Your search keyword '"Abbott, Cathryn L."' showing total 19 results

1. Critical considerations for communicating environmental DNA science.

Author

Stein, Eric D., Jerde, Christopher L., Allan, Elizabeth Andruszkiewicz, Sepulveda, Adam J., Abbott, Cathryn L., Baerwald, Melinda R., Darling, John, Goodwin, Kelly D., Meyer, Rachel S., Timmers, Molly A., and Thielen, Peter M.

Published

2024

2. Toward a national eDNA strategy for the United States.

Author

Kelly, Ryan P., Lodge, David M., Lee, Kai N., Theroux, Susanna, Sepulveda, Adam J., Scholin, Christopher A., Craine, Joseph M., Andruszkiewicz Allan, Elizabeth, Nichols, Krista M., Parsons, Kim M., Goodwin, Kelly D., Gold, Zachary, Chavez, Francisco P., Noble, Rachel T., Abbott, Cathryn L., Baerwald, Melinda R., Naaum, Amanda M., Thielen, Peter M., Simons, Ariel Levi, and Jerde, Christopher L.

Published

2024

3. Targeted next‐generation sequencing of environmental DNA improves detection of invasive European green crab (Carcinus maenas).

Author

Westfall, Kristen Marie, Therriault, Thomas W., and Abbott, Cathryn L.

Published

2022

4. Improved efficiency in eDNA metabarcoding of benthic metazoans by sieving sediments prior to DNA extraction.

Author

He, Xiaoping, Sutherland, Terri F., and Abbott, Cathryn L.

Published

2021

5. Biotic signals associated with benthic impacts of salmon farms from eDNA metabarcoding of sediments.

Author

He, Xiaoping, Gilmore, Scott R., Sutherland, Terri F., Hajibabaei, Mehrdad, Miller, Kristina M., Westfall, Kristen M., Pawlowski, Jan, and Abbott, Cathryn L.

Subjects

SALMON farming, POLYCHAETA, BENTHIC animals, GENETIC barcoding, MARICULTURE, FISH farming, ENVIRONMENTAL impact analysis

Abstract

Environmental DNA (eDNA) metabarcoding can rapidly characterize the composition and diversity of benthic communities, thus it has high potential utility for routine assessments of benthic impacts of marine finfish farming. In this study, 126 sediment grab samples from 42 stations were collected at six salmon farms in British Columbia, Canada. Benthic community changes were assessed by both eDNA metabarcoding of metazoans and macrofaunal polychaete surveys. The latter was done by analysing 11,466 individuals using a combination of morphology‐based taxonomy and DNA barcoding. Study objectives were to: (i) compare biotic signals associated with benthic impacts of salmon farming in the two data sources, and (ii) identify potential eDNA indicators to facilitate monitoring in Canada. Alpha diversity parameters were consistently reduced near fish cage edge and negatively correlated with pore‐water sulphide concentration, with coefficients ranging from −0.62 to −0.48. Although Polychaeta are a common indicator group, the negative correlation with pore‐water sulphide concentration was much stronger for Nematoda OTU richness (correlation coefficient: −0.86) than for Polychaeta (correlation coefficient: −0.38). Presence/absence of Capitella generally agreed well between the two methods despite that they differed in the volume of sediments sampled and the molecular marker used. Multiple approaches were used to identify OTUs related to organic enrichment statuses. We demonstrate that eDNA metabarcoding generates biotic signals that could be leveraged for environmental assessment of benthic impacts of fish farms in multiple ways: both alpha diversity and Nematoda OTU richness could be used to assess the spatial extent of impact, and OTUs related to organic enrichment could be used to develop local biotic indices. [ABSTRACT FROM AUTHOR]

Published

2021

6. The risks of using molecular biodiversity data for incidental detection of species of concern.

Author

Darling, John A., Pochon, Xavier, Abbott, Cathryn L., Inglis, Graeme J., Zaiko, Anastasija, and Leroy, Boris

Subjects

QUALITY assurance standards, QUALITY control standards, BIODIVERSITY, QUALITY control, ELICITATION technique, ENDANGERED species, DATA quality

Abstract

Incidental detection of species of concern (e.g., invasive species, pathogens, threatened and endangered species) during biodiversity assessments based on high‐throughput DNA sequencing holds significant risks in the absence of rigorous, fit‐for‐purpose data quality and reporting standards. Molecular biodiversity data are predominantly collected for ecological studies and thus are generated to common quality assurance standards. However, the detection of certain species of concern in these data would likely elicit interest from end users working in biosecurity or other surveillance contexts (e.g., pathogen detection in health‐related fields), for which more stringent quality control standards are essential to ensure that data are suitable for informing decision‐making and can withstand legal or political challenges. We suggest here that data quality and reporting criteria are urgently needed to enable clear identification of those studies that may be appropriately applied to surveillance contexts. In the interim, more pointed disclaimers on uncertainties associated with the detection and identification of species of concern may be warranted in published studies. This is not only to ensure the utility of molecular biodiversity data for consumers, but also to protect data generators from uncritical and potentially ill‐advised application of their science in decision‐making. [ABSTRACT FROM AUTHOR]

Published

2020

7. Analytical validation and field testing of a specific qPCR assay for environmental DNA detection of invasive European green crab (Carcinus maenas).

