Your search keyword '"philopatry"' showing total 3,684 results

1. Using eDNA to Supplement Population Genetic Analyses for Cryptic Marine Species: Identifying Population Boundaries for Alaska Harbour Porpoises.

Author

Parsons, Kim M., May, Samuel A., Gold, Zachary, Dahlheim, Marilyn, Gabriele, Christine, Straley, Janice M., Moran, John R., Goetz, Kimberly, Zerbini, Alexandre N., Park, Linda, and Morin, Phillip A.

Subjects

*BODIES of water, *HARBOR porpoise, *TERRITORIAL waters, *GENETIC variation, *PHILOPATRY, *MITOCHONDRIAL DNA

Abstract

ABSTRACT Isolation by distance and biogeographical boundaries define patterns of population genetic structure for harbour porpoise along the Pacific coast from California to British Columbia. Until recently, inadequate sample sizes in many regions constrained efforts to characterise population genetic structure throughout the coastal waters of Alaska. Here, tissue samples from beachcast strandings and fisheries bycatch were supplemented with targeted environmental DNA (eDNA) samples in key regions of Alaska coastal and inland waters. Using a geographically explicit, hierarchical approach, we examined the genetic structure of Alaska harbour porpoises, using both mitochondrial DNA (mtDNA) sequence data and multilocus SNP genotypes. Despite a lack of evidence of genetic differentiation from nuclear SNP loci, patterns of relatedness and genetic differentiation from mtDNA suggest natal philopatry at multiple geographic scales, with limited gene flow among sites possibly mediated by male dispersal. A priori clustering of sampled areas at an intermediate scale (eastern and western Bering Sea, Gulf of Alaska and Southeast Alaska) best explained the genetic variance (12.37%) among regions. In addition, mtDNA differentiation between the Gulf of Alaska and eastern Bering Sea, and among regions within the Gulf of Alaska, indicated significant genetic structuring of harbour porpoise populations in Southeast Alaska. The targeted collection of eDNA samples from strata within Southeast Alaska was key for elevating the statistical power of our mtDNA dataset, and findings indicate limited dispersal between neighbouring strata within coastal and inland waters. These results provide evidence supporting a population boundary within the currently recognised Southeast Alaska Stock. Together, these findings will prove useful for ongoing management efforts to reduce fisheries conflict and conserve genetic diversity in this iconic coastal species. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evolution of sex differences in cooperation can be explained by trade-offs with dispersal.

Author

Capilla-Lasheras, Pablo, Bircher, Nina, Brown, Antony M., Harrison, Xavier, Reed, Thomas, York, Jennifer E., Cram, Dominic L., Rutz, Christian, Walker, Lindsay, Naguib, Marc, and Young, Andrew J.

Subjects

*PHILOPATRY, *SPARROWS, *COOPERATION, *COMPARATIVE studies, *WEAVERS

Abstract

Explaining the evolution of sex differences in cooperation remains a major challenge. Comparative studies highlight that offspring of the more philopatric sex tend to be more cooperative within their family groups than those of the more dispersive sex but we do not understand why. The leading "Philopatry hypothesis" proposes that the more philopatric sex cooperates more because their higher likelihood of natal breeding increases the direct fitness benefits of natal cooperation. However, the "Dispersal trade-off hypothesis" proposes that the more dispersive sex cooperates less because preparations for dispersal, such as extra-territorial prospecting, trade-off against natal cooperation. Here, we test both hypotheses in cooperatively breeding white-browed sparrow weavers (Plocepasser mahali), using a novel high-resolution automated radio-tracking method. First, we show that males are the more dispersive sex (a rare reversal of the typical avian sex difference in dispersal) and that, consistent with the predictions of both hypotheses, females contribute substantially more than males to cooperative care while within the natal group. However, the Philopatry hypothesis cannot readily explain this female-biased cooperation, as females are not more likely than males to breed within their natal group. Instead, our radio-tracking findings support the Dispersal trade-off hypothesis: males conduct pre-dispersal extra-territorial prospecting forays at higher rates than females and prospecting appears to trade-off against natal cooperation. Our findings thus highlight that the evolution of sex differences in cooperation could be widely attributable to trade-offs between cooperation and dispersal; a potentially general explanation that does not demand that cooperation yields direct fitness benefits. Why do the more philopatric sex tend to be more cooperative within family groups than the more dispersive sex? This study uses radio tracking of white-browed sparrow weavers to reveal that sex differences in cooperation can be attributable to sex differences in the direct costs of cooperation, arising from a trade-off between cooperation and dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

3. Patterns of persistence: Genetic and behavioral population complexity of winter flounder amid population declines.

Author

Dolan, Tara E., Feldheim, Kevin A., O'Leary, Shannon J., Fede, Catherine M., McElroy, Anne E., and Frisk, Michael G.

Subjects

*PHILOPATRY, *POPULATION genetics, *GENETIC variation, *BIOMASS, *FLATFISHES

Abstract

Winter flounder Pseudopleuronectes americanus (Walbaum 1792) are a coastal flatfish species of economic and cultural importance that have dwindled to <15, % of their historic abundance in the southern New England/Mid‐Atlantic region of the United States, with evidence indicating near‐extirpation of certain local populations. This species exhibits intricate behaviors in spawning and migration that contribute to population complexity and resilience. These behaviors encompass full or partial philopatry to natal estuaries, the generation of multiple pulses of larval delivery, and partial migration. The patterns of genetic diversity within and among estuaries and cohorts presented here carry important implications in understanding the susceptibility to demographic shocks, even if the full extent of genetic diversity within and among winter flounder stocks on the US East Coast remains unresolved. Our findings reveal connectivity between estuaries in Long Island, New York, suggesting the potential for genetic rescue of depleted subpopulations. Family reconstruction and relatedness analysis indicate that split cohorts and migration contingents are not the result of genetically distinct lineages. We found no evidence for genetic structure separating these groups, and in some instances, we were able to detect closely related individuals that belonged to different migratory contingents or cohorts. Characterizing the spatial and behavioral organization of this species at the population level is crucial for comprehending its potential for recovery, not only in terms of biomass but also in reinstating the complex population structure that supports resilience. The search for generality in winter flounder spawning and migration behavior remains elusive, but perhaps the lack of generalities within this species is what has allowed it to persist in the face of decades of environmental and anthropogenic stressors. [ABSTRACT FROM AUTHOR]

Published

2024

4. Alloparenting and family behaviours in leopards (Panthera pardus fusca).

Author

Kumbhojkar, Swapnil, Gurjar, Bablu, and Yosef, Reuven

Subjects

*LEOPARD, *PHILOPATRY, *SOCIAL groups, *FOREST reserves, *SOCIAL structure

Abstract

We documented alloparenting and social group behavior within a leopard (Panthera pardus fusca) population in the Jhalana Reserve Forest (JRF), northwest India. Our observations revealed subadult offspring assisting their mothers in raising their newborn litters, exhibiting previously undocumented alloparenting behaviors. We propose that the familial intra-specific interactions and inter-specific competition collectively influence the social structure of the leopard population. Specifically we suggest that the inter-specific competition and predation, particularly with striped hyenas (Hyaena hyaena), may encourage alloparenting in leopards. Aditionally, we hypothesize that alloparenting, combined with natal philopatry, serves as an alternative strategy for leopards to enhance the survival chances of their progeny. [ABSTRACT FROM AUTHOR]

Published

2024

5. Within‐group sex ratios predict growth of social mole‐rats.

Author

Bensch, H. M., Thorley, J., Finn, K. T., and Zöttl, M.

Subjects

*SEX ratio, *PHILOPATRY, *MORTALITY, *EMIGRATION & immigration, *FEMALES

Abstract

Groups of wild animals can vary considerably in their composition, including in the proportion of group members who are male or female, that is the within‐group sex ratio. Variation in within‐group sex ratios can arise from active adjustment of litter sex ratios by mothers, from sex differences in mortality, dispersal and immigration, or from stochastic variation in recruitment. Variation in the within‐group sex ratio can have consequences for within‐group competition and can affect individual life histories throughout development. In this paper, we explore which processes may generate variation in within‐group sex ratios in wild Damaraland mole‐rats (Fukomys damarensis), a singular cooperative breeder. We investigate whether within‐group sex ratios predict the growth, body condition and philopatry of individuals. We show that although the population‐level sex ratio is balanced, skewed within‐group sex ratios are common, particularly among small groups. Our data suggests that stochastic variation in the sex of recruits explains natural variation in the sex ratio of wild groups. Non‐breeding individuals in groups with a sex ratio biased towards their own sex grow more slowly than individuals in groups biased towards the opposite sex, suggesting that intra‐sexual competition may decrease growth rates. We suggest that the costs of competition may contribute to the large variation in growth observed in social mole‐rat groups. [ABSTRACT FROM AUTHOR]

Published

2024

6. Do recently translocated black‐footed Albatross (Phoebastria nigripes) chicks respond to artificial social attraction?

Author

Casillas, Daniela, Young, Lindsay C., Harmon, Kristen C., Wilhite, Chad J., Vanderwerf, Eric A., and Price, Melissa R.

Subjects

*COLONIAL birds, *PHILOPATRY, *VISUAL perception, *WILDLIFE refuges, *SEA level

Abstract

Translocations of chicks are increasingly being used in seabird restoration projects, along with social attraction of adults using acoustic and visual cues, to establish new colonies or re‐establish extirpated colonies. Many seabird species exhibit high rates of natal philopatry, where most chicks return to the nesting colonies from which they fledged. This makes them ideal candidates for translocation projects since they have a high likelihood of returning to translocation sites if they are relocated prior to imprinting on a natal site. Starting in 2017, Black‐footed Albatross (BFAL) chicks were translocated from populations in the low‐lying Northwestern Hawaiian Islands, where they face habitat loss due to sea level rise, to the higher elevation island of O‘ahu, in an attempt to establish a new colony for this species. Additionally, social attraction was utilized at the site to attract potential nesting adults and provide social stimuli for the translocated chicks. Our study examined the response of translocated BFAL chicks to visual and audio stimuli inside a mammalian predator exclusion fence at James Campbell National Wildlife Refuge on the island of O‘ahu. Decoys constructed in two different poses, representing courtship and resting postures of adult BFAL, were placed in various combinations with playback speakers around the perimeter of artificial shelters. Motion‐activated cameras were used to record and compare the number of visits by chicks to different combinations of visual and acoustic stimuli. We found the number of visits was highest at setups that included a combination of a decoy pair and a playback speaker, suggesting that a combination of visual and audio cues of adult BFAL are most attractive to the chicks. Future studies are needed to evaluate the long‐term impacts of exposure to artificial visual and audio stimuli as chicks on return rates to translocation site and social behavior as adults. [ABSTRACT FROM AUTHOR]

Published

2024

7. Patterns of recovery in extant and extirpated seabirds after the world's largest multipredator eradication.

Author

Bird, Jeremy P., Fuller, Richard A., and Shaw, Justine D.

