scholarly journals Intact landscape promotes gene flow and low genetic structuring in the threatened Eastern Massasauga Rattlesnake

2021 ◽  
Author(s):  
Nathan Kudla ◽  
Eric M. McCluskey ◽  
Vijay Lulla ◽  
Ralph Grundel ◽  
Jennifer A. Moore
Keyword(s):  
Gene Flow ◽  
Genetic Structuring ◽  
Eastern Massasauga Rattlesnake

scholarly journals Genetic Structuring Among Migratory Populations of the Black-Whiskered Vireo, with a Comparison to the Red-Eyed Vireo

The Condor ◽  
2001 ◽  
Vol 103 (3) ◽  
pp. 439-448
Author(s):  
Patrick W. Zwartjes
Keyword(s):  
Puerto Rico ◽  
Gene Flow ◽  
Random Amplified Polymorphic Dna ◽  
Florida Keys ◽  
The United States ◽  
Genetic Structuring ◽  
Vireo Olivaceus ◽  
La Florida ◽  
Southern Florida ◽  
Los Grupos

AbstractThe Black-whiskered Vireo (Vireo altiloquus) breeds from coastal southern Florida in the United States through the islands of the West Indies, and thus consists of several populations separated by large regions of uninhabitable space. I examined genetic variation within and among six migratory populations in the Florida Keys, Jamaica, and Puerto Rico, using random amplified polymorphic DNA (RAPD) markers and analysis of molecular variance (AMOVA). Calculations of variance components revealed that over 90% of the variance was among individuals; a significant portion also occurred among regional groups (Florida, Jamaica, and Puerto Rico). Variance between subpopulations within the regional groups was not significantly different from zero. This contrasts with the closely related Red-eyed Vireo (V. olivaceus) of continental North America, in which analyses of three widely separate geographic localities revealed that over 99% of the genetic variance was among individuals, with no significant variance detectable among localities. The greatest differences in V. altiloquus were detected between the Florida Keys populations and the populations from Jamaica and Puerto Rico; the latter two showed no significant differentiation. Estimates of gene flow from the AMOVA analog to Wright's F-statistics suggest that there is enough gene flow among regions to prevent differentiation by genetic drift. Although not strongly isolated, the Florida population of V. altiloquus is sufficiently differentiated to suggest reduced genetic exchange with the populations on Puerto Rico and Jamaica.Estructura Genética entre Poblaciones Migratorias de Vireo altiloquus con una Comparación con Vireo olivaceusResumen. Vireo altiloquus se reproduce desde la costa del sur de la Florida en los Estados Unidos hasta las islas de las Antillas, y por lo tanto presenta varias poblaciones separadas por extensas regiones de espacio no habitable. Examiné la variación genética dentro y entre seis poblaciones migratorias en los Cayos de la Florida, en Jamaica y en Puerto Rico, usando marcadores polimórficos de ADN amplificados al azar (RAPD) y análisis de varianza molecular (AMOVA). Los cálculos de los componentes de la varianza indicaron que más del 90% de la varianza se presentó entre individuos; una porción significativa también estuvo presente entre los grupos regionales (Florida, Jamaica y Puerto Rico). La varianza entre subpoblaciones dentro de grupos regionales no fue significativamente diferente de cero. Esto contrasta con los resultados para V. olivaceus de Norteamérica continental, donde los análisis de tres localidades alejadas revelaron que más del 99% de la varianza genética se registró entre individuos, sin varianza significativa detectable entre localidades. Las mayores diferencias en V. altiloquus fueron detectadas entre las poblaciones de los Cayos de la Florida y las poblaciones de Jamaica y Puerto Rico; las últimas dos no mostraron diferencias significativas. Las estimaciones de flujo génico a partir del AMOVA, análogo al estadístico F de Wright, sugieren que hay suficiente flujo génico entre las regiones para evitar diferenciación por deriva génica. Aunque no está muy aislada, la poblacion de V. altiloquus de la Florida se diferencia lo suficiente como para sugerir un intercambio génico reducido con las poblaciones de Puerto Rico y Jamaica.

scholarly journals Genetic Structure and Gene Flow in Red Foxes (Vulpes vulpes) in Scandinavia: Implications for the Potential Future Spread of Echinococcus multilocularis Tapeworm

2019 ◽  
Vol 9 (24) ◽  
pp. 5289
Author(s):  
Mari Hagenlund ◽  
Arne Linløkken ◽  
Kjartan Østbye ◽  
Zea Walton ◽  
Morten Odden ◽  
...  
Keyword(s):  
Gene Flow ◽  
Population Ecology ◽  
Wildlife Management ◽  
Echinococcus Multilocularis ◽  
Vulpes Vulpes ◽  
Red Fox ◽  
Emerging Diseases ◽  
Red Foxes ◽  
Genetic Structuring ◽  
High Level

