High diversity of tropical peatland ecosystem types in the Pastaza-Mara?on basin, Peruvian Amazonia

Peruvian Amazonia harbors a considerable diversity of unknown peatlands These peatlands represent a gradient from very nutrient-poor to nutrient-rich They are among the few undisturbed tropical ombrotrophic bogs in the world Very little information exists on Amazonian peatlands with most studies on...

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Bibliographic Details
Published in:Journal of geophysical research. Biogeosciences 2011-04, Vol.116 (2)
Main Authors: Lähteenoja, Outi, Page, Susan
Format: Article
Language:English
Subjects:
Biodiversity
Bogs
Cores
Ecosystem biology
Ecosystems
Geobiology
Hydrology
Nutrient content
Nutrient dynamics
Nutrients
Peat
Peatlands
Soils
Swamps
Topography
Vegetation
Wetlands
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Summary:Peruvian Amazonia harbors a considerable diversity of unknown peatlands These peatlands represent a gradient from very nutrient-poor to nutrient-rich They are among the few undisturbed tropical ombrotrophic bogs in the world Very little information exists on Amazonian peatlands with most studies on tropical peatlands concentrating on Southeast Asia. Here we describe diversity of Amazonian peatland ecosystems and consider its implications for the global diversity of tropical peatland ecosystems. Nine study sites were selected from within the most extensive wetland area of Peruvian Amazonia: the 120,000 km2 Pastaza-Marañón basin. Peat thickness was determined every 500 m from the edge toward the center of each site, and peat samples were collected from two cores per site. Samples from the entire central core and surface samples from the other core were analyzed for nutrient content. Topography of four peat deposits was measured. In order to study differences in vegetation, pixel values were extracted from a satellite image. The surface peat nutrient content of the peatlands varied from very nutrient-rich to nutrient-poor. Two of the peatlands measured for their topography were domed (5.4 and 5.8 m above the stream), one was gently sloping (1.4 m above the stream), and one was flat and occurred behind a 7 m high levee. Five different peatland vegetation types were detected on the basis of pixel values derived from the satellite image. The peat cores had considerable variation in nutrient content and showed different developmental pathways. In summary, the Pastaza-Marañón basin harbors a considerable diversity of previously undescribed peatland ecosystems, representing a gradient from atmosphere-influenced, nutrient-poor ombrotrophic bogs through to river-influenced, nutrient-rich swamps. Their existence affects the habitat diversity, carbon dynamics, and hydrology of the Amazonian lowlands, and they also provide an undisturbed analog for the heavily disturbed peatlands of Southeast Asia. Considering the factors threatening the Amazonian lowlands, there is an urgent need to investigate and conserve these peatland ecosystems, which may in the near future be among the very few undisturbed tropical ombrotrophic bogs remaining in the world.
ISSN:2169-8953
2169-8961
DOI:10.1029/2010JG001508