Subjects

*CATS, *HABITAT selection, *RATTUS rattus, *EUROPEAN rabbit, *INTRODUCED species, *SEA birds

Abstract

Eradicating invasive predators from islands can result in substantial recovery of seabirds, but the mechanisms that drive population changes remain poorly understood. Meta‐analyses have recently revealed that immigration is surprisingly important to the recovery of philopatric seabirds, but it is not known whether dispersal and philopatry interact predictably to determine rates of population growth and changes of distribution. We used whole‐island surveys and long‐term monitoring plots to study the abundance, distribution, and trends of 4 burrowing seabird species on Macquarie Island, Australia, to examine the legacy impacts of invasive species and ongoing responses to the world's largest eradication of multiple species of vertebrates. Wekas (Gallirallus australis) were eradicated in 1988; cats (Felis catus) in 2001; and rabbits (Oryctolagus cuniculus), black rats (Rattus rattus), and mice (Mus mus) in 2011–2014. We compared surveys from 1976–1979 and 2017–2018 and monitoring from the 1990s and 2000s onward. Antarctic prions (Pachyptila desolata) and white‐headed petrels (Pterodroma lessonii) increased ∼1% per year. Blue petrels (Halobaena caerulea) and gray petrels (Procellaria cinerea) recolonized following extirpation from the main island in the 1900s but remained spatially and numerically rare in 2018. However, they increased rapidly at 14% and 10% per year, respectively, since cat eradication in 2001. Blue and gray petrel recolonization occurred on steep, dry, west‐facing slopes close to ridgelines at low elevation (i.e., high‐quality petrel habitat). They overlapped <5% with the distribution of Antarctic prion and white‐headed petrels which occurred in suboptimal shallow, wet, east‐facing slopes at high elevation. We inferred that the speed of population growth of recolonizing species was related to their numerically smaller starting size compared with the established species and was driven by immigration and selection of ideal habitat. [ABSTRACT FROM AUTHOR]

Published

2024

8. Influence of maternal kinship on association network structure in a long-term study of spider monkeys (Ateles geoffroyi).

Author

Jasso-del Toro, C., Smith-Aguilar, S., Aureli, F., Schaffner, C.M., and Ramos-Fernández, G.

Subjects

*KINSHIP, *MONKEYS, *SOCIAL structure, *PHILOPATRY, *AGE differences, *SOCIAL networks

Abstract

Maternal kinship can structure social relationships in mammals, as demonstrated in species characterized by female philopatry. In these species, females tend to be closely related and interact more often with maternal relatives. However, there is limited evidence indicating a role of maternal kinship in species characterized by male philopatry. To increase our understanding of the role of maternal kinship on the social structure of these species, we explore how maternal kinship influences the structure of association networks in a group of wild Geoffroy's spider monkeys, Ateles geoffroyi , over 24 years. Using 53 546 instantaneous scan samples collected from 1997 to 2020 (mean ± SD = 2231 ± 890 per year), we built yearly association networks using the simple ratio index to establish links among 93 individuals observed over the study period. We used generalized linear mixed models (GLMMs) and vector generalized linear models (VGLMs) to examine whether edge weight, network modularity and eigenvector and betweenness centrality were related to five maternal kin categories, four age-difference classes, three sex classes and matriline membership. We found that among individuals of similar age difference, maternal kin had higher edge weight and higher probabilities of being assigned to the same module in the association network than nonmaternally related individuals; maternal brothers, maternal sisters and maternal female–male siblings associated more than nonmaternally related individuals; and matriline membership influenced the eigenvector and betweenness centrality of its members, resulting in higher centrality values within certain matrilines. Matriline size was positively associated with eigenvector centrality, indicating that members of larger matrilines tended to be better integrated into the overall network through close connections with their maternal kin. Our results suggest that, in addition to age and sex, maternal kinship plays a significant role in structuring association networks even in a species characterized by male philopatry. • Maternal kin had higher association indices than nonkin. • Network modules were more likely to contain maternal kin than nonkin. • Maternal siblings associated more than nonkin. • Members of the same matriline had similar centrality values. • Maternal kin shape association network structure in a male philopatric species. [ABSTRACT FROM AUTHOR]

Published

2024

9. Territoriality, breeding philopatry, and nest site selection of Chestnut Seedeater (Sporophila cinnamomea) in grasslands of southern Brazil.

Author

Rodrigues Rosoni, Jonas Rafael, Carlos, Caio J., and Fontana, Carla Suertegaray

Subjects

MATING grounds, PROBABILITY density function, GRASSLAND birds, PHILOPATRY, HABITAT conservation

Abstract

Copyright of Journal of Field Ornithology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

10. The white-capped albatross: a new breeding record for the Diego Ramírez Islands, Chile.

Author

Suazo, Cristián G., Anguita, Cristóbal, Letelier, Carlos Garcés, Martínez, Alexis, and Quillfeldt, Petra

Subjects

ALBATROSSES, MATING grounds, ENDEMIC species, ISLANDS, PHILOPATRY

Abstract

Albatrosses are renowned for their high philopatry, which has been proposed as a major barrier to their dispersal and hybridization with other albatross species. Except for shy-type albatross species from New Zealand, examples of colonization of new breeding sites and interbreeding with closely related species are rare. During the austral summer of 2022, while conducting land-based monitoring of resident Black-browed (Thalassarche melanophris) and Grey-headed (T. chrysostoma) albatross populations on the Diego Ramírez Islands, Chile (56 S), we documented the first (and southernmost) breeding record of a nesting pair of White-capped Albatross (T. steadi), a species endemic to the Auckland Islands, New Zealand (~ 7000 km away). The species identity was confirmed through molecular analysis. This discovery underscores the importance of Diego Ramírez and its surrounding waters as a hotspot for global albatross conservation. [ABSTRACT FROM AUTHOR]

Published

2024

11. Movement and growth of the spotted gully shark Triakis megalopterus in South African waters.

Author

Mann, BQ, Jordaan, GL, Dalton, WN, Daly, R, Soekoe, M, Potts, WM, Smale, MJ, and Swart, L

Subjects

*MARINE parks & reserves, *SHARKS, *FISHERY laws, *MARINE resources conservation

Abstract

The movement and growth of spotted gully sharks Triakis megalopterus (family Triakidae) along the coast of South Africa were investigated using external dart tagging. Of a total of 7 211 sharks tagged, 657 (9.1%) were recaptured over a 37-year period, from 1984 to 2021. Average distance moved by recaptured sharks was 31 (SD 82) km, with a maximum distance moved of 911 km. The longest time at liberty was 6 332 days (17.3 years). Most recaptures (66.9%) displayed resident, philopatric behaviour, although adults moved significantly more than juveniles. There was strong seasonality in the catches, with more individuals caught during summer months (October–March); however, there was no evidence to suggest that adults undertook seasonal migrations to and from mating or pupping areas. Similarly, the findings suggested that pupping likely takes place throughout their distribution and is not confined to a particular region. Growth of recaptured individuals was slow, with an average growth rate of 50 mm year−1. This was similar to the growth rate determined by vertebral band counts but suggested that individuals could reach a theoretical maximum age of 41 years. Based on the species' resident behaviour and slow growth rate, we advocate for maintenance of the current fishing regulations and greater protection in no-take marine protected areas with suitable habitat within their distribution. Further research using acoustic telemetry is also recommended. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genetic Structure of Wolf Populations in North Eurasia: The Effect of Exclusion of Closely Related Individuals from Analysis.

Author

Kazimirov, P. A., Belokon, Yu. S., Belokon, M. M., Bondarev, A. Ya., Davydov, A. V., Zakharov, E. S., Leontyev, S. V., and Politov, D. V.

Subjects

*WOLVES, *MICROSATELLITE repeats, *GENETIC variation, *GENETIC distance, *PHILOPATRY

Abstract

Based on 20 autosomal microsatellite markers, the results of analysis of the genetic structure and spatial autocorrelation in the populations of grey wolf (Canis lupus Linnaeus, 1758) on the territory of the Russian Federation and the Republic of Kazakhstan are described. Using molecular markers, hidden genealogical patterns are revealed, which have the most pronounced effect on distances up to 150 km but may be traced over much wider spaces, up to 700–1600 km. Our research has shown that identification and exclusion of closely related genotypes has limited effect on the results of the analysis of intrapopulation genetic diversity. Meanwhile, this procedure is recommended for a more adequate assessment of the population structure since it allows for streamlining some statistical approaches. Thus, the obtained data demonstrate the integrating effect of natal migration, which works against the differential effect of philopatry. Finally, it is also shown that the exclusion of closely related individuals can lead to lower values of genetic distances between populations. [ABSTRACT FROM AUTHOR]

Published

2024

13. Female mountain gorillas form enduring social relationships.

Author

Derby, Riley N., Eckardt, Winnie, Stoinski, Tara S., Morrison, Robin E., and Sandel, Aaron A.