Knowledge about the dispersal and gene flow patterns in wild animals are important for our understanding of population ecology and the connectedness of populations. It is also important for management relating to disease control and the transmission of new and emerging diseases. Our study aimed to evaluate the genetic structuring among comparative samples of red foxes in a small part of Scandinavia and to estimate the gene flow and potential directionality in the movements of foxes using an optimized set of microsatellite markers. We compared genetic samples of red foxes (Vulpes vulpes) from two areas in Sweden and two areas in Norway, including red fox samples from areas where the occurrence of the cyclophyllic tapeworm Echinococcus multilocularis has been documented, and areas without known occurrence of the parasite. Our results show a high level of gene flow over considerable distances and substantiates migration from areas affected with E. multilocularis into Norway where the parasite is not yet detected. The results allow us to better understand the gene flow and directionality in the movement patterns of red foxes, which is important for wildlife management authorities regarding the spread of E. multilocularis.

Weak genetic structuring suggests historically high genetic connectivity among recently fragmented urban populations of the scincid lizard, Ctenotus fallens

2015 ◽  
Vol 63 (4) ◽  
pp. 279 ◽  
Author(s):  
Josef Krawiec ◽  
Siegfried L. Krauss ◽  
Robert A. Davis ◽  
Peter B. S. Spencer
Keyword(s):  
Genetic Diversity ◽  
Gene Flow ◽  
Large Population ◽  
Geographic Distance ◽  
Genetic Erosion ◽  
Genetic Connectivity ◽  
Genetic Structuring ◽  
Low Genetic Diversity ◽  
Population Sizes

Populations in fragmented urban remnants may be at risk of genetic erosion as a result of reduced gene flow and elevated levels of inbreeding. This may have serious genetic implications for the long-term viability of remnant populations, in addition to the more immediate pressures caused by urbanisation. The population genetic structure of the generalist skink Ctenotus fallens was examined using nine microsatellite markers within and among natural vegetation remnants within a highly fragmented urban matrix in the Perth metropolitan area in Western Australia. These data were compared with samples from a large unfragmented site on the edge of the urban area. Overall, estimates of genetic diversity and inbreeding within all populations were similar and low. Weak genetic differentiation, and a significant association between geographic and genetic distance, suggests historically strong genetic connectivity that decreases with geographic distance. Due to recent fragmentation, and genetic inertia associated with low genetic diversity and large population sizes, it is not possible from these data to infer current genetic connectivity levels. However, the historically high levels of gene flow that our data suggest indicate that a reduction in contemporary connectivity due to fragmentation in C. fallens is likely to result in negative genetic consequences in the longer term.

scholarly journals Pollen-mediated gene flow ensures connectivity among spatially discrete sub-populations of Phalaenopsis pulcherrima, a tropical food-deceptive orchid

2019 ◽  
Vol 19 (1) ◽  
Author(s):  
Zhe Zhang ◽  
Stephan W. Gale ◽  
Ji-Hong Li ◽  
Gunter A. Fischer ◽  
Ming-Xun Ren ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Gene Flow ◽  
Polynomial Regression ◽  
Genetic Erosion ◽  
Population Level ◽  
Hainan Island ◽  
Paternity Analysis ◽  
Genetic Structuring ◽  
Long Distance ◽  
High Genetic Diversity

Abstract Background Gene flow in plants via pollen and seeds is asymmetrical at different geographic scales. Orchid seeds are adapted to long-distance wind dispersal but pollinium transfer is often influenced by pollinator behavior. We combined field studies with an analysis of genetic diversity among 155 physically mapped adults and 1105 F1 seedlings to evaluate the relative contribution of pollen and seed dispersal to overall gene flow among three sub-populations of the food-deceptive orchid Phalaenopsis pulcherrima on Hainan Island, China. Results Phalaenopsis pulcherrima is self-sterile and predominantly outcrossing, resulting in high population-level genetic diversity, but plants are clumped and exhibit fine-scale genetic structuring. Even so, we detected low differentiation among sub-populations, with polynomial regression analysis suggesting gene flow via seed to be more restricted than that via pollen. Paternity analysis confirmed capsules of P. pulcherrima to each be sired by a single pollen donor, probably in part facilitated by post-pollination stigma obfuscation, with a mean pollen flow distance of 272.7 m. Despite limited sampling, we detected no loss of genetic diversity from one generation to the next. Conclusions Outcrossing mediated by deceptive pollination and self-sterility promote high genetic diversity in P. pulcherrima. Long-range pollinia transfer ensures connectivity among sub-populations, offsetting the risk of genetic erosion at local scales.

