How the characteristics of land cover changes affect vegetation greenness in Guangdong, a rapid urbanization region of China during 2001–2022

To evaluate the quantitative impacts of land cover change on vegetation greenness in the significantly human-impacted subtropical region, the characteristics of land cover change were explored by land use dynamic degree, transition matrix and normalized entropy. Various methods including Standardize...

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Bibliographic Details
Published in:Environmental monitoring and assessment 2024-11, Vol.196 (11), p.1020, Article 1020
Main Authors: Wu, Yuzhen, Qiu, Xinxin, Liang, Dongmei, Zeng, Xiangan, Liu, Qinyuan
Format: Article
Language:English
Subjects:
Agricultural land
Agriculture
Atmospheric Protection/Air Quality Control/Air Pollution
China
Coniferous forests
Conservation of Natural Resources
Correlation
Earth and Environmental Science
Ecology
Ecosystem
Ecotoxicology
Entropy
Environment
Environmental Management
Environmental Monitoring - methods
Forests
Grassland
Grasslands
Human influences
Impact factors
Land cover
Land use
MODIS
Monitoring/Environmental Analysis
Normalized difference vegetative index
Urbanization
Vegetation
Vegetation index
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Summary:To evaluate the quantitative impacts of land cover change on vegetation greenness in the significantly human-impacted subtropical region, the characteristics of land cover change were explored by land use dynamic degree, transition matrix and normalized entropy. Various methods including Standardized coefficient, LMG (Lindeman-Merenda-Gold), GEN (Genizi measure) and CAR (Correlation-Adjusted Marginal Correlation) were employed to estimate the contributions of land cover changes on vegetation greenness using MODIS data during 2001–2022 in Guangdong. The conclusions revealed that land cover changes exhibited obvious temporal characteristics in Guangdong with a significantly increasing trend of normalized entropy indicating a more balanced distribution of land cover types under human intervention. NDVI (Normalized Difference Vegetation Index) tended to increase likely due to the large-scale increase in evergreen forest. With regard to the contributions of impact factors on vegetation greenness, the contributions evaluated by LMG, GEN and CAR showed that the natural variation of NDVI accounted for the major contribution (> 33%), while the changes of evergreen forest and grassland had the highest contribution (> 37%) according to Standardized coefficient. These differences were mainly due to the characteristics of land cover changes in Guangdong, the correlations among impact factors and the inherent attributions of the methods. Moreover, the expansions of evergreen forest and urban at the expense of the reductions of grassland and cropland also had significant impacts on NDVI (> 10%) according to LMG, GEN and CAR indicating that human-induced land cover changes had remarkable influences on NDVI.
ISSN:0167-6369
1573-2959
1573-2959
DOI:10.1007/s10661-024-13219-4