S,et al.Estimating global ecosystem service values and its response to land surface dynamics during 1995—2015[J].Journal of Environmental Management,2018,223:115-131.
[16] CHEN W,ZHANG X,HUANG Y.Spatial and temporal changes in ecosystem service values in karst areas in southwestern China based on land use changes[J].Environmental Science and Pollution Research,2021,28(33):45724-45738.
[17] TAN Z,GUAN Q,LIN J,et al.The response and simulation of ecosystem services value to land use/land cover in an oasis,Northwest China[J].Ecological Indicators,2020,118:106711.
[18] PAL A,TIWARI A K,DUTTA S,et al.Dynamicity of ecosystem service value driven by land use/land cover alteration in Vadodara City,India[J].Discover Cities,2024,1(1):22.
[19] 谢高地,鲁春霞,成升魁.全球生态系统服务价值评估研究进展[J].资源科学,2001(6):5-9.XIE G D,LU C X,CHENG S K.Progress in global ecosystem service value assessment[J].Resources Science,2001(6):5-9.
[20] 谢高地,甄霖,鲁春霞,等.一个基于专家知识的生态系统服务价值化方法[J].自然资源学报,2008,23(5):911-919.XIE G D,ZHEN L,LU C X,et al.A method for valuing ecosystem services based on expert knowledge[J].Journal of Natural Resources,2008,23(5):911-919.
[21] 谢高地,张彩霞,张雷明,等.基于单位面积价值当量因子的生态系统服务价值化方法改进[J].自然资源学报,2015,30(8):1243-1254.XIE G D,ZHANG C X,ZHANG L M,et al.Improvement of ecosystem service valuation method based on unit area value equivalents[J].Journal of Natural Resources,2015,30(8):1243-1254.
[22] 谢高地,肖玉,鲁春霞.生态系统服务研究:进展、局限和基本范式[J].植物生态学报,2006(2):191-199.XIE G D,XIAO Y,LU C X.Ecosystem services research:progress,limitations and basic paradigms[J].Chinese Journal of Plant Ecology,2006(2):191-199.
[23] 王宗明,张柏,张树清.吉林省生态系统服务价值变化研究[J].自然资源学报,2004,19(1):55-61.WANG Z M,ZHANG B,ZHANG S Q.Study on changes in ecosystem service values in Jilin province[J].Journal of Natural Resources,2004,19(1):55-61.
[24] 吴后建,王学雷,宁龙梅,等.土地利用变化对生态系统服务价值的影响:以武汉市为例[J].长江流域资源与环境,2006(2):185-190.WU H J,WANG X L,NING L L,et al.Impact of land use change on ecosystem service values:A case study of wuhan City[J].Resources and Environment in the Yangtze Basin,2006(2):185-190.
[25] 钟媛,赵敏娟.城市土地利用变化对生态系统服务的影响:以西安市为例[J].水土保持研究,2015,22(1):274-279.ZHONG Y,ZHAO M J.Impact of urban land use change on ecosystem services:A case study of Xi’an city[J].Research of Soil and Water Conservation,2015,22(1):274-279.
[26] 李安林,周艳,唐丽毅,等.怒江州土地利用模拟及生态系统服务价值评估:基于PLUS模型的多情景分析[J].中国农业资源与区划,2023,44(1):140-149.LI A L,ZHOU Y,TANG L Y,et al.Land use simulation and ecosystem service value assessment in Nujiang prefecture:A multi-scenario analysis based on the PLUS model[J].China Agricultural Resources and Regional Planning,2023,44(1):140-149.
[27] LIANG X,GUAN Q,CLARKE K C,et al.Understanding the drivers of sustainable land expansion using a patch-generating simulation (PLUS) model:A case study in Wuhan,China[J].Computers,Environment and Urban Systems,2021,85:101569.
[28] LI C,WU Y,GAO B,et al.Multi-scenario simulation of ecosystem service value for optimization of land use in the Sichuan-Yunnan ecological barrier,China[J].Ecological Indicators,2021,132:108328.
