Responses of tropical trees to rainfall seasonality and its long-term changes

• Published in: Climatic change Vol. 39; no. 2-3; pp. 381 - 393
• Main Author: Borchert, R. (Kansas Univ., Lawrence, KS (USA). Dept. of Biochemistry, Cell and Molecular Biology)
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Dordrecht Springer Nature B.V 01.07.1998
• Subjects: BOSQUE TROPICAL; CAMBIO CLIMATICO; CHANGEMENT CLIMATIQUE; CLIMA; CLIMAT; CLIMATE; Climate change; CLIMATIC CHANGE; Cold; Drought; Drought resistance; Dry season; ECOLOGIA FORESTAL; ECOLOGIE FORESTIERE; Evergreen trees; FISIOLOGIA VEGETAL; FOREST ECOLOGY; Forests; FORET TROPICALE; Global warming; Greenhouse effect; LLUVIA; Moisture content; PHYSIOLOGIE VEGETALE; PLANT PHYSIOLOGY; PLUIE; RAIN; Rainfall; Rainforests; Seasonal distribution; Seasonal variations; Soil water; Trees; TROPICAL FORESTS
• ISSN: 0165-0009; 1573-1480
• DOI: 10.1023/a:1005383020063

Seasonality and physiognomy of tropical forests are mainly determined by the amount of annual rainfall and its seasonal distribution. Climatic change scenarios predict that global warming will result in reduced annual rainfall and longer dry seasons for some, but not all, tropical rainforests. Tropical trees can reduce the impact of seasonal drought by adaptive mechanisms such as leaf shedding or stem succulence and by utilization of soil water reserves, which enable the maintenance of an evergreen canopy during periods of low rainfall. Correlations between climate and responses of tropical trees are therefore poor and the responses of tropical rainforests to climatic changes are hard to predict. Predicted climate change is unlikely to affect the physiognomy of rainforests with high annual rainfall and low seasonality. Seasonal evergreen forests which depend on the use of soil water reserves will be replaced by more drought-tolerant semideciduous forests, once rainfall becomes insufficient to replenish soil water reserves regularly. As the limits of drought tolerance of tropical rainforests are not known, rate and extent of future changes cannot be predicted.