融合因果推断与空间模式的三峡库区(重庆段)生态系统服务供需多时相演变机制研究

陆纪宜; 杨庆媛; 高洁; 孙一文; 王亚辉; 王愈滋

doi:10.13718/j.cnki.xdzk.2026.04.008

WESTMAN W E. How Much Are Nature's Services Worth[J]. Science, 1977, 197(4307): 960-964. doi: 10.1126/science.197.4307.960

EHRLICH P, EHRLICH A. Review of Extinction: The Causes and Consequences of the Disappearance of Species[J]. Humboldt Journal of Social Relations, 1982, 9(2): 231-233.

张娟, 陈钦. 森林碳汇经济价值评估研究——以福建省为例[J]. 西南大学学报(自然科学版), 2021, 43(5): 121-128. doi: 10.13718/j.cnki.xdzk.2021.05.016

SHERROUSE B C, SEMMENS D J, CLEMENT J M. An Application of Social Values for Ecosystem Services (SolVES) to Three National Forests in Colorado and Wyoming[J]. Ecological Indicators, 2014, 36: 68-79. doi: 10.1016/j.ecolind.2013.07.008

谭永滨, 谢剑亮, 冉江华, 等. 基于RUSLE的鄱阳湖流域土壤侵蚀时空特征及影响因素分析[J]. 西南大学学报(自然科学版), 2023, 45(9): 46-56. doi: 10.13718/j.cnki.xdzk.2023.09.005

林晓薇, 潘庚飞. 我国碳生态补偿规划研究——基于东南地区七省一市实证分析[J]. 西南大学学报(自然科学版), 2021, 43(7): 130-138. doi: 10.13718/j.cnki.xdzk.2021.07.017

罗万云, 周杨, 王小娟. 生态公平视域下额尔齐斯河流域生态补偿标准及空间选择[J]. 生态学报, 2024, 44(21): 9751-9766.

王秋红, 王勇, 李维杰, 等. 喀斯特山地城市生态系统服务变化及关系研究——以贵阳市为例[J]. 西南大学学报(自然科学版), 2022, 44(5): 158-168. doi: 10.13718/j.cnki.xdzk.2022.05.018

刘立程, 刘春芳, 王川, 等. 黄土丘陵区生态系统服务供需匹配研究——以兰州市为例[J]. 地理学报, 2019, 74(9): 1921-1937.

白君亭, 孙睿, 陈冰滢, 等. 供需匹配视角下乡村游憩资源空间格局及影响因素研究——以福州市为例[J]. 西南大学学报(自然科学版), 2024, 46(9): 133-149. doi: 10.13718/j.cnki.xdzk.2024.09.013

王壮壮, 张立伟, 李旭谱, 等. 区域生态系统服务供需风险时空演变特征——以陕西省产水服务为例[J]. 生态学报, 2020, 40(6): 1887-1900.

严恩萍, 林辉, 王广兴, 等. 1990-2011年三峡库区生态系统服务价值演变及驱动力[J]. 生态学报, 2014, 34(20): 5962-5973.

赵伟, 骆佳玲. 三峡库区城镇化与生态韧性耦合协调的时空格局演变分析[J]. 长江流域资源与环境, 2024, 33(9): 1888-1904.

吴娇, 刘春霞, 李月臣. 三峡库区(重庆段)生态系统服务价值变化及其对人为干扰的响应[J]. 水土保持研究, 2018, 25(1): 334-341.

HUANG C B, HUANG X, PENG C H, et al. Land Use/Cover Change in the Three Gorges Reservoir Area, China: Reconciling the Land Use Conflicts between Development and Protection[J]. Catena, 2019, 175: 388-399. doi: 10.1016/j.catena.2019.01.002

LIU C X, WANG C X, LI Y C, et al. Spatiotemporal Differentiation and Geographic Detection Mechanism of Ecological Security in Chongqing, China[J]. Global Ecology and Conservation, 2022, 35: e02072. doi: 10.1016/j.gecco.2022.e02072

汪荣, 李阳兵, 邵景安, 等. 2000-2020年三峡库区腹地人地耦合土地系统演变机制[J]. 农业工程学报, 2024, 40(10): 255-264.

中国科学院计算机网络信息中心地理空间数据云平台. ASTER GDEM 30M分辨率数字高程数据[DS/OL].[2026-03-02]. https://www.gscloud.cn/sources/details/310?pid=302.

FISCHER G, NACHTERGAELE F, PRIELER S, et al. GlobalAgro-Ecological Zones Assessment for Agriculture (GAEZ 2008)[DS/OL].[2026-03-02]. https://data.tpdc.ac.cn/zh-hans/data/611f7d50-b419-4d14-b4dd-4a944b141175.

OPEN STREET MAP. Asia[DS/OL].[2026-03-02]. https://www.openstreetmap.org/.

YAN F P, SHANGGUAN W, ZHANG J, et al. Depth-to-Bedrock Map of China at a Spatial Resolution of 100 Meters[J]. Scientific Data, 2020, 7: 2. doi: 10.1038/s41597-019-0345-6

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. doi: 10.5194/essd-13-3907-2021

徐新良. 中国年度NDVI、EVI 1KM数据集[DS/OL].[2026-02-02]. https://www.resdc.cn/DOI/DOI.aspxDOIID=49.

OAK RIDGE NATIONAL LABORATORY. LandScan Data[DS/OL].[2026-02-02]. https://landscan.ornl.gov/.

