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【目的】为制定针对性的土地利用政策和实施有效的空间分区计划提供重要参考。【方法】以黄河下游影响区作为研究区,基于“生产-生活-生态”(“三生”)功能视角,采用多源数据,运用InVEST模型、Pearson双变量相关性分析等方法,系统评估了2000—2020年该区域“三生”功能时空演变特征。【结果】明确了“三生”功能时空演变规律;揭示了“三生”功能之间的权衡/协同关系。2000—2020年研究区生产功能(PF)和生活功能(LF)呈上升趋势,而生态功能(EF)呈下降趋势;EF高值区呈先扩张后缩减的动态变化规律;PF高值区梯度差异明显,呈条带状集中分布;LF高值区以多核心向外显著扩散,在各城市建成区进行空间聚合。【结论】PF-EF、LF-EF和PF-LF之间都具有权衡关系,PF-LF、PF-EF的高权衡主要集中在南、北部平原,而LF-EF的权衡主要出现在东部海拔较高的地区和西部山区。
Abstract:【Objective】 To provide important references for formulating targeted land use policies and implementing effective spatial zoning plans. 【Methods】 This study took the affected areas of the lower Yellow River as the study area. Based on the perspective of Production-Living-Ecological functions, it used multi-source data and applied the InVEST model, bivariate Pearson correlation analysis, and other methods to systematically assess the spatiotemporal evolution characteristics of the Production-Living-Ecological functions from 2000 to 2020. 【Results】 The spatiotemporal evolution patterns of the Production-Living-Ecological functions are clarified, and the trade-off/synergistic relationships among these functions are revealed. From 2000 to 2020, the production function(PF) and living function(LF) showed an upward trend, while ecological function(EF) showed a downward trend. The EF high value region showed a dynamic change of expansion followed by contraction. The PF high value region exhibited significant gradient differences, with a banded distribution. The LF high value region diffused significantly outward from multiple cores and exhibited spatial aggregation in each urban built-up area. 【Conclusion】 There were trade-off relationships between PF-EF, LF-EF, and PF-LF. The high trade-offs of PF-LF and PF-EF were mainly concentrated in the southern and northern plains, while the trade-offs of LF-EF mainly occurred in the high-altitude areas in the east and mountainous areas in the west.
[1] HOU H Y,ZHOU B B,PEI F S,et al.Future land use/land cover change has nontrivial and potentially dominant impact on global gross primary productivity[J].Earth′s Future,2022,10(9):e2021EF002628.
[2] WINKLER K,FUCHS R,ROUNSEVELL M,et al.Global land use changes are four times greater than previously estimated[J].Nature Communications,2021,12(1):1-10.
[3] 张成凤,杨晓甜,刘酌希,等.气候变化和土地利用变化对水文过程影响研究进展[J].华北水利水电大学学报(自然科学版),2019,40(4):46-50.[ZHANG C F,YANG X T,LIU Z X,et al.Research progress on impacts of climate change and land use change on hydrological processes[J].Journal of North China University of Water Resources and Electric Power (Natural Science Edition),2019,40(4):46-50.]
[4] JIANG P H,CHENG Q W,GONG Y,et al.Using urban development boundaries to constrain uncontrolled urban sprawl in China[J].Annals of the American Association of Geographers,2016,106(6):1321-1343.
[5] LENG A,WANG K,BAI J J,et al.Analyzing sustainable development in Chinese cities:a focus on land use efficiency in production-living-ecological aspects[J].Journal of Cleaner Production,2024,448:141461.
[6] CAO Y,LI G Y,TIAN Y H,et al.Linking ecosystem services trade-offs,bundles and hotspot identification with cropland management in the coastal Hangzhou Bay area of China[J].Land Use Policy,2020,97:104689.
[7] FAN Y,GAN L,HONG C Q,et al.Spatial identification and determinants of trade-offs among multiple land use functions in Jiangsu Province,China[J].Science of the Total Environment,2021,772:145022.
