Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment

The recent discovery of Pacific oyster Crassostrea gigas (also known as Magallana gigas) spatfields in a Mediterranean lagoon intensely exploited for shellfish farming (Thau lagoon) revealed significant contrasts in spatial patterns of recruitment. We evaluated the processes that drive spatial patte...

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Main Authors: Lagarde, F., Fiandrino, A., Ubertini, M., d'Orbcastel, E. R., Mortreux, S., Chiantella, C., Bec, B., Bonnet, D., Roques, C., Bernard, I., Richard, M., Guyondet, T., Pouvreau, S., /Lett, Christophe
Format: Text
Language:English
Published: 2019
Subjects:
Crassostrea gigas
Coastal lagoon
Larval ecology
Spatial patterns
Connectivity
Settlement
Recruitment
Oligotrophication
Pacific oyster
Online Access:https://www.documentation.ird.fr/hor/fdi:010078901
id ftird:oai:ird.fr:fdi:010078901
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010078901 2024-09-15T18:03:12+00:00 Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment Lagarde, F. Fiandrino, A. Ubertini, M. d'Orbcastel, E. R. Mortreux, S. Chiantella, C. Bec, B. Bonnet, D. Roques, C. Bernard, I. Richard, M. Guyondet, T. Pouvreau, S. /Lett, Christophe FRANCE MEDITERRANEE THAU LAGON 2019 https://www.documentation.ird.fr/hor/fdi:010078901 EN eng https://www.documentation.ird.fr/hor/fdi:010078901 oai:ird.fr:fdi:010078901 Lagarde F., Fiandrino A., Ubertini M., d'Orbcastel E. R., Mortreux S., Chiantella C., Bec B., Bonnet D., Roques C., Bernard I., Richard M., Guyondet T., Pouvreau S., Lett Christophe. Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment. 2019, 632, p. 81-100 Crassostrea gigas Coastal lagoon Larval ecology Spatial patterns Connectivity Settlement Recruitment Oligotrophication text 2019 ftird 2024-08-15T05:57:41Z The recent discovery of Pacific oyster Crassostrea gigas (also known as Magallana gigas) spatfields in a Mediterranean lagoon intensely exploited for shellfish farming (Thau lagoon) revealed significant contrasts in spatial patterns of recruitment. We evaluated the processes that drive spatial patterns in oyster recruitment by comparing observed recruitment, simulated hydrodynamic connectivity and ecological variables. We hypothesized that spatial variability of recruitment depends on (1) hydrodynamic connectivity and (2) the ecology of the larval supply, settlement, metamorphosis, survival and biotic environmental parameters. We assessed recruitment at 6-8 experimental sites by larval sampling and spat collection inside and outside oyster farming areas and on an east-west gradient, from 2012-2014. Hydrodynamic connectivity was simulated using a numerical 3D transport model assessed with a Eulerian indicator. The supply of large umbo larvae did not differ significantly inside and outside oyster farming areas, whereas the supply of pediveligers to sites outside shellfish farms was structured by hydrodynamic connectivity. Inside shellfish farming zones, unfavorable conditions due to trophic competition with filter-feeders jeopardized their settlement. In this case, our results suggest loss of settlement competence by oyster larvae. This confirms our hypothesis of top-down trophic control by the oysters inside farming zones of Thau lagoon in summer that fails to meet the ecological requirements of these areas as oyster nurseries. Knowledge of oyster dispersal, connectivity and recruitment in coastal lagoons will help local development of sustainable natural spat collection. On a global scale, our method could be transposed to other basins or used for other species such as mussels, clams or scallops, to better understand the spatial patterns of bivalve recruitment. Management of the oyster industry based on natural spat collection will help develop a sustainable activity, based on locally adapted oyster strains but ... Text Crassostrea gigas Pacific oyster IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Crassostrea gigas
Coastal lagoon
Larval ecology
Spatial patterns
Connectivity
Settlement
Recruitment
Oligotrophication
spellingShingle Crassostrea gigas
