NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas

Marine bivalves, especially the Pacific oyster Crassostrea gigas, are economically important in French aquaculture. Nevertheless, the ecology and the physiology of this bivalve are not fully understood; consequently, control of its growth and reproduction both in the field and in hatcheries still re...

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Main Authors: Davenel, A., Pouvreau, S., Cambert, M., Suquet, M., Mariette, F.
Other Authors: CEMAGREF RENNES UR TERE FRA, IFREMER UMR100 ARGENTON EN LANDUNVEZ FRA
Format: Still Image
Language:English
Published: 2008
Subjects:
SEXE
RESONANCE MAGNETIQUE NUCLEAIRE
CRASSOSTREA GIGAS
HUITRE
SEX
NMR SPECTROSCOPY
Pacific
Crassostrea gigas
Pacific oyster
Online Access:https://irsteadoc.irstea.fr/cemoa/PUB00025944
id ftcemoa:oai:irsteadoc.irstea.fr:PUB00025944
record_format openpolar
spelling ftcemoa:oai:irsteadoc.irstea.fr:PUB00025944 2023-05-15T15:58:04+02:00 NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas Davenel, A. Pouvreau, S. Cambert, M. Suquet, M. Mariette, F. CEMAGREF RENNES UR TERE FRA IFREMER UMR100 ARGENTON EN LANDUNVEZ FRA 2008 application/pdf https://irsteadoc.irstea.fr/cemoa/PUB00025944 Anglais eng https://irsteadoc.irstea.fr/cemoa/PUB00025944 Date de dépôt: 2009-02-04 - Tous les documents et informations contenus dans la base CemOA Publications sont protégés en vertu du droit de propriété intellectuelle, en particulier par le droit d'auteur. La personne consultant la base CemOA Publications peut visualiser, reproduire, ou stocker des copies des publications, à condition que l'information soit seulement pour son usage personnel et non commercial. L'utilisation des travaux universitaires est soumise à autorisation préalable de leurs auteurs. Toute information relative au signalement d'une publication contenue dans CemOA Publications doit inclure la citation bibliographique usuelle : Nom du ou des auteurs, titre et source du document, date et URL de la notice (dc_identifier). 21583 SEXE RESONANCE MAGNETIQUE NUCLEAIRE CRASSOSTREA GIGAS HUITRE SEX NMR SPECTROSCOPY Poster 2008 ftcemoa 2021-06-29T09:14:48Z Marine bivalves, especially the Pacific oyster Crassostrea gigas, are economically important in French aquaculture. Nevertheless, the ecology and the physiology of this bivalve are not fully understood; consequently, control of its growth and reproduction both in the field and in hatcheries still relies on empirical factors. The investigation of soft tissues in marine molluscs, especially in marine bivalves, classically relies on destructive methods, since a hermetic shell protects the animal. Non invasive characterization of gonad maturation and determination of the sex of Pacific oysters by Magnetic Resonance Imaging MRI was already successfully tested (Davenel et al., 2006; Pouvreau et al., 2006). MR imaging is the most appropriate technique for quantifying the growth of somatic and gonadic tissues and to determine sex. However, this technique is too costly for field studies or to be applied routinely in hatcheries. In this context, we have tested the ability of low Nuclear Magnetic Resonance relaxometry, a very less expensive technique, to obtain useful phenotypic parameters to control the physiological state of oysters. NMR measurements were performed with an OXFORD MQA 6005 spectrometer operating to 0,12T. (5MHz) and equipped with a 5 cm probe diameter which allowed to investigate oysters in their first year of maturity (< 45 g total weight). NMR measurements were carried out at three different periods (2007 May 7th, June 4th and June 29th) on 60 oysters which were then dissected to measure oyster-shell internal cavity volume, flesh dry weight and to determine sex and gonad development. The NMR results showed that it was possible to determine oyster-shell internal cavity volume but also flesh dry weight in less than one minute with a very high determination coefficient R2 (respectively 0.95 and 0.94). Results showed also that it was possible to identify sex and gonad development, with a rate of success of 83% and 75%, respectively. For the oysters with dry weight higher than 0.7g, the rate of success to identify sex was 100%. Further works are required to design NMR probe well adapted to bigger oysters and to improve sex discrimination and prediction of gonad development with larger collections. Still Image Crassostrea gigas Pacific oyster Irstea Publications et Bases documentaires (Irstea@doc/CemOA) Pacific
institution Open Polar
collection Irstea Publications et Bases documentaires (Irstea@doc/CemOA)
op_collection_id ftcemoa
language English
topic SEXE
RESONANCE MAGNETIQUE NUCLEAIRE
CRASSOSTREA GIGAS
HUITRE
SEX
NMR SPECTROSCOPY
spellingShingle SEXE
RESONANCE MAGNETIQUE NUCLEAIRE
CRASSOSTREA GIGAS
HUITRE
SEX
NMR SPECTROSCOPY
Davenel, A.