[8] 黄蕊,张连明,罗凯.黄河沿线市域生态系统服务供需与人类活动强度的时空耦合关系[J].华北水利水电大学学报(自然科学版),2023,44(6):103-112.[HUANG R,ZHANG L M,LUO K.Spatiotemporal coupling relationship between ecosystem service supply-demand and human activity intensity in cities along the Yellow River[J].Journal of North China University of Water Resources and Electric Power (Natural Science Edition),2023,44(6):103-112.]
[9] 周方文,马田田,李晓文,等.黄河三角洲滨海湿地生态系统服务模拟及评估[J].湿地科学,2015,13(6):667-674.[ZHOU F W,MA T T,LI X W,et al.Simulation and assessment of ecosystem services in coastal wetlands of the Yellow River Delta[J].Wetland Science,2015,13(6):667-674.]
[10] 张鹏岩,耿文亮,杨丹,等.黄河下游影响区土地利用和生态系统服务价值的时空演变[J].农业工程学报,2020,36(11):277-288.[ZHANG P Y,GENG W L,YANG D,et al.Spatiotemporal evolution of land use and ecosystem service value in the influenced area of the Lower Yellow River[J].Transactions of the Chinese Society of Agricultural Engineering,2020,36(11):277-288.]
[11] O′SULLIVANULL L,CREAMER R E,FEALY R.Functional Land Management for managing soil functions:a case study of the trade-off between primary productivity and carbon storage in response to the intervention of drainage systems in Ireland[J].Land Use Policy,2015,47:42-54.
[12] WILLEMEN L.Space for people,plants,and livestock quantifying interactions among multiple landscape functions in a Dutch rural region[J].Ecological Indicators,2009,10(1):62-73.
[13] 朱媛媛,余斌,曾菊新,等.国家限制开发区“生产-生活-生态”空间的优化:以湖北省五峰县为例[J].经济地理,2015,35(4):26-32.[ZHU Y Y,YU B,ZENG J X,et al.Optimization of ″Production-Living-Ecological″ space in national restricted development zones:a case study of Wufeng County,Hubei Province[J].Economic Geography,2015,35(4):26-32.]
[14] 党丽娟,徐勇,高雅.土地利用功能分类及空间结构评价方法:以燕沟流域为例[J].水土保持研究,2014,21(5):193-197.[DANG L J,XU Y,GAO Y.Land use functional classification and spatial structure evaluation method:a case study of Yangou Watershed[J].Research of Soil and Water Conservation,2014,21(5):193-197.]
[15] 杨清可,段学军,王磊,等.基于“三生空间”的土地利用转型与生态环境效应:以长江三角洲核心区为例[J].地理科学,2018,38(1):97-106.[YANG Q K,DUAN X J,WANG L,et al.Land use transformation and eco-environmental effects based on ″Production-Living-Ecological″ space:a case study of the core area in the Yangtze River Delta[J].Geographical Science,2018,38(1):97-106.]
[16] 王成,唐宁.重庆市乡村三生空间功能耦合协调的时空特征与格局演化[J].地理研究,2018,37(6):1100-1114.[WANG C,TANG N.Spatiotemporal characteristics and pattern evolution of functional coupling coordination in rural ″Production-Living-Ecological″ space in Chongqing[J].Geographical Research,2018,37(6):1100-1114.]
[17] 张路路,郑新奇,孟超,等.湖南省土地多功能耦合协调度时空分异[J].中国土地科学,2019,33(3):85-94.[ZHANG L L,ZHENG X Q,MENG C,et al.Spatiotemporal differentiation of land multifunction coupling coordination degree in Hunan Province[J].China Land Science,2019,33(3):85-94.]
[18] 刘鹏,陈荣蓉,杨朝现,等.基于“三生空间”协调的农村居民点布局优化研究[J].水土保持研究,2017,24(2):283-288.[LIU P,CHEN R R,YANG C X,et al.Optimization of rural residential layout based on the coordination of ″Production-Living-Ecological″ space[J].Research of Soil and Water Conservation,2017,24(2):283-288.]
[19] 李欣,方斌,殷如梦,等.江苏省县域“三生”功能时空变化及协同/权衡关系[J].自然资源学报,2019,34(11):2363-2377.[LI X,FANG B,YIN R M,et al.Spatiotemporal changes and synergy/trade-off relationships of ″Production-Living-Ecological″ functions at county level in Jiangsu Province[J].Journal of Natural Resources,2019,34(11):2363-2377.]
