Staver, ACArchibald, SLevin, S2011-01-262011-01-262011Staver, AC, Archibald, S and Levin, S. 2011. Tree cover in sub-Saharan Africa: rainfall and fire constrain forest and savanna as alternative stable states. Ecology, vol 92(5), pp 1063-10720012-9658http://www.esajournals.org/doi/pdf/10.1890/10-1684.1http://hdl.handle.net/10204/4802Copyright: 2011. Ecological Society of America. This is the pre print version of the work. The definitive version is published in Ecology, vol 92(5), pp 1063-1072Savannas are known as ecosystems with tree cover below climate-defined equilibrium values. However, a predictive framework for understanding constraints on tree cover is lacking. The authors present a) a spatially extensive analysis of tree cover and fire distribution in sub-Saharan Africa, and b) a model, based on empirical results, demonstrating that savanna and forest may be alternative stable states in parts of Africa, with implications for understanding savanna distributions. Tree cover does not increase continuously with rainfall, but rather is constrained to low (<50%, "savanna") or high tree cover (>75%, "forest"). Intermediate tree cover rarely occurs. Fire - which prevents trees from establishing - differentiates high and low tree cover especially in areas with rainfall between 1000mm and 2000mm. Fire is less important at low rainfall (<1000mm), where rainfall limits tree cover, and at high rainfall (>2000mm), where fire is rare. This pattern suggests that complex interactions between climate and disturbance produce emergent alternative states in tree cover. The relationship between tree cover and fire was incorporated into a dynamic model including grass, savanna tree saplings and savanna trees. Only recruitment from sapling to adult tree varied depending on the amount of grass in the system. Based on their empirical analysis and previous work, fires spread only at tree cover of 40% or less, producing a sigmoidal fire probability distribution as a function of grass cover and therefore a sigmoidal sapling to tree recruitment function. This model demonstrates that, given relatively conservative and empirically supported assumptions about the establishment of trees in savannas, alternative stable states for the same set of environmental conditions (i.e. model parameters) are possible via a fire feedback mechanismenSavannasForestsTree coverBiome distributionRainfallEcosystemEnvironmentSub Saharan AfricaEcologyEvolutionary biologyArticleStaver, A., Archibald, S., & Levin, S. (2011). Tree cover in sub-Saharan Africa: rainfall and fire constrain forest and savanna as alternative stable states. http://hdl.handle.net/10204/4802Staver, AC, S Archibald, and S Levin "Tree cover in sub-Saharan Africa: rainfall and fire constrain forest and savanna as alternative stable states." (2011) http://hdl.handle.net/10204/4802Staver A, Archibald S, Levin S. Tree cover in sub-Saharan Africa: rainfall and fire constrain forest and savanna as alternative stable states. 2011; http://hdl.handle.net/10204/4802.TY - Article AU - Staver, AC AU - Archibald, S AU - Levin, S AB - Savannas are known as ecosystems with tree cover below climate-defined equilibrium values. However, a predictive framework for understanding constraints on tree cover is lacking. The authors present a) a spatially extensive analysis of tree cover and fire distribution in sub-Saharan Africa, and b) a model, based on empirical results, demonstrating that savanna and forest may be alternative stable states in parts of Africa, with implications for understanding savanna distributions. Tree cover does not increase continuously with rainfall, but rather is constrained to low (<50%, "savanna") or high tree cover (>75%, "forest"). Intermediate tree cover rarely occurs. Fire - which prevents trees from establishing - differentiates high and low tree cover especially in areas with rainfall between 1000mm and 2000mm. Fire is less important at low rainfall (<1000mm), where rainfall limits tree cover, and at high rainfall (>2000mm), where fire is rare. This pattern suggests that complex interactions between climate and disturbance produce emergent alternative states in tree cover. The relationship between tree cover and fire was incorporated into a dynamic model including grass, savanna tree saplings and savanna trees. Only recruitment from sapling to adult tree varied depending on the amount of grass in the system. Based on their empirical analysis and previous work, fires spread only at tree cover of 40% or less, producing a sigmoidal fire probability distribution as a function of grass cover and therefore a sigmoidal sapling to tree recruitment function. This model demonstrates that, given relatively conservative and empirically supported assumptions about the establishment of trees in savannas, alternative stable states for the same set of environmental conditions (i.e. model parameters) are possible via a fire feedback mechanism DA - 2011 DB - ResearchSpace DP - CSIR KW - Savannas KW - Forests KW - Tree cover KW - Biome distribution KW - Rainfall KW - Ecosystem KW - Environment KW - Sub Saharan Africa KW - Ecology KW - Evolutionary biology LK - https://researchspace.csir.co.za PY - 2011 SM - 0012-9658 T1 - Tree cover in sub-Saharan Africa: rainfall and fire constrain forest and savanna as alternative stable states TI - Tree cover in sub-Saharan Africa: rainfall and fire constrain forest and savanna as alternative stable states UR - http://hdl.handle.net/10204/4802 ER -