Your search keyword '"museum DNA"' showing total 17 results

1. Reduction of genetic diversity in 'Alalā (Hawaiian crow; Corvus hawaiiensis) between the late 1800s and the late 1900s.

Author

Blanchet, Geneviève, Bellinger, M Renee, Kearns, Anna M, Cortes-Rodriguez, Nandadevi, Masuda, Bryce, Campana, Michael G, Rutz, Christian, Fleischer, Robert C, and Sutton, Jolene T

Subjects

*GENETIC variation, *HETEROZYGOSITY, *ENDANGERED species, *LOCUS (Genetics), *SINGLE nucleotide polymorphisms, *INBREEDING, *CROWS

Abstract

Genetic and genomic data are increasingly used to aid conservation management of endangered species by providing insights into evolutionary histories, factors associated with extinction risks, and potential for future adaptation. For the 'Alalā, or Hawaiian crow (Corvus hawaiiensis), genetic concerns include negative correlations between inbreeding and hatching success. However, it is unclear if low genetic diversity and inbreeding depression are consequences of a historical population bottleneck, or if 'Alalā had historically low genetic diversity that predated human influence, perhaps as a result of earlier declines or founding events. In this study, we applied a hybridization-based sequence capture to generate a genome-wide single nucleotide polymorphism (SNP) dataset for comparing historical specimens collected in the 1890s, when 'Alalā were more numerous, to samples taken between 1973 and 1998, when 'Alalā population densities were near the lowest documented levels in the wild, prior to all individuals being collected for captive rearing. We found low genome-wide diversity in both sample groups, however, the modern sample group (1973 to 1998 cohort) exhibited relatively fewer polymorphic alleles, a lower proportion of polymorphic loci, and lower observed heterozygosity, consistent with a population decline and potential bottleneck effects. These results combined with a current low population size highlight the importance of continued efforts by conservation managers to mitigate inbreeding and maintain founder representation to preserve what genetic diversity remains. [ABSTRACT FROM AUTHOR]

Published

2024

2. ASPECTE ALE CULTURII ORGANIZASIONALE MUZEALE ÎN CADRUL SUSTENABILITĂ?II.

Author

CONSTANTINESCU, Sorin M.

Abstract

With the shift in the museum paradigm from exhibits to visitors and the conquest of museum territory by the IT revolution, the museum has been given the opportunity to reinvent itself. By adding environmental responsibility to heritage responsibility, the museum becomes sustainable and resilient, thus acquiring a new identity. As a cultural consumption driver and a guarantee of its quality under given conditions, resilience allows museum correlations that stimulate innovation. A sustainable, resilient and innovative museum capitalizes on its archetypal structure by establishing durable bridges between the protected heritage and the most diverse categories of public, while becoming the core of new cultural strategies. The museum's involvement in the community life, according to the current institutional standards, is an interrelated process supported by viable elements that are almost all to be found in the museum's organizational culture. Based on these premises, this article attempts to highlight the mechanism by which the museum organizational culture, taking on the data of sustainability, contributes to achieving resilience. However, in order to integrate organically and sustainably into the cultural fabric of society, museum institutions need to promote an open, strong and positive organizational culture, adapted to the significant role that the museum has within the community. [ABSTRACT FROM AUTHOR]

Published

2023

3. The preservation and postglacial history of Ice Age Holarctic beetles, as inferred from museum and ancient DNA

Author

Heintzman, Peter David

Subjects

561.1192, ancient DNA, museum DNA, beetles, Coleoptera, ice age, DNA preservation, next-generation sequencing, North America, colonisation, palaeogenetics