Subjects

*GORILLA (Genus), *CHIMPANZEES, *SOCIAL bonds, *BABOONS, *FEMALES

Abstract

Strong, affiliative relationships are important across social mammals, and in many species, relationships between female kin form the basis of group life. Relationships are expected to be weaker in cases where females disperse or do not cooperatively defend resources. Mountain gorillas, Gorilla beringei beringei , seem to support this, as females can emigrate multiple times throughout their life and do not jointly defend the abundant vegetation they feed on. Unsurprisingly, mountain gorillas have been reported to form variable or weak relationships with other females and seemingly prioritize relationships with adult males. But prior studies may have misinterpreted relationships due to a focus on grooming and understandable limitations of small sample sizes and short study periods. Here, we examine proximity and grooming between 47 adult female mountain gorillas in five groups over 5–13 years. We analyse proximity data (2 m, 5 m) and grooming relationships between 366 individual dyads to determine (1) whether proximity and grooming relationships are preferential and (2) whether they endure across time. Most females formed at least one preferential 2 m and 5 m proximity relationship (43 of 47), which both lasted a mean of 2.1 years. Additionally, 3.6% of dyads (N = 13/366) formed enduring 2 m proximity preferences that exceeded 4 years, with the longest lasting at least 12 years. Maternal kin had the most enduring proximity and grooming relationships, although grooming was rare overall. The enduring proximity relationships between some female gorillas in our sample are similar in length to those of female yellow baboons, Papio cynocephalus , and male chimpanzees, Pan troglodytes , which are considered social bonds. Mountain gorillas provide a system in which factors influencing bonds can be better understood, and our study highlights a need to refine definitions of social bonds while potentially reassessing their evolutionary function. • We examined proximity (2 m, 5 m) and grooming in female mountain gorilla dyads. • Most females formed one long-term (2–12 years) preferential proximity relationship. • Proximity relationships were akin to social bonds in baboons and chimpanzees. • Maternal kin were more likely to have preferential 2 m proximity relationships. • Dispersal patterns may allow adult females to remain with maternal kin longer. [ABSTRACT FROM AUTHOR]

Published

2024

14. Evolution of delayed dispersal with group size effect and population dynamics.

Author

Flatrès, Alan and Wild, Geoff

Subjects

*POPULATION dynamics, *REPRODUCTION, *DISPERSAL (Ecology), *LIFE history theory, *ENVIRONMENTAL quality, *SOCIAL groups, *SEXUAL selection

Abstract

Individuals delay natal dispersal for many reasons. There may be no place to disperse to; immediate dispersal or reproduction may be too costly; immediate dispersal may mean that the individual and their relatives miss the benefits of group living. Understanding the factors that lead to the evolution of delayed dispersal is important because delayed dispersal sets the stage for complex social groups and social behavior. Here, we study the evolution of delayed dispersal when the quality of the local environment is improved by greater numbers of individuals (e. g. , safety in numbers). We assume that individuals who delay natal dispersal also expect to delay personal reproduction. In addition, we assume that improved environmental quality benefits manifest as changes to fecundity and survival. We are interested in how do the changes in these life-history features affect delayed dispersal. We use a model that ties evolution to population dynamics. We also aim to understand the relationship between levels of delayed dispersal and the probability of establishing as an independent breeder (a population-level feature) in response to changes in life-history details. Our model emphasizes kin selection and considers a sexual organism, which allows us to study parent–offspring conflict over delayed dispersal. At evolutionary equilibrium, fecundity and survival benefits of group size or quality promote higher levels of delayed dispersal over a larger set of life histories with one exception. The exception is for benefits of increased group size or quality reaped by the individuals who delay dispersal. There, the increased benefit does not change the life histories supporting delay dispersal. Next, in contrast to previous predictions, we find that a low probability of establishing in a new location is not always associated with a higher incidence of delayed dispersal. Finally, we find that increased personal benefits of delayed dispersal exacerbate the conflict between parents and their offspring. We discuss our findings in relation to previous theoretical and empirical work, especially work related to cooperative breeding. • We study the evolution of delayed natal dispersal. • We assume delayed dispersal brings benefits to the natal group. • The number of delayed-dispersers is independent of the group quality. • Habitat saturation is not always associated with delayed dispersal. • Increased group benefits exacerbate conflict within the natal group. [ABSTRACT FROM AUTHOR]

Published

2024

15. Kinship assessment and insights into reproductive behaviour of the Critically Endangered green sawfish Pristis zijsron in Western Australia.

Author

Ingelbrecht, Jack, Lear, Karissa O., Phillips, Nicole M., Wueringer, Barbara E., Lymbery, Alan J., Norman, Bradley M., and Morgan, David L.

Subjects

ANIMAL sexual behavior, SINGLE nucleotide polymorphisms, KINSHIP, PHILOPATRY, GENETIC variation, EUGENICS

Abstract

In this study, single nucleotide polymorphisms were used to investigate kinship and philopatry for the Critically Endangered green sawfish, Pristis zijsron, in Western Australia.Sampling was conducted in an important nursery area: the Ashburton River estuary and adjacent tidal creeks. Kinship was inferred from the genotypes of 104 sawfish sampled between 2011 and 2014 (n = 31), and 2020 and 2022 (n = 73).The total number of dams contributing across all sites and time periods was estimated to be between 50 and 56.Fifty‐two full sibling dyads, 90 half sibling dyads and 72 third‐degree dyads were detected, involving 58, 67, and 46 P. zijsron, respectively. Of these, 34 half sibling dyads were related maternally and 56 related paternally, including multiple maternal and paternal half siblings pupped in different years, suggesting both female and male philopatry. Catch data indicated that two groups of maternal half siblings were littermates, demonstrating multiple paternity. A high degree of relatedness was found across the study area, with 88% of P. zijsron related to at least one other individual up to the third‐degree.Evidence for female philopatry in P. zijsron highlights the importance of protecting nursery areas for this species. The occurrence of philopatric behaviour in male and female P. zijsron suggests that dispersal might be limited in both sexes of this species, highlighting the need to investigate the amount of genetic diversity and incidence of inbreeding within remaining populations. [ABSTRACT FROM AUTHOR]

Published

2024

16. Social Organization and Male–Male Relationships

Author

King, Glenn E. and King, Glenn E.

Published

2024

17. Transboundary gene flow and notes on philopatry in lynx populations of Estonia and Latvia: implications for conservation

Author

Tammeleht, Egle, Keis, Marju, Remm, Jaanus, Rungis, Dainis, Ozolins, Janis, and Saarma, Urmas

Published

2024

18. Long-distance migrations and seasonal movements of meagre (Argyrosomus regius), a large coastal predator, along the Iberian Peninsula coast

Author

Miguel Gandra, Alexander C. Winkler, Pedro Afonso, and David Abecasis

Subjects

Movement ecology, Pop-up satellite archival tags, Acoustic telemetry, Predatory fish, Migration, Philopatry, Biology (General), QH301-705.5

Abstract

Abstract Background The meagre, Argyrosomus regius, is a large coastal predatory fish inhabiting waters from the north-eastern Atlantic and Mediterranean Sea, where it is targeted by commercial and recreational fisheries. Previous genetic studies have found an unexpectedly high population differentiation not only between the Atlantic and the Mediterranean, but also along the Atlantic coast. However, the reasons underpinning this genetic barrier remained unclear. Likewise, even though the species is amongst the world’s largest marine teleosts, knowledge about its movement ecology and migratory behaviour remains notably scarce, and primarily reliant on fisheries-dependent data. Methods In this study, we used a combination of acoustic telemetry and pop-up satellite archival tags to investigate the movements of 22 adult meagre (70–143 cm total length) along the Southwestern coast of the Iberian Peninsula. Results Our results strongly suggest that the previously reported genetic differentiation is not maintained by limited adult dispersal/movement, as hypothesized. On the contrary, we documented some of the longest individual annual migrations ever recorded for a coastal teleost, up to > 2000 km, with frequent back-and-forth movements between the West and Southern Iberian coasts. Moreover, their detected regional movement patterns support the existence of a marked seasonal behavioural shift, with individuals being less active and moving to deeper waters during winter, and are consistent with spawning philopatry associated to their summer reproductive movements. Finally, we identified putative aggregation areas that may harbour important feeding/overwintering grounds. Conclusions These findings shed new light on the movement and behaviour patterns of meagre that may be of particular importance for the conservation and spatial management of this species throughout its range, and open the door to further research on functional connectivity.

Published

2024

19. Interpopulation variation in inbreeding is primarily driven by tolerance of mating with relatives in a spermcasting invertebrate

Author

Olsen, Kevin C and Levitan, Don R

Subjects

Biological Sciences, Ecology, Evolutionary Biology, Genetics, Animals, Male, Genetic Variation, Inbreeding, Invertebrates, Reproduction, Self-Fertilization, Semen, biparental inbreeding, inbreeding tolerance, marine invertebrate, philopatry, Zoology, Evolutionary biology

Abstract

The degree to which individuals inbreed is a fundamental aspect of population biology shaped by both passive and active processes. Yet, the relative influences of random and non-random mating on the overall magnitude of inbreeding are not well characterized for many taxa. We quantified variation in inbreeding among qualitatively accessible and isolated populations of a sessile marine invertebrate (the colonial ascidian Lissoclinum verrilli) in which hermaphroditic colonies cast sperm into the water column for subsequent uptake and internal fertilization. We compared estimates of inbreeding to simulations predicting random mating within sites to evaluate if levels of inbreeding were (1) less than expected because of active attempts to limit inbreeding, (2) as predicted by genetic subdivision and passive inbreeding tolerance, or (3) greater than simulations due to active attempts to promote inbreeding via self-fertilization or a preference for related mates. We found evidence of restricted gene flow and significant differences in the genetic diversity of L. verrilli colonies among sites, indicating that on average colonies were weakly related in accessible locations, but their levels of relatedness matched that of first cousins or half-siblings on isolated substrates. Irrespective of population size, progeny arrays revealed variation in the magnitude of inbreeding across sites that tracked with the mean relatedness of conspecifics. Biparental reproduction was confirmed in most offspring (86%) and estimates of total inbreeding largely overlapped with simulations of random mating, suggesting that interpopulation variation in mother-offspring resemblance was primarily due to genetic subdivision and passive tolerance of related mates. Our results highlight the influence of demographic isolation on the genetic composition of populations, and support theory predicting that tolerance of biparental inbreeding, even when mates are closely related, may be favoured under a broad set of ecological and evolutionary conditions.

Published

2023

20. Long-distance migrations and seasonal movements of meagre (Argyrosomus regius), a large coastal predator, along the Iberian Peninsula coast.

