| Citation: | SHI Z Y,XIE H L,WANG Z F,et al.Analysis of spatiotemporal heterogeneity of habitat quality and their driving factors based on optimal parameters-based geographic detector for Fuzhou City, China[J].Journal of Environmental Engineering Technology,2023,13(5):1921-1930 doi: 10.12153/j.issn.1674-991X.20230083
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Revealing the spatiotemporal evolution characteristics of habitat quality and their influencing factors can provide reference basis for regional sustainable development. Based on the land use data in 2000, 2010 and 2020, InVEST model, landuse transfer matrix and optimal parameters-based geographical detector (OPGD) were used to comprehensively analyze the spatiotemporal evolution and driving factors of habitat quality in Fuzhou City. The results revealed that the habitat quality index of Fuzhou City in 2000, 2010 and 2020 was 0.812, 0.806 and 0.793, respectively. The area of habitat improvement was less than the area of habitat deterioration. Habitat conditions in the main urban area of Fuzhou and the southeast coastal region were in urgent need of improvement. 3 km was the best optional spatial unit for this study, the optimal data discretization classification number is 6, and the natural break method better explained the explanatory power of the driving factors. Elevation, slope and night-time lights were the main influencing factors of spatial variation in habitat quality in Fuzhou City, and the interaction of slope and nighttime lights had the strongest explanation for habitat quality changes.
| [1] |
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.
|
| [2] |
王圳峰, 刘燕, 王欣珂, 等.福建省绿色空间时空演变及驱动因素分析[J]. 广西师范大学学报(自然科学版),2022,40(4):227-246.
WANG Z F, LIU Y, WANG X K, et al. Temporal and spatial evolution and driving forces of green space in Fujian, China[J]. Journal of Guangxi Normal University (Natural Science Edition),2022,40(4):227-246.
|
| [3] |
许盛凯, 朱韻洁, 袁哲, 等.长江干流岸线缓冲带生态构建方案研究: 以长江江阴段为例[J]. 环境工程技术学报,2022,12(2):581-589.
XU S K, ZHU Y J, YUAN Z, et al. Research on ecological construction scheme of the shoreline buffer zone of the mainstream of the Yangtze River: take the Jiangyin Section of the Yangtze River as an example[J]. Journal of Environmental Engineering Technology,2022,12(2):581-589.
|
| [4] |
陈淼, 苏晓磊, 黄慧敏, 等.三峡库区河流生境质量评价[J]. 生态学报,2019,39(1):192-201.
CHEN M, SU X L, HUANG H M, et al. Assessment of river habitat quality in the Three Corges Reservoir Region[J]. Acta Ecologica Sinica,2019,39(1):192-201.
|
| [5] |
LI T, WU M H, DUAN C Q, et al. The effect of different restoration approaches on vegetation development in metal mines[J]. Science of the Total Environment,2022,806:150626. doi: 10.1016/j.scitotenv.2021.150626
|
| [6] |
SIMEONE D, TAGLIARO C H, BEASLEY C R. Amazonian freshwater mussel density: a useful indicator of macroinvertebrate assemblage and habitat quality[J]. Ecological Indicators,2021,122:107300. doi: 10.1016/j.ecolind.2020.107300
|
| [7] |
霍思高, 黄璐, 严力蛟.基于SolVES模型的生态系统文化服务价值评估: 以浙江省武义县南部生态公园为例[J]. 生态学报,2018,38(10):3682-3691.
HUO S G, HUANG L, YAN L J. Valuation of cultural ecosystem services based on SolVES: a case study of the South Ecological Park in Wuyi County, Zhejiang Province[J]. Acta Ecologica Sinica,2018,38(10):3682-3691.
|
| [8] |
刘振生, 高惠, 滕丽微, 等. 基于MAXENT模型的贺兰山岩羊生境适宜性评价[J]. 生态学报, 2013, 33(22): 7243-7249.
LIU Z S, GAO H, TENG L W, et al. Habitat suitability assessment of blue sheep in Helan Mountain based on MAXENT modeling[J]. Acta Ecologica Sinica, 2013, 33(22): 7243-7249.
|
| [9] |
XIANG Q, KAN A K, YU X X, et al. Assessment of topographic effect on habitat quality in mountainous area using InVEST Model[J]. Land,2023,12(1):186. doi: 10.3390/land12010186
|
| [10] |
周亮, 唐建军, 刘兴科, 等.黄土高原人口密集区城镇扩张对生境质量的影响: 以兰州、西安—咸阳及太原为例[J]. 应用生态学报,2021,32(1):261-270.
