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Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/13503

Title: Rainfall seasonality and drought performance shape the distribution of tropical tree species in Ghana
Authors: Amissah, Lucy
Mohren, Godefridus M. J.
Kyereh, Boateng
Agyeman, Victor K.
Keywords: drought
dry forest
physiology
species distribution
tropical forest
wet forest
Issue Date: 2016
Publisher: Wiley
Abstract: Tree species distribution in lowland tropical forests is strongly associated with rainfall amount and distribution. Not only plant water availability, but also irradiance, soil fertility, and pest pressure covary along rainfall gradients. To assess the role of water availability in shaping species distribution, we carried out a reciprocal transplanting experiment in gaps in a dry and a wet forest site in Ghana, using 2,670 seedlings of 23 tree species belonging to three contrasting rainfall distributions groups (dry species, ubiquitous species, and wet species). We evaluated seasonal patterns in climatic conditions, seedling physiology and performance (survival and growth) over a 2-year period and related seedling performance to species distribution along Ghana’s rainfall gradient. The dry forest site had, compared to the wet forest, higher irradiance, and soil nutrient availability and experienced stronger atmospheric drought (2.0 vs. 0.6 kPa vapor pressure deficit) and reduced soil water potential (−5.0 vs. −0.6 MPa soil water potential) during the dry season. In both forests, dry species showed significantly higher stomatal conductance and lower leaf water potential, than wet species, and in the dry forest, dry species also realized higher drought survival and growth rate than wet species. Dry species are therefore more drought tolerant, and unlike the wet forest species, they achieve a home advantage. Species drought performance in the dry forest relative to the wet forest significantly predicted species position on the rainfall gradient in Ghana, indicating that the ability to grow and survive better in dry forests and during dry seasons may allow species to occur in low rainfall areas. Drought is therefore an important environmental filter that influences forest composition and dynamics. Currently, many tropical forests experience increase in frequency and intensity of droughts, and our results suggest that this may lead to reduction in tree productivity and shifts in species distribution.
Description: This article is published in Wiley and also available at DOI: 10.1002/ece3.4384
URI: 10.1002/ece3.4384
http://hdl.handle.net/123456789/13503
Appears in Collections:College of Agric and Natural Resources

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