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Seascape genomics of the pink abalone (Haliotis corrugata): An insight into a cross-border species in the northeast Pacific coast.

Jorge Alberto Mares-MayagoitiaFabiola Lafarga-De la CruzFiorenza MicheliPedro Cruz-HernándezJuan A de-Anda-MontañezJohn HydeNorma Yolanda Hernández SaavedraPaulina Mejía-RuízVladimir S De Jesús-BonillaCarmen E Vargas-PeraltaFausto Valenzuela-Quiñonez
Published in: The Journal of heredity (2024)
Seascape genomics gives insight into the geographic and environmental factors shaping local adaptations. It improves the understanding of the potential effects of climate change, which is relevant to provide the basis for the international management of fishery resources. The pink abalone (Haliotis corrugata) is distributed from California, United States to Baja California Sur, Mexico, exposed to a latitudinal environmental gradient in the California Current System. Management of the pink abalone contrasts between Mexico and the United States; Mexico has an active fishery organized in four administrative areas, while the United States has kept the fishery in permanent closure since 1996. However, the impact of environmental factors on genetic variation along the species distribution remains unknown, and understanding this relationship is crucial for effective spatial management strategies. This study aims to investigate the neutral and adaptive genomic structure of H. corrugata. A total of 203 samples from 13 locations were processed using ddRADseq, and covering the species' distribution. Overall, 2,231 neutral, nine potentially adaptive and three genomic-environmental association loci were detected. The neutral structure identified two groups: 1) California, United States and 2) Baja California Peninsula, México. In addition, the adaptive structure analysis also detected two groups with genetic divergence observed at Punta Eugenia. Notably, the seawater temperature significantly correlated with the northern group (temperate) and the southern (warmer) group. This study is a valuable foundation for future research and conservation initiatives, emphasizing the importance of considering neutral and adaptive genetic factors when developing management strategies for marine species.
Keyphrases
  • climate change
  • genome wide
  • copy number
  • human health
  • single cell
  • genetic diversity
  • dna methylation
  • risk assessment
  • high resolution
  • mass spectrometry
  • life cycle
  • molecularly imprinted