ZHOU L, TANG J J, LIU X K, et al. Effects of urban expansion on habitat quality in densely populated areas on the Loess Plateau: a case study of Lanzhou, Xi'an-Xianyang and Taiyuan, China[J]. Chinese Journal of Applied Ecology,2021,32(1):261-270.
|
| [11] |
王琦琨, 武玮, 杨雪琪, 等.陕西省生境质量时空演变及驱动机制分析[J]. 干旱区研究,2022,39(5):1684-1694.
WANG Q K, WU W, YANG X Q, et al. Spatial-temporal changes and driving factors of habitat quality in Shaanxi Province during the past 20 years[J]. Arid Zone Research,2022,39(5):1684-1694.
|
| [12] |
周婷, 陈万旭, 李江风, 等.神农架林区人类活动与生境质量的空间关系[J]. 生态学报,2021,41(15):6134-6145.
ZHOU T, CHEN W X, LI J F, et al. Spatial relationship between human activities and habitat quality in Shennongjia Forest Region from 1995 to 2015[J]. Acta Ecologica Sinica,2021,41(15):6134-6145.
|
| [13] |
GAO F, LI S Y, TAN Z Z, et al. Understanding the modifiable areal unit problem in dockless bike sharing usage and exploring the interactive effects of built environment factors[J]. International Journal of Geographical Information Science,2021,35(9):1905-1925. doi: 10.1080/13658816.2020.1863410
|
| [14] |
SONG Y Z, WANG J F, GE Y, et al. An optimal parameters-based geographical detector model enhances geographic characteristics of explanatory variables for spatial heterogeneity analysis: cases with different types of spatial data[J]. GIScience & Remote Sensing,2020,57(5):593-610.
|
| [15] |
KE S, PAN H, JIN B W. Identification of priority areas for ecological restoration based on human disturbance and ecological security patterns: a case study of Fuzhou City, China[J]. Sustainability,2023,15(3):2842. doi: 10.3390/su15032842
|
| [16] |
HU X S, XU C M, CHEN J, et al. A synthetic landscape metric to evaluate urban vegetation quality: a case of Fuzhou City in China[J]. Forests,2022,13(7):1002. doi: 10.3390/f13071002
|
| [17] |
刘智方, 唐立娜, 邱全毅, 等.基于土地利用变化的福建省生境质量时空变化研究[J]. 生态学报,2017,37(13):4538-4548.
LIU Z F, TANG L N, QIU Q Y, et al. Temporal and spatial changes in habitat quality based on land-use change in Fujian Province[J]. Acta Ecologica Sinica,2017,37(13):4538-4548.
|
| [18] |
洪宇, 刘金福, 涂伟豪, 等.基于生境质量构建森林生物多样性保育价值模型[J]. 北京林业大学学报,2020,42(1):1-9.
HONG Y, LIU J F, TU W H, et al. Construction of biodiversity protection value model for forest based on habitat quality[J]. Journal of Beijing Forestry University,2020,42(1):1-9.
|
| [19] |
马欢, 冯朝阳, 宋婷, 等.1990—2018年赤水河流域土地利用变化分析[J]. 环境工程技术学报,2021,11(3):428-436.
MA H, FENG Z Y, SONG T, et al. Study on the characteristics of land use change in Chishui River Basin from 1990 to 2018[J]. Journal of Environmental Engineering Technology,2021,11(3):428-436.
|
| [20] |
陈实, 金云翔, 黄银兰. 长三角中心区生境质量时空变化及其影响机制[J]. 生态学杂志, 2023,42(5):1175-1185.
CHEN S, JIN Y X, HUANG Y L. Spatio-temporal variations of habitat quality and its underlying mechanism in the central region of Yangtze River Delta[J].Chinese Journal of Ecology, 2023,42(5):1175-1185.
|
| [21] |
杨馗, 信桂新, 蒋好雨, 等.基于最佳尺度的景观生态风险时空变化研究: 以重庆市江津区为例[J]. 生态与农村环境学报,2021,37(5):576-586.
YANG K, XIN G X, JIANG H Y, et al. Study on spatiotemporal changes of landscape ecological risk based on the optimal spatial scale: a case study of Jiangjin district, Chongqing City[J]. Journal of Ecology and Rural Environment,2021,37(5):576-586.
|
| [22] |
LI M Y, ZHOU Y, XIAO P N, et al. Evolution of habitat quality and its topographic gradient effect in northwest Hubei Province from 2000 to 2020 based on the InVEST model[J]. Land,2021,10(8):857. doi: 10.3390/land10080857
|
| [23] |
孟庆林, 李明玉, 任春颖, 等.基于HSI模型的吉林省东部地区生境质量动态评价[J]. 国土资源遥感,2019,31(3):140-147.