Abstract

Degraded DNA can be recovered from specimens that are preserved in museums and the natural environment. Data generated from such DNA have provided valuable evidence for the assessment of a suite of biologically important questions. However, research of this nature is limited for invertebrate taxa, despite their diversity and ecological necessity. Using DNA data from dry-stored museum and permafrost-preserved ancient specimens, this thesis greatly extends the study of degraded DNA from invertebrates. The thesis focuses on two arctic ground beetle species (Amara alpina, Pterostichus brevicornis), which are abundant in museum collections and permafrost deposits. A lack of data that characterises the preservation and potential of degraded beetle DNA, and thereby assessment of future possibilities for this emerging field, provided the impetus for the first three results chapters. Using two different sequencing approaches, the preservation of DNA in museum and ancient specimens was investigated. In addition, the taxonomic utility of DNA extracted from these specimens was assessed. These chapters demonstrate that DNA could be routinely recovered from museum specimens. DNA from ancient specimens could be recovered from A. alpina but not P. brevicornis. In most cases therefore, degraded DNA from these beetles could be used to address further questions. The final two results chapters focus on the response of the two study species to a past period of climatically driven change, using DNA data from museum and ancient specimens. In these chapters, the mode of postglacial colonisation of Canada at the end of the last ice age was investigated. It was found that existing models of this process were broadly, but not wholly, correct. This may have implications for models of how beetles will respond to future climatic change. Although some challenges lie ahead, this thesis demonstrates the potential for museum and ancient permafrost-preserved beetle specimens in future, DNA-based, large-scale investigations.

Published

2013

4. Neotype designation for Thymallus aeliani Valenciennes, 1848 from a museum topotype specimen and its affiliation with Adriatic grayling on the basis of mitochondrial DNA.

Author

Bravničar, Jernej, Palandačić, Anja, Bajec, Simona Sušnik, and Snoj, Aleš

Subjects

*MITOCHONDRIAL DNA, *NATURAL history museums, *MITOCHONDRIA, *ZOOLOGICAL nomenclature

Abstract

In 1848, the grayling Thymallus aeliani (Valenciennes) was described from Lake Maggiore, Italy, in the north Adriatic basin. Genetic analyses of the mitochondrial control region showed a unique evolutionary history of grayling inhabiting the rivers of northern Adriatic basin, from the upper reaches of the Po River and its left tributaries in the west to the Soča River in the east, which resulted in the designation of this phylogenetic lineage as Adriatic grayling. Consequently, the name T. aeliani was connected to the Adriatic lineage, re-establishing the validity of this taxon. However, the mitochondrial haplotypes belonging to Adriatic grayling were never compared with the type specimens of T. aeliani, as their whereabouts were unknown. In this study, a neotype for T. aeliani was designated using topotypical specimens stored at the Natural History Museum in Vienna. The neotype (NMW 68027:2 labelled as "Lago Maggiore, Bellotti, 1880") was designated pursuant to the conditions stipulated in Article 75.3 of the International Code of Zoological Nomenclature. Furthermore, the mitochondrial control region of the neotype was compared to haplotypes of the Adriatic lineage and showed high genetic similarity, which therefore connects the species name T. aeliani to the Adriatic grayling. This crucial step in fixing nomenclatural status of this species is very important for its protection and management. [ABSTRACT FROM AUTHOR]

Published

2020

5. Uneven Missing Data Skew Phylogenomic Relationships within the Lories and Lorikeets.

Author

Smith, Brian Tilston, Mauck, William M, Benz, Brett W, and Andersen, Michael J

Subjects

*NUCLEOTIDE sequence, *HISTORICAL museums, *PARSIMONIOUS models, *DATA reduction, *PREDICTION models, *PARROTS

