Citation: | LU P J,WEI Y F,TONG X H,et al.Study on identification of key areas for ecological restoration of territorial space: taking Xi'an City as an example[J].Journal of Environmental Engineering Technology,2024,14(6):1877-1891. DOI: 10.12153/j.issn.1674-991X.20240128 |
Scientific identification of key areas for ecological restoration of territorial space and systematic promotion of ecological governance of "mountains, water, forests, fields, lakes and grasses" is of great significance for building a strong ecological security barrier in China. Taking Xi'an City, which is located in the northern foothills of Qinling Mountains, as the study area, based on multi-source data such as remote sensing, meteorology, topography and geomorphology, the InVEST model, water balance model, RUSLE model, MSPA model, the hierarchical analysis method, and the circuit theory were used to construct the ecological security pattern and identify the key areas of ecological restoration in Xi'an City. The results show that Xi'an City contains 36 ecological source areas with a total area of 2 591.96 km2, mainly distributed in the Qinling Mountain Range, the northern part of Mountain Li, and around important reservoirs such as Wei River system. It has 70 ecological corridors, with a total length of 686.23 km and, in combination with the characteristics of ecological elements such as mountains, water, forests, fields, lakes, grasses, wetlands and valleys, the overall ecological security pattern of "one screen, one belt, one ring, multiple corridors, and multiple slices" was constructed. There were 45 ecological pinch points identified in Xi'an, with a total area of 33.56 km2, most of which were located in low-resistance areas and corridors with higher ecological levels. There were 25 ecological obstacles, with a total area of 39.32 km2, and most of the ecological obstacles were concentrated in the high-traffic urban areas in the northeastern part of the study area, where human interference was strong. Considering the characteristics of the natural background and ecological problems in Xi'an, ecological restoration proposals were put forward to strengthen the protection of the source areas, enhance the scale of the source areas, emphasize the protection of the corridors, optimize the corridor systems, repair and optimize the pinch points, remove or improve the obstacle points, so as to help the construction of the ecological civilization and high-quality development of Xi'an.
[1] |
BONGAARTS J. Summary for policymakers of the global assessment report on biodiversity and ecosystem services of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services[J]. Population and Development Review,2019,45(3):680-681. DOI: 10.1111/padr.12283
|
[2] |
崔腾宇, 赵君, 管梦鸾, 等. 基于生态评价的生态保护修复分区研究: 以青海湖流域为例[J]. 环境工程技术学报,2024,14(2):592-600.
CUI T Y, ZHAO J, GUAN M L, et al. Study on zoning of ecological protection and restoration based on ecological assessment: taking Qinghai Lake Basin as an example[J]. Journal of Environmental Engineering Technology,2024,14(2):592-600.
|
[3] |
许闯胜, 宋伟, 李换换, 等. 中国生态修复的实践错位问题与应对措施[J]. 资源科学,2023,45(1):222-234.
XU C S, SONG W, LI H H, et al. Misalignment of ecological restoration practices and countermeasures in China[J]. Resources Science,2023,45(1):222-234.
|
[4] |
王夏晖, 何军, 牟雪洁, 等. 中国生态保护修复20年: 回顾与展望[J]. 中国环境管理,2021,13(5):85-92.
WANG X H, HE J, MOU X J, et al. 20 years of ecological protection and restoration in China: review and prospect[J]. Chinese Journal of Environmental Management,2021,13(5):85-92.
|
[5] |
李振亚, 魏伟, 周亮, 等. 中国陆地生态敏感性时空演变特征[J]. 地理学报,2022,77(1):150-163. DOI: 10.11821/dlxb202201011
LI Z Y, WEI W, ZHOU L, et al. Spatio-temporal evolution characteristics of terrestrial ecological sensitivity in China[J]. Acta Geographica Sinica,2022,77(1):150-163. DOI: 10.11821/dlxb202201011
|
[6] |
曹秀凤, 刘兆顺, 李淑杰, 等. 基于生态安全格局的国土空间生态修复关键区域识别: 以吉林省松原市为例[J]. 中国环境科学,2022,42(6):2779-2787.
CAO X F, LIU Z S, LI S J, et al. Identification of key areas of ecological protection and restoration based on the pattern of ecological security: a case of Songyuan City, Jilin Province[J]. China Environmental Science,2022,42(6):2779-2787.
|
[7] |
刘斯媛, 罗勇, 于慧, 等. 川西北长江黄河源区生态安全格局构建及优化[J]. 环境工程技术学报,2023,13(4):1315-1324.
