Add to ORKGWetlands have long been drained for human use, thereby strongly affecting greenhouse gas fluxes, flood control, nutrient cycling and biodiversity1,2. Nevertheless, the global extent of natural wetland loss remains remarkably uncertain3. Here, we reconstruct the spatial distribution and timing of wetland loss through conversion to seven human land uses between 1700 and 2020, by combining national and subnational records of drainage and conversion with land-use maps and simulated wetland extents. We estimate that 3.4 million km2 (confidence interval 2.9–3.8) of inland wetlands have been lost since 1700, primarily for conversion to croplands. This net loss of 21% (confidence interval 16–23%) of global wetland area is lower than that suggested ...
Wetlands, in a wide variety of forms, are found throughout the country. The various values of these ...
Dynamics of global wetlands are closely linked to biodiversity conservation, hydrology, and greenhou...
International audienceWetland area has decreased in most parts of the world and remains threatened b...
Wetlands have long been drained for human use, thereby strongly affecting greenhouse gas fluxes, flo...
This repository contains three datasets resulting from the reconstruction of global wetland loss ove...
Tidal wetlands are expected to respond dynamically to global environmental change, but the extent to...
More than 50% of global wetland area has been lost over the last 200 years, resulting in losses of h...
In Central Europe vast wetland areas have been converted into agricultural land over the past few ce...
Wetlands in the mid- and high-latitudes are particularly vulnerable to environmental changes and hav...
Humans are changing the Earth\u27s surface at an accelerating pace, with significant consequences fo...
International audienceGrassland to cropland conversion has been a major land cover change in wetland...
Agricultural activity is widely recognized as a leading driver of natural wetland loss in many parts...
Tidal wetlands are expected to respond dynamically to global environmental change, but the extent to...
Wetlands, in a wide variety of forms, are found throughout the country. The various values of these ...
Dynamics of global wetlands are closely linked to biodiversity conservation, hydrology, and greenhou...
International audienceWetland area has decreased in most parts of the world and remains threatened b...
Wetlands have long been drained for human use, thereby strongly affecting greenhouse gas fluxes, flo...
This repository contains three datasets resulting from the reconstruction of global wetland loss ove...
Tidal wetlands are expected to respond dynamically to global environmental change, but the extent to...
More than 50% of global wetland area has been lost over the last 200 years, resulting in losses of h...
In Central Europe vast wetland areas have been converted into agricultural land over the past few ce...
Wetlands in the mid- and high-latitudes are particularly vulnerable to environmental changes and hav...
Humans are changing the Earth\u27s surface at an accelerating pace, with significant consequences fo...
International audienceGrassland to cropland conversion has been a major land cover change in wetland...
Agricultural activity is widely recognized as a leading driver of natural wetland loss in many parts...
Tidal wetlands are expected to respond dynamically to global environmental change, but the extent to...
Wetlands, in a wide variety of forms, are found throughout the country. The various values of these ...
Dynamics of global wetlands are closely linked to biodiversity conservation, hydrology, and greenhou...
International audienceWetland area has decreased in most parts of the world and remains threatened b...