Composition and Structure of Lowland Rain-Forest Tree Communities on Ta'u, American Samoa

The Guianas (French Guiana, Suriname, Guyana) are probably one of the last areas of the world covered largely by virgin lowland rain forest. Species diversity of epiphytic bryophytes was investigated in dry evergreen forest and mixed forest using mountaineering techniques to ascend into the canopy. The results indicate that the lowland rain forest is richer in species than previously believed due to neglect of the canopy flora, which may hold more than 50% of the local species. The mixed forest holds the richest flora and on one single forest tree up to 67 bryophyte species were found (50 on average); 28 trees yielded 154 species. A species/area curve indicates that epiphytic bryophyte species are usually commonly distributed in the forest and a few trees may yield much of the local flora. A recent checklist of the Guianas includes over 600 species of bryophytes: 375 Hepaticae and 234 Musci. As the region lacks in altitude (except on Mt. Roraima) the general character of the bryophyte flora of the Guianas is typically lowland neotropical. Over 80% of the species are rather widespread in tropical America (Amazonian species included), and the remaining are Guayana Highlands, northern Amazonian or Caribbean elements. Endemism is very low: 2.5 %.

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Dispersal assembly of rain forest tree communities across the Amazon basin

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1613655114 ◽

2017 ◽

Vol 114 (10) ◽

pp. 2645-2650 ◽

Cited By ~ 48

Author(s):

Kyle G. Dexter ◽

Mathew Lavin ◽

Benjamin M. Torke ◽

Alex D. Twyford ◽

Thomas A. Kursar ◽

...

Keyword(s):

Rain Forest ◽

Phylogenetic Diversity ◽

Amazon Basin ◽

Forest Tree ◽

Local Communities ◽

Rain Forests ◽

Phylogenetic Structure ◽

Neotropical Tree ◽

Tree Community ◽

Tree Communities

We investigate patterns of historical assembly of tree communities across Amazonia using a newly developed phylogeny for the species-rich neotropical tree genusInga. We compare our results with those for three other ecologically important, diverse, and abundant Amazonian tree lineages,Swartzia, Protieae, andGuatteria. Our analyses using phylogenetic diversity metrics demonstrate a clear lack of geographic phylogenetic structure, and show that local communities ofIngaand regional communities of all four lineages are assembled by dispersal across Amazonia. The importance of dispersal in the biogeography ofIngaand other tree genera in Amazonian and Guianan rain forests suggests that speciation is not driven by vicariance, and that allopatric isolation following dispersal may be involved in the speciation process. A clear implication of these results is that over evolutionary timescales, the metacommunity for any local or regional tree community in the Amazon is the entire Amazon basin.

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Community assembly during recovery of tropical lowland rain forest from abandoned shift-ing cultivation lands on Hainan Island, China

Chinese Journal of Plant Ecology ◽

10.3724/sp.j.1258.2013.00043 ◽

2013 ◽

Vol 37 (5) ◽

pp. 415-426

Author(s):

Yun-Feng HUANG ◽

Xing-Hui LU ◽

Run-Guo ZANG ◽

Yi DING ◽

Wen-Xing LONG ◽

...

Keyword(s):

Community Assembly ◽

Rain Forest ◽

Hainan Island ◽

Lowland Rain Forest ◽

Tropical Lowland ◽

Tropical Lowland Rain Forest

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Ants accelerate litter decomposition in a Costa Rican lowland tropical rain forest

Journal of Tropical Ecology ◽

10.1017/s0266467412000375 ◽

2012 ◽

Vol 28 (5) ◽

pp. 437-443 ◽

Cited By ~ 15

Author(s):

Terrence P. McGlynn ◽

Evan K. Poirson

Keyword(s):

Mass Loss ◽

Leaf Litter ◽

Litter Decomposition ◽

Rain Forest ◽

Costa Rican ◽

Tropical Rain Forests ◽

Rain Forests ◽

Food Web Structure ◽

Litter Bags ◽

Lowland Rain Forest

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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