Author

Gandra, Miguel, Winkler, Alexander C., Afonso, Pedro, and Abecasis, David

Subjects

FISH migration, POPULATION differentiation, FISH mortality, POPULATION viability analysis, COASTS, SEASONS, FISHERIES

Abstract

Background: The meagre, Argyrosomus regius, is a large coastal predatory fish inhabiting waters from the north-eastern Atlantic and Mediterranean Sea, where it is targeted by commercial and recreational fisheries. Previous genetic studies have found an unexpectedly high population differentiation not only between the Atlantic and the Mediterranean, but also along the Atlantic coast. However, the reasons underpinning this genetic barrier remained unclear. Likewise, even though the species is amongst the world's largest marine teleosts, knowledge about its movement ecology and migratory behaviour remains notably scarce, and primarily reliant on fisheries-dependent data. Methods: In this study, we used a combination of acoustic telemetry and pop-up satellite archival tags to investigate the movements of 22 adult meagre (70–143 cm total length) along the Southwestern coast of the Iberian Peninsula. Results: Our results strongly suggest that the previously reported genetic differentiation is not maintained by limited adult dispersal/movement, as hypothesized. On the contrary, we documented some of the longest individual annual migrations ever recorded for a coastal teleost, up to > 2000 km, with frequent back-and-forth movements between the West and Southern Iberian coasts. Moreover, their detected regional movement patterns support the existence of a marked seasonal behavioural shift, with individuals being less active and moving to deeper waters during winter, and are consistent with spawning philopatry associated to their summer reproductive movements. Finally, we identified putative aggregation areas that may harbour important feeding/overwintering grounds. Conclusions: These findings shed new light on the movement and behaviour patterns of meagre that may be of particular importance for the conservation and spatial management of this species throughout its range, and open the door to further research on functional connectivity. [ABSTRACT FROM AUTHOR]

Published

2024

21. Restricted dispersal and inbreeding in a high‐elevation bird across the 'sky islands' of the European Alps.

Author

Ceresa, Francesco, Brambilla, Mattia, Kvist, Laura, Vitulano, Severino, Pes, Michele, Tomasi, Laura, Pedrini, Paolo, Bettega, Chiara, Anderle, Matteo, Hilpold, Andreas, and Kranebitter, Petra

Subjects

*INBREEDING, *MATING grounds, *SINGLE nucleotide polymorphisms, *GENE flow, *GENETIC distance, *PHILOPATRY, *MOUNTAIN soils

Abstract

Aim: High‐elevation specialist species are threatened by climate change and habitat loss, and their distributions are becoming increasingly reduced and fragmented. In such a context, dispersal ability is crucial to maintain gene flow among patches of suitable habitat. However, information about dispersal is often lacking for these species, especially for those taxa that are usually considered as good dispersers such as birds. We adopted a landscape genomics approach to investigate dispersal in a climate‐sensitive high‐elevation specialist bird. Our aims were to assess the levels of gene flow within a wide mountain area, and to assess the effects of geographic distance and landscape characteristics on dispersal, by testing the isolation by distance (IBD) hypothesis against the isolation by resistance (IBR) hypothesis. Location: European Alps. Taxon: Montifringilla nivalis. Methods: We sampled individuals from several breeding areas and obtained single nucleotide polymorphism (SNP) data by ddRAD sequencing. We then calculated site‐ and individual level genetic distances and individual inbreeding coefficients. To test IBD versus IBR, we related genetic distances to both geographic distances and different measures of landscape resistance by using maximum likelihood population effects models. Results: Gene flow among breeding areas was partly restricted, and we found support for IBD, indicating that geographic distance limits snowfinch dispersal. Spatial patterns of genetic distances suggested that philopatry strongly contributed to determine the observed IBD. High inbreeding coefficients in several individuals indicated frequent mating among relatives. Main Conclusions: Restricted dispersal and frequent inbreeding within 'sky island' systems can also occur in highly mobile species, because their potential ability to cover very large distances can be counteracted by high philopatry levels that are likely related to high dispersal costs. IBD and philopatry will increasingly hinder snowfinch dispersal among suitable areas within the future more restricted and fragmented breeding range, increasing the risks of local extinctions. [ABSTRACT FROM AUTHOR]

Published

2024

22. Natal dispersal, philopatry and cooperative breeding in Eastern Yellow Robin Eopsaltria australis.

Author

Lloyd, Penn and Coleman, Jonathan T.

Subjects

*PHILOPATRY, *ANIMAL sexual behavior, *GROUP formation, *CONFIDENCE intervals, *DIVORCE, *BIRD breeding

Abstract

Delayed natal dispersal is thought to have evolved in response to survival benefits of philopatry and group formation under environmental and/or demographic constraints, with kin selection subsequently promoting the emergence of cooperative breeding behaviours. We studied sociality and natal and breeding dispersal of a colour-banded population of Eastern Yellow Robin Eopsaltria australis over 10 years to better understand the evolution of facultative cooperative breeding in this long-lived, territorial songbird. Breeding group size averaged 3.08 (range 2–6) adults and 82% of helpers were males. All male young delayed dispersal to help one or both parents (82.1%), another first order relative (12.5%) or other relatives (5.4%) for between one and four years before establishing as a dominant breeder. The social relationships of female helpers was confirmed in only two instances, with the helper being the daughter of the breeding pair. Helpers significantly increased annual productivity, which averaged 1.44 (95% confidence intervals: 1.07–1.81) with no helpers and 2.04 (95% confidence intervals: 1.74–2.34) with helpers present. Male young were highly philopatric; most either inherited the natal territory or budded off a portion of the natal territory, and none dispersed more than one territory away. Most females appeared to disperse further after reaching independence to become floaters. Breeding dispersal was limited to females, who dispersed after either divorce or to avoid incest once a son inherited the territory. These results confirm that Eastern Yellow Robin helpers likely gain indirect fitness benefits from helping. [ABSTRACT FROM AUTHOR]

Published

2024

23. Limited evidence of biased offspring sex allocation in a cavity-nesting conspecific brood parasite.

Author

Wells, Caitlin P, Lyon, Bruce E, Thow, Caroline M, Stair, Tez, Jones, Melissa, Hinton, Mitch, and Eadie, John M

Subjects

*ANIMAL offspring sex ratio, *SEX allocation, *BROOD parasites, *BROOD parasitism, *PHILOPATRY, *BIRD breeding, WOOD density

Abstract

Sex allocation theory predicts that mothers should bias investment in offspring toward the sex that yields higher fitness returns; one such bias may be a skewed offspring sex ratio. Sex allocation is well-studied in birds with cooperative breeding systems, with theory on local resource enhancement and production of helpers at the nest, but little theoretical or empirical work has focused on birds with brood parasitic breeding systems. Wood ducks (Aix sponsa) are a conspecific brood parasite, and rates of parasitism appear to increase with density. Because female wood ducks show high natal philopatry and nest sites are often limiting, local resource competition (LRC) theory predicts that females should overproduce male offspring—the dispersing sex—when competition (density) is high. However, the unique features of conspecific brood parasitism generate alternative predictions from other sex allocation theory, which we develop and test here. We experimentally manipulated nesting density of female wood ducks in 4 populations from 2013 to 2016, and analyzed the resulting sex allocation of >2000 ducklings. In contrast to predictions we did not find overproduction of male offspring by females in high-density populations, females in better condition, or parasitic females; modest support for LRC was found in overproduction of only female parasitic offspring with higher nest box availability. The lack of evidence for sex ratio biases, as expected for LRC and some aspects of brood parasitism, could reflect conflicting selection pressures from nest competition and brood parasitism, or that mechanisms of adaptive sex ratio bias are not possible. [ABSTRACT FROM AUTHOR]

Published

2024

24. Spatiotemporal patterns in habitat use of natal and non-natal adult Atlantic sturgeon in two spawning rivers.

Author

White, Shannon, Breece, Matthew, Fox, Dewayne, Kazyak, David, Higgs, Amanda, Park, Ian, Busch, Cassia, Lubinski, Barbara, Johnson, Robin, and Welsh, Amy

Subjects

*SPAWNING, *STURGEONS, *HABITATS, *FRESHWATER habitats, *INDIVIDUAL differences, *ACIPENSER, *ANIMAL behavior

Abstract

Background: Monitoring movement across an organism's ontogeny is often challenging, particularly for long-lived or wide-ranging species. When empirical data are unavailable, general knowledge about species' ecology may be used to make assumptions about habitat use across space or time. However, inferences about habitat use based on population-level ecology may overlook important eco-evolutionary contributions from individuals with heterogenous ethologies and could diminish the efficacy of conservation and management. Methods: We analyzed over a decade of acoustic telemetry data to understand individual differences in habitat use of federally endangered adult Atlantic sturgeon (Acipenser o. oxyrinchus) in the Delaware and Hudson rivers during spawning season. In particular, we sought to understand whether sex or natal origin could predict patterns in habitat use, as there is a long-held assumption that adult Atlantic sturgeon seldom stray into non-natal rivers. Results: In both rivers, migration timing, spawning habitat occupancy, and maximum upstream migration distance were similar between natal and non-natal individuals. While non-natal individuals represented only 13% of fish detected in the Hudson River, nearly half of all tagged fish detected in the Delaware River were non-natal and generally occupied freshwater habitats longer than natal individuals. In both systems males had more heterogenous patterns of habitat use and longer duration of occupancy than did females. Conclusions: This study demonstrates the importance of non-natal rivers for fulfilling ontogenetic habitat requirements in Atlantic sturgeon. Our results may also highlight an opportunity to improve conservation and management by extending habitat designations to account for more heterogenous patterns in individual habitat use in non-natal freshwater environments. [ABSTRACT FROM AUTHOR]

Published

2024

25. Population genomics of harbour seal Phoca vitulina from northern British Columbia through California and comparison to the Atlantic subspecies.

Author

Sutherland, Ben J. G., Rycroft, Claire, Duguid, Ashtin, Beacham, Terry D., and Tucker, Strahan

Subjects

*HARBOR seal, *PHILOPATRY, *SUBSPECIES, *GENOMICS, *MARINE mammals, REPRODUCTIVE isolation

Abstract

The harbour seal Phoca vitulina is a ubiquitous pinniped species found throughout coastal waters of the Northern Hemisphere. Harbour seal impacts on ecosystem dynamics may be significant due to their high abundance and food web position. Two subspecies exist in North America, P. v. richardii in the Pacific Ocean and P. v. vitulina in the Atlantic. Strong natal philopatry of harbour seals can result in fine‐scale genetic structure and isolation by distance. Management of harbour seals is expected to benefit from improved resolution of seal population structure and dynamics. Here, we use genotyping‐by‐sequencing to genotype 146 harbour seals from the eastern Pacific Ocean (i.e. British Columbia (BC), Oregon and California) and the western Atlantic Ocean (i.e. Québec, Newfoundland and Labrador). Using 12,742 identified variants, we confirm the recently identified elevated genetic diversity in the eastern Pacific relative to the western Atlantic and greatest differentiation between the subspecies. Further, we demonstrate that this is independent of reference genome bias or other potential technical artefacts. Coast‐specific analyses with 8933 and 3828 variants in Pacific and Atlantic subspecies, respectively, identify divergence between BC and Oregon–California, and between Québec and Newfoundland–Labrador. Unexpected PCA outlier clusters were observed in two populations due to cryptic relatedness of individuals; subsequently, closely related samples were removed. Admixture analysis indicates an isolation‐by‐distance signature where Oregon seals contained some of the BC signature, whereas California did not. Additional sampling is needed in the central and north coast of BC to determine whether a discrete separation of populations exists within the region. [ABSTRACT FROM AUTHOR]

Published

2024

26. Strong philopatry in an estuarine‐dependent fish.

Author

Sarakinis, Koster G., Reis‐Santos, Patrick, Donnellan, Stephen C., Ye, Qifeng, Earl, Jason, and Gillanders, Bronwyn M.

