Your search keyword '"Samuel D, Payet"' showing total 9 results

1. Population genomics informs the management of harvested snappers across north-western Australia

Author

Samuel D. Payet, Jim Underwood, Oliver Berry, Thor Saunders, Michael J. Travers, Corey B. Wakefield, Karen Miller, and Stephen J. Newman

Subjects

Genetics, SNP, Fishery, Stock structure, Stock identification, Medicine, Science

Abstract

Abstract Failure to consider population structure when managing harvested fishes increases the risk of stock depletion, yet empirical estimates of population structure are often lacking for important fishery species. In this study, we characterise genetic variation in single nucleotide polymorphisms (SNPs) to assess population structure for three harvested species of tropical snappers across the broad (up to 300 km wide) and extensive (~ 4000 km) continental shelf of north-western Australia. Comparisons across ~ 300 individuals per species, showed remarkably similar patterns of genetic structure among Lutjanus sebae (red emperor), L. malabaricus (saddletail snapper) and Pristipomoides multidens (goldband snapper) despite subtle differences in biological and ecological traits. Low levels of genetic subdivision were reflected in an isolation by distance relationship where genetic connectivity increased with geographic proximity. This indicates extensive but not unlimited dispersal across the north-western Australian shelf. Our findings provide evidence of connectivity between current management areas, violating the assumption of multiple independent stocks. Spatial stock assessment models may be more suitable for the management of these species however demographic connectivity rates cannot be accurately estimated from the conventional population genetic approaches applied in this study. We recommend that managers aim to maintain adequate spawning biomass across current management areas, and assess stocks at finer scales, where practical.

Published

2024

2. Demographic histories shape population genomics of the common coral grouper (Plectropomus leopardus)

Author

Samuel D. Payet, Morgan S. Pratchett, Pablo Saenz‐Agudelo, Michael L. Berumen, Joseph D. DiBattista, and Hugo B. Harrison

Subjects

fisheries management, molecular evolution, population genetics – empirical, Evolution, QH359-425

Abstract

Abstract Many coral reef fishes display remarkable genetic and phenotypic variation across their geographic ranges. Understanding how historical and contemporary processes have shaped these patterns remains a focal question in evolutionary biology since they reveal how diversity is generated and how it may respond to future environmental change. Here, we compare the population genomics and demographic histories of a commercially and ecologically important coral reef fish, the common coral grouper (Plectropomus leopardus [Lacépède 1802]), across two adjoining regions (the Great Barrier Reef; GBR, and the Coral Sea, Australia) spanning approximately 14 degrees of latitude and 9 degrees of longitude. We analysed 4548 single nucleotide polymorphism (SNP) markers across 11 sites and show that genetic connectivity between regions is low, despite their relative proximity (~100 km) and an absence of any obvious geographic barrier. Inferred demographic histories using 10,479 markers suggest that the Coral Sea population was founded by a small number of GBR individuals and that divergence occurred ~190 kya under a model of isolation with asymmetric migration. We detected population expansions in both regions, but estimates of contemporary effective population sizes were approximately 50% smaller in Coral Sea sites, which also had lower genetic diversity. Our results suggest that P. leopardus in the Coral Sea have experienced a long period of isolation that precedes the recent glacial period (~10–120 kya) and may be vulnerable to localized disturbances due to their relative reliance on local larval replenishment. While it is difficult to determine the underlying events that led to the divergence of the Coral Sea and GBR lineages, we show that even geographically proximate populations of a widely dispersed coral reef fish can have vastly different evolutionary histories.

Published

2022

3. Does color matter? Molecular and ecological divergence in four sympatric color morphs of a coral reef fish

Author

Michelle R. Gaither, Darren J. Coker, Samuel Greaves, Fatih Sarigol, Samuel D. Payet, Veronica Chaidez, Tane H. Sinclair‐Taylor, Joseph D. DiBattista, and Michael L. Berumen

Subjects

behavior, color polymorphism, life history, outlier loci, population structure, RADSeq, Ecology, QH540-549.5

Abstract

Abstract Non‐sex‐linked color polymorphism is common in animals and can be maintained in populations via balancing selection or, when under diversifying selection, can promote divergence. Despite their potential importance in ecological interactions and the evolution of biodiversity, their function and the mechanisms by which these polymorphisms are maintained are still poorly understood. Here, we combine field observations with life history and molecular data to compare four sympatric color morphs of the coral reef fish Paracirrhites forsteri (family Cirrhitidae) in the central Red Sea. Our findings verify that the color morphs are not sex‐limited, inhabit the same reefs, and do not show clear signs of avoidance or aggression among them. A barcoding approach based on 1,276 bp of mitochondrial DNA could not differentiate the color morphs. However, when 36,769 SNPs were considered, we found low but significant population structure. Focusing on 1,121 FST outliers, we recovered distinct population clusters that corresponded to shifts in allele frequencies with each color morph harboring unique alleles. Genetic divergence at these outlier loci is accompanied by differences in growth and marginal variation in microhabitat preference. Together, life history and molecular analysis suggest subtle divergence between the color morphs in this population, the causes for which remain elusive.

