An improved approach to estimate above-ground volume and biomass of desert shrub communities based on UAV RGB images

•Spectral, textural, structural metrics extracted from UAV images for AGV modelling.•Image classification and ground elevation interpolation are the key to canopy height.•ENVI Landsat Gap-fill tool first used to interpolate vegetation ground elevation.•The contribution of structural, textural, spect...

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Bibliographic Details
Published in:Ecological indicators 2021-06, Vol.125, p.107494, Article 107494
Main Authors: Mao, Peng, Qin, Longjun, Hao, Mengyu, Zhao, Wenli, Luo, Jiechunyi, Qiu, Xu, Xu, Lijie, Xiong, Yujiu, Ran, Yili, Yan, Chunhua, Qiu, Guo Yu
Format: Article
Language:English
Subjects:
Above-ground biomass (AGB)
Above-ground volume (AGV)
Desert shrub
Spectral indices
Structural metrics
Textural metrics
Unmanned aerial vehicle (UAV)
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Summary:•Spectral, textural, structural metrics extracted from UAV images for AGV modelling.•Image classification and ground elevation interpolation are the key to canopy height.•ENVI Landsat Gap-fill tool first used to interpolate vegetation ground elevation.•The contribution of structural, textural, spectral metrics to AGV is 87, 7, 6%, respectively. Above-ground biomass (AGB) is an essential indicator for assessing ecosystem health and carbon storage in desert shrub-related research. Above-ground volume (AGV) of vegetation is a crucial parameter to estimate the AGB. In unmanned aerial vehicle (UAV) remote sensing, the AGV and AGB are mainly estimated by vegetation feature metrics (for example, spectral indices, textural, and structural metrics). However, there is limited study on the AGV and AGB estimation in desert shrub communities by using UAV, and it is difficult to determine the contribution of these metrics to AGV models under eliminating the influence of background factors. Taking a typical desert shrub area in Inner Mongolia, China as an example, this study develops an improved approach to extracted three types of feature metrics simultaneously using UAV RGB (Red, Green, Blue) images. First, digital orthophoto map (DOM) and digital surface model (DSM) were created through the photogrammetric procedure based on UAV RGB images. Second, the digital terrain model (DTM) for canopy height calculation was generated based on DOM and DSM by object-oriented image binary classification and ground elevation interpolation. Here, we recommended the ENVI Landsat Gap-fill tool to interpolate the ground elevation of vegetation areas. Meanwhile, 21 spectral indices, eight textural metrics, and five structural metrics were extracted. Finally, single-variable and multi-variable commonly used regression models were established based on these metrics and measured AGV with a leave-one-out cross-validation. Results showed that: (1) in the proposed model, the contribution of structural, textural, and spectral metric to shrub AGV models was 86.68, 7.08, and 6.24%, respectively. (2) The horizontal and vertical structural metrics, textural metrics, or spectral indices reflected the one-dimensional change of AGV, which had a saturation effect. (3) The canopy volume, combining the horizontal and vertical characteristics of vegetation canopy, could describe the overall change of AGV and played the most essential role in AGV modelling (R2 = 0.928, relative RMSE = 26.8%). The study fin
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2021.107494