Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.

Laminated diatomaceous deposits have been documented in the Edisto Inlet (western Ross Sea). The sediments show alternating dark, rich in IPSO25 biomarker, indicative of fast ice, and light laminae, dominated by Corethron pennatum diatoms. Based on these observations, the dynamics of fast ice was re...

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Main Authors: Langone L., Bensi M., Aulicino G., Battaglia F., Caridi F., Carotenuto A., Cerino F., Diociaiuti T., Gallerani A., Giglio F., Kovacevic V., Kralj M., Mangoni O., Mansutti P., Monti M., Morigi C., Patrolecco L., Rauseo J., Relitti F., Retelletti Brogi S., Sabbatini A., Serino E., Tesi T., Ursella L., Greggio N., Giordano P.
Other Authors: Langone, L., Bensi, M., Aulicino, G., Battaglia, F., Caridi, F., Carotenuto, A., Cerino, F., Diociaiuti, T., Gallerani, A., Giglio, F., Kovacevic, V., Kralj, M., Mangoni, O., Mansutti, P., Monti, M., Morigi, C., Patrolecco, L., Rauseo, J., Relitti, F., Retelletti Brogi, S., Sabbatini, A., Serino, E., Tesi, T., Ursella, L., Greggio, N., Giordano, P.
Format: Conference Object
Language:unknown
Published: 2024
Subjects:
laminated diatomaceous sediments
sea ice dynamics
Antarctica
Antarctic
Ross Sea
Victoria Land
Edisto
Edisto Inlet
Antarc*
Sea ice
Online Access:https://hdl.handle.net/11568/1262967
https://doi.org/10.3301/ABSGI.2024.02
https://www.socgeol.it/files/download/pubblicazioni/Abstract Book/Abstract Congresso SGI-SIMP 2024.pdf
id ftunivpisairis:oai:arpi.unipi.it:11568/1262967
record_format openpolar
spelling ftunivpisairis:oai:arpi.unipi.it:11568/1262967 2024-10-06T13:43:33+00:00 Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes. Langone L. Bensi M. Aulicino G. Battaglia F. Caridi F. Carotenuto A. Cerino F. Diociaiuti T. Gallerani A. Giglio F. Kovacevic V. Kralj M. Mangoni O. Mansutti P. Monti M. Morigi C. Patrolecco L. Rauseo J. Relitti F. Retelletti Brogi S. Sabbatini A. Serino E. Tesi T. Ursella L. Greggio N. Giordano P. Langone, L. Bensi, M. Aulicino, G. Battaglia, F. Caridi, F. Carotenuto, A. Cerino, F. Diociaiuti, T. Gallerani, A. Giglio, F. Kovacevic, V. Kralj, M. Mangoni, O. Mansutti, P. Monti, M. Morigi, C. Patrolecco, L. Rauseo, J. Relitti, F. Retelletti Brogi, S. Sabbatini, A. Serino, E. Tesi, T. Ursella, L. Greggio, N. Giordano, P. 2024 https://hdl.handle.net/11568/1262967 https://doi.org/10.3301/ABSGI.2024.02 https://www.socgeol.it/files/download/pubblicazioni/Abstract Book/Abstract Congresso SGI-SIMP 2024.pdf unknown ispartofbook:Congresso congiunto SGI-SIMP - Geology for a sustainable management of our Planet Congresso congiunto SGI-SIMP - Geology for a sustainable management of our Planet firstpage:152 lastpage:152 numberofpages:1 serie:ABSTRACT BOOK https://hdl.handle.net/11568/1262967 doi:10.3301/ABSGI.2024.02 laminated diatomaceous sediments sea ice dynamics Antarctica info:eu-repo/semantics/conferenceObject 2024 ftunivpisairis https://doi.org/10.3301/ABSGI.2024.02 2024-09-23T23:54:59Z Laminated diatomaceous deposits have been documented in the Edisto Inlet (western Ross Sea). The sediments show alternating dark, rich in IPSO25 biomarker, indicative of fast ice, and light laminae, dominated by Corethron pennatum diatoms. Based on these observations, the dynamics of fast ice was reconstructed over the last 2.6 ka for the western Ross Sea. However, the lack of direct observations introduces uncertainty into the paleoclimatic and paleoceanographic interpretation of these laminated sediments. The project LASAGNE (Laminated Sediments in the Magnificent Edisto Inlet, Victoria Land: What processes control their deposition and preservation?), funded by the Italian Program of Antarctic Research (PNRA), proposed a multidisciplinary study that integrates the characteristics of fast ice, water column, and surface sediment, aiming to obtain information on the factors influencing formation and preservation of laminated sediment in Edisto Inlet. The project integrates also biological data (phytoplankton, microzooplankton