Abstract

The resolution of the Tree of Life has accelerated with advances in DNA sequencing technology. To achieve dense taxon sampling, it is often necessary to obtain DNA from historical museum specimens to supplement modern genetic samples. However, DNA from historical material is generally degraded, which presents various challenges. In this study, we evaluated how the coverage at variant sites and missing data among historical and modern samples impacts phylogenomic inference. We explored these patterns in the brush-tongued parrots (lories and lorikeets) of Australasia by sampling ultraconserved elements in 105 taxa. Trees estimated with low coverage characters had several clades where relationships appeared to be influenced by whether the sample came from historical or modern specimens, which were not observed when more stringent filtering was applied. To assess if the topologies were affected by missing data, we performed an outlier analysis of sites and loci, and a data reduction approach where we excluded sites based on data completeness. Depending on the outlier test, 0.15% of total sites or 38% of loci were driving the topological differences among trees, and at these sites, historical samples had 10.9× more missing data than modern ones. In contrast, 70% data completeness was necessary to avoid spurious relationships. Predictive modeling found that outlier analysis scores were correlated with parsimony informative sites in the clades whose topologies changed the most by filtering. After accounting for biased loci and understanding the stability of relationships, we inferred a more robust phylogenetic hypothesis for lories and lorikeets. [ABSTRACT FROM AUTHOR]

Published

2020

6. DNA amplification in the field: move over PCR, here comes LAMP.

Author

Lee, Patricia L. M.

Subjects

*GENE amplification, *POLYMERASE chain reaction, *MOLECULAR ecology, *DNA polymerases, *DNA synthesis

Abstract

It would not be an exaggeration to say that among molecular technologies, it is PCR (polymerase chain reaction) that underpins the discipline of molecular ecology as we know it today. With PCR, it has been possible to target the amplification of particular fragments of DNA, which can then be analysed in a multitude of ways. The capability of PCR to amplify DNA from a mere handful of copies further means that conservationists and ecologists are able to sample DNA unobtrusively and with minimal disturbance to the environment and the organisms of interest. However, a key disadvantage of PCR-based methods has been the necessity for a generally non-portable, laboratory setting to undertake the time-consuming thermocycling protocols. LAMP (loop-mediated isothermal amplification) offers a logistically simpler protocol: a relatively rapid DNA amplification reaction occurs at one temperature, and the products are visualized with a colour change within the reaction tubes. In the first field application of LAMP for an ecological study, Centeno-Cuadros et al. () demonstrates how LAMP can be used to determine the sex of three raptor species. By enabling DNA amplification in situ and in 'real-time', LAMP promises to revolutionize how molecular ecology is practised in the field. [ABSTRACT FROM AUTHOR]

Published

2017

7. Neotype designation for Thymallus aeliani Valenciennes, 1848 from a museum topotype specimen and its affiliation with Adriatic grayling on the basis of mitochondrial DNA

Author

Simona Sušnik Bajec, Anja Palandačić, Jernej Bravničar, and Aleš Snoj

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, Zoology, museum DNA, Adriatic basin, 010603 evolutionary biology, 01 natural sciences, Thymallus, 03 medical and health sciences, taxonomy, Molecular Systematics, lcsh:Zoology, morphology, neotypification, Animalia, lcsh:QL1-991, Thymallus thymallus, Chordata, Ecology, Evolution, Behavior and Systematics, mtDNA control region, Salmoniformes, biology, Species name, Actinopterygii, International Code of Zoological Nomenclature, Grayling, control region, Adriatic basin control region morphology museum DNA neotypification taxonomy, biology.organism_classification, Europe, 030104 developmental biology, Geography, Taxon, Osteichthyes, Pisces, Animal Science and Zoology, Taxonomy (biology), Salmonidae, Research Article

Abstract

In 1848, the grayling Thymallus aeliani (Valenciennes) was described from Lake Maggiore, Italy, in the north Adriatic basin. Genetic analyses of the mitochondrial control region showed a unique evolutionary history of grayling inhabiting the rivers of northern Adriatic basin, from the upper reaches of the Po River and its left tributaries in the west to the Soča River in the east, which resulted in the designation of this phylogenetic lineage as Adriatic grayling. Consequently, the name T. aeliani was connected to the Adriatic lineage, re-establishing the validity of this taxon. However, the mitochondrial haplotypes belonging to Adriatic grayling were never compared with the type specimens of T. aeliani, as their whereabouts were unknown. In this study, a neotype for T. aeliani was designated using topotypical specimens stored at the Natural History Museum in Vienna. The neotype (NMW 68027:2 labelled as “Lago Maggiore, Bellotti, 1880”) was designated pursuant to the conditions stipulated in Article 75.3 of the International Code of Zoological Nomenclature. Furthermore, the mitochondrial control region of the neotype was compared to haplotypes of the Adriatic lineage and showed high genetic similarity, which therefore connects the species name T. aeliani to the Adriatic grayling. This crucial step in fixing nomenclatural status of this species is very important for its protection and management.