[20] FAN Y T,JIN X B,GAN L,et al.Spatial identification and dynamic analysis of land use functions reveals distinct zones of multiple functions in eastern China[J].Science of the Total Environment,2018,642:33-44.
[21] 王芸,赵鹏祥,李治国,等.退耕还林还草背景下陕北地区生态系统服务动态及热点识别[J].华北水利水电大学学报(自然科学版),2022,43(5):92-100.[WANG Y,ZHAO P X,LI Z G,et al.Dynamics and hotspot identification of ecosystem services in northern Shaanxi under the Grain for Green Program[J].Journal of North China University of Water Resources and Electric Power (Natural Science Edition),2022,43(5):92-100.]
[22] 白杨,王敏,李晖,等.生态系统服务供给与需求的理论与管理方法[J].生态学报,2017,37(17):5846-5852.[BAI Y,WANG M,LI H,et al.Theories and management approaches of ecosystem service supply and demand[J].Acta Ecologica Sinica,2017,37(17):5846-5852.]
[23] 刘莹,耿文亮,邵静文,等.“三生空间”视角下土地利用变化与生态系统服务价值响应:以黄河下游地区为例[J].地域研究与开发,2021,40(4):129-135.[LIU Y,GENG W L,SHAO J W,et al.Response of land use change and ecosystem service value from the perspective of ″Production-Living-Ecological″ space:a case study of the Lower Yellow River region[J].Areal Research and Development,2021,40(4):129-135.]
[24] 张鹏岩,白家玮,荣天琪,等.黄河下游影响区城镇化-生态和谐机制与耦合协调发展分析[J].测绘通报,2021(10):15-19,33.[ZHANG P Y,BAI J W,RONG T Q,et al.Analysis of urbanization-ecological harmony mechanism and coupling coordinated development in the influenced area of Lower Yellow River[J].Bulletin of Surveying and Mapping,2021(10):15-19,33.]
[25] RONG T Q,ZHANG P Y,WANG L J,et al.Carbon dioxide emissions and their driving forces of land use change based on economic contributive coefficient (ECC) and ecological support coefficient (ESC) in the Lower Yellow River Region (1995—2018)[J].Energies,2020,13:2600.
[26] CEN Y F,ZHANG P Y,YAN Y H,et al.Spatial and temporal agglomeration characteristics and coupling relationship of urban built-up land and economic hinterland:a case study of the Lower Yellow River,China[J].Sustainability,2019,11(19):5218.
[27] 周晓艳,郝慧迪,叶信岳,等.黄河流域区域经济差异的时空动态分析[J].人文地理,2016,31(5):119-125.[ZHOU X Y,HAO H D,YE X Y,et al.Spatiotemporal dynamics of regional economic disparities in the Yellow River Basin[J].Human Geography,2016,31(5):119-125.]
[28] 赵文亮,贺振,贺俊平,等.基于MODIS-NDVI的河南省冬小麦产量遥感估测[J].地理研究,2012,31(12):2310-2320.[ZHAO W L,HE Z,HE J P,et al.Remote sensing estimation of winter wheat yield in Henan Province based on MODIS-NDVI[J].Geographical Research,2012,31(12):2310-2320.]
[29] HU Q Y,ZHANG Z F,NIU L.Identification and evolution of territorial space from the perspective of composite functions[J].Habitat International,2022,128:102662.
[30] LIU Z Y,CHANG Y H,PAN S Q,et al.Unfolding the spatial spillover effect of urbanization on composite ecosystem services:a case study in cities of Yellow River Basin[J].Ecological Indicators,2024,158:111521.
[31] ZHANG J,LI S N,LIN N F,et al.Spatial identification and trade-off analysis of land use functions improve spatial zoning management in rapid urbanized areas,China[J].Land Use Policy,2022,116:106058.
[32] GENG W L,LI Y Y,ZHANG P Y,et al.Analyzing spatio-temporal changes and trade-offs/synergies among ecosystem services in the Yellow River Basin,China[J].Ecological Indicators,2022,138:108825.
