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Nonrandom processes maintain diversity in tropical forests
Authors:Wills Christopher  Harms Kyle E  Condit Richard  King David  Thompson Jill  He Fangliang  Muller-Landau Helene C  Ashton Peter  Losos Elizabeth  Comita Liza  Hubbell Stephen  Lafrankie James  Bunyavejchewin Sarayudh  Dattaraja H S  Davies Stuart  Esufali Shameema  Foster Robin  Gunatilleke Nimal  Gunatilleke Savitri  Hall Pamela  Itoh Akira  John Robert  Kiratiprayoon Somboon  de Lao Suzanne Loo  Massa Marie  Nath Cheryl  Noor Md Nur Supardi  Kassim Abdul Rahman  Sukumar Raman  Suresh Hebbalalu Satyanarayana  Sun I-Fang  Tan Sylvester  Yamakura Takuo  Zimmerman Jess
Affiliation:Division of Biological Sciences, University of California, San Diego, La Jolla, CA 92093-0116, USA. cwills@ucsd.edu
Abstract:An ecological community's species diversity tends to erode through time as a result of stochastic extinction, competitive exclusion, and unstable host-enemy dynamics. This erosion of diversity can be prevented over the short term if recruits are highly diverse as a result of preferential recruitment of rare species or, alternatively, if rare species survive preferentially, which increases diversity as the ages of the individuals increase. Here, we present census data from seven New and Old World tropical forest dynamics plots that all show the latter pattern. Within local areas, the trees that survived were as a group more diverse than those that were recruited or those that died. The larger (and therefore on average older) survivors were more diverse within local areas than the smaller survivors. When species were rare in a local area, they had a higher survival rate than when they were common, resulting in enrichment for rare species and increasing diversity with age and size class in these complex ecosystems.
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