[29] JIN M,HAN X,LI M.Trade-offs of multiple urban ecosystem services based on land-use scenarios in the Tumen River cross-border area[J].Ecological Modelling,2023,482:110368.
[30] 杜会石,南颖,朱卫红.图们江流域土地利用变化对生态系统服务价值的影响[J].吉林大学学报(地球科学版),2010,40(3):671-677.SHE H S,NAN Y,ZHU W H.Impact of land use change on ecosystem service values in the Tumen River Basin[J].Journal of Jilin University (Earth Science Edition),2010,40(3):671-677.
[31] YANG J,HUANG X.The 30 m annual land cover dataset and its dynamics in China from 1990 to 2019[J].Earth System Science Data,2021,13(8):3907-3925.
[32] ZHOU Y,ZHANG X,YU H,et al.Land use-driven changes in ecosystem service values and simulation of future scenarios:A case study of the Qinghai-Tibet Plateau[J].Sustainability,2021,13(7):4079.
[33] LIU Q,LI G,ZHANG Chao,et al.Study on dynamic changes in ecosystem service value in Qinglong County Based on coefficient modification[J].Chinese Journal of Eco-Agriculture ,2019,27(6):971-980.
[34] 张宪洲.我国自然植被净第一性生产力的估算与分布[J].自然资源,1993(1):15-21.ZHANG X Z.Estimation and distribution of net primary productivity of natural vegetation in china[J].Natural Resources,1993(1):15-21.
[35] ARAUJO E C G,SANQUETTA C R,DALLA CORTE A P,et al.Global review and state-of-the-art of biomass and carbon stock in the Amazon[J].Journal of Environmental Management,2023,331:117251.
[36] 程爽.基于土地利用的东北虎豹国家公园生态系统服务价值研究[D].长春:吉林农业大学,2021.CHENG S.Study on Ecosystem Service Value of Northeast Tiger and Leopard National Lark Based on Land Use[D].Changchun:Jilin Agricultural University,2021.
[37] ZHOU L I .Rethinking on deepening the reform of collective forest property rights system[J].Issues of Forestry Economics,2024,44(2).
[38] SU K,WEI D,LIN W.Evaluation of ecosystem services value and its implications for policy making in China:A case study of Fujian province[J].Ecological Indicators,2020,108:105752.
[39] YU H,LIU D,ZHANG C,et al.Research on spatial-temporal characteristics and driving factors of urban development intensity for Pearl River Delta region based on geodetector[J].Land,2023,12(9):1673.
[40] UUEMAA E,MANDER ü,MARJA R.Trends in the use of landscape spatial metrics as landscape indicators:A review[J].Ecological Indicators,2013,28:100-106.
[41] MANN H B.Nonparametric test against trend[J].Econometrica,1945,13(3):245-259.
[42] KENDALL M G.Rank correlation methods[J].British Journal of Psychology,1990,25(1):86-91.
[43] LI S,MA H,YANG D,et al.The main drivers of wetland evolution in the Beijing-Tianjin-Hebei plain[J].Land,2023,12(2):480.
[44] BAO S,YANG F.Spatio-Temporal dynamic of the Land Use/Cover change and scenario simulation in the southeast coastal shelterbelt system construction project region of China[J].Sustainability,2022,14(14):8952.
[45] YAO Y,LIU X,LI X,et al.Simulating urban land-use changes at a large scale by integrating dynamic land parcel subdivision and vector-based cellular automata[J].International Journal of Geographical Information Science,2017,31(12):2452-2479.
[46] LIU Q,LI G,ZHANG C,et al.Study on dynamic changes in ecosystem service values in Qinglong County based on coefficient correction[J].Zhongguo Shengtai Nongye Xuebao/Chinese Journal of Eco-Agriculture,2019,27(6):971-980.
[47] ZHAI H,LV C,LIU W,et al.Understanding spatio-temporal patterns of land use/land cover change under urbanization in Wuhan,China,2000—2019[J].Remote Sensing,2021,13(16):3331.
[48] CHEN W,ZHANG X,HUANG Y.Spatial and temporal changes in ecosystem service values in karst areas in southwestern China based on land use changes[J].Environmental Science and Pollution Research,2021,28(33):45724-45738.