Published

2020

8. Uneven Missing Data Skew Phylogenomic Relationships within the Lories and Lorikeets

Author

Brett W. Benz, William M. Mauck, Brian Tilston Smith, and Michael J. Andersen

Subjects

0106 biological sciences, AcademicSubjects/SCI01140, bird, likelihood, museum DNA, Biology, phylogeny, 010603 evolutionary biology, 01 natural sciences, museum specimen, 03 medical and health sciences, Parrots, Phylogenetics, Genetics, Animals, Clade, parrot, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Phylogenetic tree, AcademicSubjects/SCI01130, Sampling (statistics), Contrast (statistics), Genomics, Missing data, Taxon, Evolutionary biology, Outlier, Research Article

Abstract

The resolution of the Tree of Life has accelerated with advances in DNA sequencing technology. To achieve dense taxon sampling, it is often necessary to obtain DNA from historical museum specimens to supplement modern genetic samples. However, DNA from historical material is generally degraded, which presents various challenges. In this study, we evaluated how the coverage at variant sites and missing data among historical and modern samples impacts phylogenomic inference. We explored these patterns in the brush-tongued parrots (lories and lorikeets) of Australasia by sampling ultraconserved elements in 105 taxa. Trees estimated with low coverage characters had several clades where relationships appeared to be influenced by whether the sample came from historical or modern specimens, which were not observed when more stringent filtering was applied. To assess if the topologies were affected by missing data, we performed an outlier analysis of sites and loci, and a data reduction approach where we excluded sites based on data completeness. Depending on the outlier test, 0.15% of total sites or 38% of loci were driving the topological differences among trees, and at these sites, historical samples had 10.9× more missing data than modern ones. In contrast, 70% data completeness was necessary to avoid spurious relationships. Predictive modeling found that outlier analysis scores were correlated with parsimony informative sites in the clades whose topologies changed the most by filtering. After accounting for biased loci and understanding the stability of relationships, we inferred a more robust phylogenetic hypothesis for lories and lorikeets.

Published

2020

9. European Colonization, Not Polynesian Arrival, Impacted Population Size and Genetic Diversity in the Critically Endangered New Zealand Kākāpō.

Author

Bergner, Laura M., Dussex, Nicolas, Jamieson, Ian G., and Robertson, Bruce C.

Subjects

*KAKAPO, *ANIMAL populations, *ANIMAL genetics, *ENDEMIC animals, *ENDANGERED species, *HUMAN settlements & the environment

Abstract

Island endemic species are often vulnerable to decline and extinction following human settlement, and the genetic study of historical museum specimens can be useful in understanding these processes. The kākāpō (Strigops habroptilus) is a critically endangered New Zealand parrot that was formerly widespread and abundant. It is well established that both Polynesian and European colonization of New Zealand impacted the native avifauna, but the timeframe and severity of impacts have differed depending on species. Here, we investigated the relative importance of the 2 waves of human settlement on kākāpō decline, using microsatellites and mitochondrial DNA (mtDNA) to characterize recent kākāpō genetic and demographic history. We analyzed samples from 49 contemporary individuals and 54 museum specimens dating from 1884 to 1985. Genetic diversity decreased significantly between historical and contemporary kākāpō, with a decline in mean number of microsatellite alleles from 6.15 to 3.08 and in number of mtDNA haplotypes from 17 to 3. Modeling of demographic history indicated a recent population bottleneck linked to the period of European colonization (approximately 5 generations ago) but did not support a major decline linked to Polynesian settlement. Effective population size estimates were also larger for historical than contemporary kākāpō. Our findings inform contemporary kākāpō management by indicating the timeframe and possible cause of the bottleneck, which has implications for the management of extant genetic diversity. We demonstrate the broader utility of a historical perspective in understanding causes of decline and managing extinction risk in contemporary endangered species. [ABSTRACT FROM AUTHOR]

