Changes in 231Pa/230Th signatures in the bottom water of the ocean

There has recently been much development in the description and modeling of the particulate 231Paxs/230Thxs ratio in the ocean as proxy for the meridional ocean circulation, especially to study the situation in the glacial Atlantic Ocean. Many studies have investigated the effects of ventilation, ma...

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Main Authors: Rutgers v. d. Loeff, Michiel, Kretschmer, Sven, Venchiarutti, Celia
Format: Conference Object
Language:unknown
Published: 2012
Subjects:
Southern Ocean
Weddell Sea
Weddell
North Atlantic
Online Access:https://epic.awi.de/id/eprint/30808/
https://hdl.handle.net/10013/epic.39713
id ftawi:oai:epic.awi.de:30808
record_format openpolar
spelling ftawi:oai:epic.awi.de:30808 2023-05-15T17:37:12+02:00 Changes in 231Pa/230Th signatures in the bottom water of the ocean Rutgers v. d. Loeff, Michiel Kretschmer, Sven Venchiarutti, Celia 2012-06-28 https://epic.awi.de/id/eprint/30808/ https://hdl.handle.net/10013/epic.39713 unknown Rutgers v. d. Loeff, M. orcid:0000-0003-1393-3742 , Kretschmer, S. and Venchiarutti, C. (2012) Changes in 231Pa/230Th signatures in the bottom water of the ocean , Goldschmidt Conference, Montreal, 25 June 2012 - 29 June 2012 . hdl:10013/epic.39713 EPIC3Goldschmidt Conference, Montreal, 2012-06-25-2012-06-29 Conference notRev 2012 ftawi 2021-12-24T15:37:49Z There has recently been much development in the description and modeling of the particulate 231Paxs/230Thxs ratio in the ocean as proxy for the meridional ocean circulation, especially to study the situation in the glacial Atlantic Ocean. Many studies have investigated the effects of ventilation, mass flux and particle composition on 231Paxs/230Thxs ratios. The interpretations as paleoproxy rely usually on the assumption that the isotopic signal stored in the sediment is determined by the composition of suspended or sinking particles when these arrive at the respective water depth. This composition is controlled by exchange with the deep water column [1]. At depths >2500m, Scholten et al. [2] found agreement between 231Paxs/230Thxs ratios in suspended material and surface sediments. Chase et al. [3] observed no difference in activity ratio between surface sediment and a fluff layer present on top of their cores. However, there are several processes that may cause the ratio in surface sediments to differ from the ratio in sinking particles. Bottom currents transport and redistribute the sediment and fractionate grain size [4] and isotopes [5,6]. As a result of this transport and of early diagenetic reactions in the sediment, surface sediments may have a chemical composition and reactivity that is different from sinking particles. We will discuss the possible bias that these processes can give to the signals measured in bottom waters and stored in the sediment. Whereas Pa/Th ratios have mostly been studied in relation to deep water formation in the North Atlantic, the formation of deep water in the Weddell Sea (Weddell Sea Bottom Water, WSBW) also effects the distribution of 230Th and 231Pa. We will present some new water column data confirming the strong effect of ventilation on the distribution of 231Pa and 230Th in the Atlantic sector of the Southern Ocean. Both nuclides accumulate at intermediate depth in the Weddell Sea while concentrations are appreciably lower in the newly formed Weddell Sea Bottom Water. [1] Thomas et al. (2006) Earth Planet. Sci. Lett. 241, 493-504. [2] Scholten et al. (2008) Earth Planet. Sci. Lett. 271, 159-169. [3] Chase et al. (2003) Deep-Sea Res. II 50, 739-768. [4] McCave, I. N. and Hall, I. R. (2006) Geochem. Geophys. Geosyst. 7, Q10N05. [5] Kretschmer et al. (2010) Earth Planet. Sci. Lett. 294, 131-142. [6] Kretschmer et al. (2011) Geochim. Cosmochim. Acta 75, 6971-6987. Conference Object North Atlantic Southern Ocean Weddell Sea Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Southern Ocean Weddell Sea Weddell
