NanoSIMS applied to the study of foraminifera

NanoSIMS (Nanoscale Secondary-Ion Mass Spectrometry) is a powerful analytical technique that allows quantitative, subcellular imaging of incorporation and transfer of isotopically labeled compounds and metabolites in biological tissue (Hoppe et al., 2013). This technique is well adapted to study sma...

Full description

Bibliographic Details
Main Authors:	Lekieffre, Charlotte Madeleine Nicole, Geslin, Emmanuelle, Escrig, Stéphane, Jauffrais, Thierry, Spero, Howard, Russell, Ann, Fehrenbacher, Jenifer, Meibom, Anders
Format:	Text
Language:	unknown
Published:	2016
Subjects:	Planktonic foraminifera
Online Access:	http://infoscience.epfl.ch/record/220191

id	ftinfoscience:oai:infoscience.tind.io:220191
record_format	openpolar
spelling	ftinfoscience:oai:infoscience.tind.io:220191 2023-05-15T18:01:00+02:00 NanoSIMS applied to the study of foraminifera Lekieffre, Charlotte Madeleine Nicole Geslin, Emmanuelle Escrig, Stéphane Jauffrais, Thierry Spero, Howard Russell, Ann Fehrenbacher, Jenifer Meibom, Anders 2016-07-27T09:11:52Z http://infoscience.epfl.ch/record/220191 unknown http://infoscience.epfl.ch/record/220191 http://infoscience.epfl.ch/record/220191 Text 2016 ftinfoscience 2023-02-13T22:34:57Z NanoSIMS (Nanoscale Secondary-Ion Mass Spectrometry) is a powerful analytical technique that allows quantitative, subcellular imaging of incorporation and transfer of isotopically labeled compounds and metabolites in biological tissue (Hoppe et al., 2013). This technique is well adapted to study small organisms such as foraminifera. Recent studies have successfully applied NanoSIMS analysis of foraminifera to study the localization of labeled compounds incorporated into their calcium carbonate test and into the cell itself. In the test, it was applied to better understand the microdistribution of different elements (e.g. Mg/Ca ratio) used as proxies for paleoclimate reconstruction (e.g. Kunioka et al., 2006; Nehrke et al., 2013; Tachikawa et al., 2013). One study correlated NanoSIMS with TEM imaging to study the incorporation of isotopically labeled nitrate and sulfate in benthic foraminifera cell (Nomaki et al., 2016). In a series of individual experiments, we have used NanoSIMS in combination with TEM to study metabolic processes in foraminifera: 1) Heterotrophic feeding was investigated in the benthic species A. tepida under oxic and anoxic conditions (Lekieffre et al., 2016). 2) The spatio-temporal dynamics of assimilation and translocation of 13C-bicarbonate and 15N-ammonium/nitrate was investigated in both benthic (kleptoplastidy) and planktonic (symbiotic) foraminifera with pulse-chase experiments. In a benthic species containing sequestered chloroplasts, these were demonstrated to play a significant role in the incorporation of both inorganic carbon and nitrogen into the cytoplasm (Jauffrais et al., 2016 TMS oral presentation). Symbiotic planktonic foraminifera showed rapid uptake of bicarbonate and ammonium through the symbionts, whereas uptake of nitrate was less efficient. Text Planktonic foraminifera EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne)
institution	Open Polar
collection	EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne)
op_collection_id	ftinfoscience
language	unknown
description	NanoSIMS (Nanoscale Secondary-Ion Mass Spectrometry) is a powerful analytical technique that allows quantitative, subcellular imaging of incorporation and transfer of isotopically labeled compounds and metabolites in biological tissue (Hoppe et al., 2013). This technique is well adapted to study small organisms such as foraminifera. Recent studies have successfully applied NanoSIMS analysis of foraminifera to study the localization of labeled compounds incorporated into their calcium carbonate test and into the cell itself. In the test, it was applied to better understand the microdistribution of different elements (e.g. Mg/Ca ratio) used as proxies for paleoclimate reconstruction (e.g. Kunioka et al., 2006; Nehrke et al., 2013; Tachikawa et al., 2013). One study correlated NanoSIMS with TEM imaging to study the incorporation of isotopically labeled nitrate and sulfate in benthic foraminifera cell (Nomaki et al., 2016). In a series of individual experiments, we have used NanoSIMS in combination with TEM to study metabolic processes in foraminifera: 1) Heterotrophic feeding was investigated in the benthic species A. tepida under oxic and anoxic conditions (Lekieffre et al., 2016). 2) The spatio-temporal dynamics of assimilation and translocation of 13C-bicarbonate and 15N-ammonium/nitrate was investigated in both benthic (kleptoplastidy) and planktonic (symbiotic) foraminifera with pulse-chase experiments. In a benthic species containing sequestered chloroplasts, these were demonstrated to play a significant role in the incorporation of both inorganic carbon and nitrogen into the cytoplasm (Jauffrais et al., 2016 TMS oral presentation). Symbiotic planktonic foraminifera showed rapid uptake of bicarbonate and ammonium through the symbionts, whereas uptake of nitrate was less efficient.
format	Text
author	Lekieffre, Charlotte Madeleine Nicole Geslin, Emmanuelle Escrig, Stéphane Jauffrais, Thierry Spero, Howard Russell, Ann Fehrenbacher, Jenifer Meibom, Anders
spellingShingle	Lekieffre, Charlotte Madeleine Nicole Geslin, Emmanuelle Escrig, Stéphane Jauffrais, Thierry Spero, Howard Russell, Ann Fehrenbacher, Jenifer Meibom, Anders NanoSIMS applied to the study of foraminifera
author_facet	Lekieffre, Charlotte Madeleine Nicole Geslin, Emmanuelle Escrig, Stéphane Jauffrais, Thierry Spero, Howard Russell, Ann Fehrenbacher, Jenifer Meibom, Anders
author_sort	Lekieffre, Charlotte Madeleine Nicole
title	NanoSIMS applied to the study of foraminifera
title_short	NanoSIMS applied to the study of foraminifera
title_full	NanoSIMS applied to the study of foraminifera
title_fullStr	NanoSIMS applied to the study of foraminifera
title_full_unstemmed	NanoSIMS applied to the study of foraminifera
title_sort	nanosims applied to the study of foraminifera
publishDate	2016
url	http://infoscience.epfl.ch/record/220191
genre	Planktonic foraminifera
genre_facet	Planktonic foraminifera
op_source	http://infoscience.epfl.ch/record/220191
op_relation	http://infoscience.epfl.ch/record/220191
_version_	1766170306350678016

NanoSIMS applied to the study of foraminifera

Similar Items