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Data Details

Yearly Spatial Dataset of Ecological Risk Assessment for the Qinghai-Xizang Plateau (1km, 2000-2020)

XIA Yongqiang1WANG Hao*1TANG Butian1,2HUI Le1HAN Binyao1

1 School of Geography and Tourism，Shaanxi Normal University，Xi’an 710119，China2 Research Center for Eco-Environmental Sciences，Chinese Academy of Sciences，Beijing 100085，China

DOI:10.3974/geodb.2025.06.01.V1

Published:June 2025

Visitors：22 Data Files Downloaded：0
Data Downloaded：无 Citations：

$202506\3793\Suo_202577204730638875180501135531.jpg$

Key Words：

ecological risk,ecosystem health,ecosystem services

Abstract：

Ecological risk assessment can help identify and quantify potential risks and threats to ecosystems, and assess the impact of human activities or natural changes on ecosystem health, functions and services. The authors constructed an assessment framework for comprehensive ecosystem health and ecosystem services by integrating multi-source data and model algorithms such as land use, NDVI, soil type, annual precipitation, and annual average temperature from 2000 to 2020, and generated an annual ecological risk assessment dataset from 2000 to 2020 by calculating regional ecosystem structure, quality, and service-related indicators. The spatial resolution is 1 km. The smaller the value of the ecological risk data, the higher the ecological risk, and the missing data is set to -9999. The dataset is archived in .tif data format, and consists of 21 data files with the data size of 485 MB (compressed into one file with 155 MB).

Foundation Item：

Ministry of Science and Technology of P. R. China (2019QZKK0403)；

Data Citation：

XIA Yongqiang, WANG Hao*, TANG Butian, HUI Le, HAN Binyao. Yearly Spatial Dataset of Ecological Risk Assessment for the Qinghai-Xizang Plateau (1km, 2000-2020)[J/DB/OL]. Digital Journal of Global Change Data Repository, 2025. https://doi.org/10.3974/geodb.2025.06.01.V1.

References：

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     [10] Sharma, S., Joshi, P. K., Fürst, C. Unravelling net primary productivity dynamics under urbanization and climate change in the western Himalaya [J]. Ecological Indicators, 2022, 144: 109508.
     [11] Frondoni, R., Mollo, B., Capotorti, G. A landscape analysis of land cover change in the Municipality of Rome (Italy): spatio-temporal characteristics and ecological implications of land cover transitions from 1954 to 2001 [J]. Landscape and Urban Planning, 2011, 100(1): 117-128.
     [12] Kang, P., Chen, W., Hou, Y., et al. Linking ecosystem services and ecosystem health to ecological risk assessment: a case study of the Beijing-Tianjin-Hebei urban agglomeration [J]. Science of The Total Environment, 2018, 636: 1442-1454.
     [13] Field, C. B., Behrenfeld, M. J., Randerson, J. T., et al. Primary production of the biosphere: integrating terrestrial and oceanic components [J]. Science, 1998, 281(5374): 237-240.
     [14] Hou, Y., Lü, Y., Chen, W. P., et al. Temporal variation and spatial scale dependency of ecosystem service interactions: a case study on the central Loess Plateau of China [J]. Landscape Ecology, 2017, 32(6): 1201-1217.
     [15] Tian, G. G., Qiao, Z. Assessing the impact of the urbanization process on net primary productivity in China in 1989-2000 [J]. Environmental Pollution, 2014, 184: 320-326.
     [16] Rendon, P., Steinhoff-Knopp, B., Burkhard, B. Linking ecosystem condition and ecosystem services: a methodological approach applied to European agroecosystems [J]. Ecosystem Services, 2022, 53: 101387.
     [17] Jiang, W., Wu, T., Fu, B. J. The value of ecosystem services in China: a systematic review for twenty years [J]. Ecosystem Services, 2021, 52: 101365.
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     [19] Chen, J. H., Wang, Y. F., Sun, J., et al. Precipitation dominants synergies and trade-offs among ecosystem services across the Qinghai-Tibet Plateau [J]. Global Ecology and Conservation, 2021, 32: e01886.
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Data Product:

ID	Data Name	Data Size	Operation
1	ER2000-2020.rar	159576.08KB	DownLoad