Published

2016

10. Phylogenetic relationships and taxonomic position of genus Hyperacrius (Rodentia: Arvicolinae) from Kashmir based on evidences from analysis of mitochondrial genome and study of skull morphology

Author

Tatyana V. Petrova, Fedor N. Golenishchev, N. I. Abramson, Semen Yu Bodrov, Olga V. Bondareva, and Evgeny A. Genelt-Yanovskiy

Subjects

Mitochondrial DNA, lcsh:Medicine, Rodents, General Biochemistry, Genetics and Molecular Biology, Arvicolini, Phylogenetics, Molecular Biology, Phylogeny, Museum DNA, Taxonomy, Hyperacrius, biology, Phylogenetic tree, Arvicolinae, General Neuroscience, lcsh:R, General Medicine, Biodiversity, biology.organism_classification, Evolutionary Studies, Mitogenome, Alticola, Evolutionary biology, Taxonomy (biology), General Agricultural and Biological Sciences, Zoology

Abstract

In this article, we present the nearly complete mitochondrial genome of the Subalpine Kashmir voleHyperacrius fertilis(Arvicolinae, Cricetidae, Rodentia), assembled using data from Illumina next-generation sequencing (NGS) of the DNA from a century-old museum specimen. De novo assembly consisted of 16,341 bp and included all mitogenome protein-coding genes as well as 12S and 16S RNAs, tRNAs and D-loop. Using the alignment of protein-coding genes of 14 previously published Arvicolini tribe mitogenomes, seven Clethrionomyini mitogenomes, and alsoOndatraandDicrostonyxoutgroups, we conducted phylogenetic reconstructions based on a dataset of 13 protein-coding genes (PCGs) under maximum likelihood and Bayesian inference. Phylogenetic analyses robustly supported the phylogenetic position of this species within the tribe Arvicolini. Among the Arvicolini,Hyperacriusrepresents one of the early-diverged lineages. This result of phylogenetic analysis altered the conventional view on phylogenetic relatedness betweenHyperacriusandAlticolaand prompted the revision of morphological characters underlying the former assumption. Morphological analysis performed here confirmed molecular data and provided additional evidence for taxonomic replacement of the genusHyperacriusfrom the tribe Clethrionomyini to the tribe Arvicolini.

Published

2020

11. Characterizing DNA preservation in degraded specimens of Amara alpina ( Carabidae: Coleoptera).

Author

Heintzman, Peter D., Elias, Scott A., Moore, Karen, Paszkiewicz, Konrad, and Barnes, Ian

Subjects

*FOSSIL DNA, *BEETLES, *METAGENOMICS, *NUCLEOTIDE sequence, *TIMESCALE number

Abstract

DNA preserved in degraded beetle ( Coleoptera) specimens, including those derived from dry-stored museum and ancient permafrost-preserved environments, could provide a valuable resource for researchers interested in species and population histories over timescales from decades to millenia. However, the potential of these samples as genetic resources is currently unassessed. Here, using Sanger and Illumina shotgun sequence data, we explored DNA preservation in specimens of the ground beetle Amara alpina, from both museum and ancient environments. Nearly all museum specimens had amplifiable DNA, with the maximum amplifiable fragment length decreasing with age. Amplification of DNA was only possible in 45% of ancient specimens. Preserved mitochondrial DNA fragments were significantly longer than those of nuclear DNA in both museum and ancient specimens. Metagenomic characterization of extracted DNA demonstrated that parasite-derived sequences, including Wolbachia and Spiroplasma, are recoverable from museum beetle specimens. Ancient DNA extracts contained beetle DNA in amounts comparable to museum specimens. Overall, our data demonstrate that there is great potential for both museum and ancient specimens of beetles in future genetic studies, and we see no reason why this would not be the case for other orders of insect. [ABSTRACT FROM AUTHOR]