Subjects

*ESTUARIES, *GENE flow, *PHILOPATRY, *TERRITORIAL waters, *BODIES of water, *SINGLE nucleotide polymorphisms, *PRINCIPAL components analysis

Abstract

Understanding fish movement is critical in determining the spatial scales in which to appropriately manage wild populations. Genetic markers provide a natural tagging approach to assess the degree of gene flow and population connectivity across a species distribution. We investigated the genetic structure of black bream Acanthopagrus butcheri across its entire distribution range in Australia, as well as regional scale gene flow across south‐eastern Australia by undertaking a comprehensive analysis of the populations in estuaries across the region. We applied genome‐wide sampling of single‐nucleotide polymorphism (SNP) markers generated from restriction site‐associated DNA sequencing. Genetic structure and potential gene flow was assessed using principal component analyses and admixture analyses (STRUCTURE). Using 33,493 SNPs, we detected broad scale genetic structuring, with limited gene flow among regional clusters (i.e. Western Australia, South Australia and western Victoria; and eastern Victoria, Tasmania and New South Wales). This is likely the result of unsuitable habitats, strong ocean currents (e.g. the Leeuwin Current and the East Australian Current), large water bodies (e.g. Bass Strait) and known biogeographical provinces across the continent. Local‐scale genetic structuring was also identified across the south‐eastern Australian estuaries sampled, reflecting that the coexistence of both migratory and resident individuals within populations (i.e. partial migration), and the movement of fish into coastal waters, still results in strong philopatry across the region. Instances of movement among estuaries at this spatial scale were primarily found between adjacent estuaries and were likely attributed to lone migrants utilising inshore coastal currents for movement beyond nearby habitats. Targeting SNP markers in A. butcheri at this continental scale highlighted how neither spatial proximity of estuaries nor black bream's ability to move into coastal waters reflects increased gene flow. Overall, our findings highlight the importance of location‐specific management. [ABSTRACT FROM AUTHOR]

Published

2024

27. The return of Scarface: Philopatry in an ocean wandering shark?

Author

Fontes, Jorge, Schouten, Martijn, Afonso, Pedro, and Macena, Bruno

Subjects

*SHARKS, *PHILOPATRY, *WHITE shark, *WHALE shark, *HAMMERHEAD sharks, *OCEAN

Abstract

This article explores the presence of site fidelity, or philopatry, in blue sharks. While blue sharks are typically known for their wide-ranging movements, this study documents the repeated sightings of two blue sharks at a specific location in the Azores archipelago. The sharks were attracted to the area by local dive operators who regularly provide food. These findings challenge the belief that blue sharks are strictly oceanic wanderers and suggest that they may exhibit some form of site fidelity to predictable feeding areas. The study emphasizes the importance of citizen science and collaboration between scientists and the diving industry in gathering valuable information for the management and conservation of marine migratory species. However, further research using longer-term satellite telemetry is necessary to gain a better understanding of the behavioral ecology of these sharks and its implications for their management and conservation. [Extracted from the article]

Published

2024

28. Future climate‐induced distribution shifts in a sexually dimorphic key predator of the Southern Ocean.

Author

Ouled‐Cheikh, Jazel, March, David, Borras‐Chavez, Renato, Drago, Massimiliano, Goebel, Michael E., Fariña, José M., Gazo, Manel, Coll, Marta, and Cardona, Luis

Subjects

*PREDATORY aquatic animals, *EUPHAUSIA superba, *COLONIES (Biology), *ARTIFICIAL satellite tracking, *HABITAT selection, *SEA ice, *WINTER

Abstract

The response to climate change in highly dimorphic species can be hindered by differences between sexes in habitat preferences and movement patterns. The Antarctic fur seal, Arctocephalus gazella, is the most abundant pinniped in the Southern Hemisphere, and one of the main consumers of Antarctic krill, Euphausia superba, in the Southern Ocean. However, the populations breeding in the Atlantic Southern Ocean are decreasing, partly due to global warming. Male and female Antarctic fur seals differ greatly in body size and foraging ecology, and little is known about their sex‐specific responses to climate change. We used satellite tracking data and Earth System Models to predict changes in habitat suitability for male and female Antarctic fur seals from the Western Antarctic Peninsula under different climate change scenarios. Under the most extreme scenario (SSP5‐8.5; global average temperature +4.4°C projected by 2100), suitable habitat patches will shift southward during the non‐breeding season, leading to a minor overall habitat loss. The impact will be more pronounced for females than for males. The reduction of winter foraging grounds might decrease the survival of post‐weaned females, reducing recruitment and jeopardizing population viability. During the breeding season, when males fast on land, suitable foraging grounds for females off the South Shetland Islands will remain largely unmodified, and new ones will emerge in the Bellingshausen Sea. As Antarctic fur seals are income breeders, the foraging grounds of females should be reasonably close to the breeding colony. As a result, the new suitable foraging grounds will be useful for females only if nearby beaches currently covered by sea ice emerge by the end of the century. Furthermore, the colonization of these new, ice‐free breeding locations might be limited by strong female philopatry. These results should be considered when managing the fisheries of Antarctic krill in the Southern Ocean. [ABSTRACT FROM AUTHOR]

Published

2024

29. Territoriality, breeding philopatry, and nest site selection of Chestnut Seedeater ( Sporophila cinnamomea ) in grasslands of southern Brazil

Author

Jonas Rafael Rodrigues Rosoni, Caio J. Carlos, and Carla Suertegaray Fontana

Subjects

grassland bird, neotropical birds, nest site selection, pampas, philopatry, songbirds, territorial behavior, Zoology, QL1-991, Animal culture, SF1-1100

Abstract

We provide the first insights on the territorial behavior of the Chestnut Seedeater ( Sporophila cinnamomea ), a vulnerable, migratory species inhabiting the Pampas grasslands of South America. Our study aims to describe and estimate territory size, calculate rates of philopatry and breeding dispersal, describe the main aspects of the species’ territorial behavior, and characterize nest sites. Over four breeding seasons (2018–2022), we monitored 70 adult individuals across two grassland areas of southern Brazil. We applied the Kernel Density Estimation method to estimate the territory size and core areas and analyzed the composition and floristic structure of nest sites. The average size of breeding territories was 1.91 ± 0.59 ha, and the core areas were 0.23 ± 0.05 ha. Remarkably, the average size of territories of philopatric males did not significantly vary in consecutive breeding seasons. The breeding philopatry rate was 51.5%. Moreover, we observed no significant differences in dispersion distance among consecutive breeding seasons, suggesting stable breeding site fidelity. Analysis of nest sites identified 14 plant species exhibiting higher abundance, with dense and tall vegetation prevalent. These findings underscore the importance of understanding population dynamics and the composition and structure of vegetation within Chestnut Seedeater nest sites as initial steps toward developing effective management and conservation strategies for their habitats.

Published

2024

30. Geographic source of bats killed at wind-energy facilities in the eastern United States.

Author

Wieringa, Jamin G., Nagel, Juliet, Campbell, C. J., Nelson, David M., Carstens, Bryan C., and Gibbs, H. Lisle

Subjects

BATS, HYDROGEN isotopes, SPECIES distribution, STABLE isotopes, PHILOPATRY, SUMMER

Abstract

Bats subject to high rates of fatalities at wind-energy facilities are of high conservation concern due to the long-term, cumulative effects they have, but the impact on broader bat populations can be difficult to assess. One reason is the poor understanding of the geographic source of individual fatalities and whether they constitute migrants or more local individuals. Here, we used stable hydrogen isotopes, trace elements and species distribution models to determine the most likely summer geographic origins of three different bat species (Lasiurus borealis, L. cinereus, and Lasionycteris noctivagans) killed at wind-energy facilities in Ohio and Maryland in the eastern United States. In Ohio, 41.6%, 21.3%, 2.2% of all individuals of L. borealis, L. cinereus, and L. noctivagans, respectively, had evidence of movement. In contrast, in Maryland 77.3%, 37.1%, and 27.3% of these same species were classified as migrants. Our results suggest bats killed at a given wind facility are likely derived from migratory as well as resident populations. Finally, there is variation in the proportion of migrants killed between seasons for some species and evidence of philopatry to summer roosts. Overall, these results indicate that the impact of wind-energy facilities on bat populations occurs across a large geographic extent, with the proportion of migrants impacted likely to vary across species and sites. Similar studies should be conducted across a broader geographic scale to understand the impacts on bat populations from wind-energy facilities. [ABSTRACT FROM AUTHOR]

Published

2024

31. Whole mitochondrial genome sequencing provides new insights into the phylogeography of loggerhead turtles (Caretta caretta) in the Mediterranean Sea.

