2021
DOI: 10.34133/2021/5289697
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Finer-Resolution Mapping of Global Land Cover: Recent Developments, Consistency Analysis, and Prospects

Abstract: Land-cover mapping is one of the foundations of Earth science. As a result of the combined efforts of many scientists, numerous global land-cover (GLC) products with a resolution of 30 m have so far been generated. However, the increasing number of fine-resolution GLC datasets is imposing additional workloads as it is necessary to confirm the quality of these datasets and check their suitability for user applications. To provide guidelines for users, in this study, the recent developments in currently availabl… Show more

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Cited by 110 publications
(79 citation statements)
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References 124 publications
(218 reference statements)
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“…Land cover (LC) is an important parameter to study and track the local, regional, and global changes of the earth's surface. It has been a crucial variable for different studies such as climate change, food security, environmental studies, conservational strategies, hydrology, and landscape planning [1][2][3][4]. LC, being subjected to natural phenomena and anthropogenic causes of land use, is very dynamic [2,3].…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Land cover (LC) is an important parameter to study and track the local, regional, and global changes of the earth's surface. It has been a crucial variable for different studies such as climate change, food security, environmental studies, conservational strategies, hydrology, and landscape planning [1][2][3][4]. LC, being subjected to natural phenomena and anthropogenic causes of land use, is very dynamic [2,3].…”
Section: Introductionmentioning
confidence: 99%
“…Various global LC data have been produced over the years, such as GLC2000 [8], MCD12, and GLCNMO, GlobCover [9], IGBP DISCover [10], MODIS Collection 5 global land cover [11], Global Land Surface Satellite Global Land Cover (GLASS-GLC) [12], GLC30 [13], GLC10 [6], ESA CCI Land Cover time-series [8], ESRI 10 m [14], etc. While some researchers are concentrated on a local or regional level to map out specific phenomena, for example, meteorology [15], future prediction [16,17], urban heat islands [18], climate change [19], water [20], forest [21] and biodiversity [22], and agricultural monitoring [23], current studies are also focused on improvements such as finer resolution and classification procedures [1,[24][25][26].…”
Section: Introductionmentioning
confidence: 99%
“…The "cross-comparison-based" method was implemented to intuitively compare our time series impervious surface results with the existing multitemporal products. Based on the review of [48], there were eight global 30 m impervious surface products for free access, but only 5 of them contained multitemporal characteristics, including the Global Human Settlement Layer (GHSL, four epochs of 1975, 1990, 2000, and 2014) [49], the GlobeLand30 impervious layer (three epochs of 2000, 2010, and 2020) [50], Global Artificial Impervious Area (GAIA, 34 epochs from 1985 to 2018) [8], the global multitemporal urban land (NUACI, seven epochs of 1980,1990,1995,2000,2005,2010, and 2015) [11], and the Global Urban Dynamic (GUD, 31 epochs from 1985 to 2015) [51]. It should be noted that the GAIA and GUD annual impervious surface products were grouped into eight epochs at an interval of five years for the sake of cross-comparisons.…”
Section: Accuracy Assessmentmentioning
confidence: 99%
“…Key applications of land cover change maps are to inform policy (Duveiller et al, et al, 2021;Homer et al, 2007;Malinowski et al, 2020;Pflugmacher et al, 2019) land cover products based on using Machine Learning and offering predictions (or their refinements) at high spatial resolutions for the whole of continental Europe (Table 1). The increasing number of land cover applications and datasets in Europe can largely be attributed to (1) the extensive Land use and Coverage Area frame Survey (LUCAS) in-situ point data being publicly available for research, and (2) NASA's Landsat and ESA's Sentinel multispectral images being increasingly available for spatial analysis (L. Liu et al, 2021;Szantoi et al, 2020).…”
Section: Introduction 51mentioning
confidence: 99%