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The effects of latitudinal gradients, climatic anomalies, and size-selective harvesting on the adaptive potential of an intertidal gastropod

The effects of latitudinal gradients, climatic anomalies, and size-selective harvesting on the adaptive potential of an intertidal gastropod
The effects of latitudinal gradients, climatic anomalies, and size-selective harvesting on the adaptive potential of an intertidal gastropod

Coastal organisms live in a dynamic environment where a myriad of environmental stressors, including climate change, ocean acidification, and human harvesting, act on variable spatio-temporal scales. Each of these stressors may impose unique selective forces on a population, shaping a species' adaptive potential and its ability to persist under future climatic conditions. Genomic investigations of adaptive responses to environmental and anthropogenic disturbances remain rare, especially in marine systems. Here, we use whole genome sequencing data from the owl limpet, Lottia gigantea, and outlier detection methods to pinpoint signals of selection (1) across long-standing environmental gradients spanning the species' distribution, (2) at the poleward edge of the species' range where it experienced a recent expansion, and (3) between sites vulnerable to or protected from human size-selective harvesting within California. Loci associated with environmental gradients across the entire range show the strongest differentiation at the southern end of the species' range, potentially driven by adaptation to sea surface temperature and pH. Additional ad-hoc outlier analyses revealed a distinct set of loci potentially under selection in the expanded range, with different functional roles than the range-wide outliers. Despite demographic models suggesting that protection from harvesting has a positive impact on the abundance of large individuals, we did not find strong signals of selection or changes in genetic diversity between sites differing in harvesting vulnerability. Our findings suggest that range-wide environmental selective signals established over longer time scales are distinct from those imposed by climatic anomalies at finer spatio-temporal scales. We found that climatic variation has a stronger selective imprint than human harvesting, and thus conservation interventions should consider prioritizing the maintenance of climate-related adaptive potential. Understanding how climatic trends and anomalies interact with anthropogenic pressures will allow us to make more informed decisions to sustain the evolutionary capacity of L. gigantea and other key coastal species.

Lottia gigantea, conservation genomics, eco-evolutionary dynamics, genotype-association, population adaptive potential, seascape genomics, species range shift
1752-4563
Nielson, Erica S.
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Walkes, Samuel
f1eda439-1bae-4c3c-9510-40876a765fe7
Sones, Jacqueline L.
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Fenberg, Phillip B.
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Paz Garcia, David A.
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Grosberg, Rick K.
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Sanford, Eric
00567dc8-f354-4c6b-a01f-8db0624d3995
Bay, Rachael A.
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Nielson, Erica S.
fefaedec-0c12-43a3-a56e-6603d1f6c09f
Walkes, Samuel
f1eda439-1bae-4c3c-9510-40876a765fe7
Sones, Jacqueline L.
02c043bf-2399-4f0c-9121-5cc4eb654a24
Fenberg, Phillip B.
c73918cd-98cc-41e6-a18c-bf0de4f1ace8
Paz Garcia, David A.
755124bb-873e-43ca-a9a1-8cb2b505e6ea
Grosberg, Rick K.
12edafbf-2b27-46ab-8398-56fe19da9ae3
Sanford, Eric
00567dc8-f354-4c6b-a01f-8db0624d3995
Bay, Rachael A.
f23e5d00-ca42-463e-9bc0-f27ea9b9f4ba

Nielson, Erica S., Walkes, Samuel, Sones, Jacqueline L., Fenberg, Phillip B., Paz Garcia, David A., Grosberg, Rick K., Sanford, Eric and Bay, Rachael A. (2025) The effects of latitudinal gradients, climatic anomalies, and size-selective harvesting on the adaptive potential of an intertidal gastropod. Evolutionary Applications, 18 (9), [e70159]. (doi:10.1111/eva.70159).

Record type: Article

Abstract

Coastal organisms live in a dynamic environment where a myriad of environmental stressors, including climate change, ocean acidification, and human harvesting, act on variable spatio-temporal scales. Each of these stressors may impose unique selective forces on a population, shaping a species' adaptive potential and its ability to persist under future climatic conditions. Genomic investigations of adaptive responses to environmental and anthropogenic disturbances remain rare, especially in marine systems. Here, we use whole genome sequencing data from the owl limpet, Lottia gigantea, and outlier detection methods to pinpoint signals of selection (1) across long-standing environmental gradients spanning the species' distribution, (2) at the poleward edge of the species' range where it experienced a recent expansion, and (3) between sites vulnerable to or protected from human size-selective harvesting within California. Loci associated with environmental gradients across the entire range show the strongest differentiation at the southern end of the species' range, potentially driven by adaptation to sea surface temperature and pH. Additional ad-hoc outlier analyses revealed a distinct set of loci potentially under selection in the expanded range, with different functional roles than the range-wide outliers. Despite demographic models suggesting that protection from harvesting has a positive impact on the abundance of large individuals, we did not find strong signals of selection or changes in genetic diversity between sites differing in harvesting vulnerability. Our findings suggest that range-wide environmental selective signals established over longer time scales are distinct from those imposed by climatic anomalies at finer spatio-temporal scales. We found that climatic variation has a stronger selective imprint than human harvesting, and thus conservation interventions should consider prioritizing the maintenance of climate-related adaptive potential. Understanding how climatic trends and anomalies interact with anthropogenic pressures will allow us to make more informed decisions to sustain the evolutionary capacity of L. gigantea and other key coastal species.

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Accepted/In Press date: 6 September 2025
Published date: 25 September 2025
Keywords: Lottia gigantea, conservation genomics, eco-evolutionary dynamics, genotype-association, population adaptive potential, seascape genomics, species range shift
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Identifiers

Local EPrints ID: 506341
URI: http://eprints.soton.ac.uk/id/eprint/506341
DOI: doi:10.1111/eva.70159
ISSN: 1752-4563
PURE UUID: 5ef6175b-80d3-494a-8e4e-855a7d4a0c6f
ORCID for Phillip B. Fenberg: ORCID iD orcid.org/0000-0003-4474-176X

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Date deposited: 04 Nov 2025 18:12
Last modified: 08 Nov 2025 02:47

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Contributors

Author: Erica S. Nielson
Author: Samuel Walkes
Author: Jacqueline L. Sones
Author: Phillip B. Fenberg ORCID iD
Author: David A. Paz Garcia
Author: Rick K. Grosberg
Author: Eric Sanford
Author: Rachael A. Bay

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