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Satellite Imagery-Estimated Intertidal Seaweed Biomass Using UAV as an Intermediary

by Li, Jun , Cheng, Xiaopeng , Zhang, Shouyu , Zhao, Xu , Li, Xunmeng , Wang, Kai , Chen, Jianqu , Chen, Jie

in Aerial photography / Algae / Biomass / Calibration / Carbon sequestration / Data collection / decision support systems / Decision trees / Distribution patterns / Drone aircraft / Identification and classification / intertidal seaweed / Intertidal zone / littoral zone / Machine learning / macroalgae / Marine algae / Measurement / Multispectral photography / patchy distribution / PlanetScope / Plant biomass / Regression analysis / Remote sensing / Sargassum thunbergii / Satellite imagery / Satellite imaging / Satellites / Seaweeds / Sentinel-2 / Spatial distribution / Technological change / UAV / Ulva / Ulva pertusa / Unmanned aerial vehicles / Vegetation / Vegetation index

2023

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Satellite Imagery-Estimated Intertidal Seaweed Biomass Using UAV as an Intermediary

by Li, Jun , Cheng, Xiaopeng , Zhang, Shouyu , Zhao, Xu , Li, Xunmeng , Wang, Kai , Chen, Jianqu , Chen, Jie

2023

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Satellite Imagery-Estimated Intertidal Seaweed Biomass Using UAV as an Intermediary

by Li, Jun , Cheng, Xiaopeng , Zhang, Shouyu , Zhao, Xu , Li, Xunmeng , Wang, Kai , Chen, Jianqu , Chen, Jie

2023

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Journal Article

Satellite Imagery-Estimated Intertidal Seaweed Biomass Using UAV as an Intermediary

Li, Jun,

Cheng, Xiaopeng,

Zhang, Shouyu,

Zhao, Xu,

Li, Xunmeng,

Wang, Kai,

Chen, Jianqu,

Chen, Jie

2023

Overview

The aim of this study was to use unmanned aerial vehicles (UAVs) as a supplement to satellite remote sensing to accurately assess benthic seaweed biomass in intertidal zones, in order to improve inversion accuracy results and investigate the spatial distribution patterns of seaweed. By adopting non-multicollinearity vegetation indices (feature sets) from PlanetScope and Sentinel-2, and using benthic seaweed biomass inverted from multispectral UAV imagery as the label set for satellite pixel biomass values, machine learning methods (Gradient boosting decision tree, GBDT) can effectively improve the accuracy of biomass estimation results for Ulva pertusa and Sargassum thunbergii species (Ulva pertusa, RSentinel22 = 0.74, RPlanetScope2 = 0.8; Sargassum thunbergii, RSentinel22 = 0.88, RPlanetScope2 = 0.69). The average biomasses of Ulva pertusa and Sargassum thunbergii in the intertidal zone of Gouqi Island are 456.84 g/m2 and 2606.60 g/m2, respectively, and the total resources are 3.5 × 108 g and 1.4 × 109 g, respectively. In addition, based on the hyperspectral data, it was revealed that a major source of error is the patchy distribution of seaweed.

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Publisher

MDPI AG

Subject

Aerial photography

/ Algae

/ Biomass

/ Calibration

/ Carbon sequestration

/ Data collection

/ decision support systems