Pouvreau, S.
Cambert, M.
Suquet, M.
Mariette, F.
NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas
topic_facet SEXE
RESONANCE MAGNETIQUE NUCLEAIRE
CRASSOSTREA GIGAS
HUITRE
SEX
NMR SPECTROSCOPY
description Marine bivalves, especially the Pacific oyster Crassostrea gigas, are economically important in French aquaculture. Nevertheless, the ecology and the physiology of this bivalve are not fully understood; consequently, control of its growth and reproduction both in the field and in hatcheries still relies on empirical factors. The investigation of soft tissues in marine molluscs, especially in marine bivalves, classically relies on destructive methods, since a hermetic shell protects the animal. Non invasive characterization of gonad maturation and determination of the sex of Pacific oysters by Magnetic Resonance Imaging MRI was already successfully tested (Davenel et al., 2006; Pouvreau et al., 2006). MR imaging is the most appropriate technique for quantifying the growth of somatic and gonadic tissues and to determine sex. However, this technique is too costly for field studies or to be applied routinely in hatcheries. In this context, we have tested the ability of low Nuclear Magnetic Resonance relaxometry, a very less expensive technique, to obtain useful phenotypic parameters to control the physiological state of oysters. NMR measurements were performed with an OXFORD MQA 6005 spectrometer operating to 0,12T. (5MHz) and equipped with a 5 cm probe diameter which allowed to investigate oysters in their first year of maturity (< 45 g total weight). NMR measurements were carried out at three different periods (2007 May 7th, June 4th and June 29th) on 60 oysters which were then dissected to measure oyster-shell internal cavity volume, flesh dry weight and to determine sex and gonad development. The NMR results showed that it was possible to determine oyster-shell internal cavity volume but also flesh dry weight in less than one minute with a very high determination coefficient R2 (respectively 0.95 and 0.94). Results showed also that it was possible to identify sex and gonad development, with a rate of success of 83% and 75%, respectively. For the oysters with dry weight higher than 0.7g, the rate of success to identify sex was 100%. Further works are required to design NMR probe well adapted to bigger oysters and to improve sex discrimination and prediction of gonad development with larger collections.
author2 CEMAGREF RENNES UR TERE FRA
IFREMER UMR100 ARGENTON EN LANDUNVEZ FRA
format Still Image
author Davenel, A.
Pouvreau, S.
Cambert, M.
Suquet, M.
Mariette, F.
author_facet Davenel, A.
Pouvreau, S.
Cambert, M.
Suquet, M.
Mariette, F.
author_sort Davenel, A.
title NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas
title_short NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas
title_full NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas
title_fullStr NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas
title_full_unstemmed NMR relaxometry as a non-invasive routine tool for the phenotypic characterisation of Crassostrea gigas
title_sort nmr relaxometry as a non-invasive routine tool for the phenotypic characterisation of crassostrea gigas
publishDate 2008
url https://irsteadoc.irstea.fr/cemoa/PUB00025944
geographic Pacific
geographic_facet Pacific
genre Crassostrea gigas
Pacific oyster
genre_facet Crassostrea gigas
Pacific oyster
op_source 21583
op_relation https://irsteadoc.irstea.fr/cemoa/PUB00025944
op_rights Date de dépôt: 2009-02-04 - Tous les documents et informations contenus dans la base CemOA Publications sont protégés en vertu du droit de propriété intellectuelle, en particulier par le droit d'auteur. La personne consultant la base CemOA Publications peut visualiser, reproduire, ou stocker des copies des publications, à condition que l'information soit seulement pour son usage personnel et non commercial. L'utilisation des travaux universitaires est soumise à autorisation préalable de leurs auteurs. Toute information relative au signalement d'une publication contenue dans CemOA Publications doit inclure la citation bibliographique usuelle : Nom du ou des auteurs, titre et source du document, date et URL de la notice (dc_identifier).
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