Author

Tolve, Livia, Iannucci, Alessio, Garofalo, Luisa, Ninni, Andrea, Capobianco Dondona, Andrea, Ceciarini, Ilaria, Cocumelli, Cristiano, De Lucia, Alessandra, Falconi, Mattia, Formia, Angela, Iacovelli, Federico, Mancusi, Cecilia, Marchiori, Erica, Marsili, Letizia, Mingozzi, Toni, Nannarelli, Stefano, Natali, Chiara, Terracciano, Giuliana, Zuffi, Marco A. L., and Novelletto, Andrea

Subjects

*LOGGERHEAD turtle, *WHOLE genome sequencing, *NUCLEOTIDE sequencing, *POPULATION genetics, *PHILOPATRY, *PHYLOGEOGRAPHY

Abstract

Population structure and phylogeography of the loggerhead sea turtle (Caretta caretta) have so far been assessed mainly by mitochondrial DNA (mtDNA) single-gene sequencing studies. However, phylogenetic relationships amongst matrilines, genetic characterisation of rookeries and mixed-stock analyses have suffered from the limited resolution obtained by comparison of relatively short sequences such as from the mtDNA control region. Whole mitogenome sequencing can significantly improve population genetics, particularly in marine organisms showing female natal philopatry. Despite mitogenomics becoming increasingly common in biodiversity monitoring and conservation, only a few complete mitogenomes are available for C. caretta. In this study, we sequenced the complete mtDNA of 61 loggerhead turtles sampled between 2008 and 2021 along the Italian coastline and central Mediterranean Sea. We assigned complete mtDNA haplotypes to dead embryos and bycatch samples, and introduced a first nomenclature for loggerhead mitogenomes. Analysis of mtDNA diversity, Maximum Parsimony and Bayesian phylogenetic reconstruction allowed improved resolution of lineages with respect to studies reporting on partial mtDNA control region sequence comparisons, and we were able to further inform previous analyses on loggerhead ancestry based on control region haplogroups. Overall, whole mitogenome analysis has potential for considerable improvement of evolutionary history and phylogeographic investigations as well as mixed-stock surveys of loggerhead turtles. [ABSTRACT FROM AUTHOR]

Published

2024

32. Longer holding times decrease dispersal but increase mortality of translocated scaled quail.

Author

Ruzicka, Rebekah E., Rollins, Dale, Doherty, Paul F., and Kendall, William L.

Subjects

*QUAILS, *FRAGMENTED landscapes, *MORTALITY, *PHILOPATRY, *SQUAMATA

Abstract

Scaled quail (Callipepla squamata) decline caused by habitat loss and fragmentation increased interest in translocation to reestablish populations. Yet factors determining translocation success are poorly understood. We tested hypotheses concerning the influence of source population and variation in delayed release strategy (1–9 weeks) on mortality and dispersal of wild‐caught, translocated scaled quail. We trapped and translocated quail from 2016–2017 from source populations in the Edwards Plateau and Rolling Plains ecoregions to a large contiguous (>40,000 ha) release site in Knox County, Texas, USA. We evaluated mortality and dispersal of translocated females as a function of source population, holding time prior to release, age, release location, and year using a multi‐state mark‐recapture model with state uncertainty. Scaled quail translocated within the Rolling Plains were more likely to exhibit philopatry to the release site. Quail with longer holding times had higher mortality but lower dispersal rates. The Edwards Plateau is a suitable source site for translocation in the Rolling Plains. The reduced dispersal but higher mortality of translocated scaled quail associated with longer holding times creates a decision tradeoff for managers. [ABSTRACT FROM AUTHOR]

Published

2024

33. Conservation Genetics of the Loggerhead Sea Turtle, Caretta caretta , from the Central Mediterranean: An Insight into the Species' Reproductive Behaviour in Maltese Waters.

Author

Vella, Adriana and Vella, Noel

Subjects

*LOGGERHEAD turtle, *ANIMAL sexual behavior, *SCIENTIFIC knowledge, *CONSERVATION genetics, *MOLECULAR genetics

Abstract

Simple Summary: This work represents the first scientific study using genetic markers to better understand the reproductive behaviour of the loggerhead sea turtle from the Central Mediterranean through dead hatchlings and undeveloped dead embryos collected from recorded nesting sites between 2020 and 2022. Data generated from the genetically analysed specimens were used for parentage analyses. Results of this research show that some turtles laid more than one nest within the same nesting season while we also detected an instance of multiple paternity. These findings contribute to a better understanding of the biology of the species in Maltese waters, which is a requirement for effective conservation management. Loggerhead sea turtle, Caretta caretta (Linnaeus, 1758), nestlings were investigated through specimens found dead either after hatching or unhatched (n = 120) from eight nests around the Maltese islands (Central Mediterranean). Molecular genetics was used to conduct maternity and paternity tests of the collected specimens utilizing expanded mitochondrial DNA sequences from the control region (858 bp) and 25 microsatellite loci (12 dinucleotide loci and 13 tetranucleotide loci). Mitochondrial data produced two haplotypes, CC-A2.1 and CC-A3.1, with the most common haplotype being present in seven nests. Microsatellite data revealed the identity of six different females that were involved in the deposition of the eggs in the eight turtle nests analysed. This confirms that two females laid multiple nests. Additionally, microsatellite data allowed for the determination of multiple paternity, with one clutch being sired by two fathers. These results are useful for monitoring the genetic diversity of loggerhead sea turtle nestlings and of the turtle mothers and fathers contributing to future turtle offspring, which rely on Maltese sandy beaches for their successful start to life. Effective conservation management benefits from merging scientific knowledge with effective measures at potential nesting sites to avoid losses of nestlings caused by human negligence. [ABSTRACT FROM AUTHOR]

Published

2024

34. Population genetic structure associated with a landscape barrier in the Western Grasswren (Amytornis textilis textilis).

Author

Gibson Vega, Aline, Hall, Michelle L., Ridley, Amanda, Cowen, Saul J., Slender, Amy L., Burbidge, Allan H., Louter, Marina, and Kennington, W. Jason

Subjects

GENE flow, SINGLE nucleotide polymorphisms, GENETIC variation, POPULATION genetics, LANDSCAPES, PHILOPATRY

Abstract

Dispersal patterns can dictate genetic population structure and, ultimately, population resilience, through maintaining gene flow and genetic diversity. However, geographical landforms, such as peninsulas, can impact dispersal patterns and thus be a barrier to gene flow. Here, we use 13 375 genome‐wide single‐nucleotide polymorphisms (SNPs) to evaluate genetic population structure and infer dispersal patterns of the Western Grasswren Amytornis textilis textilis (WGW, n = 140) in the Shark Bay region of Western Australia. We found high levels of genetic divergence between subpopulations on the mainland (Hamelin) and narrow peninsula (Peron). In addition, we found evidence of further genetic sub‐structuring within the Hamelin subpopulation, with individuals collected from the western and eastern regions of a conservation reserve forming separate genetic clusters. Spatial autocorrelation analysis within each subpopulation revealed significant local‐scale genetic structure up to 35 km at Hamelin and 20 km at Peron. In addition, there was evidence of male philopatry in both subpopulations. Our results suggest a narrow strip of land may be acting as a geographical barrier in the WGW, limiting dispersal between a peninsula and mainland subpopulation. In addition, heterogeneous habitat within Hamelin may be restricting dispersal at the local scale. Furthermore, there is evidence to suggest that the limited gene flow is asymmetrical, with directional dispersal occurring from the bounded peninsula subpopulation to the mainland. This study highlights the genetic structure existing within and between some of the few remaining WGW subpopulations, and shows a need to place equal importance on conservation efforts to maintain them in the future. [ABSTRACT FROM AUTHOR]

Published

2024

35. Three brown frog species in Denmark have different abilities to colonise new ponds.

Author

Fog, Kåre

Subjects

FROGS, MOOR frog, RANA dalmatina, RANA temporaria, REPTILES

Abstract

For 29 consecutive years, the populations of three species of brown frogs, Rana arvalis, R. dalmatina and R. temporaria, were monitored in an open area in South Zealand, Denmark, with no direct influence of agriculture. Population sizes were recorded by counting egg clumps and showed large variations from year to year. The total population of R. arvalis differed by a factor of 100 between the years with the lowest and the highest numbers. A total of 19 initially unoccupied suitable waterbodies could potentially be colonised by the frogs. Rana dalmatina colonised all of the ponds, mostly in the very first year of existence. Rana arvalis colonised 17 ponds after an average of 10.5 years. Rana temporaria colonised eight ponds after an average of 13.4 years. Colonisation by R. dalmatina was independent of changes in total population size, whereas colonisation by R. arvalis predominantly occurred in years with considerable population increases. The results are discussed in relation to the movement patterns and philopatry of juvenile frogs of the three species. Juvenile R. dalmatina disperse far from the breeding site, but most individuals return to their natal site. This allows the species to be an efficient coloniser of new waterbodies and, at the same time, to have stable occurrence at the original site. The two other species show a more erratic type of dispersal and especially R. temporaria often shifts breeding site from year to year. [ABSTRACT FROM AUTHOR]

Published

2024

36. Climate Change Habitat Model Forecasts for Eight Owl Species in the Southwestern US.

Author

Cartron, Jean-Luc E., Triepke, F. Jack, Stahlecker, Dale W., Arsenault, David P., Ganey, Joseph L., Hathcock, Charles D., Thompson, Hunter K., Cartron, Matthieu C., and Calhoun, Kenneth C.

Subjects

*CLIMATE change models, *BIRD populations, *PHILOPATRY, *OWLS, *MOUNTAIN forests, *BIRD migration, *SPECIES

Abstract

Simple Summary: We used pre-1990 climate envelopes and an ecosystem vulnerability model to forecast shifts in the extent of breeding habitats for eight owl species occurring in montane woodlands and forests of the southwestern US. For five of the eight species, the regional habitat extent was projected to decline by at least 60% by 2090. The steepest rates of habitat loss were predicted for the boreal owl (Aegolius funereus) and the flammulated owl (Psiloscops flammeolus). The boreal owl, which is absent in Arizona and at the trailing edge of its distribution in New Mexico, was projected to retain only about 15% of its mapped regional habitat by 2090. Generalist and lower-elevation owl species fared better in our model predictions, while the whiskered screech-owl (Megascops trichopsis) habitat was projected to contract locally yet expand to the north. The results of this study suggest high exposure to climate change impacts for Southwestern North America's upper-elevation owls. Long-distance migration and low philopatry may prove important to some montane owl populations in adapting to the regional loss of montane woodland and forest habitats. The high-resolution forecasting of vegetation type shifts may prove essential in anticipating and mitigating the impacts of future climate change on bird populations. Here, we used the US Forest Service Ecological Response Unit (ERU) classification to develop and assess vegetation-based breeding habitat profiles for eight owl species occurring in the foothills and mountains of the Southwestern US. Shifts in mapped habitat were forecast using an ecosystem vulnerability model based on the pre-1990 climate envelopes of ERUs and the Intergovernmental Panel on Climate Change's (IPCC) A1B moderate-emission scenario for the future climate. For five of the eight owl species, the regional breeding habitat extent was projected to decline by at least 60% by 2090. Three species, the boreal owl (Aegolius funereus; at the trailing edge of its distribution), flammulated owl (Psiloscops flammeolus), and northern pygmy-owl (Glaucidium gnoma), were projected to experience the steepest habitat loss rates of 85%, 85%, and 76%, respectively. Projected vegetation shifts overlaid with well-documented flammulated owl breeding populations showed the complete or near complete loss of habitat by 2090 in areas of montane forest currently supporting dense aggregations of owl territories. Generalist or lower-elevation owl species were predicted to be less impacted, while, for the whiskered screech-owl (Megascops trichopsis), the contraction of the current habitat was nearly offset by a projected northward expansion. In general, the results of this study suggest high exposure to climate change impacts for the upper-elevation forest owls of semi-arid Southwestern North America. Long-distance migration and low natal philopatry may prove important to some montane owl populations in adapting to the regional loss of habitat. [ABSTRACT FROM AUTHOR]

