Savanna–forest hysteresis in the tropics
- 1 July 2001
- journal article
- Published by Wiley in Global Ecology and Biogeography
- Vol. 10 (4) , 369-378
- https://doi.org/10.1046/j.1466-822x.2001.00243.x
Abstract
A simple dynamic model relating forest area in a region, its contribution to dry season precipitation and the effect on its own establishment was developed. The model equation shows hysteresis between forest and savannas as a function of imported dry season precipitation. Regions are either dominated by forests or savannas, with each ecosystem showing stability despite changes in imported dry season precipitation. Deforestation beyond a certain threshold value, however, could cause a collapse of forest ecosystems and replacement by savannas in marginal areas. The predictions of this model corroborate pollen core analysis in the Amazon basin, where historical stability of tropical forest cover has been shown despite global climate change.Keywords
This publication has 22 references indexed in Scilit:
- Amazonian and neotropical plant communities on glacial time-scales: The failure of the aridity and refuge hypothesesQuaternary Science Reviews, 2000
- Late Quaternary Vegetation and Climate Change in the Amazon Basin Based on a 50,000 Year Pollen Record from the Amazon Fan, ODP Site 932Quaternary Research, 1999
- Contribution of transpiration to forest ambient vapour based on isotopic measurementsGlobal Change Biology, 1997
- A Long Pollen Record from Lowland Amazonia: Forest and Cooling in Glacial TimesScience, 1996
- Carbon Pools and Flux of Global Forest EcosystemsScience, 1994
- Consequences and Costs of Conservation CorridorsConservation Biology, 1987
- Recycling of water in the Amazon Basin: An isotopic studyWater Resources Research, 1979
- The Pleistocene Changes of Vegetation and Climate in Tropical South AmericaJournal of Biogeography, 1974
- An Ecological History of the Lake Victoria BasinEcological Monographs, 1969
- Aridity as a Stimulus to Plant EvolutionThe American Naturalist, 1952