LIU S Y, LUO Y, YU H, et al. Construction and optimization of ecological security pattern in the source regions of the Yangtze River and the Yellow River in northwestern Sichuan[J]. Journal of Environmental Engineering Technology,2023,13(4):1315-1324.
|
[8] |
黄丽萍, 向芳芳, 陈荣清. 基于生态安全格局的县域国土空间生态保护修复关键区域识别: 以抚州市宜黄县为例[J]. 环境工程技术学报,2023,13(4):1334-1344.
HUANG L P, XIANG F F, CHEN R Q. Identification of key areas for ecological protection and restoration of county territorial space based on ecological security pattern: a case study in Yihuang County of Fuzhou City[J]. Journal of Environmental Engineering Technology,2023,13(4):1334-1344.
|
[9] |
李志英, 李媛媛, 李文星, 等. 基于形态学空间格局分析与最小累积阻力模型的昆明市生态安全格局构建研究[J]. 生态与农村环境学报,2023,39(1):69-79.
LI Z Y, LI Y Y, LI W X, et al. Study on the construction of ecological security pattern in Kunming based on MSPA and MCR model[J]. Journal of Ecology and Rural Environment,2023,39(1):69-79.
|
[10] |
雷雯, 傅璟, 刘益, 等. 基于生境质量和生态廊道的国土空间生态修复关键区研究: 以丹巴县为例[J]. 资源开发与市场,2023,39(5):562-572.
LEI W, FU J, LIU Y, et al. Research of ecological restoration crucial areas based on habitat quality and ecological corridors: a case study of Danba County[J]. Resource Development & Market,2023,39(5):562-572.
|
[11] |
黄俊杰, 冯秀丽, 董毓伊, 等. 基于遥感生态指数和图论知识的宁波市生态安全格局构建[J]. 应用生态学报,2023,34(9):2489-2497.
HUANG J J, FENG X L, DONG Y Y, et al. Construction of ecological security pattern in Ningbo based on remote sensing ecological index and graph theory knowledge[J]. Chinese Journal of Applied Ecology,2023,34(9):2489-2497.
|
[12] |
邓莹佳, 侯兰功, 刘涛, 等. 基于生态系统服务价值的成德绵城市带生态安全格局研究[J]. 环境工程技术学报,2023,13(5):1910-1920.
DENG Y J, HOU L G, LIU T, et al. Research of ecological security patterns based on ecosystem services value in Chengdu-Deyang-Mianyang city belt[J]. Journal of Environmental Engineering Technology,2023,13(5):1910-1920.
|
[13] |
覃彬桂, 林伊琳, 赵俊三, 等. 基于InVEST模型和电路理论的昆明市国土空间生态修复关键区域识别[J]. 中国环境科学,2023,43(2):809-820.
QIN B G, LIN Y L, ZHAO J S, et al. Identification of key areas for the ecological restoration of territorial space in Kunming based on the InVEST model and circuit theory[J]. China Environmental Science,2023,43(2):809-820.
|
[14] |
向爱盟, 岳启发, 赵筱青, 等. 国土空间生态修复关键区识别及修复分区: 以西南喀斯特山区开远市为例[J]. 中国环境科学,2023,43(12):6571-6582.
XIANG A M, YUE Q F, ZHAO X Q, et al. Identification and restoration zoning of key areas for ecological restoration of territorial space in southwestern Karst mountainous areas: a case study of Kaiyuan City in Karst mountainous area of Southwest China[J]. China Environmental Science,2023,43(12):6571-6582.
|
[15] |
谭华清, 张金亭, 周希胜. 基于最小累计阻力模型的南京市生态安全格局构建[J]. 水土保持通报,2020,40(3):282-288.
TAN H Q, ZHANG J T, ZHOU X S. Construction of ecological security patterns based on minimum cumulative resistance model in Nanjing city[J]. Bulletin of Soil and Water Conservation,2020,40(3):282-288.
|
[16] |
晁云舒, 严雨桐, 闫思嘉, 等. 基于MCR和重力模型的县域生态安全格局构建: 以福建省永春县为例[J]. 水土保持通报,2023,43(4):203-210.