Published

2014

12. Spatial genetic structure in the vulnerable smooth-coated otter (Lutrogale perspicillata, Mustelidae): towards an adaptive conservation management of the species

Author

Guerrini, Monica, Forcina, Giovanni, Chua, Marcus A.H., Theng, Meryl, Al-Sheikhly, Omar F., Haba, Mukhtar K., Gupta, Brij K., Ruby, Tahira, Nguyen, Tao T., Khan, Aleem A., and Barbanera, Filippo

Subjects

archival DNA, museum DNA, misidentification of museum specimens, Biodiversity, Asian otters, holotype subspecies, maternal introgression, misidentification of museum specimens, mitochondrial DNA, archival DNA, mitochondrial DNA, maternal introgression, holotype subspecies, Asian otters, Taxonomy

Abstract

Guerrini, Monica, Forcina, Giovanni, Chua, Marcus A.H., Theng, Meryl, Al-Sheikhly, Omar F., Haba, Mukhtar K., Gupta, Brij K., Ruby, Tahira, Nguyen, Tao T., Khan, Aleem A., Barbanera, Filippo (2020): Spatial genetic structure in the vulnerable smooth-coated otter (Lutrogale perspicillata, Mustelidae): towards an adaptive conservation management of the species. Raffles Bulletin of Zoology 68: 719-734, DOI: 10.26107/RBZ-2020-0084

Published

2020

13. Guidelines for collecting and maintaining archives for genetic monitoring.

Author

Jackson, Jennifer, Laikre, Linda, Baker, C., and Kendall, Katherine

Abstract

Rapid advances in molecular genetic techniques and the statistical analysis of genetic data have revolutionized the way that populations of animals, plants and microorganisms can be monitored. Genetic monitoring is the practice of using molecular genetic markers to track changes in the abundance, diversity or distribution of populations, species or ecosystems over time, and to follow adaptive and non-adaptive genetic responses to changing external conditions. In recent years, genetic monitoring has become a valuable tool in conservation management of biological diversity and ecological analysis, helping to illuminate and define cryptic and poorly understood species and populations. Many of the detected biodiversity declines, changes in distribution and hybridization events have helped to drive changes in policy and management. Because a time series of samples is necessary to detect trends of change in genetic diversity and species composition, archiving is a critical component of genetic monitoring. Here we discuss the collection, development, maintenance, and use of archives for genetic monitoring. This includes an overview of the genetic markers that facilitate effective monitoring, describes how tissue and DNA can be stored, and provides guidelines for proper practice. [ABSTRACT FROM AUTHOR]

Published

2012

14. Evaluating the demographic history of the Seychelles kestrel (Falco araea): Genetic evidence for recovery from a population bottleneck following minimal conservation management

Author

Groombridge, Jim J., Dawson, Deborah A., Burke, Terry, Prys-Jones, Robert, Brooke, M. de L., and Shah, Nirmal

Subjects

*BIRDS of prey, *POPULATION bottleneck, *PREDATORY animals, *ANIMAL genetics, *BIRD conservation, *CONSERVATION biology, *BIOLOGISTS, *WILDLIFE conservation

