Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.

Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.

The formation of highly phosphatized soils on sites of avian activity is a common feature of oceanic islands. We characterized a toposequence of phosphatic soils on Rata Island, to evaluate the soil genesis based on local topographic variations. For this purpose, four soils ranging from the upper hill down to the lowest landscape position on the island, representing a range of parent materials (basalt and calcareous sands), were analyzed. In the lowest landscape position a shallow Entisol was identified, strongly influenced by birds and marine sprays (Litholic Neosol), developed on " karstified" Pleistocene calcarenites; the three other soils in the upper part of the toposequence are Ornithogenic Inceptsols (Cambisols), ranging from a deep Cambisol profile on Basalt lava to intermediate Cambisols on mixed colluvial sediments of the basalt/calcareous. The lowermost Litholic Neosol is associated with a rugged landscape with strong calcarenite dissolution and karstification, related to a former wetter climate. The soil phosphatization is clearly an inherited process of the Late Quaternary age, when climate conditions were different. Initial weathering took place in the last interglacial period, under wetter conditions during which the Tertiary basalts were strongly weathered, leaving corestones in a saprolitic, oxidized mass. In the late Pleistocene, a gentle surface distributed these weathering products along the pediment slopes as colluvial materials, whereas in the coastal areas aeolian processes formed large sand dunes composed of reworked calcareous sands from marine sources during a time of very low sea level. During this time, widespread bird activity accounted for secondary apatite formation on the surface of calcareous oolites. Finally, the Holocene warming was accompanied by increasing sea level, enhanced tropical weathering, Fe and Al mobility and variscite formation superimposed on degraded Ca-phosphates, forming two phase phosphatic aggregates.