CHAO Y S, YAN Y T, YAN S J, et al. County scale ecological security pattern construction based on MCR model: a case study of Yongchun County, Fujian province[J]. Bulletin of Soil and Water Conservation,2023,43(4):203-210.
|
[17] |
PENG J, ZHAO S Q, DONG J Q, et al. Applying ant colony algorithm to identify ecological security patterns in megacities[J]. Environmental Modelling & Software,2019,117(C):214-222.
|
[18] |
周浪, 李明慧, 周启刚, 等. 基于电路理论的特大山地城市生态安全格局构建: 以重庆市都市区为例[J]. 水土保持研究,2021,28(2):319-325.
ZHOU L, LI M H, ZHOU Q G, et al. Construction of ecological security pattern in very large mountainous city based on circuit theory: taking Chongqing metropolitan area as an example[J]. Research of Soil and Water Conservation,2021,28(2):319-325.
|
[19] |
白中科, 周伟, 王金满, 等. 再论矿区生态系统恢复重建[J]. 中国土地科学,2018,32(11):1-9.
BAI Z K, ZHOU W, WANG J M, et al. Rethink on ecosystem restoration and rehabilitation of mining areas[J]. China Land Science,2018,32(11):1-9.
|
[20] |
王圣瑞, 倪兆奎, 席海燕. 我国湖泊富营养化治理历程及策略[J]. 环境保护,2016,44(18):15-19.
WANG S R, NI Z K, XI H Y. Management process and strategy of lake eutrophication in China[J]. Environmental Protection,2016,44(18):15-19.
|
[21] |
陈天, 包宁颖, 杜崇宣, 等. 重金属污染河流生态修复区挺水植物对重金属的吸收特性[J]. 环境科学研究,2020,33(9):2110-2117. DOI: 10.13198/j.issn.1001-6929.2020.02.06
CHEN T, BAO N Y, DU C X, et al. Absorption characteristics of heavy metals by Emergent plants frompolluted river in ecological restoration areas[J]. Research of Environmental Sciences,2020,33(9):2110-2117. DOI: 10.13198/j.issn.1001-6929.2020.02.06
|
[22] |
姜德文. 山水林田湖草系统治理之水土保持要义[J]. 地学前缘,2021,28(4):42-47.
JIANG D W. Essentials for soil and water conservation in ecosystem management[J]. Earth Science Frontiers,2021,28(4):42-47.
|
[23] |
杨楠, 谭许伟, 由宗兴. 沈阳国土空间生态修复规划策略与实践[J]. 规划师,2020,36(13):34-38.
YANG N, TAN X W, YOU Z X. Strategies and practice of ecological restoration planning for national land and space in the new era, Shenyang[J]. Planners,2020,36(13):34-38.
|
[24] |
张纹嘉, 付勇勇, 王晓军. 基于生态系统服务价值评价的忻州市生态安全格局构建[J]. 水土保持研究,2023,30(4):355-364.
ZHANG W J, FU Y Y, WANG X J. Construction of ecological security pattern in Xinzhou city based on evaluation of ecosystem service value[J]. Research of Soil and Water Conservation,2023,30(4):355-364.
|
[25] |
孙钦珂, 周亮, 唐相龙, 等. 干旱区绿洲城镇扩张对耕地空间影响及预测: 以河西走廊区域为例[J]. 自然资源学报,2021,36(4):1008-1020. DOI: 10.31497/zrzyxb.20210415
SUN Q K, ZHOU L, TANG X L, et al. Spatial influence and prediction of oasis urban expansion on cultivated land in arid areas: a case study of the Hexi Corridor[J]. Journal of Natural Resources,2021,36(4):1008-1020. DOI: 10.31497/zrzyxb.20210415
|
[26] |
程博. 西安市大气污染时空分布特征及其与经济发展的相关性[J]. 农业灾害研究,2023,13(7):186-188.
CHENG B. Spatial and temporal distribution characteristics of air pollution and its correlation with economic development in Xi’an[J]. Journal of Agricultural Catastrophology,2023,13(7):186-188.
|
[27] |
杨丽萍, 张静, 贡恩军, 等. GEE联合多源数据的西安市土地利用时空格局及驱动力分析[J]. 农业工程学报,2022,38(2):279-288.
YANG L P, ZHANG J, GONG E J, et al. Analysis of spatio-temporal land-use patterns and the driving forces in Xi’an City using GEE and multi-source data[J]. Transactions of the Chinese Society of Agricultural Engineering,2022,38(2):279-288.
|
[28] |
黄鹏程, 张明明, 王新宇, 等. 基于Landsat-8 OLI的西安市土地利用类型遥感分类研究[J]. 测绘与空间地理信息,2020,43(1):85-88.
