Litterfall mass and nutrient fluxes over an altitudinal gradient in the coastal Atlantic Forest, Brazil

Litterfall is one of the most important pathways through which nutrients are recycled in the terrestrial biosphere. In tropical soils, which are generally low in essential nutrients such as phosphorus and cations, the flux of nutrients through litterfall is particularly important to sustaining CO2-u...

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Bibliographic Details
Published in:Journal of tropical ecology 2017-07, Vol.33 (4), p.261-269
Main Authors: de Sousa-Neto, Eráclito Rodrigues, Lins, Sílvia Rafaela Machado, Martins, Susian Christian, Piccolo, Marisa de Cássia, Ferreira, Maurício Lamano, de Camargo, Plínio Barbosa, Carmo, Janaina Braga do, Mazzi, Edmar Antonio, Houlton, Benjamin Z., Martinelli, Luiz Antonio
Format: Article
Language:English
Subjects:
Altitude
Biomass
Biosphere
Carbon dioxide
Cations
Coasts
Cycles
Drought
Essential nutrients
Fluxes
Forest ecosystems
Forests
Litter
Litter fall
Mountain forests
Nitrogen
Nutrient cycles
Nutrients
Organs
Parks & recreation areas
Phosphorus
Productivity
Rain
Rainforests
Reproductive organs
Sea level
Seasonal variations
Terrestrial ecosystems
Tropical environments
Tropical forests
Tropical soils
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Summary:Litterfall is one of the most important pathways through which nutrients are recycled in the terrestrial biosphere. In tropical soils, which are generally low in essential nutrients such as phosphorus and cations, the flux of nutrients through litterfall is particularly important to sustaining CO2-uptake capacity; however, questions remain over the role of altitude in altering litter nutrient cycling rates among tropical forest ecosystems. Here we examine litterfall, carbon (C), nitrogen (N) and phosphorus (P) fluxes through litterfall over an altitudinal gradient in the coastal Atlantic Forest located on the northern coast of the State of São Paulo, Brazil. Litterfall was collected twice a month for 1 y (April 2007–March 2008) using 30 litter traps placed in four different forest types arrayed by altitude – coastal forest (sea level), lowland forest (50–200 m asl), submontane forest (300–500 m asl) and montane forest (1000 m asl). Litterfall mass-fluxes decreased with increasing altitude, from ~9 Mg ha−1 in lowland forests to 7 Mg ha−1 in higher-altitude ecosystems. Contribution of reproductive organs to litterfall was significantly greater in lower than in higher altitudes. Litterfall N and P fluxes were higher in the lowland forest vs. other forest types, pointing to strong altitudinal controls over nutrient cycling. Furthermore, nitrogen-use efficiency (NUE) was lower and litter δ15N was higher in the lowland site providing additional evidence for lack of N constraints to productivity in lowland of the south-eastern Atlantic Forest.
ISSN:0266-4674
1469-7831
DOI:10.1017/S0266467417000207