Abstract

Abstract: An important requirement for biologists conserving vulnerable species of wildlife and managing genetic problems associated with small population size is to evaluate existing evidence regarding what is known of a species’ recent population history. For endemic island species in particular, current genetic impoverishment could be due to either a recent population crash or a consequence of an evolutionary history of sustained isolation and small effective population size. Interpreting any given case can often be further complicated by incomplete or contradictory evidence from historical field surveys that might suggest a very different demographic history. Here, we use the case of the Seychelles kestrel (Falco araea), an island endemic previously listed as critically-endangered but now relatively common, to illustrate how genetic data from microsatellite genotypes of 100–150-year-old museum specimens reveals a recent and severe population crash since the 1940s to approximately eight individuals, before the population recovered. We re-interpret the historical population trajectory of the Seychelles kestrel in the light of the minimal intervention required for this species to recover. We examine different ecological explanations for the decline and apparently unassisted recovery of the Seychelles kestrel, review the evidence for similarly unaided recoveries elsewhere and discuss the implications of unaided population recoveries for future species conservation programmes. Demographic profiles from historical genetic signatures can provide highly informative evidence when evaluating past and future recovery efforts for endangered species. [Copyright &y& Elsevier]

Published

2009

15. DNA amplification in the field: move over PCR, here comes LAMP

Author

Lee, Patricia LM and Lee, Patricia LM

Published

2017

16. Phylogenetic relationships and taxonomic position of genus Hyperacrius (Rodentia: Arvicolinae) from Kashmir based on evidences from analysis of mitochondrial genome and study of skull morphology.

Author

Abramson NI, Golenishchev FN, Bodrov SY, Bondareva OV, Genelt-Yanovskiy EA, and Petrova TV

Abstract

In this article, we present the nearly complete mitochondrial genome of the Subalpine Kashmir vole Hyperacrius fertilis (Arvicolinae, Cricetidae, Rodentia), assembled using data from Illumina next-generation sequencing (NGS) of the DNA from a century-old museum specimen. De novo assembly consisted of 16,341 bp and included all mitogenome protein-coding genes as well as 12S and 16S RNAs, tRNAs and D-loop. Using the alignment of protein-coding genes of 14 previously published Arvicolini tribe mitogenomes, seven Clethrionomyini mitogenomes, and also Ondatra and Dicrostonyx outgroups, we conducted phylogenetic reconstructions based on a dataset of 13 protein-coding genes (PCGs) under maximum likelihood and Bayesian inference. Phylogenetic analyses robustly supported the phylogenetic position of this species within the tribe Arvicolini. Among the Arvicolini, Hyperacrius represents one of the early-diverged lineages. This result of phylogenetic analysis altered the conventional view on phylogenetic relatedness between Hyperacrius and Alticola and prompted the revision of morphological characters underlying the former assumption. Morphological analysis performed here confirmed molecular data and provided additional evidence for taxonomic replacement of the genus Hyperacrius from the tribe Clethrionomyini to the tribe Arvicolini., Competing Interests: The authors declare that they have no competing interests., (© 2020 Abramson et al.)

Published

2020

17. Guidelines for collecting and maintaining archives for genetic monitoring

Author

Jackson, Jennifer A., Laikre, Linda, Baker, C. Scott, Kendall, Katherine C., Jackson, Jennifer A., Laikre, Linda, Baker, C. Scott, and Kendall, Katherine C.

Abstract

Rapid advances in molecular genetic techniques and the statistical analysis of genetic data have revolutionized the way that populations of animals, plants and microorganisms can be monitored. Genetic monitoring is the practice of using molecular genetic markers to track changes in the abundance, diversity or distribution of populations, species or ecosystems over time, and to follow adaptive and non-adaptive genetic responses to changing external conditions. In recent years, genetic monitoring has become a valuable tool in conservation management of biological diversity and ecological analysis, helping to illuminate and define cryptic and poorly understood species and populations. Many of the detected biodiversity declines, changes in distribution and hybridization events have helped to drive changes in policy and management. Because a time series of samples is necessary to detect trends of change in genetic diversity and species composition, archiving is a critical component of genetic monitoring. Here we discuss the collection, development, maintenance, and use of archives for genetic monitoring. This includes an overview of the genetic markers that facilitate effective monitoring, describes how tissue and DNA can be stored, and provides guidelines for proper practice.

Published

2012