HUANG P C, ZHANG M M, WANG X Y, et al. Remote sensing classification of land use in Xi’an based on landsat-8 OLI[J]. Geomatics & Spatial Information Technology,2020,43(1):85-88.
|
[29] |
杨潋威, 赵娟, 朱家田, 等. 基于PLUS和InVEST模型的西安市生态系统碳储量时空变化与预测[J]. 自然资源遥感,2022,34(4):175-182.
YANG L W, ZHAO J, ZHU J T, et al. Spatial-temporal change and prediction of carbon stock in the ecosystem of Xi’an based on PLUS and InVEST models[J]. Remote Sensing for Natural Resources,2022,34(4):175-182.
|
[30] |
李超, 牛文浩, 黄怀玉, 等. 城市化背景下粤港澳大湾区生态风险时空演变及生态分区识别研究[J]. 环境工程技术学报,2024,14(2):562-573.
LI C, NIU W H, HUANG H Y, et al. Study on spatial and temporal evolution of ecological risk and ecological zoning identification in Guangdong-Hong Kong-Macao Greater Bay Area under the background of urbanization[J]. Journal of Environmental Engineering Technology,2024,14(2):562-573.
|
[31] |
陈相标, 丁文荣. 基于生态安全格局的国土空间生态修复关键区域识别: 以滇中五大高原湖泊流域为例[J]. 环境工程技术学报,2023,13(6):2248-2260.
CHEN X B, DING W R. Identification of key areas for ecological restoration of territorial space based on ecological security pattern: a case of five plateau lake basins in central Yunnan[J]. Journal of Environmental Engineering Technology,2023,13(6):2248-2260.
|
[32] |
唐娇娇, 余成, 张委伟, 等. 基于CLUE-S和InVEST模型的苏州市生境质量评估及预测[J]. 环境工程技术学报,2023,13(1):377-385.
TANG J J, YU C, ZHANG W W, et al. Habitat quality assessment and prediction in Suzhou based on CLUE-S and InVEST models[J]. Journal of Environmental Engineering Technology,2023,13(1):377-385.
|
[33] |
陈朝, 杨贤房, 陈进栋, 等. 考虑地形与生物多样性的InVEST模型及其在县域生物多样性安全格局分析中的应用[J]. 环境工程技术学报,2023,13(4):1345-1353.
CHEN Z, YANG X F, CHEN J D, et al. InVEST Model considering terrain and biodiversity and its application in the analysis of county biodiversity security pattern: a case study of Wengyuan County[J]. Journal of Environmental Engineering Technology,2023,13(4):1345-1353.
|
[34] |
方臣, 匡华, 贾琦琪, 等. 基于生态系统服务重要性和生态敏感性的武汉市生态安全格局评价[J]. 环境工程技术学报,2022,12(5):1446-1454.
FANG C, KUANG H, JIA Q Q, et al. Evaluation of ecological security pattern in Wuhan City based on the importance of ecosystem services and ecological sensitivity[J]. Journal of Environmental Engineering Technology,2022,12(5):1446-1454.
|
[35] |
陈朝, 杨贤房, 陈进栋, 等. 综合视角下粤北山区县域水安全格局构建与分析[J]. 环境工程技术学报,2023,13(5):1931-1940.
CHEN Z, YANG X F, CHEN J D, et al. Construction and analysis of county water security pattern in mountainous areas of northern Guangdong Province from a comprehensive perspective[J]. Journal of Environmental Engineering Technology,2023,13(5):1931-1940.
|
[36] |
丁诗雨, 贾夏, 赵永华, 等. 秦巴山生态功能区生态系统服务供需关系时空演变研究[J]. 生态环境学报,2023,32(12):2236-2248.
DING S Y, JIA X, ZHAO Y H, et al. Spatial-temporal patterns of supply and demand of ecosystem services in the ecological function area of Qin-Ba Mountains[J]. Ecology and Environmental Sciences,2023,32(12):2236-2248.
|
[37] |
祝文婷. 西安市土地生态系统健康评价及关键区域识别[D]. 南宁: 南宁师范大学, 2023.
|
[38] |
李春亮, 王翔, 张炜, 等. 黄土高原西段表层土壤有机碳储量及时空变化规律[J]. 现代地质,2022,36(2):655-661.