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description There has recently been much development in the description and modeling of the particulate 231Paxs/230Thxs ratio in the ocean as proxy for the meridional ocean circulation, especially to study the situation in the glacial Atlantic Ocean. Many studies have investigated the effects of ventilation, mass flux and particle composition on 231Paxs/230Thxs ratios. The interpretations as paleoproxy rely usually on the assumption that the isotopic signal stored in the sediment is determined by the composition of suspended or sinking particles when these arrive at the respective water depth. This composition is controlled by exchange with the deep water column [1]. At depths >2500m, Scholten et al. [2] found agreement between 231Paxs/230Thxs ratios in suspended material and surface sediments. Chase et al. [3] observed no difference in activity ratio between surface sediment and a fluff layer present on top of their cores. However, there are several processes that may cause the ratio in surface sediments to differ from the ratio in sinking particles. Bottom currents transport and redistribute the sediment and fractionate grain size [4] and isotopes [5,6]. As a result of this transport and of early diagenetic reactions in the sediment, surface sediments may have a chemical composition and reactivity that is different from sinking particles. We will discuss the possible bias that these processes can give to the signals measured in bottom waters and stored in the sediment. Whereas Pa/Th ratios have mostly been studied in relation to deep water formation in the North Atlantic, the formation of deep water in the Weddell Sea (Weddell Sea Bottom Water, WSBW) also effects the distribution of 230Th and 231Pa. We will present some new water column data confirming the strong effect of ventilation on the distribution of 231Pa and 230Th in the Atlantic sector of the Southern Ocean. Both nuclides accumulate at intermediate depth in the Weddell Sea while concentrations are appreciably lower in the newly formed Weddell Sea Bottom Water. [1] Thomas et al. (2006) Earth Planet. Sci. Lett. 241, 493-504. [2] Scholten et al. (2008) Earth Planet. Sci. Lett. 271, 159-169. [3] Chase et al. (2003) Deep-Sea Res. II 50, 739-768. [4] McCave, I. N. and Hall, I. R. (2006) Geochem. Geophys. Geosyst. 7, Q10N05. [5] Kretschmer et al. (2010) Earth Planet. Sci. Lett. 294, 131-142. [6] Kretschmer et al. (2011) Geochim. Cosmochim. Acta 75, 6971-6987.
format Conference Object
author Rutgers v. d. Loeff, Michiel
Kretschmer, Sven
Venchiarutti, Celia
spellingShingle Rutgers v. d. Loeff, Michiel
Kretschmer, Sven
Venchiarutti, Celia
Changes in 231Pa/230Th signatures in the bottom water of the ocean
author_facet Rutgers v. d. Loeff, Michiel
Kretschmer, Sven
Venchiarutti, Celia
author_sort Rutgers v. d. Loeff, Michiel
title Changes in 231Pa/230Th signatures in the bottom water of the ocean
title_short Changes in 231Pa/230Th signatures in the bottom water of the ocean
title_full Changes in 231Pa/230Th signatures in the bottom water of the ocean
title_fullStr Changes in 231Pa/230Th signatures in the bottom water of the ocean
title_full_unstemmed Changes in 231Pa/230Th signatures in the bottom water of the ocean
title_sort changes in 231pa/230th signatures in the bottom water of the ocean
publishDate 2012
url https://epic.awi.de/id/eprint/30808/
https://hdl.handle.net/10013/epic.39713
geographic Southern Ocean
Weddell Sea
Weddell
geographic_facet Southern Ocean
Weddell Sea
Weddell
genre North Atlantic
Southern Ocean
Weddell Sea
genre_facet North Atlantic
Southern Ocean
Weddell Sea
op_source EPIC3Goldschmidt Conference, Montreal, 2012-06-25-2012-06-29
op_relation Rutgers v. d. Loeff, M. orcid:0000-0003-1393-3742 , Kretschmer, S. and Venchiarutti, C. (2012) Changes in 231Pa/230Th signatures in the bottom water of the ocean , Goldschmidt Conference, Montreal, 25 June 2012 - 29 June 2012 . hdl:10013/epic.39713
_version_ 1766136978050383872

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