Author

Roux, Louise‐Marie D., Giblot‐Ducray, Danièle, Bott, Nathan J., Wiltshire, Kathryn H., Deveney, Marty R., Westfall, Kristen M., and Abbott, Cathryn L.

Published

2020

8. Pathway to Increase Standards and Competency of eDNA Surveys (PISCeS)—Advancing collaboration and standardization efforts in the field of eDNA.

Author

Loeza‐Quintana, Tzitziki, Abbott, Cathryn L., Heath, Daniel D., Bernatchez, Louis, and Hanner, Robert H.

Published

2020

9. A new approach to molecular biosurveillance of invasive species using DNA metabarcoding.

Author

Westfall, Kristen Marie, Therriault, Thomas W., and Abbott, Cathryn L.

Subjects

BIOSURVEILLANCE, INTRODUCED species, DNA, GENETIC markers, ENDANGERED species, HEMOCYANIN, MARINE toxins

Abstract

Non‐indigenous species (NIS) reach every corner of the world, at times wreaking havoc on ecosystems and costing the global economy billions of dollars. A rapid and accurate biosurveillance tool tailored to a particular biogeographic region is needed to detect NIS when they are first introduced into an area as traditional detection methods are expensive and require specialized expertise. Metabarcoding of environmental and community DNA meets those biosurveillance requirements; a novel tool tailored to the Northwest Pacific Ocean is presented here using an approach that could revolutionize early detection of NIS. Eight newly designed genetic markers for multiple gene regions were implemented to meet the stringent taxonomic requirements for the detection of NIS across four major marine phyla. The tool was considered highly successful because it identified 12 known NIS in the study area and a further seven species representing potential new records. Overall community composition detected here was statistically different between substrate types; zooplankton sampling accounted for significantly higher species richness than filtered sea water in most cases, but this was dominated by mollusk and arthropod species. Both substrate types sampled were required to identify the wide taxonomic breadth of known NIS in the study area. Intensive sampling is known to be paramount for the detection of rare species, including new incursions of NIS, thus it is recommended to include diverse DNA sampling protocols based on species' life‐history characteristics for broad detection capacity. Application of a metabarcoding‐based molecular biosurveillance tool optimized for biogeographic regions enables rapid and accurate early detection across a wide taxonomic range to allow quick implementation of eradication or control efforts and potentially mitigate some of the devastating effects of NIS worldwide. [ABSTRACT FROM AUTHOR]

Published

2020

10. Responses of foraminifera communities to aquaculture‐derived organic enrichment as revealed by environmental DNA metabarcoding.

Author

He, Xiaoping, Abbott, Cathryn L., Sutherland, Terri F., and Pawlowski, Jan

Subjects

*FORAMINIFERA, *AQUACULTURE, *GEOCHEMISTRY, *FISHERIES, *ORGANIC wastes, *OCEAN bottom

Abstract

Current monitoring methods to assess benthic impacts of marine finfish aquaculture are based on complex biological indices and/or geochemistry data. The former requires benthic macrofauna morpho‐taxonomic characterization that is time‐ and cost‐intensive, while the latter provides rapid assessment of the organic enrichment status of sediments but does not directly measure biotic impacts. In this study, sediment samples were collected from seven stations at six salmon farms in British Columbia, Canada, and analyzed for geochemical parameters and by eDNA metabarcoding to investigate linkages between geochemistry and foraminifera. Sediment texture across farm sites ranged from sand to silty loam, while the maximum sediment pore‐water sulphide concentration at each site ranged from 1,000 to 13,000 μM. Foraminifera alpha diversity generally increased with distance from cage edge. Adonis analyses revealed that farm site explained the most variation in foraminifera community, followed by sediment type, enrichment status, and distance from cage edge. Farm‐specific responses were observed in diversity analyses, taxonomic difference analyses, and correlation analyses. Results demonstrated that species diversity and composition of foraminifera characterized by eDNA metabarcoding generated signals consistent with benthic biodiversity being impacted by finfish farming activities. This substantiates the validity of eDNA metabarcoding for augmenting current approaches to benthic impact assessments by providing more cost‐effective and practicable biotic measures than traditional morpho‐taxonomy. To capitalize on this potential, further work is needed to design a new nomogram that combines eDNA metabarcoding data and geochemistry data to enable accurate monitoring of benthic impacts of fish farming in a time‐ and cost‐efficient way. [ABSTRACT FROM AUTHOR]