Published

2020

4. Regional versus latitudinal variation in the life‐history traits and demographic rates of a reef fish, <scp> Centropyge bispinosa </scp> , in the <scp>Coral Sea</scp> and <scp>Great Barrier Reef Marine Parks, Australia</scp>

Author

Jean-Paul A. Hobbs, Jake R. Lowe, Morgan S. Pratchett, Samuel D. Payet, Hugo B. Harrison, Tane H. Sinclair-Taylor, Andrew S. Hoey, and Brett M. Taylor

Subjects

geography, geography.geographical_feature_category, biology, Coral reef fish, Ecology, media_common.quotation_subject, Metabolic theory of ecology, Longevity, Centropyge, Aquatic Science, biology.organism_classification, Latitude, Life history theory, Ectotherm, Reef, geographic locations, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Environmental temperature is an important determinant of physiological processes and life histories in ectotherms. Over latitudinal scales, variation in temperature has been linked to changes in life-history traits and demographic rates, with growth and mortality rates generally being greatest at low latitudes, and longevity and maximum length being greater at higher latitudes. Using the two-spined angelfish, Centropyge bispinosa, as our focal species, we compared growth patterns, growth rates, longevity, mortality, asymptotic length and maximum length across 22 reefs that span 13° of latitude within the Great Barrier Reef Marine Park (GBRMP) and the Coral Sea Marine Park (CSMP), Australia. We found no predictable latitudinal variation in mortality rates, growth patterns, growth rates, asymptotic or maximum length of C. bispinosa at regional to biogeographic scales. However, C. bispinosa consistently exhibited reduced longevity at lower, warmer latitudes within the CSMP. The greatest differences in mean maximum length of C. bispinosa were between continental (GBRMP) and oceanic (central CSMP) reefs of similar latitude, with individuals being larger on average on continental versus oceanic reefs. The lack of predictable life-history and demographic variation in C. bispinosa across a 13° latitudinal gradient within the CSMP, coupled with differences in mean maximum length between continental and oceanic reefs at similar latitudes, suggest that local environmental conditions have a greater influence than environmental temperature on the demographic rates and life-history traits of C. bispinosa.

Published

2021

5. Does color matter? Molecular and ecological divergence in four sympatric color morphs of a coral reef fish

Author

Samuel D. Payet, Veronica Chaidez, Samuel Greaves, Michael L. Berumen, Fatih Sarigol, Joseph D. DiBattista, Darren J. Coker, Michelle R. Gaither, and Tane H. Sinclair-Taylor

Subjects

life history, 0106 biological sciences, Marine conservation, genetic structures, Coral reef fish, Library preparation, color polymorphism, Population structure, RADSeq, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, lcsh:QH540-549.5, Life history, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Ecology, behavior, fungi, outlier loci, population structure, Geography, Sympatric speciation, lcsh:Ecology

Abstract

Non‐sex‐linked color polymorphism is common in animals and can be maintained in populations via balancing selection or, when under diversifying selection, can promote divergence. Despite their potential importance in ecological interactions and the evolution of biodiversity, their function and the mechanisms by which these polymorphisms are maintained are still poorly understood. Here, we combine field observations with life history and molecular data to compare four sympatric color morphs of the coral reef fish Paracirrhites forsteri (family Cirrhitidae) in the central Red Sea. Our findings verify that the color morphs are not sex‐limited, inhabit the same reefs, and do not show clear signs of avoidance or aggression among them. A barcoding approach based on 1,276 bp of mitochondrial DNA could not differentiate the color morphs. However, when 36,769 SNPs were considered, we found low but significant population structure. Focusing on 1,121 F ST outliers, we recovered distinct population clusters that corresponded to shifts in allele frequencies with each color morph harboring unique alleles. Genetic divergence at these outlier loci is accompanied by differences in growth and marginal variation in microhabitat preference. Together, life history and molecular analysis suggest subtle divergence between the color morphs in this population, the causes for which remain elusive., Despite their potential importance in ecological interactions and the evolution of biodiversity, non‐sex‐linked color polymorphism is poorly understood. Here, we investigated four sympatric color morphs of the coral reef fish Paracirrhites forsteri (family Cirrhitidae) in the central Red Sea and show that the color morphs inhabit the same reefs. While we could not differentiate between them using mtDNA, when we considered 36,769 SNPs, we found low but significant population structure that corresponded to color morphology with accompanying differences in growth and marginal variation in microhabitat preference.