scholarly journals Absence of Population Genetic Structure Among Breeding Colonies of the Waved Albatross

The Condor ◽  
2006 ◽  
Vol 108 (2) ◽  
pp. 440-445 ◽  
Author(s):  
Kathryn P. Huyvaert ◽  
Patricia G. Parker
Keyword(s):  
Genetic Variation ◽  
Gene Flow ◽  
Genetic Structure ◽  
Population Genetic Structure ◽  
Population Genetic ◽  
Breeding Population ◽  
Genetic Structuring ◽  
Galapagos Archipelago ◽  
Phoebastria Irrorata ◽  
Waved Albatrosses

Abstract We used four variable microsatellite loci to examine the distribution of genetic variation and degree of genetic structuring among three subcolonies of Waved Albatrosses (Phoebastria irrorata). The breeding population of this species is almost entirely limited to the island of Española in the Galápagos Archipelago. Such strong philopatry could lead to population genetic structure among subcolonies on the island. Pairwise values of the FST analog, θ, calculated from microsatellite genotypes, were all less than 0.012, indicating little genetic differentiation and the presence of gene flow throughout the population.

scholarly journals Speciation, Connectivity and Self-Recruitment  Among Mollusc Populations from  Isolated Oceanic Islands

2021 ◽  
Author(s):  
◽  
Céline Marie Olivia Reisser
Keyword(s):  
Genetic Diversity ◽  
Gene Flow ◽  
New Zealand ◽  
Last Glacial Maximum ◽  
Genetic Homogeneity ◽  
Genetic Structuring ◽  
Subantarctic Islands ◽  
History Of ◽  
The Last Glacial Maximum ◽  
The Last Glacial

<p>The conventional view that marine populations are demographically ‘open’ and exchange migrants (juveniles or adults, but mostly larvae) has been challenged by recent genetic studies and the discovery of significant genetic subdivision among populations on small geographic scales. Despite the numerous publications on the matter, the extent to which some/all marine populations rely on self-recruitment and whether this reliance is stable in time and space currently remains unanswered. This is particularly true for populations from isolated oceanic archipelagos, such as the New Zealand (NZ) subantarctic islands and the Kermadec Islands. The specific objectives of this thesis were to: 1) assess the genetic diversity, phylogeography and contemporary levels of dispersal and self-recruitment in populations of the Cellana strigilis limpet complex, endemic to the NZ subantarctic islands; 2) conduct a morphometric analysis of the C. strigilis complex to complement its molecular investigation; 3) develop and optimize specific microsatellite markers for Nerita melanotragus, a marine gastropod of the Kermadec Islands and New Zealand North Island rocky shores; 4) assess the genetic structuring and levels of connectivity of N. melanotragus populations within the Kermadec Islands, within NZ North Island, and between the Kermadec Islands and NZ; and 5) compare the genetic structuring of N. melanotragus at the Kermadec Islands to that of NZ North Island populations, to test for any “island effect” on connectivity levels, and test for possible gene flow between the two groups. Genetic investigation of the C. strigilis complex confirmed the presence of two distinct lineages, separated by their sister species Cellana denticulata. Morphometric analyses were congruent with molecular analyses, and were used to provide a new taxonomic description of the C. strigilis limpet complex: two species were recognized, Cellana strigilis and Cellana oliveri. The role of the subantarctic islands during the last glacial maximum was highlighted, and the colonisation history of the islands by the two Cellana species was explained. Contemporary levels of connectivity (gene flow) among the different populations of the two lineages were low, or non-existant, revealing their high reliability on self-recruitment. However, the analysis detected a recent migration event in one of the two lineages. Considering the geographical distance of the islands and the life history of the Cellana species, the use of mediated dispersal means (e.g., rafting on a natural substrate such as kelp) seems very likely. Ten novel polymorphic microsatellite loci were developed for N. melanotragus, and seven of those were used to investigate the levels of connectivity and self-recruitment in six populations from the Kermadec Islands, and nine populations from the east coast of NZ North Island. According to what can be expected for a species with a long pelagic larval duration (PLD), genetic homogeneity was recorded for the Kermadec Islands populations. A lack of genetic structuring was also found for the nine populations on the NZ North Island, which is congruent with the literature in this geographic area. However, what was surprising was the high level of genetic homogeneity found between the Kermadec Islands and the NZ North Island, meaning that the two groups are effectively exchanging individuals. Hence, the Kermadec archipelago can be considered “open” at the scale of the South Pacific, for N. melanotragus populations. This Ph.D. highlights the importance of having the correct taxonomy for conservation and connectivity studies, and gives a better understanding of the historical and contemporary patterns of genetic connectivity in the NZ offshore islands. It illustrated how historical events, such as the last glacial maximum, can shape local genetic diversity, and how this historical pattern can be maintained because of limited contemporary gene exchange. Also, this thesis demonstrated that remote populations could be strongly connected to mainland populations, contributing to the resilience of both systems and confirming the necessity of integrating remote oceanic habitats in the creation of effective Marine Protected Areas (MPA) networks to protect the marine environment.</p>

