Vegetation Coverage in the Desert Area of the Junggar Basin of Xinjiang, China, Based on Unmanned Aerial Vehicle Technology and Multisource Data

Vegetation coverage information is an important indicator of desert ecological environments. Accurately grasping vegetation coverage changes in desert areas can help in assessing the quality of ecosystems and maintaining their functions. Improving remote sensing methods to detect the vegetation cove...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2022-10, Vol.14 (20), p.5146
Main Authors: Miao, Yuhao, Zhang, Renping, Guo, Jing, Yi, Shuhua, Meng, Baoping, Liu, Jiaqing
Format: Article
Language:English
Subjects:
Accuracy
Aerial photography
Artificial neural networks
Atmospheric models
Back propagation networks
Biomass
Climate change
Computer vision
Correlation
Desert environments
Deserts
Grasslands
Image enhancement
image fusion
Image processing
inversion model
Junggar Basin
Low altitude
Machine learning
multifactor
Multivariate analysis
Neural networks
Precipitation
Quality assessment
Regression analysis
Regression models
Remote sensing
Sensors
Spatial distribution
Support vector machines
Topography
UAV
Unmanned aerial vehicles
Vegetation
Vegetation index
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Summary:Vegetation coverage information is an important indicator of desert ecological environments. Accurately grasping vegetation coverage changes in desert areas can help in assessing the quality of ecosystems and maintaining their functions. Improving remote sensing methods to detect the vegetation coverage in areas of low vegetation coverage is an important challenge for the remote sensing of vegetation in deserts. In this study, based on the fusion of MOD09GA and MOD09GQ data, 2019–2021 low-altitude unmanned aerial vehicle (UAV) remote sensing data, and other factors (such as geographical, topographic, and meteorological factors), three types of inversion models for vegetation coverage were constructed: a multivariate parametric regression model, a support vector machine (SVM) regression model, and a back-propagation neural network (BPNN) regression model. The optimal model was then used to map the spatial distribution of vegetation coverage and its dynamic change in the Junggar Basin of Xinjiang, China, over 22 years (from 2000 to 2021). The results show that: (1) The correlation between enhanced vegetation index (EVI) obtained from image fusion and vegetation coverage in desert areas is the highest (r = 0.72). (2) Among the geographical and topographic factors, only longitude and latitude were significantly correlated with vegetation coverage (p < 0.05). The average monthly temperature and precipitation from the previous six months were correlated with the vegetation coverage (p < 0.05), but the vegetation coverage of the current month had the highest correlation with the average temperature (r = −0.27) and precipitation (r = 0.33) of the previous month. (3) Among the multivariate parametric models established by selecting the five aforementioned factors, the multiple linear regression model performed the best (R2 = 0.64). (4) The SVM regression model was superior to the other regression models (R2 = 0.80, mean squared error = 8.35%). (5) The average vegetation coverage in the desert area of the Junggar Basin was 7.36%, and from 2000–2021, the vegetation coverage in 54.59% of the desert area increased.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs14205146