徐新良. 中国GDP空间分布公里网格数据集[DS/OL].[2026-02-02]. https://www.resdc.cn/DOI/DOI.aspxDOIID=33.

BAI K X, LI K, SHAO L Q, et al. LGHAP V2: A Global Gap-Free Aerosol Optical Depth and PM2.5 Concentration Dataset since 2000 Derived via Big Earth Data Analytics[J]. Earth System Science Data, 2024, 16(5): 2425-2448. doi: 10.5194/essd-16-2425-2024

PENG S Z, DING Y X, LIU W Z, et al. 1 km Monthly Temperature and Precipitation Dataset for China from 1901 to 2017[J]. Earth System Science Data, 2019, 11(4): 1931-1946. doi: 10.5194/essd-11-1931-2019

ZHANG Z P, WANG J F. A Model to Identify Causality for Geographic Patterns[J]. International Journal of Geographical Information Science, 2025: 1-21.

NATURAL CAPITAL ALLIANCE. InVEST User's Guide 3.18.0[EB/OL].[2026-02-02]. https://storage.googleapis.com/releases.naturalcapitalproject.org/invest-userguide/latest/zh/index.html.

赵依婷, 徐建刚, 沈舟, 等. 基于生态系统服务供需与敏感性分析的城郊地区生态安全格局构建[J]. 生态学报, 2025, 45(18): 8849-8861.

周文佐, 刘高焕, 潘剑君. 土壤有效含水量的经验估算研究——以东北黑土为例[J]. 干旱区资源与环境, 2003, 17(4): 88-95.

ZHANG Z M, PENG J, XU Z H, et al. Ecosystem Services Supply and Demand Response to Urbanization: A Case Study of the Pearl River Delta, China[J]. Ecosystem Services, 2021, 49: 101274. doi: 10.1016/j.ecoser.2021.101274

万其林, 邵景安. 2000-2020年三峡库区重庆段土地利用及碳储量估算[J]. 重庆师范大学学报(自然科学版), 2023, 40(6): 52-64.

CHEN J Y, JIANG B, BAI Y, et al. Quantifying Ecosystem Services Supply and Demand Shortfalls and Mismatches for Management Optimisation[J]. Science of the Total Environment, 2019, 650: 1426-1439. doi: 10.1016/j.scitotenv.2018.09.126

SCHIRPKE U, MEISCH C, MARSONER T, et al. Revealing Spatial and Temporal Patterns of Outdoor Recreation in the European Alps and Their Surroundings[J]. Ecosystem Services, 2018, 31: 336-350. doi: 10.1016/j.ecoser.2017.11.017

PARACCHINI M L, ZULIAN G, KOPPEROINEN L, et al. Mapping Cultural Ecosystem Services: A Framework to Assess the Potential for Outdoor Recreation across the EU[J]. Ecological Indicators, 2014, 45: 371-385. doi: 10.1016/j.ecolind.2014.04.018

DOU H S, LI X B, LI S K, et al. How to Detect Scale Effect of Ecosystem Services Supply a Comprehensive Insight from Xilinhot in Inner Mongolia, China[J]. Sustainability, 2018, 10(10): 3654. doi: 10.3390/su10103654

刘春霞, 李月臣, 杨华, 等. 三峡库区重庆段生态与环境敏感性综合评价[J]. 地理学报, 2011, 66(5): 631-642.

陈丹, 曾卫, 郭凯睿, 等. 2000-2020年三峡库区生态系统服务时空演变及驱动力研究[J]. 西部人居环境学刊, 2023, 38(4): 127-134.

李辉丹, 曹帮俊, 赵鹏, 等. 基于不同模型的三峡库区降雨侵蚀力时空变化分析[J]. 应用基础与工程科学学报, 2024, 32(5): 1265-1281.

符素华, 刘宝元, 周贵云, 等. 坡长坡度因子计算工具[J]. 中国水土保持科学, 2015, 13(5): 105-110.

龙天渝, 乔敦, 安强, 等. 基于GIS和RULSE的三峡库区土壤侵蚀量估算分析[J]. 灌溉排水学报, 2012, 31(2): 33-37.

WORLD HEALTH ORGANIZATION. WHO Global Air Quality Guidelines[EB/OL].[2026-02-02]. https://www.who.int/news-room/questions-and-answers/item/who-global-air-quality-guidelines.

SU K, WEI D Z, LIN W X. 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. doi: 10.1016/j.ecolind.2019.105752

XU J Y, ZHANG Y Y, HUANG C B, et al. Forest Restoration Shows Uneven Impacts on Soil Erosion, Net Primary Productivity and Livelihoods of Local Households[J]. Ecological Indicators, 2022, 134: 108462. doi: 10.1016/j.ecolind.2021.108462

PENG H J, HUA L, ZHANG X S, et al. Evaluation of ESV Change under Urban Expansion Based on Ecological Sensitivity: A Case Study of Three Gorges Reservoir Area in China[J]. Sustainability, 2021, 13(15): 8490. doi: 10.3390/su13158490

LEEMANS R, DE GROOT R S. Millennium Ecosystem Assessment: Ecosystems and Human Well-being: A Framework for Assessment[M]. Washington D. C: Island Press, 2004: 1-25.

UNITED NATIONS. System of Environmental Economic Accounting (SEEA EA)[EB/OL].[2026-02-02]. https://seea.un.org/.

马元博, 翟天林, 毕庆生, 等. 基于需求层次理论和生态系统服务供需的黄河流域生态管理分区[J]. 生态学报, 2024, 44(15): 6513-6526.