Artigo

Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment

We analysed carbon, nitrogen and δ13C values in sediment sampled in the Amazon floodplains. The surface sediment samples were collected along inland transects divided according to their vegetation cover: (a) forest, where the dominant vegetation was inundation forests; (b) grass, where the dominant...

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Autor principal: Martinelli, Luiz Antônio
Outros Autores: Victória, Reynaldo Luiz, Camargo, Plínio Barbosa de, Piccolo, Marisa de Cássia, Mertes, Leal A.K., Richey, Jeffrey E., Devol, Allan H., Forsberg, Bruce Rider
Grau: Artigo
Idioma: English
Publicado em: Hydrological Processes 2020
Assuntos:
Carbon
Deposition
Rivers
Vegetation
Surface Sediments
Sediments
Carbon Isotope
Floodplain
Fluvial Deposit
Isotopic Composition
Nitrogen
Particulate Organic Carbon
Vegetation Cover
South America
Poaceae
Polystachya
Riparia
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/18982
id oai:repositorio:1-18982
recordtype dspace
spelling oai:repositorio:1-18982 Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment Martinelli, Luiz Antônio Victória, Reynaldo Luiz Camargo, Plínio Barbosa de Piccolo, Marisa de Cássia Mertes, Leal A.K. Richey, Jeffrey E. Devol, Allan H. Forsberg, Bruce Rider Carbon Deposition Rivers Vegetation Surface Sediments Sediments Carbon Isotope Floodplain Fluvial Deposit Isotopic Composition Nitrogen Particulate Organic Carbon Vegetation Cover South America Poaceae Polystachya Riparia We analysed carbon, nitrogen and δ13C values in sediment sampled in the Amazon floodplains. The surface sediment samples were collected along inland transects divided according to their vegetation cover: (a) forest, where the dominant vegetation was inundation forests; (b) grass, where the dominant vegetation was grasses, mainly from Echnochloa polystachya; (c) mixed, where the vegetation changed from grasses near the river bank to forest inland. The average sediment carbon and nitrogen concentrations were significantly higher in forest samples (C = 0.99%, N = 0.12%) than in grass samples (C = 0.84%, N = 0.10%). The average sediment δ13C was significantly heavier in grass (-26.7%) than in forest samples (-28.6%), reflecting the isotopically heavier C4 grasses carbon. In the forest and mixed transects inland, increases in the carbon and nitrogen concentrations were observed. At approximately 50 to 60 m from the riverbank, the concentration of carbon and nitrogen became similar to the river particulate organic carbon (POC) concentration, which is the primary floodplain sediment source. We hypothesized that this trend is caused by the deposition of carbon- and nitrogen-depleted sand-size particles in the first few metres of the floodplain, whereas the more enriched silt-clay particles are preferentially deposited far inland. In contrast to inland trends, no significant downriver trend was observed in the carbon and nitrogen concentrations. However, a downriver δ13C increase was observed for sediment in grass-covered areas. Based on δ13C values in different várzea environments, we estimated the relative contribution of riverine POC and vegetation material present in the várzea sediments under different vegetation covers. For forest sediment samples we estimated that 60% of the carbon was derived from the riverine POC and the forests provided the remaining 40%. For open areas covered with grasses we estimated that only 10% was derived from these plants, and 90% was derived from riverine POC. © 2003 John Wiley & Sons, Ltd. 2020-06-15T22:04:22Z 2020-06-15T22:04:22Z 2003 Artigo https://repositorio.inpa.gov.br/handle/1/18982 10.1002/hyp.1293 en Volume 17, Número 7, Pags. 1419-1430 Restrito Hydrological Processes
institution Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection INPA-RI
language English
topic Carbon
Deposition
Rivers
Vegetation
Surface Sediments
Sediments
Carbon Isotope
Floodplain
Fluvial Deposit
Isotopic Composition
Nitrogen
Particulate Organic Carbon
Vegetation Cover
South America
Poaceae
Polystachya
Riparia
spellingShingle Carbon
Deposition
Rivers
Vegetation
Surface Sediments
Sediments
Carbon Isotope
Floodplain
Fluvial Deposit
Isotopic Composition
Nitrogen
Particulate Organic Carbon
Vegetation Cover
South America
Poaceae
Polystachya
Riparia
Martinelli, Luiz Antônio
Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment
topic_facet Carbon
Deposition
Rivers
Vegetation
Surface Sediments
Sediments
Carbon Isotope
Floodplain
Fluvial Deposit
Isotopic Composition
Nitrogen
Particulate Organic Carbon
Vegetation Cover
South America
Poaceae
Polystachya
Riparia
description We analysed carbon, nitrogen and δ13C values in sediment sampled in the Amazon floodplains. The surface sediment samples were collected along inland transects divided according to their vegetation cover: (a) forest, where the dominant vegetation was inundation forests; (b) grass, where the dominant vegetation was grasses, mainly from Echnochloa polystachya; (c) mixed, where the vegetation changed from grasses near the river bank to forest inland. The average sediment carbon and nitrogen concentrations were significantly higher in forest samples (C = 0.99%, N = 0.12%) than in grass samples (C = 0.84%, N = 0.10%). The average sediment δ13C was significantly heavier in grass (-26.7%) than in forest samples (-28.6%), reflecting the isotopically heavier C4 grasses carbon. In the forest and mixed transects inland, increases in the carbon and nitrogen concentrations were observed. At approximately 50 to 60 m from the riverbank, the concentration of carbon and nitrogen became similar to the river particulate organic carbon (POC) concentration, which is the primary floodplain sediment source. We hypothesized that this trend is caused by the deposition of carbon- and nitrogen-depleted sand-size particles in the first few metres of the floodplain, whereas the more enriched silt-clay particles are preferentially deposited far inland. In contrast to inland trends, no significant downriver trend was observed in the carbon and nitrogen concentrations. However, a downriver δ13C increase was observed for sediment in grass-covered areas. Based on δ13C values in different várzea environments, we estimated the relative contribution of riverine POC and vegetation material present in the várzea sediments under different vegetation covers. For forest sediment samples we estimated that 60% of the carbon was derived from the riverine POC and the forests provided the remaining 40%. For open areas covered with grasses we estimated that only 10% was derived from these plants, and 90% was derived from riverine POC. © 2003 John Wiley & Sons, Ltd.
format Artigo
author Martinelli, Luiz Antônio
author2 Victória, Reynaldo Luiz
Camargo, Plínio Barbosa de
Piccolo, Marisa de Cássia
Mertes, Leal A.K.
Richey, Jeffrey E.
Devol, Allan H.
Forsberg, Bruce Rider
author2Str Victória, Reynaldo Luiz
Camargo, Plínio Barbosa de
Piccolo, Marisa de Cássia
Mertes, Leal A.K.
Richey, Jeffrey E.
Devol, Allan H.
Forsberg, Bruce Rider
title Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment
title_short Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment
title_full Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment
title_fullStr Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment
title_full_unstemmed Inland variability of carbon-nitrogen concentrations and δ13C in Amazon floodplain (várzea) vegetation and sediment
title_sort inland variability of carbon-nitrogen concentrations and δ13c in amazon floodplain (várzea) vegetation and sediment
publisher Hydrological Processes
publishDate 2020
url https://repositorio.inpa.gov.br/handle/1/18982
_version_ 1787142114290696192
score 11.755432

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