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Main Authors: OLIVEIRA, F., SCHAEFER, C., ABRAHÃO, W., ALMEIDA, E. de P. C., SIMAS, F.
Other Authors: Fábio OLIVEIRA; Carlos SCHAEFER; Walter ABRAHÃO; ELIANE DE PAULA CLEMENTE ALMEIDA, CNPS; Felipe SIMAS.
Format: Anais e Proceedings de eventos biblioteca
Language:pt_BR
por
Published: 2013-09-26
Subjects:Ornithogenic soil, Fernando de Noronha Archipelago,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/967192
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spelling dig-alice-doc-9671922017-08-16T00:01:41Z Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications. OLIVEIRA, F. SCHAEFER, C. ABRAHÃO, W. ALMEIDA, E. de P. C. SIMAS, F. Fábio OLIVEIRA; Carlos SCHAEFER; Walter ABRAHÃO; ELIANE DE PAULA CLEMENTE ALMEIDA, CNPS; Felipe SIMAS. Ornithogenic soil Fernando de Noronha Archipelago The formation of highly phosphatized soils on sites of avian activity is a common feature of oceanic islands. We characterized a toposequence of phosphatic soils on Rata Island, to evaluate the soil genesis based on local topographic variations. For this purpose, four soils ranging from the upper hill down to the lowest landscape position on the island, representing a range of parent materials (basalt and calcareous sands), were analyzed. In the lowest landscape position a shallow Entisol was identified, strongly influenced by birds and marine sprays (Litholic Neosol), developed on " karstified" Pleistocene calcarenites; the three other soils in the upper part of the toposequence are Ornithogenic Inceptsols (Cambisols), ranging from a deep Cambisol profile on Basalt lava to intermediate Cambisols on mixed colluvial sediments of the basalt/calcareous. The lowermost Litholic Neosol is associated with a rugged landscape with strong calcarenite dissolution and karstification, related to a former wetter climate. The soil phosphatization is clearly an inherited process of the Late Quaternary age, when climate conditions were different. Initial weathering took place in the last interglacial period, under wetter conditions during which the Tertiary basalts were strongly weathered, leaving corestones in a saprolitic, oxidized mass. In the late Pleistocene, a gentle surface distributed these weathering products along the pediment slopes as colluvial materials, whereas in the coastal areas aeolian processes formed large sand dunes composed of reworked calcareous sands from marine sources during a time of very low sea level. During this time, widespread bird activity accounted for secondary apatite formation on the surface of calcareous oolites. Finally, the Holocene warming was accompanied by increasing sea level, enhanced tropical weathering, Fe and Al mobility and variscite formation superimposed on degraded Ca-phosphates, forming two phase phosphatic aggregates. 2013-09-26T11:11:11Z 2013-09-26T11:11:11Z 2013-09-26 2013 2013-09-26T11:11:11Z Anais e Proceedings de eventos In: IAG INTERNACIONAL CONFERENCE GEOMORPHOLOGY, 8., 2013, Paris. Resumo... Frankfurt: Association Internacionale des Géomorphologues, 2013. http://www.alice.cnptia.embrapa.br/alice/handle/doc/967192 pt_BR por openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language pt_BR
por
topic Ornithogenic soil
Fernando de Noronha Archipelago
Ornithogenic soil
Fernando de Noronha Archipelago
spellingShingle Ornithogenic soil
Fernando de Noronha Archipelago
Ornithogenic soil
Fernando de Noronha Archipelago
OLIVEIRA, F.
SCHAEFER, C.
ABRAHÃO, W.
ALMEIDA, E. de P. C.
SIMAS, F.
Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.
description The formation of highly phosphatized soils on sites of avian activity is a common feature of oceanic islands. We characterized a toposequence of phosphatic soils on Rata Island, to evaluate the soil genesis based on local topographic variations. For this purpose, four soils ranging from the upper hill down to the lowest landscape position on the island, representing a range of parent materials (basalt and calcareous sands), were analyzed. In the lowest landscape position a shallow Entisol was identified, strongly influenced by birds and marine sprays (Litholic Neosol), developed on " karstified" Pleistocene calcarenites; the three other soils in the upper part of the toposequence are Ornithogenic Inceptsols (Cambisols), ranging from a deep Cambisol profile on Basalt lava to intermediate Cambisols on mixed colluvial sediments of the basalt/calcareous. The lowermost Litholic Neosol is associated with a rugged landscape with strong calcarenite dissolution and karstification, related to a former wetter climate. The soil phosphatization is clearly an inherited process of the Late Quaternary age, when climate conditions were different. Initial weathering took place in the last interglacial period, under wetter conditions during which the Tertiary basalts were strongly weathered, leaving corestones in a saprolitic, oxidized mass. In the late Pleistocene, a gentle surface distributed these weathering products along the pediment slopes as colluvial materials, whereas in the coastal areas aeolian processes formed large sand dunes composed of reworked calcareous sands from marine sources during a time of very low sea level. During this time, widespread bird activity accounted for secondary apatite formation on the surface of calcareous oolites. Finally, the Holocene warming was accompanied by increasing sea level, enhanced tropical weathering, Fe and Al mobility and variscite formation superimposed on degraded Ca-phosphates, forming two phase phosphatic aggregates.
author2 Fábio OLIVEIRA; Carlos SCHAEFER; Walter ABRAHÃO; ELIANE DE PAULA CLEMENTE ALMEIDA, CNPS; Felipe SIMAS.
author_facet Fábio OLIVEIRA; Carlos SCHAEFER; Walter ABRAHÃO; ELIANE DE PAULA CLEMENTE ALMEIDA, CNPS; Felipe SIMAS.
OLIVEIRA, F.
SCHAEFER, C.
ABRAHÃO, W.
ALMEIDA, E. de P. C.
SIMAS, F.
format Anais e Proceedings de eventos
topic_facet Ornithogenic soil
Fernando de Noronha Archipelago
author OLIVEIRA, F.
SCHAEFER, C.
ABRAHÃO, W.
ALMEIDA, E. de P. C.
SIMAS, F.
author_sort OLIVEIRA, F.
title Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.
title_short Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.
title_full Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.
title_fullStr Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.
title_full_unstemmed Ornithogenic soil toposequence on Rata island, Fernando de Noronha archipelago, south atlantic and quaternary paleoclimatic implications.
title_sort ornithogenic soil toposequence on rata island, fernando de noronha archipelago, south atlantic and quaternary paleoclimatic implications.
publishDate 2013-09-26
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/967192
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AT abrahaow ornithogenicsoiltoposequenceonrataislandfernandodenoronhaarchipelagosouthatlanticandquaternarypaleoclimaticimplications
AT almeidaedepc ornithogenicsoiltoposequenceonrataislandfernandodenoronhaarchipelagosouthatlanticandquaternarypaleoclimaticimplications
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