[33] 裴惠娟,周中红,孙艳萍,等.甘肃省人口空间分布特征分析[J].西北师范大学学报(自然科学版),2016,52(5):95-100.[PEI H J,ZHOU Z H,SUN Y P,et al.Analysis of spatial distribution characteristics of population in Gansu Province[J].Journal of Northwest Normal University (Natural Science),2016,52(5):95-100.]
[34] 杨小琬,张丽君,秦耀辰,等.1995年以来黄河下游碳储量时空变化及驱动因素[J].河南大学学报(自然科学版),2022,52(1):20-33.[YANG X W,ZHANG L J,QIN Y C,et al.Spatiotemporal variation and driving factors of carbon storage in the Lower Yellow River since 1995[J].Journal of Henan University (Natural Science),2022,52(1):20-33.]
[35] 孙金欣,韩美,孔凡彪,等.黄河下游生境质量与城市化的耦合研究[J].山东大学学报(理学版),2023,58(5):1-16.[SUN J X,HAN M,KONG F B,et al.Coupling relationship between habitat quality and urbanization in the Lower Yellow River[J].Journal of Shandong University (Natural Science),2023,58(5):1-16.]
[36] 王世豪,黄麟,徐新良,等.粤港澳大湾区生态系统服务时空演化及其权衡与协同特征[J].生态学报,2020,40(23):8403-8416.[WANG S H,HUANG L,XU X L,et al.Spatiotemporal evolution of ecosystem services and their trade-offs/synergies in the Guangdong-Hong Kong-Macao Greater Bay Area[J].Acta Ecologica Sinica,2020,40(23):8403-8416.]
[37] 张文静,孙小银,周俊.南四湖流域关键生态系统服务的时空权衡关系[J].生态学报,2021,41(20):8003-8015.[ZHANG W J,SUN X Y,ZHOU J.Spatiotemporal trade-offs of key ecosystem services in the Nansi Lake Basin[J].Acta Ecologica Sinica,2021,41(20):8003-8015.]
[38] 刘海,武靖,陈晓玲.丹江口水源区生态系统服务时空变化及权衡协同关系[J].生态学报,2018,38(13):4609-4624.[LIU H,WU J,CHEN X L.Spatiotemporal changes and trade-off/synergy relationships of ecosystem services in the Danjiangkou water source area[J].Acta Ecologica Sinica,2018,38(13):4609-4624.]
[39] LUO Y,LU Y H,FU B J,et al.Half century change of interactions among ecosystem services driven by ecological restoration:quantification and policy implications at a watershed scale in the Chinese Loess Plateau[J].Science of the Total Environment,2019,651:2546-2557.
[40] 巩杰,柳冬青,高秉丽,等.西部山区流域生态系统服务权衡与协同关系:以甘肃白龙江流域为例[J].应用生态学报,2020,31(4):1278-1288.[GONG J,LIU D Q,GAO B L,et al.Trade-offs and synergies of ecosystem services in mountainous watershed of western China:a case study of Bailongjiang Watershed in Gansu Province[J].Chinese Journal of Applied Ecology,2020,31(4):1278-1288.]
[41] 康庆,郭青霞,丁一,等.山西省“三生”功能协同/权衡关系分析[J].自然资源学报,2021,36(5):1195-1207.[KANG Q,GUO Q X,DING Y,et al.Analysis of synergy/trade-off relationships of ″Production-Living-Ecological″ functions in Shanxi Province[J].Journal of Natural Resources,2021,36(5):1195-1207.]
Basic Information:
DOI:10.19760/j.ncwu.zk.2025054
China Classification Code:X171.1
Citation Information:
[1]李梦凡,王乾旭,刘振岳等.基于生态系统服务的黄河下游影响区“三生”功能权衡/协同效应[J].华北水利水电大学学报(自然科学版),2025,46(04):19-29.DOI:10.19760/j.ncwu.zk.2025054.
Fund Information:
国家自然科学基金项目(41601175,41801362); 2022年中原青年拔尖人才;2023年土壤生态与环境重点实验室建设基金项目(2023HNTRWRFZ-HDX001); 2024年河南省软科学研究项目(242400410234)