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Sardines at a junction: seascape genomics reveals ecological and oceanographic drivers of variation in the NW Mediterranean Sea

Authors :
Antoniou, Aglaia
Manousaki, Tereza
Ramírez, Francisco
Cariani, Alessia
Cannas, Rita
Kasapidis, Panagiotis
Magoulas, Antonios
Albo‐puigserver, Marta
Lloret‐lloret, Elena
Bellido, Jose Maria
Pennino, Maria Grazia
Follesa, Maria Cristina
Esteban, Antonio
Saraux, Claire
Sbrana, Mario
Spedicato, Maria Teresa
Coll, Marta
Tsigenopoulos, Costas S.
Antoniou, Aglaia
Manousaki, Tereza
Ramírez, Francisco
Cariani, Alessia
Cannas, Rita
Kasapidis, Panagiotis
Magoulas, Antonios
Albo‐puigserver, Marta
Lloret‐lloret, Elena
Bellido, Jose Maria
Pennino, Maria Grazia
Follesa, Maria Cristina
Esteban, Antonio
Saraux, Claire
Sbrana, Mario
Spedicato, Maria Teresa
Coll, Marta
Tsigenopoulos, Costas S.
Source :
Molecular Ecology (0962-1083) (Wiley), 2023-04 , Vol. 32 , N. 7 , P. 1608-1628
Publication Year :
2023

Abstract

By evaluating genetic variation across the entire genome, one can address existing questions in a novel way while raising new ones. The latter include how different local environments influence adaptive and neutral genomic variation within and among populations, providing insights into local adaptation of natural populations and their responses to global change. Here, under a seascape genomic approach, ddRAD data of 4609 SNPs from 398 sardines (Sardina pilchardus) collected in 11 Mediterranean and one Atlantic site were generated. These were used along with oceanographic and ecological information to detect signals of adaptive divergence with gene flow across environmental gradients. The studied sardines constitute two clusters (FST=0.07), a pattern attributed to outlier loci, highlighting putative local adaptation. The trend in the number of days with sea surface temperature above 19oC, critical threshold for successful sardine spawning, was crucial at all levels of population structuring with implications on species’ key biological processes. Outliers link candidate SNPs to the region's environmental heterogeneity. Our findings provide evidence for a dynamic equilibrium where population structure is maintained by physical and ecological factors under the opposing influences of migration and selection. This dynamic in nature system, warrants continuous monitoring under a seascape genomic approach that might benefit from a temporal and more detailed spatial dimension. Our results may contribute to complementary studies aimed at providing deeper insights into the mechanistic processes underlying population structuring. Those are key for understanding and predicting future changes and responses of this highly exploited species in the face of climate change.

Details

Database :
OAIster
Journal :
Molecular Ecology (0962-1083) (Wiley), 2023-04 , Vol. 32 , N. 7 , P. 1608-1628
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1409526373
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1111.mec.16840