and foraminifera) collected in situ, and time series of satellite images of sea ice. The main goal was to provide new insights into the sub-seasonal formation of laminated sediments, offering a backbone for the interpretation of paleoclimatic sedimentary archives. An oceanographic mooring was deployed between March 2022 and February 2023, to investigate the mechanisms driving the formation of sediment laminations. The purpose was to test whether the deposition of dark sediments (rich in sympagic diatoms such as Berkeleya adeliensis) occurs in late spring-early summer, while light sediment (mainly composed of Corethron pennatum) represents sedimentation in late summer early autumn. The mooring data reveals that sediment lamination arises from the significant seasonal variability of particle fluxes and composition. Additionally, the thermohaline properties and dynamics of water masses in Edisto Inlet exhibit pronounced seasonal changes. Similarly, diatom assemblages and sea ice cover also ... Conference Object Antarc* Antarctic Antarctica Ross Sea Sea ice Victoria Land ARPI - Archivio della Ricerca dell'Università di Pisa Antarctic Ross Sea Victoria Land Edisto ENVELOPE(-67.133,-67.133,-68.217,-68.217) Edisto Inlet ENVELOPE(170.083,170.083,-72.333,-72.333)
institution Open Polar
collection ARPI - Archivio della Ricerca dell'Università di Pisa
op_collection_id ftunivpisairis
language unknown
topic laminated diatomaceous sediments
sea ice dynamics
Antarctica
spellingShingle laminated diatomaceous sediments
sea ice dynamics
Antarctica
Langone L.
Bensi M.
Aulicino G.
Battaglia F.
Caridi F.
Carotenuto A.
Cerino F.
Diociaiuti T.
Gallerani A.
Giglio F.
Kovacevic V.
Kralj M.
Mangoni O.
Mansutti P.
Monti M.
Morigi C.
Patrolecco L.
Rauseo J.
Relitti F.
Retelletti Brogi S.
Sabbatini A.
Serino E.
Tesi T.
Ursella L.
Greggio N.
Giordano P.
Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.
topic_facet laminated diatomaceous sediments
sea ice dynamics
Antarctica
description Laminated diatomaceous deposits have been documented in the Edisto Inlet (western Ross Sea). The sediments show alternating dark, rich in IPSO25 biomarker, indicative of fast ice, and light laminae, dominated by Corethron pennatum diatoms. Based on these observations, the dynamics of fast ice was reconstructed over the last 2.6 ka for the western Ross Sea. However, the lack of direct observations introduces uncertainty into the paleoclimatic and paleoceanographic interpretation of these laminated sediments. The project LASAGNE (Laminated Sediments in the Magnificent Edisto Inlet, Victoria Land: What processes control their deposition and preservation?), funded by the Italian Program of Antarctic Research (PNRA), proposed a multidisciplinary study that integrates the characteristics of fast ice, water column, and surface sediment, aiming to obtain information on the factors influencing formation and preservation of laminated sediment in Edisto Inlet. The project integrates also biological data (phytoplankton, microzooplankton and foraminifera) collected in situ, and time series of satellite images of sea ice. The main goal was to provide new insights into the sub-seasonal formation of laminated sediments, offering a backbone for the interpretation of paleoclimatic sedimentary archives. An oceanographic mooring was deployed between March 2022 and February 2023, to investigate the mechanisms driving the formation of sediment laminations. The purpose was to test whether the deposition of dark sediments (rich in sympagic diatoms such as Berkeleya adeliensis) occurs in late spring-early summer, while light sediment (mainly composed of Corethron pennatum) represents sedimentation in late summer early autumn. The mooring data reveals that sediment lamination arises from the significant seasonal variability of particle fluxes and composition. Additionally, the thermohaline properties and dynamics of water masses in Edisto Inlet exhibit pronounced seasonal changes. Similarly, diatom assemblages and sea ice cover also ...
