An improved global land cover mapping in 2015 with 30gm resolution (GLC-2015) based on a multisource product-fusion approach

Abstract

Global land cover (GLC) information with fine spatial resolution is a fundamental data input for studies on biogeochemical cycles of the Earth system and global climate change. Although there are several public GLC products with 30gm resolution, considerable inconsistencies were found among them, especially in fragmented regions and transition zones, which brings great uncertainties to various application tasks. In this paper, we developed an improved global land cover map in 2015 with 30gm resolution (GLC-2015) by fusing multiple existing land cover (LC) products based on the Dempster-Shafer theory of evidence (DSET). Firstly, we used more than 160g000 global point-based samples to locally evaluate the reliability of the input products for each land cover class within each 4gg×g4g geographical grid for the establishment of the basic probability assignment (BPA) function. Then, Dempster's rule of combination was used for each 30gm pixel to derive the combined probability mass of each possible land cover class from all the candidate maps. Finally, each pixel was determined with a land cover class based on a decision rule. Through this fusing process, each pixel is expected to be assigned the land cover class that contributes to achieving a higher accuracy. We assessed our product separately with 34g711 global point-based samples and 201 global patch-based samples. Results show that the GLC-2015 map achieved the highest mapping performance globally, continentally, and ecoregionally compared with the existing 30gm GLC maps, with an overall accuracy of 79.5g% (83.6g%) and a kappa coefficient of 0.757 (0.566) against the point-based (patch-based) validation samples. Additionally, we found that the GLC-2015 map showed substantial outperformance in the areas of inconsistency, with an accuracy improvement of 19.3g%-28.0g% in areas of moderate inconsistency and 27.5g%-29.7g% in areas of high inconsistency. Hopefully, this improved GLC-2015 product can be applied to reduce uncertainties in the research on global environmental changes, ecosystem service assessments, and hazard damage evaluations. The GLC-2015 map developed in this study is available at 10.6084/m9.figshare.22358143.v2 (Li et al., 2023).