Coastal lagoon
Larval ecology
Spatial patterns
Connectivity
Settlement
Recruitment
Oligotrophication
Lagarde, F.
Fiandrino, A.
Ubertini, M.
d'Orbcastel, E. R.
Mortreux, S.
Chiantella, C.
Bec, B.
Bonnet, D.
Roques, C.
Bernard, I.
Richard, M.
Guyondet, T.
Pouvreau, S.
/Lett, Christophe
Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment
topic_facet Crassostrea gigas
Coastal lagoon
Larval ecology
Spatial patterns
Connectivity
Settlement
Recruitment
Oligotrophication
description The recent discovery of Pacific oyster Crassostrea gigas (also known as Magallana gigas) spatfields in a Mediterranean lagoon intensely exploited for shellfish farming (Thau lagoon) revealed significant contrasts in spatial patterns of recruitment. We evaluated the processes that drive spatial patterns in oyster recruitment by comparing observed recruitment, simulated hydrodynamic connectivity and ecological variables. We hypothesized that spatial variability of recruitment depends on (1) hydrodynamic connectivity and (2) the ecology of the larval supply, settlement, metamorphosis, survival and biotic environmental parameters. We assessed recruitment at 6-8 experimental sites by larval sampling and spat collection inside and outside oyster farming areas and on an east-west gradient, from 2012-2014. Hydrodynamic connectivity was simulated using a numerical 3D transport model assessed with a Eulerian indicator. The supply of large umbo larvae did not differ significantly inside and outside oyster farming areas, whereas the supply of pediveligers to sites outside shellfish farms was structured by hydrodynamic connectivity. Inside shellfish farming zones, unfavorable conditions due to trophic competition with filter-feeders jeopardized their settlement. In this case, our results suggest loss of settlement competence by oyster larvae. This confirms our hypothesis of top-down trophic control by the oysters inside farming zones of Thau lagoon in summer that fails to meet the ecological requirements of these areas as oyster nurseries. Knowledge of oyster dispersal, connectivity and recruitment in coastal lagoons will help local development of sustainable natural spat collection. On a global scale, our method could be transposed to other basins or used for other species such as mussels, clams or scallops, to better understand the spatial patterns of bivalve recruitment. Management of the oyster industry based on natural spat collection will help develop a sustainable activity, based on locally adapted oyster strains but ...
format Text
author Lagarde, F.
Fiandrino, A.
Ubertini, M.
d'Orbcastel, E. R.
Mortreux, S.
Chiantella, C.
Bec, B.
Bonnet, D.
Roques, C.
Bernard, I.
Richard, M.
Guyondet, T.
Pouvreau, S.
/Lett, Christophe
author_facet Lagarde, F.
Fiandrino, A.
Ubertini, M.
d'Orbcastel, E. R.
Mortreux, S.
Chiantella, C.
Bec, B.
Bonnet, D.
Roques, C.
Bernard, I.
Richard, M.
Guyondet, T.
Pouvreau, S.
/Lett, Christophe
author_sort Lagarde, F.
title Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment
title_short Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment
title_full Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment
title_fullStr Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment
title_full_unstemmed Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment
title_sort duality of trophic supply and hydrodynamic connectivity drives spatial patterns of pacific oyster recruitment
publishDate 2019
url https://www.documentation.ird.fr/hor/fdi:010078901
op_coverage FRANCE
MEDITERRANEE
THAU LAGON
genre Crassostrea gigas
Pacific oyster
genre_facet Crassostrea gigas
Pacific oyster
op_relation https://www.documentation.ird.fr/hor/fdi:010078901
oai:ird.fr:fdi:010078901
Lagarde F., Fiandrino A., Ubertini M., d'Orbcastel E. R., Mortreux S., Chiantella C., Bec B., Bonnet D., Roques C., Bernard I., Richard M., Guyondet T., Pouvreau S., Lett Christophe. Duality of trophic supply and hydrodynamic connectivity drives spatial patterns of Pacific oyster recruitment. 2019, 632, p. 81-100
_version_ 1810440714109059072

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