author2 Langone, L.
Bensi, M.
Aulicino, G.
Battaglia, F.
Caridi, F.
Carotenuto, A.
Cerino, F.
Diociaiuti, T.
Gallerani, A.
Giglio, F.
Kovacevic, V.
Kralj, M.
Mangoni, O.
Mansutti, P.
Monti, M.
Morigi, C.
Patrolecco, L.
Rauseo, J.
Relitti, F.
Retelletti Brogi, S.
Sabbatini, A.
Serino, E.
Tesi, T.
Ursella, L.
Greggio, N.
Giordano, P.
format Conference Object
author Langone L.
Bensi M.
Aulicino G.
Battaglia F.
Caridi F.
Carotenuto A.
Cerino F.
Diociaiuti T.
Gallerani A.
Giglio F.
Kovacevic V.
Kralj M.
Mangoni O.
Mansutti P.
Monti M.
Morigi C.
Patrolecco L.
Rauseo J.
Relitti F.
Retelletti Brogi S.
Sabbatini A.
Serino E.
Tesi T.
Ursella L.
Greggio N.
Giordano P.
author_facet Langone L.
Bensi M.
Aulicino G.
Battaglia F.
Caridi F.
Carotenuto A.
Cerino F.
Diociaiuti T.
Gallerani A.
Giglio F.
Kovacevic V.
Kralj M.
Mangoni O.
Mansutti P.
Monti M.
Morigi C.
Patrolecco L.
Rauseo J.
Relitti F.
Retelletti Brogi S.
Sabbatini A.
Serino E.
Tesi T.
Ursella L.
Greggio N.
Giordano P.
author_sort Langone L.
title Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.
title_short Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.
title_full Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.
title_fullStr Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.
title_full_unstemmed Mechanisms driving formation and preservation of the laminated sediments of Edisto Inlet, western Ross Sea (Antarctica): the sub-seasonal variability of particle composition and fluxes.
title_sort mechanisms driving formation and preservation of the laminated sediments of edisto inlet, western ross sea (antarctica): the sub-seasonal variability of particle composition and fluxes.
publishDate 2024
url https://hdl.handle.net/11568/1262967
https://doi.org/10.3301/ABSGI.2024.02
https://www.socgeol.it/files/download/pubblicazioni/Abstract Book/Abstract Congresso SGI-SIMP 2024.pdf
long_lat ENVELOPE(-67.133,-67.133,-68.217,-68.217)
ENVELOPE(170.083,170.083,-72.333,-72.333)
geographic Antarctic
Ross Sea
Victoria Land
Edisto
Edisto Inlet
geographic_facet Antarctic
Ross Sea
Victoria Land
Edisto
Edisto Inlet
genre Antarc*
Antarctic
Antarctica
Ross Sea
Sea ice
Victoria Land
genre_facet Antarc*
Antarctic
Antarctica
Ross Sea
Sea ice
Victoria Land
op_relation ispartofbook:Congresso congiunto SGI-SIMP - Geology for a sustainable management of our Planet
Congresso congiunto SGI-SIMP - Geology for a sustainable management of our Planet
firstpage:152
lastpage:152
numberofpages:1
serie:ABSTRACT BOOK
https://hdl.handle.net/11568/1262967
doi:10.3301/ABSGI.2024.02
op_doi https://doi.org/10.3301/ABSGI.2024.02
_version_ 1812181659853783040

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