Comparison of the mitochondrial phylogeographical structure of a generalist and two specialist frog species reveals contrasting patterns in the Eastern and Western Cape provinces of South Africa

2020 ◽  
Vol 130 (4) ◽  
pp. 783-799 ◽  
Author(s):  
Judith N T Kushata ◽  
Werner Conradie ◽  
Michael I Cherry ◽  
Savel R Daniels
Keyword(s):  
South Africa ◽  
Gene Flow ◽  
Climatic Factors ◽  
Sequence Data ◽  
Western Cape ◽  
Genetic Structuring ◽  
Haplotype Networks ◽  
Mtdna Sequence ◽  
Frog Species ◽  
Maternal Gene

Abstract In this study, we examined the phylogeographical structure of three frog species (Anhydrophryne rattrayi, Arthroleptis wageri and Cacosternum nanum) in the Eastern and Western Cape provinces of South Africa. The first two species are forest dwelling and exhibit direct development, whereas the last species is a habitat generalist, breeding in open freshwater bodies and exhibiting rapid metamorphosis. Evolutionary relationships were inferred using combined mitochondrial DNA (mtDNA) sequence data [16S rRNA and cytochrome b (Cytb)]. Divergence times were estimated for each species using the combined mtDNA dataset, and population genetic structuring was inferred using haplotype networks and analysis of molecular variance using the rapidly evolving Cytb locus. The two forest-dwelling species (Anhydrophryne rattrayi and Arthroleptis wageri) each revealed two statistically well-supported clades and were characterized by marked genetic differentiation and the general absence of shared maternal haplotypes, indicating no maternal gene flow between conspecific populations; a result corroborated by moderate values of pairwise genetic distance. In contrast, for the generalist species C. nanum, two shallow clades were observed and several haplotypes were shared between localities, indicating moderate maternal gene flow. Diversification in the two forest-dwelling species occurred during the Plio-Pleistocene climatic oscillations and was associated with increased xeric conditions, whereas in C. nanum a recent, Holocene divergence was inferred. Ancient climatic factors thought to be causal in the divergences within each of the three species are discussed. The marked mtDNA differentiation in the two forest specialist species suggests the presence of distinct management units that should be considered in future conservation management decisions.

Genetic analyses reveal limited dispersal and recovery potential in the large freshwater crayfish Euastacus armatus from the southern Murray–Darling Basin

2017 ◽  
Vol 68 (2) ◽  
pp. 213 ◽  
Author(s):  
Nick S. Whiterod ◽  
Sylvia Zukowski ◽  
Martin Asmus ◽  
Dean Gilligan ◽  
Adam D. Miller
Keyword(s):  
Gene Flow ◽  
Anthropogenic Impacts ◽  
Population Decline ◽  
Biological Traits ◽  
Freshwater Crayfish ◽  
Freshwater Species ◽  
Genetic Structuring ◽  
Murray Darling Basin ◽  
Murray River ◽  
Dispersal Limitations

Understanding dispersal traits and adaptive potential is critically important when assessing the vulnerability of freshwater species in highly modified ecosystems. The present study investigates the population genetic structure of the Murray crayfish Euastacus armatus in the southern Murray–Darling Basin. This species has suffered significant population declines in sections of the Murray River in recent years, prompting the need for information on natural recruitment processes to help guide conservation. We assessed allele frequencies from 10 polymorphic microsatellite loci across 20 sites encompassing the majority of the species’ range. Low levels of gene flow were observed throughout hydrologically connected waterways, but significant spatial autocorrelation and low migration rate estimates reflect local genetic structuring and dispersal limitations, with home ranges limited to distances <50-km. Significant genetic differentiation of headwater populations upstream of barriers imposed by impoundments were also observed; however, population simulations demonstrate that these patterns likely reflect historical limitations to gene flow rather than contemporary anthropogenic impacts. Dispersal limitations, coupled with its biological traits, suggest that local populations are vulnerable to environmental disturbance with limited potential for natural recolonisation following population decline. We discuss the implications of these findings in the context of managing the recovery of the species.

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