Published

2020

6. Comparative demography of commercially important species of coral grouper, <scp> Plectropomus leopardus </scp> and <scp> P. laevis </scp> , from Australia's great barrier reef and Coral Sea marine parks

Author

Brett M. Taylor, Hugo B. Harrison, Bruce D. Mapstone, Tane H. Sinclair-Taylor, Jake R. Lowe, Peter A. Waldie, Morgan S. Pratchett, and Samuel D. Payet

Subjects

0106 biological sciences, Leopardus, geography, geography.geographical_feature_category, biology, Plectropomus, 010604 marine biology & hydrobiology, Coral, Fishing, Marine reserve, Atoll, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Reef, Ecology, Evolution, Behavior and Systematics, Demography, Plectropomus laevis

Abstract

Understanding the spatial and environmental variation in demographic processes of fisheries target species, such as coral grouper (Genus: Plectropomus), is important for establishing effective management and conservation strategies. Herein we compare the demography of Plectropomus leopardus and P. laevis between Australia's Great Barrier Reef Marine Park (GBRMP), which has been subject to sustained and extensive fishing pressure, and the oceanic atolls of Australia's Coral Sea Marine Park (CSMP), where there is very limited fishing for reef fishes. Coral grouper length-at-age data from contemporary and historical otolith collections across 9.4 degrees of latitude showed little difference in lifetime growth between GBRMP and CSMP regions. Plectropomus laevis populations in GBRMP reefs had significantly higher rates of total mortality than populations in the CSMP. Mean maximum lengths and mean maximum ages of P. laevis were also smaller in the GBRMP than in the CSMP, even when considering populations sampled within GBRMP no-take marine reserves (NTMRs). Plectropomus leopardus, individuals were on average smaller on fished reefs than NTMRs in the GBRMP, but all other aspects of demography were broadly similar between regions despite the negligible levels of fishing pressure in the CSMP. Similarities between regions in growth profiles and length-at-age comparisons of P. laevis and P. leopardus suggest that the environmental differences between the CSMP and the GBRMP may not have significant impacts on lifetime growth. Our results show that fishing may have influenced the demography of coral grouper on the GBR, particularly for the slower growing and longer lived species, P. laevis.

Published

2020

7. Demographic histories shape population genomics of the common coral grouper (

Author

Samuel D, Payet, Morgan S, Pratchett, Pablo, Saenz-Agudelo, Michael L, Berumen, Joseph D, DiBattista, and Hugo B, Harrison

Abstract

Many coral reef fishes display remarkable genetic and phenotypic variation across their geographic ranges. Understanding how historical and contemporary processes have shaped these patterns remains a focal question in evolutionary biology since they reveal how diversity is generated and how it may respond to future environmental change. Here, we compare the population genomics and demographic histories of a commercially and ecologically important coral reef fish, the common coral grouper (

Published

2021

8. Hybridisation among groupers (genus Cephalopholis) at the eastern Indian Ocean suture zone: taxonomic and evolutionary implications

Author

Stephen J. Newman, Tane H. Sinclair-Taylor, Joseph D. DiBattista, Jennifer L. McIlwain, Jean-Paul A. Hobbs, Samuel D. Payet, and Michael L. Berumen

Subjects

0106 biological sciences, 0301 basic medicine, Cephalopholis urodeta, Coral reef fish, Range (biology), Ecology, Biodiversity, Introgression, Reproductive isolation, Aquatic Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Hybrid zone, Evolutionary biology, Cephalopholis

Abstract

Hybridisation is a significant evolutionary process that until recently was considered rare in the marine environment. A suture zone in the eastern Indian Ocean is home to numerous hybridising sister species, providing an ideal opportunity to determine how hybridisation affects speciation and biodiversity in coral reef fishes. At this location, hybridisation between two grouper (Epinephelidae) species: Cephalopholis urodeta (Pacific Ocean) and C. nigripinnis (Indian Ocean) was investigated to determine the genetic basis of hybridisation and to compare the ecology and life history of hybrids and their parent species. This approach aimed to provide insights into the taxonomic and evolutionary consequences of hybridisation. Despite clear phenotypic differences, multiple molecular markers revealed hybrids, and their parent species were genetically homogenous within and (thousands of kilometres) outside of the hybrid zone. Hybrids were at least as fit as their parent species (in terms of growth, reproduction, and abundance) and were observed in a broad range of intermediate phenotypes. The two species appear to be interbreeding at Christmas Island due to inherent biological and ecological compatibilities, and the lack of genetic structure may be explained by three potential scenarios: (1) hybridisation and introgression; (2) discordance between morphology and genetics; and (3) incomplete lineage sorting. Further molecular analyses are necessary to discriminate these scenarios. Regardless of which applies, C. urodeta and C. nigripinnis are unlikely to evolve in reproductive isolation as they cohabit where they are common (Christmas Island) and will source congeneric mates where they are rare (Cocos Keeling Islands). Our results add to the growing body of evidence that hybridisation among coral reef fishes is a dynamic evolutionary factor.

Published

2016

9. Remote marine protected area reveals unusual social behaviour in Chaetodon trifascialis

Author

Camrin D. Braun, Darren J. Coker, Michael L. Berumen, Julie M. Cavin, and Samuel D. Payet

Subjects

Geography, biology, Ecology, Biodiversity, Marine protected area, Social behaviour, Aquatic Science, Chaetodon trifascialis, Oceanography, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2016