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Drip‐tips are Associated with Intensity of Precipitation in the Amazon Rain Forest
Authors:Ana C. M. Malhado  Yadvinder Malhi  Robert J. Whittaker  Richard J. Ladle  Hans ter Steege  Nídia N. Fabré  Oliver Phillips  William F. Laurance  Luis E. O .C. Aragão  Nigel C. A. Pitman  Hirma Ramírez‐Angulo  Carlos H. M. Malhado
Affiliation:1. Federal University of Alagoas, , Maceió, AL, 57010‐020 Brazil;2. School of Geography and the Environment, University of Oxford, , Oxford, OX1 3QY U.K;3. Department of Plant Ecology and Biodiversity, Utrecht University, , 3584 CH Utrecht, The Netherlands;4. Earth and Biosphere Institute, School of Geography, University of Leeds, , Leeds, LS2 9JT U.K;5. School of Marine and Tropical Biology, James Cook University, , Cairns, Queensland, 4870 Australia;6. Center for Tropical Conservation, Duke University, , Durham, North Carolina, 27708‐0381 U.S.A;7. Facultad de Ciencias Forestales y Ambientales, Universidad de Los Andes, , Mérida, Venezuela;8. State University of Southwest Bahia, , Jequié, BA, 45200‐000 Brazil
Abstract:Drip‐tips are a common feature of the leaves of rain forest trees, but their functional significance remains contested. The most widely accepted hypothesis is that drip‐tips assist drainage of the lamina thereby aiding drying of the leaf surface and reducing the rate of colonization and abundance of epiphyllic organisms. The drying action of drip‐tips may also enhance transpiration and reduce the need for investment in support structures. Furthermore, drip‐tips may help prevent splash erosion around the base of the tree. Data from 130 forest Amazonian plots are used to investigate the abundance and distribution of drip‐tips and, through regression methods that incorporate spatial autocorrelation, seek to identify associations between the frequency of drip‐tips and a range of climatic variables. The average frequency of species and trees with drip‐tips across all plots was 32 and 33 percent, respectively. Trees and species with drip‐tips were significantly more prevalent in the Central‐East Amazon than the other regions. Drip‐tips were also associated with tree species that have smaller maximum heights and with trees with smaller trunk diameters. The proportion of species and individuals with drip‐tips was more strongly correlated with precipitation of the wettest trimester than with total annual precipitation or length of the dry season. Our results extend and provide support for both existing hypotheses for the functional benefit of possessing a drip‐tip. Moreover, the currently unrecognized macrogeographic association between the frequency of drip‐tips in trees of the tropical forest understory and areas of heavy precipitation suggests a new function for this trait.
Keywords:acuminate tips  adaptation  Amazonia  functional traits  macroecology  RAINFOR
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