Environmental conditions and human drivers for changes to north Ethiopian mountain landscapes over 145 years
Copyright policy )Environmental conditions and human drivers for changes to north Ethiopian mountain landscapes over 145 years
As quantitative or spatially distributed studies of environmental change over truly long-term periods of more than 100 years are extremely rare, we re-photographed 361 landscapes that appear on historical photographs (1868-1994) within a 40,000 km(2) study area in northern Ethiopia. Visible evidence of environmental changes apparent from the paired photographs was analyzed using an expert rating system. The conditions of the woody vegetation, soil and water conservation structures and land management were worse in the earlier periods compared to their present conditions. The cover by indigenous trees is a notable exception: it peaked in the 1930s, declined afterwards and then achieved a second peak in the early 21st century. Particularly in areas with greater population densities, there has been a significant increase in woody vegetation and soil and water conservation structures over the course of the study period. We conclude that except for an apparent upward movement of the upper tree limit, the direct human impacts on the environment are overriding the effects of climate change in the north Ethiopian highlands and that the northern Ethiopian highlands are currently greener than at any other time in the last 145 years.
- Wageningen University & Research Netherlands
- University of Zurich Switzerland
- Royal Museum for Central Africa Belgium
- Ghent University Belgium
- Royal Museum for Central Africa Belgium
Conservation of Natural Resources, Soil and water conservation, Climate Change, WATER CONSERVATION, rainfall, Repeat phothography, Environment, Woody vegetation, Land management, montane forest, Humans, COVER DYNAMICS, EUCALYPTUS, Reforestation, RAINFALL, climate, soil-erosion, degradation, Population Density, SOIL-EROSION, TIGRAY HIGHLANDS, Agriculture, water conservation, cover dynamics, DEGRADATION, CLIMATE, LAND-USE CHANGES, eucalyptus, Earth and Environmental Sciences, MONTANE FOREST, Ethiopia, land-use changes, tigray highlands, Environmental rehabilitation, Environmental Monitoring
Conservation of Natural Resources, Soil and water conservation, Climate Change, WATER CONSERVATION, rainfall, Repeat phothography, Environment, Woody vegetation, Land management, montane forest, Humans, COVER DYNAMICS, EUCALYPTUS, Reforestation, RAINFALL, climate, soil-erosion, degradation, Population Density, SOIL-EROSION, TIGRAY HIGHLANDS, Agriculture, water conservation, cover dynamics, DEGRADATION, CLIMATE, LAND-USE CHANGES, eucalyptus, Earth and Environmental Sciences, MONTANE FOREST, Ethiopia, land-use changes, tigray highlands, Environmental rehabilitation, Environmental Monitoring
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