LI C L, WANG X, ZHANG W, et al. Topsoil organic carbon storage and its spatial and temporal variation in the western Loess Plateau[J]. Geoscience,2022,36(2):655-661.
|
[39] |
张彦军, 郁耀闯, 牛俊杰, 等. 秦岭太白山北坡土壤有机碳储量的海拔梯度格局[J]. 生态学报,2020,40(2):629-639.
ZHANG Y J, YU Y C, NIU J J, et al. The elevational patterns of soil organic carbon storage on the northern slope of Taibai Mountain of Qinling[J]. Acta Ecologica Sinica,2020,40(2):629-639.
|
[40] |
王天福, 龚直文, 邓元杰. 基于土地利用变化的陕西省植被碳汇提质增效优先区识别[J]. 自然资源学报,2022,37(5):1214-1232. DOI: 10.31497/zrzyxb.20220508
WANG T F, GONG Z W, DENG Y J. Identification of priority areas for improving quality and efficiency of vegetation carbon sinks in Shaanxi Province based on land use change[J]. Journal of Natural Resources,2022,37(5):1214-1232. DOI: 10.31497/zrzyxb.20220508
|
[41] |
VOGT P, FERRARI J R, LOOKINGBILL T R, et al. Mapping functional connectivity[J]. Ecological Indicators,2009,9(1):64-71. DOI: 10.1016/j.ecolind.2008.01.011
|
[42] |
张慧莹. 基于多目标优化的泰山区域山水林田湖草生命共同体生态网络构建研究[D]. 济南: 山东建筑大学, 2020.
|
[43] |
王成新, 万军, 于雷, 等. 基于生态网络格局的城市生态保护红线优化研究: 以青岛市为例[J]. 中国人口·资源与环境,2017,27(增刊1):9-14.
|
[44] |
樊影, 王宏卫, 杨胜天, 等. 基于生境质量和生态安全格局的阿勒泰地区生态保护关键区域识别[J]. 生态学报,2021,41(19):7614-7626.
FAN Y, WANG H W, YANG S T, et al. Identification of ecological protection crucial areas in Altay Prefecture based on habitat quality and ecological security pattern[J]. Acta Ecologica Sinica,2021,41(19):7614-7626.
|
[45] |
张兴. 基于生态系统服务的黄土高原生态安全格局构建[D]. 西安: 长安大学, 2022.
|
[46] |
白召弟. 基于InVEST-MSPA模型关中平原城市群生态安全格局的构建[D]. 西安: 长安大学, 2022.
|
[47] |
王海云, 匡耀求, 文薪荐, 等. 粤港澳大湾区生态网络构建及廊道优化[J]. 中国环境科学,2022,42(5):2289-2298.
WANG H Y, KUANG Y Q, WEN X J, et al. Ecological network construction and corridor optimization in Guangdong-Hong Kong-Macao Greater Bay Area[J]. China Environmental Science,2022,42(5):2289-2298.
|
[48] |
白自龙, 王世东, 范沁河, 等. 基于生态安全格局的国土空间生态保护修复重点区域识别: 以海城市为例[J/OL]. 中国水土保持科学(中英文), 2023. doi: 10.16843/j.sswc.2022131.
BAI Z L, WANG S D, FAN Q H, et al. Identification of key areas for ecological protection and restoration in territorial space based on ecological security pattern: a case study in Haicheng City[J/OL]. Science of Soil and Water Conservation, 2023. doi: 10.16843/j.sswc.2022131.
|
[49] |
ASAF N. PLAnar maps, random walks and circle packing: ecole d'ete de probabilites de saint-flour XLVIII-2018[J]. Random Walks and Electric Networks. 2020, 2243: 11-31.
|
[50] |
周璟, 王宏卫, 谈波, 等. 开都河流域生态安全格局构建与生态修复分区识别[J]. 生态学报,2022,42(24):10127-10137.
ZHOU J, WANG H W, TAN B, et al. Construction of ecological security pattern and identification of ecological rehabilitation zones in Kaidu River Basin[J]. Acta Ecologica Sinica,2022,42(24):10127-10137.
|
[51] |
温雪静, 周智, 张美丽, 等. 太行山区国土空间生态修复关键区域识别: 以唐县为例[J]. 中国生态农业学报(中英文),2021,29(12):2093-2106.
