Spatiotemporal characteristics of vegetation cover change in the Central Yunnan urban agglomeration from 2000 to 2020 based on Landsat data and its driving factors

Abstract

The study of dynamic changes in vegetation coverage has significant implications for urban clusters in terms of ecological environment protection, climate change research, water resource management and urban planning. A thorough understanding of the driving mechanisms behind vegetation coverage helps provide scientific basis and policy recommendations for the ecological environment protection, sustainable development and decision-making of urban clusters. Taking the central Yunnan urban cluster as an example, this study utilizes long-term Landsat remote sensing image data from 2000 to 2020 on the Google Earth Engine platform. The fractional vegetation cover (FVC) is estimated using a pixel-based binary model. The Sen’s slope, Mann–Kendall trend analysis and Hurst index methods are employed to investigate the spatiotemporal dynamic characteristics of FVC. The impacts of climate change and human activities on vegetation coverage are explored through partial correlation analysis and residual analysis. Finally, considering natural factors such as topography and climate, as well as socioeconomic factors, the geographic detector is used to quantitatively analyze the driving factors behind FVC changes. The results indicate that: (1) From 2000 to 2020, the FVC in the central Yunnan urban cluster changed significantly, showing an overall improvement trend. The average FVC is 0.496 with a growth rate of 0.0024 per year, and it exhibits a distribution pattern of higher values in the west and lower values in the east. (2) In terms of percentage distribution, areas with low FVC and high FVC account for a relatively high proportion. The trend of FVC changes is as follows: improvement (49.6%) > degradation (26.4%) > no change (24%). The average Hurst value is 0.45, indicating that future FVC changes in the study area will be opposite to the past. (3) FVC shows a positive correlation with precipitation and a negative correlation with temperature. Human activities have a positive impact on FVC in the study area, accounting for 55.1% of the regional proportion. (4) Slope and nighttime light contribute the most to FVC. The explanatory power of the interaction between slope and precipitation/temperature is the most significant.

Keywords:

• Fractional vegetation cover
• spatial and temporal changes
• spatial analysis
• driving force analysis
• Central Yunnan urban agglomeration

Disclosure statement

There is no potential conflict of interest.

Additional information

Funding

This research was financially supported by the Science and Technology Major Project of Yunnan Province (Science and Technology Special Project of Southwest United Graduate School - Major Projects of Basic Research and Applied Basic Research): Vegetation change monitoring and ecological restoration models in Jinsha River Basin mining area in Yunnan based on multi-modal remote sensing (Grant No. 202302AO370003), and The Key Special Project for Governmental International Science and Technology Innovation Cooperation under the National Key Research and Development Program, titled ‘Monitoring and Assessing the Impact of Land Use/Land Cover Changes on Regional Ecological Security using Geospatial Technologies’ (No. 2018YFE0184300).

Additional support was provided by the Yunnan Province Basic Research Program General Project(Grant No.202301AT070173), the Yunnan Provincial Education Department Project (No.2022J0139) and the Key Project of the Doctoral Student Innovation Fund at Yunnan Normal University (No.YJSJJ21-A08).