Published

2023

37. Imitation of Novel Intransitive Body Actions in a Beluga Whale (Delphinapterus leucas): A "Do as Other Does" Study.

Author

Zamorano-Abramson, José and Hernández-Lloreda, María Victoria

Subjects

*MARINE mammals, *DOLPHINS, *IMITATIVE behavior, *WHITE whale, *PHILOPATRY, *RARE animals, *SOCIAL learning

Abstract

Simple Summary: Cetaceans, including beluga whales, are known for their unique habits and behaviors that they display within their social groups, such as group-specific tactics or vocalizations. One of the questions that has attracted the attention of researchers is whether these behaviors are learned socially, i.e., from other members of their group. In this study, we investigate the ability of a young beluga to learn and reproduce new behaviors by observing another beluga perform them. The beluga was trained to respond to the command "Do this" so that it would imitate what it had observed in another beluga whale. The results show how it was able to copy both familiar behaviors (known and previously performed) and novel behaviors (actions it had never seen or performed before) in response to the "copy" signal. This study is the first evidence of this "true imitation" (copying novel actions) ability in this species and shows that these animals can acquire new skills through this process. This ability, which is quite rare in the animal kingdom, helps us to understand how these marine mammals survive and thrive in their natural habitats and how they pass on vital information about where to live, migrate, and find food. Cetaceans are well known for their unique behavioral habits, such as calls and tactics. The possibility that these are acquired through social learning continues to be explored. This study investigates the ability of a young beluga whale to imitate novel behaviors. Using a do-as-other-does paradigm, the subject observed the performance of a conspecific demonstrator involving familiar and novel behaviors. The subject: (1) learned a specific 'copy' command; (2) copied 100% of the demonstrator's familiar behaviors and accurately reproduced two out of three novel actions; (3) achieved full matches on the first trial for a subset of familiar behaviors; and (4) demonstrated proficiency in coping with each familiar behavior as well as the two novel behaviors. This study provides the first experimental evidence of a beluga whale's ability to imitate novel intransitive (non-object-oriented) body movements on command. These results contribute to our understanding of the remarkable ability of cetaceans, including dolphins, orcas, and now beluga whales, to engage in multimodal imitation involving sounds and movements. This ability, rarely documented in non-human animals, has significant implications for the development of survival strategies, such as the acquisition of knowledge about natal philopatry, migration routes, and traditional feeding areas, among these marine mammals. [ABSTRACT FROM AUTHOR]

Published

2023

38. Livin' la vida local: philopatry results in consistent patterns of annual space use in a long‐lived lizard.

Author

Stalker, J. B., Jones, J. L., Hromada, S. J., Nussear, K. E., Vandergast, A. G., Wood, D. A., Tracy, C. R., and Gienger, C. M.

Subjects

*PHILOPATRY, *LIZARDS, *SAMPLE size (Statistics), *TELEMETRY

Abstract

For animals exhibiting range residency, the home range is a useful framework to quantify space use. Some reptiles can live decades in the wild and experience extreme environmental variation that influences patterns of habitat use. Individuals may modify their use of space over time, reducing the utility of single‐year home range estimates. Very high frequency (VHF) telemetry data were collected for Gila monsters (Heloderma suspectum) at three Mojave Desert sites in Clark County, Nevada, and home range utilization distributions were calculated using an autocorrelated kernel density estimator. Home range size was consistent within individuals and populations, and home range size did not vary across years at any site. To measure home range fidelity (year‐to‐year reuse), we calculated Bhattacharyya's coefficient (BC) for each combination of years in which an individual was tracked and averaged estimates across individuals and populations. The average BC score was 0.86 (scale from 0 to 1; 0 = no overlap and 1 = complete overlap) and did not vary among populations. We modeled home range area accumulation to estimate the minimum sample size needed for asymptotic stability and found home range accumulation to be dynamic and variable within and across years and individuals. Analysis of the frequency of movement by individuals, average distance traveled per movement, and cumulative distance traveled per active season revealed that movement patterns vary considerably by year. Heterogeneity of space use among populations and individuals suggests that individual and local environmental variation, rather than annual variation in resource availability, may drive home range size and movement patterns of Gila monsters in southern Nevada. Annual variability in movement patterns did not translate to variability in home range size or location, and the species exhibits extremely high philopatry, using the same areas for periods of at least 3–5 years. [ABSTRACT FROM AUTHOR]

Published

2023

39. Direct and indirect estimates of dispersal support strong juvenile philopatry and male‐biased dispersal in a freshwater turtle species (Emys orbicularis).

Author

Fay, Rémi, Ficheux, Sébastien, Béchet, Arnaud, Besnard, Aurélien, Crochet, Pierre‐André, Leblois, Raphaël, Crivelli, Alain, Wattier, Rémi, and Olivier, Anthony

Subjects

*TURTLES, *PHILOPATRY, *TURTLE populations, *EMYDIDAE, *POPULATION genetics, *FRESHWATER algae

Abstract

Dispersal has major impacts on population dynamics, population genetics and evolution, and also is critical for population management and conservation. Dispersal is frequently sex‐ and age‐specific, but current knowledge is strongly taxonomically biased toward birds and mammals.Here, we provide estimates of dispersal in a threatened freshwater turtle species, the European pond turtle Emys orbicularis. Based on 15 years of capture‐mark‐recapture (CMR) monitoring and DNA samples from 194 individuals, we quantified both demographic and genetic dispersal between three sites separated by 1.5–3.5 km. We also investigated the effect of age and sex on dispersal.Direct (CMR) and indirect (genetic) approaches provided consistent results, showing that the studied sites are connected with a flow of about one to three dozen migrants per generation. Dispersal was both age‐ and sex‐biased in this species, with frequent dispersal of adult males and a strong philopatry of juveniles (of both sexes) and adult females.The network of canals and marshes allow effective dispersal to occur among the three study sites despite the relatively large distance separating them (≤3.5 km).The strong philopatry of juveniles contrasts with the frequently higher dispersal rate in young birds and mammals and shows the relevance of investigating dispersal in various taxonomic groups. Our results provide useful information for the conservation of European pond turtle populations. [ABSTRACT FROM AUTHOR]

Published

2023

40. Patterns of nest-site selection by Colletes thoracicus within a forested watershed.

Author

Ulyshen, Michael, Traylor, Clayton R., and Danforth, Bryan N.

Abstract

Despite the importance of suitable nesting habitat for bee conservation, the nesting requirements of most species remain unknown. We sought to better understand the distribution of Colletes thoracicus Smith (Hymenoptera: Colletidae) nesting aggregations within a forested watershed in GA, USA. We found 13 and 17 aggregations within the watershed in 2022 and 2023, respectively, and seven of these occurred at the same locations between years. The aggregations were found exclusively along the banks of stream channels and, compared to randomly selected non-aggregation sites, were associated with sandier and drier soil and with the presence of the herbaceous perennial, Podophyllum peltatum L. We suggest that the association with P. peltatum may result from favorable disturbances to the litter layer caused by the springtime emergence of the plant. Our results demonstrate that closed-canopy forests, and especially the sandier soils bordering streams, can provide suitable nesting sites for C. thoracicus and possibly other ground-nesting bee species. [ABSTRACT FROM AUTHOR]

Published

2023

41. Snowy Owls in central North America have regular migration and high philopatry to wintering sites though not always to home ranges.

Author

Wiebe, Karen L., Bidwell, Mark T., and McCabe, Rebecca A.

Abstract

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Published

2023

42. Strong philopatry in an estuarine‐dependent fish

Author

Koster G. Sarakinis, Patrick Reis‐Santos, Stephen C. Donnellan, Qifeng Ye, Jason Earl, and Bronwyn M. Gillanders

Subjects

Acanthopagrus butcheri, Australia, gene flow, philopatry, population structure, single‐nucleotide polymorphisms, Ecology, QH540-549.5

Abstract

Abstract Understanding fish movement is critical in determining the spatial scales in which to appropriately manage wild populations. Genetic markers provide a natural tagging approach to assess the degree of gene flow and population connectivity across a species distribution. We investigated the genetic structure of black bream Acanthopagrus butcheri across its entire distribution range in Australia, as well as regional scale gene flow across south‐eastern Australia by undertaking a comprehensive analysis of the populations in estuaries across the region. We applied genome‐wide sampling of single‐nucleotide polymorphism (SNP) markers generated from restriction site‐associated DNA sequencing. Genetic structure and potential gene flow was assessed using principal component analyses and admixture analyses (STRUCTURE). Using 33,493 SNPs, we detected broad scale genetic structuring, with limited gene flow among regional clusters (i.e. Western Australia, South Australia and western Victoria; and eastern Victoria, Tasmania and New South Wales). This is likely the result of unsuitable habitats, strong ocean currents (e.g. the Leeuwin Current and the East Australian Current), large water bodies (e.g. Bass Strait) and known biogeographical provinces across the continent. Local‐scale genetic structuring was also identified across the south‐eastern Australian estuaries sampled, reflecting that the coexistence of both migratory and resident individuals within populations (i.e. partial migration), and the movement of fish into coastal waters, still results in strong philopatry across the region. Instances of movement among estuaries at this spatial scale were primarily found between adjacent estuaries and were likely attributed to lone migrants utilising inshore coastal currents for movement beyond nearby habitats. Targeting SNP markers in A. butcheri at this continental scale highlighted how neither spatial proximity of estuaries nor black bream's ability to move into coastal waters reflects increased gene flow. Overall, our findings highlight the importance of location‐specific management.

