Morley, R. J. 2000. Origin and Evolution of Tropical Rain Forests. – John Wiley & Sons Ltd., Chichester-New York-Weinheim, XV + 362 pp., hardback, ISBN 0 471 98326 8

Abstract:The decomposition of leaf litter is governed, in part, by litter invertebrates. In tropical rain forests, ants are dominant predators in the leaf litter and may alter litter decomposition through the action of a top-down control of food web structure. The role of ants in litter decomposition was investigated in a Costa Rican lowland rain forest with two experiments. In a mesocosm experiment, we manipulated ant presence in 50 ambient leaf-litter mesocosms. In a litterbag gradient experiment, Cecropia obtusifolia litter was used to measure decomposition rate constants across gradients in nutrients, ant density and richness, with 27 separate litterbag treatments for total arthropod exclusion or partial arthropod exclusion. After 2 mo, mass loss in mesocosms containing ants was 30.9%, significantly greater than the 23.5% mass loss in mesocosms without ants. In the litter bags with all arthropods excluded, decomposition was best accounted by the carbon: phosphorus content of soil (r2 = 0.41). In litter bags permitting smaller arthropods but excluding ants, decomposition was best explained by the local biomass of ants in the vicinity of the litter bags (r2 = 0.50). Once the microarthropod prey of ants are permitted to enter litterbags, the biomass of ants near the litterbags overtakes soil chemistry as the regulator of decomposition. In concert, these results support a working hypothesis that litter-dwelling ants are responsible for accelerating litter decomposition in lowland tropical rain forests.

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Resilience of tropical rain forests: tree community reassembly in secondary forests

Ecology Letters ◽

10.1111/j.1461-0248.2009.01292.x ◽

2009 ◽

Vol 12 (5) ◽

pp. 385-394 ◽

Cited By ~ 178

Author(s):

Natalia Norden ◽

Robin L. Chazdon ◽

Anne Chao ◽

Yi-Huei Jiang ◽

Braulio Vílchez-Alvarado

Keyword(s):

Secondary Forests ◽

Tropical Rain Forests ◽

Rain Forests ◽

Tree Community ◽

Community Reassembly

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Resource allocation to reproductive organs during masting in the tropical emergent tree, Dipterocarpus tempehes

Journal of Tropical Ecology ◽

10.1017/s0266467404002214 ◽

2005 ◽

Vol 21 (2) ◽

pp. 237-241 ◽

Cited By ~ 19

Author(s):

Tomoaki Ichie ◽

Tanaka Kenta ◽

Michiko Nakagawa ◽

Kaori Sato ◽

Tohru Nakashizuka

Keyword(s):

Forest Ecosystems ◽

Reproductive Organs ◽

Nutrient Cycle ◽

South East Asia ◽

Tropical Rain Forests ◽

Rain Forests ◽

Mass Flowering ◽

Animal Populations ◽

Dipterocarp Forests ◽

Interspecific Synchronization

Some tree species exhibit large year-to-year variation in seed production, a phenomenon known as masting (Kelly 1994, Kelly & Sork 2002). Even in tropical rain forests, in which the climate is suitable for plant growth all year round with little seasonal variation (Whitmore 1998), there are many reports of masting (Appanah 1993, Hart 1995, Newbery et al. 1998, Newstrom et al. 1994, Wheelwright 1986). In particular, Dipterocarpaceae, the dominant family in lowland mixed dipterocarp forests in South-East Asia, undergo mast fruiting following mass-flowering with strong interspecific synchronization in aseasonal western Malesia (Appanah 1985, 1993; Ashton 1989, Ashton et al. 1988, Curran et al. 1999, Janzen 1974, Medway 1972, Sakai et al. 1999, Whitmore 1998, Wood 1956). In mixed-dipterocarp forests, dipterocarp species contribute more than 70% of the canopy biomass (Bruenig 1996, Curran & Leighton 2000). Masting of dipterocarp species is therefore likely to have a major impact on animal populations, and also on the nutrient cycle in such forest ecosystems by causing fluctuations in the availability of resources (Sakai 2002).

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