WEN X J, ZHOU Z, ZHANG M L, et al. Identification of key areas of territorial ecological restoration in Taihang Mountains: a case study of Tang County[J]. Chinese Journal of Eco-Agriculture,2021,29(12):2093-2106.
|
[52] |
张美丽, 李智, 张益琛, 等. 基于生态安全格局的国土空间生态修复关键区域识别: 以河北省阜平县为例[J]. 水土保持研究,2021,28(3):299-307.
ZHANG M L, LI Z, ZHANG Y C, et al. Identification of key areas of ecological restoration of land and space based on ecological security pattern: taking Fuping County of Hebei Province as an example[J]. Research of Soil and Water Conservation,2021,28(3):299-307.
|
[53] |
张明爽. 长江大保护下的铜陵市生态安全格局构建与生态修复研究[D]. 合肥: 安徽建筑大学, 2022.
|
[54] |
费勇强, 黄爱民, 罗义, 等. 基于Maxent模型与电路理论的大熊猫栖息地内废弃矿山生态修复研究[J]. 环境工程技术学报,2024,14(2):622-632.
FEI Y Q, HUANG A M, LUO Y, et al. Ecological restoration of abandoned mines within giant panda habitat based on Maxent model and circuit theory[J]. Journal of Environmental Engineering Technology,2024,14(2):622-632.
|
[55] |
邹珮雯, 徐昉. 生态安全格局构建及景观生态风险预测: 以赛罕乌拉国家级自然保护区为例[J]. 生态学报,2023,43(23):9981-9993.
ZOU P W, XU F. Ecological security pattern construction and landscape ecological risk prediction: a case study of Saihanwula National Nature Reserve[J]. Acta Ecologica Sinica,2023,43(23):9981-9993.
|
[56] |
徐宜雪, 谢自建, 王昊, 等. 土地利用对兴凯湖入湖河流水质影响及生态修复策略[J]. 环境工程技术学报,2023,13(6):1997-2005.
XU Y X, XIE Z J, WANG H, et al. Effect of land use on the water quality of rivers flowing into Xingkai Lake and ecological restoration strategies[J]. Journal of Environmental Engineering Technology,2023,13(6):1997-2005.
|
[57] |
郑婷婷, 杨莉, 贾卓霏, 等. 基于生态系统“受损-恢复力-修复潜力”评价的内蒙古生态空间分区及保护修复策略[J]. 环境工程技术学报,2023,13(5):1901-1909.
ZHENG T T, YANG L, JIA Z F, et al. Ecological space zoning and conservation and restoration strategies based on the evaluation of ecosystem "damage-resilience-restoration potential" in Inner Mongolia Autonomous Region[J]. Journal of Environmental Engineering Technology,2023,13(5):1901-1909.
|
[58] |
卫新东, 林良国, 冯小龙, 等. 神木市生态安全格局构建与生态问题定量诊断[J]. 生态学报,2023,43(1):82-94. DOI: 10.1016/j.chnaes.2021.09.017
WEI X D, LIN L G, FENG X L, et al. Construction of ecological security pattern and quantitative diagnosis of ecological problems in Shenmu City[J]. Acta Ecologica Sinica,2023,43(1):82-94. DOI: 10.1016/j.chnaes.2021.09.017
|
[59] |
ZHOU L H, WANG P T, BAI Y X. Optimization of the ecological security pattern in Xi'an city based on a minimum cumulative resistance model[J]. Journal of Resources and Ecology,2023,14(6):1127-1137.
|
[60] |
白雨霞. 西安市土地利用变化与生态安全格局研究[D]. 西安: 长安大学, 2023.
|
[61] |
刘金花, 杨朔, 吕永强. 基于生态安全格局与生态脆弱性评价的生态修复关键区域识别与诊断: 以汶上县为例[J]. 中国环境科学,2022,42(7):3343-3352.
LIU J H, YANG S, LÜ Y Q. Identification and diagnosis of critical areas for ecological rehabilitation based on eco-security patterns and ecological vulnerability assessment: a case study over Wenshang County[J]. China Environmental Science,2022,42(7):3343-3352.
|
[62] |
赵月帅, 李任革, 高琳婷, 等. 西安市国土空间生态修复规划路径探讨与实践[J]. 自然资源情报, 2024(1):46-52.
ZHAO Y S, LI R G, GAO L T, et al. Discussion and practice on the planning path of ecological restoration of Xi'an territorial space[J]. Natural Resources Information, 2024(1):46-52. ⊕
|