[49] CAO V,MARGNI M,FAVIS B D,et al.Aggregated indicator to assess land use impacts in life cycle assessment (LCA) based on the economic value of ecosystem services[J].Journal of Cleaner Production,2015,94:56-66.
[50] TAN Z,GUAN Q,LIN J,et al.The response and simulation of ecosystem services value to land use/land cover in an oasis,Northwest China[J].Ecological Indicators,2020,118:106711.
[51] ZHANG P,LIU X,ZHU W,et al.Spatio-temporal changes in water conservation ecosystem service during 1990—2019 in the Tumen River Basin,Northeast China[J].Chinese Geographical Science,2023,33(1):102-115.
[52] ZHANG Y,JIN R,ZHU W,et al.Impacts of land use changes on wetland ecosystem services in the Tumen River Basin[J].Sustainability,2020,12(23):9821.
[53] LUAN C,LIU R,LI Y,et al.Comparison of various models for multi-scenario simulation of land use/land cover to predict ecosystem service value:A case study of Harbin-Changchun urban agglomeration,China[J].Journal of Cleaner Production,2024,478:144012.
[54] MA J,WANG X,ZHOU J,et al.Exploring the response of ecosystem services to landscape change:A case study from eastern Qinghai province[J].Journal of Geographical Sciences,2023,33(9):1897-1920.
[55] 于媛,李明玉,韩旭龙,等.边境地区景观格局演变及生态系统服务价值响应:以延边朝鲜族自治州为例[J].水土保持研究,2021,28(1):315-322.YU Y,LI M Y,HAN X L,et al.Evolution of landscape patterns and ecosystem service value response in border areas:A case study of Yanbian korean autonomous prefecture[J].Research of Soil and Water Conservation,2021,28(1):315-322.
[56] PAN N,GUAN Q,WANG Q,et al.Spatial differentiation and driving mechanisms in ecosystem service value of Arid Region:A case study in the middle and lower reaches of Shule River Basin,NW China[J].Journal of Cleaner Production,2021,319:128718.
[57] 李国英.为以中国式现代化全面推进强国建设、民族复兴伟业提供有力的水安全保障:在2024年全国水利工作会议上的讲话[J].水利发展研究,2024,24(1):1-10.LI G Y.Improved water security for China’s efforts to build itself into a stronger country and rejuvenate the Chinese nation on all fronts by pursuing Chinese modernization:Speech at the 2024 National Water Conservancy Work Conference[J].Water Resources Development Research,2024,24(1):1-10.
[58] 李国英.深入贯彻落实党的二十大精神扎实推动新阶段水利高质量发展:在2023年全国水利工作会议上的讲话[J].水利发展研究,2023,23(1):1-11.LI G Y.Thoroughly implement the spirit of the 20th National Congress of the Communist Party of China and solidly promote the high-quality development of water conservancy in the new stage:Speech at the National Water Conservancy Work Conference in 2023[J].Water Resources Development Research,2023,23(1):1-11.
[59] 吴丰昌.我国水体污染控制与治理成效、科技支撑与展望[J].水利发展研究,2023,23(12):1-8.WU F C.Effectiveness,scientific and technological support,and prospects for water pollution control and management in China[J].Water Resources Development Research,2023,23(12):1-8.
[60] FENG H,LEI X,YU G,et al.Spatio-temporal evolution and trend prediction of urban ecosystem service value based on CLUE-S and GM (1,1) compound model[J].Environmental Monitoring and Assessment,2023,195(11):1282.
Basic Information:
DOI:10.13928/j.cnki.wrahe.2025.03.015
China Classification Code:X171.1
Citation Information:
[1]宋心馨,张守志,王淑琪等.基于PLUS模型的图们江流域生态系统服务价值情景模拟及驱动因素研究[J].水利水电技术(中英文),2025,56(03):186-201.DOI:10.13928/j.cnki.wrahe.2025.03.015.
Fund Information:
国家自然科学基金重点基金项目(41830643);国家自然科学基金项目(41461036)