Published

2024

43. Movement, Habitat Selection, and Home Range of American Marsupials

Author

Cáceres, Nilton C., Delciellos, Ana C., Prevedello, Jayme A., Brum, Mariana N., Albanese, M. Soledad, Cáceres, Nilton, Section editor, Cáceres, Nilton C., editor, and Dickman, Christopher R., editor

Published

2023

44. Molecular Ecology in Neotropical Mammals: Key Aspects for Conservation

Author

Saranholi, Bruno H., Gestich, Carla C., de Oliveira, Marina E., and Galetti Jr., Pedro M., editor

Published

2023

45. Genomic evidence indicates small island-resident populations and sex-biased behaviors of Hawaiian reef Manta Rays

Author

Jonathan L. Whitney, Richard R. Coleman, and Mark H. Deakos

Subjects

Hawaiian Islands, Philopatry, Devil rays, Genetic connectivity, Genomics, Mitogenome, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background Reef manta rays (Mobula alfredi) are globally distributed in tropical and subtropical seas. Their life history traits (slow growth, late maturity, low reproductive output) make them vulnerable to perturbations and therefore require informed management strategies. Previous studies have reported wide-spread genetic connectivity along continental shelves suggesting high gene flow along continuous habitats spanning hundreds of kilometers. However, in the Hawaiian Islands, tagging and photo-identification evidence suggest island populations are isolated despite proximity, a hypothesis that has not yet been evaluated with genetic data. Results This island-resident hypothesis was tested by analyzing whole mitogenome haplotypes and 2048 nuclear single nucleotide polymorphisms (SNPs) between M. alfredi (n = 38) on Hawaiʻi Island and Maui Nui (the 4-island complex of Maui, Molokaʻi, Lānaʻi and Kahoʻolawe). Strong divergence in the mitogenome (Φ ST = 0.488) relative to nuclear genome-wide SNPs (neutral F ST = 0.003; outlier F ST = 0.186), and clustering of mitochondrial haplotypes among islands provides robust evidence that female reef manta rays are strongly philopatric and do not migrate between these two island groups. Combined with restricted male-mediated migration, equivalent to a single male moving between islands every 2.2 generations (~ 64 years), we provide evidence these populations are significantly demographically isolated. Estimates of contemporary effective population size (N e ) are 104 (95% CI: 99–110) in Hawaiʻi Island and 129 (95% CI: 122–136) in Maui Nui. Conclusions Concordant with evidence from photo identification and tagging studies, these genetic results indicate reef manta rays in Hawaiʻi have small, genetically-isolated resident island populations. We hypothesize that due to the Island Mass Effect, large islands provide sufficient resources to support resident populations, thereby making crossing deep channels separating island groups unnecessary. Small effective population size, low genetic diversity, and k-selected life history traits make these isolated populations vulnerable to region-specific anthropogenic threats, which include entanglement, boat strikes, and habitat degradation. The long-term persistence of reef manta rays in the Hawaiian Islands will require island-specific management strategies.

Published

2023

46. Transmission of social status drives cooperation and offspring philopatry.

Author

Rodrigues, António M. M. and Gardner, Andy

Subjects

*SOCIAL status, *PHILOPATRY, *SOCIAL classes, *COOPERATION, *ANIMAL societies, *SOCIAL groups

Abstract

The evolution of cooperation depends on two crucial overarching factors: relatedness, which describes the extent to which the recipient shares genes in common with the actor; and quality, which describes the recipient's basic capacity to transmit genes into the future. While most research has focused on relatedness, there is a growing interest in understanding how quality modulates the evolution of cooperation. However, the impact of inheritance of quality on the evolution of cooperation remains largely unexplored, especially in spatially structured populations. Here, we develop a mathematical model to understand how inheritance of quality, in the form of social status, influences the evolution of helping and harming within social groups in a viscous-population setting. We find that: (1) status-reversal transmission, whereby parental and offspring status are negatively correlated, strongly inhibits the evolution of cooperation, with low-status individuals investing less in cooperation and high-status individuals being more prone to harm; (2) transmission of high status promotes offspring philopatry, with more cooperation being directed towards the higher-dispersal social class; and (3) fertility inequality and inter-generational status inheritance reduce within-group conflict. Overall, our study highlights the importance of considering different mechanisms of phenotypic inheritance, including social support, and their potential interactions in shaping animal societies. [ABSTRACT FROM AUTHOR]

Published

2023

47. Genetic evidence for plastic reproductive philopatry and matrotrophy in blacktip reef sharks (Carcharhinus melanopterus) of the Moorea Island (French Polynesia).

Author

Eustache, Kim B., Boissin, Émilie, Tardy, Céline, Bouyoucos, Ian A., Rummer, Jodie L., and Planes, Serge

Subjects

*SHARKS, *PHILOPATRY, *ANIMAL sexual behavior, *MICROSATELLITE repeats, *GENETIC markers, *PARTURITION

Abstract

The exploitation of sharks and the degradation of their habitats elevate the urgency to understand the factors that influence offspring survival and ultimately shark reproductive success. We monitored and sampled blacktip reef sharks (Carcharhinus melanopterus) in nursery habitats of Moorea Island (French Polynesia), to improve knowledge on shark reproductive behavior and biology. We sampled fin clips and morphometrics from 230 young-of-the-year sharks and used microsatellite DNA markers to process parentage analysis to study the reproductive philopatric behavior in female sharks and the matrotrophy within litters. These traits are driving the success of the local replenishment influencing selection through birth site and maternal reserves transmitted to pups. Parentage analysis revealed that some female sharks changed their parturition areas (inter-seasonally) while other female sharks came back to the same site for parturition, providing evidence for a plastic philopatric behavior. Morphometrics showed that there was no significant relationship between body condition indices and nursery locations. However, similarities and differences in body condition were observed between individuals sharing the same mother, indicating that resource allocation within some shark litters might be unbalanced. Our findings further our understanding of the reproductive biology and behavior that shape shark populations with the aim to introduce these parameters into future conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2023

48. Estimating the genetic diversity and potential influence of habitat segregation in Channel Catfish.

Author

Janzen, Francesco H. and Blouin‐Demers, Gabriel

Abstract

Objective: Individual habitat preference can reduce intraspecific competition for resources and may differ between age groups, sexes, and adult phenotypes. The Channel Catfish Ictalurus punctatus is a widespread species occurring in diverse freshwater habitats. This species displays breeding philopatry, returning to nesting sites occupied in previous years. Larger Channel Catfish tend to nest in the main channels of large rivers, whereas smaller fish tend to prefer smaller tributaries. The purpose of our study was to determine whether this habitat segregation potentially associated with habitat preference affects the genetic structure of a population. We hypothesized that spatial segregation of breeding sites in the Ottawa River and its smaller tributaries at Lac des Chats reduced gene flow within the population, resulting in genetically differentiated demes associated with lacustrine‐like and fluvial habitats. Methods: Microsatellite allelic data was collected from 162 Channel Catfish. Result: We found little genetic variation between the Ottawa, Mississippi, and Madawaska rivers. Furthermore, our analyses suggested that the sampled specimens comprised one panmictic population. Fish from one site in the Ottawa River, however, were significantly differentiated from fish from a nearby site also in the Ottawa River as well as from fish from the Mississippi River tributary. Conclusion: Given that fish from sites further up the Ottawa River were not differentiated from fish from these sites, it is unlikely that geography can account for the differences observed; rather, assortative mating may explain the differentiation. We propose that panmixia within the population is caused by ontogenetic changes in habitat selection, straying individuals, or sex‐biased dispersal and philopatry. Impact statementHabitat segregation of breeding Channel Catfish populations does not translate into genetic isolation of lacustrine‐like and fluvial subpopulations, improving our understanding of gene flow. Ottawa River catfish are as genetically diverse as wild American populations and more diverse than domestic stocks. [ABSTRACT FROM AUTHOR]

Published

2023

49. Female Diamond Rays Gymnura natalensis and Bull Rays Aetomylaeus bovinus Display Seasonal Philopatry to South African Estuaries.

Author

Elston, Chantel, Murray, Taryn S., Parkinson, Matthew C., Filmalter, John D., and Cowley, Paul D.

Subjects

PHILOPATRY, ESTUARIES, ACOUSTIC receivers, DIAMONDS, SPRING, SEASONS

Abstract

Many ray species are threatened with extinction, and so understanding their movement and habitat use is vital for developing effective management and conservation efforts. Globally, rays are known to rely on estuarine habitats, but estuary use by rays has not yet been investigated in South Africa. Thirty-three diamond rays Gymnura natalensis and 25 bull rays Aetomylaeus bovinus, both species anecdotally recorded to occur in estuaries, were acoustically tagged. Individuals were tracked using a nation-wide network of receivers in South Africa, the Acoustic Tracking Array Platform (ATAP), that has acoustic receivers in both marine and estuarine environments. Only six rays (4 diamond and 2 bull rays) were recorded using estuaries, but they displayed seasonal philopatry, returning to specific estuaries during spring to autumn months (September to May) for up to 6 consecutive years. Due to a number of rays entering the Breede Estuary, the fine-scale habitat use in this ecosystem was investigated. Marine-estuarine connectivity was significantly influenced by marine temperatures. Additionally, presence in the upper parts of the Breede Estuary (up to 17 km from the mouth) was influenced by temperature, tides and time of day. Findings suggest estuaries are an important, and previously overlooked, habitat type for a portion of the diamond and bull ray populations on the south coast of South Africa, which has management and conservation implications. [ABSTRACT FROM AUTHOR]

Published

2023

50. Extinction of lizards in Sri Lanka's geographically isolated locations.

Author

Dayananda, Buddhi, Surasinghe, Thilina, Karunarathna, Suranjan, Madurapperuma, Buddhika, and Lin Zhang

Subjects

*LIZARD populations, *CLIMATE change, *GLOBAL warming, *BIOLOGICAL extinction

Abstract

Climate warming is projected to drive the extinction of approximately one-fifth of the world's lizard species within the next 60 years (by 2080). However, it remains unclear to what extent and how the global lizard population will be affected by this phenomenon on a geographical scale. Furthermore, there is a need to establish a connection between extinction risk and the prioritization of conservation efforts. In this context, we aim to address concerns related to geographically isolated and critically small lizard populations, highlighting why they face an exceptionally high risk of extinction. We also explore the potential for entire populations to vanish without notice. A comprehensive understanding of these factors is essential to inform the prioritization of conservation initiatives aimed at safeguarding lizard populations in tropical countries under future climate change scenarios. [ABSTRACT FROM AUTHOR]

Published

2023