MENG Q L, LI M Y, REN C Y, et al. Dynamic assessment of habitat quality in eastern Jilin Province based on HSI model[J]. Remote Sensing for Land and Resources,2019,31(3):140-147.
|
| [24] |
陈晓辉, 曾晓莹, 赵超超, 等. 基于遥感生态指数的道路网络生态效应分析: 以福州市为例[J]. 生态学报, 2021, 41(12): 4732-4745.
CHEN X H, ZENG X Y, ZHAO C C, et al. The ecological effect of road network based on remote sensing ecological index: a case study of Fuzhou City, Fujian Province[J]. Acta Ecologica Sinica, 2021, 41(12): 4732-4745.
|
| [25] |
胡静, 何如海, 刘娜, 等.河南省生境质量时空演变特征及影响因素[J]. 安徽农业大学学报,2022,49(6):961-970.
HU J, HE R H, LIU N, et al. Temporal and spatial evolution characteristics and influencing factors of habitat quality in Henan Province[J]. Journal of Anhui Agricultural University,2022,49(6):961-970.
|
| [26] |
HU Y, WANG J F, LI X H, et al. Geographical detector-based risk assessment of the under-five mortality in the 2008 Wenchuan earthquake, China.[J]. PLoS One,2011,6(6):e21427. doi: 10.1371/journal.pone.0021427
|
| [27] |
张宇晗, 张兵华, 彭琳, 等.福州市2005—2020年土地利用变化及驱动因素研究[J]. 福州大学学报(自然科学版),2022,50(3):408-416.
ZHANG Y H, ZHANG B H, PENG L, et al. Research on land-use change and driving factors in Fuzhou City from 2005 to 2020[J]. Journal of Fuzhou University (Natural Science Edition),2022,50(3):408-416.
|
| [28] |
GENG J W, YU K Y, XIE Z, et al. Analysis of spatiotemporal variation and drivers of ecological quality in Fuzhou based on RSEI[J]. Remote Sensing,2022,14(19):4900. doi: 10.3390/rs14194900
|
| [29] |
牛乐, 王娇月, 郗凤明, 等.基于生态系统服务付费模型的福州市区域生态补偿额度核算[J]. 应用生态学报,2021,32(11):3805-3814.
NIU L, WANG J Y, XI F M, et al. Regional ecological compensation accounting in Fuzhou City based on a payment for ecosystem services (PES) model[J]. Chinese Journal of Applied Ecology,2021,32(11):3805-3814.
|
| [30] |
陈子越, 黄万里, 林以宁, 等.福州地区大学城土地利用时空动态变化分析[J]. 亚热带资源与环境学报,2017,12(2):58-64.
CHEN Z Y, HUANG W L, LIN Y N, et al. Spatio-temporal changes of land use in university town of Fuzhou[J]. Journal of Subtropical Resources and Environment,2017,12(2):58-64.
|
| [31] |
黄康, 戴文远, 黄万里, 等.基于CA-Markov和InVEST模型的土地利用变化对生境影响评价: 以福建省福州新区为例[J]. 水土保持通报,2019,39(6):155-162.
HUANG K, DAI W Y, HUANG W L, et al. Impacts of land use change evaluation on habitat quality based on CA-Markov and InVEST models: taking Fuzhou new district of Fujian Province as an example[J]. Bulletin of Soil and Water Conservation,2019,39(6):155-162.
|
| [32] |
秦子博, 玄锦, 黄柳菁, 等.基于MSPA和MCR模型的海岛型城市生态网络构建: 以福建省平潭岛为例[J]. 水土保持研究,2023,30(2):303-311.
QIN Z B, XUAN J, HUANG L J, et al. Ecological network construction of sea-island city based on MSPA and MCR model: a case study of Pingtan Island in Fujian Province[J]. Research of Soil and Water Conservation,2023,30(2):303-311.
|
| [33] |
ZHANG X, LIU L Y, ZHAO T T, et al. GISD30: global 30 m impervious-surface dynamic dataset from 1985 to 2020 using time-series Landsat imagery on the Google Earth Engine platform[J]. Earth System Science Data,2022,14(4):1831-1856. ⊗ doi: 10.5194/essd-14-1831-2022
|
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