Published

2019

11. Metabarcoding using multiplexed markers increases species detection in complex zooplankton communities.

Author

Zhang, Guang K., Chain, Frédéric J. J., Abbott, Cathryn L., and Cristescu, Melania E.

Subjects

GENETIC barcoding, ZOOPLANKTON, GENETIC markers, BIODIVERSITY, DNA primers

Abstract

Metabarcoding combines DNA barcoding with high‐throughput sequencing, often using one genetic marker to understand complex and taxonomically diverse samples. However, species‐level identification depends heavily on the choice of marker and the selected primer pair, often with a trade‐off between successful species amplification and taxonomic resolution. We present a versatile metabarcoding protocol for biomonitoring that involves the use of two barcode markers (COI and 18S) and four primer pairs in a single high‐throughput sequencing run, via sample multiplexing. We validate the protocol using a series of 24 mock zooplanktonic communities incorporating various levels of genetic variation. With the use of a single marker and single primer pair, the highest species recovery was 77%. With all three COI fragments, we detected 62%–83% of species across the mock communities, while the use of the 18S fragment alone resulted in the detection of 73%–75% of species. The species detection level was significantly improved to 89%–93% when both markers were used. Furthermore, multiplexing did not have a negative impact on the proportion of reads assigned to each species and the total number of species detected was similar to when markers were sequenced alone. Overall, our metabarcoding approach utilizing two barcode markers and multiple primer pairs per barcode improved species detection rates over a single marker/primer pair by 14% to 35%, making it an attractive and relatively cost‐effective method for biomonitoring natural zooplankton communities. We strongly recommend combining evolutionary independent markers and, when necessary, multiple primer pairs per marker to increase species detection (i.e., reduce false negatives) in metabarcoding studies. [ABSTRACT FROM AUTHOR]

Published

2018

12. Phylogeographic insights into the invasion history and secondary spread of the signal crayfish in Japan.

Author

Usio, Nisikawa, Azuma, Noriko, Larson, Eric R., Abbott, Cathryn L., Olden, Julian D., Akanuma, Hiromi, Takamura, Kenzi, and Takamura, Noriko

Subjects

PACIFASTACUS leniusculus, PHYLOGEOGRAPHY, FISH populations, MITOCHONDRIAL DNA, BIOLOGICAL specimens

Abstract

Successful invasion by nonindigenous species is often attributed to high propagule pressure, yet some foreign species become widespread despite showing reduced genetic variation due to founder effects. The signal crayfish ( Pacifastacus leniusculus) is one such example, where rapid spread across Japan in recent decades is believed to be the result of only three founding populations. To infer the history and explore the success of this remarkable crayfish invasion, we combined detailed phylogeographical and morphological analyses conducted in both the introduced and native ranges. We sequenced 16S mitochondrial DNA of signal crayfish from across the introduced range in Japan (537 samples, 20 sites) and the native range in western North America (700 samples, 50 sites). Because chela size is often related to aggressive behavior in crayfish, and hence, their invasion success, we also measured chela size of a subset of specimens in both introduced and native ranges. Genetic diversity of introduced signal crayfish populations was as high as that of the dominant phylogeographic group in the native range, suggesting high propagule pressure during invasion. More recently established crayfish populations in Japan that originated through secondary spread from one of the founding populations exhibit reduced genetic diversity relative to older populations, probably as a result of founder effects. However, these newer populations also show larger chela size, consistent with expectations of rapid adaptations or phenotypic responses during the invasion process. Introduced signal crayfish populations in Japan originate from multiple source populations from a wide geographic range in the native range of western North America. A combination of high genetic diversity, especially for older populations in the invasive range, and rapid adaptation to colonization, manifested as larger chela in recent invasions, likely contribute to invasion success of signal crayfish in Japan. [ABSTRACT FROM AUTHOR]

Published

2016

13. New primers for DNA barcoding of digeneans and cestodes (Platyhelminthes).

Author

Van Steenkiste, Niels, Locke, Sean A., Castelin, Magalie, Marcogliese, David J., and Abbott, Cathryn L.

Subjects

TAPEWORMS, DIGENEA, GENETIC barcoding, PLATYHELMINTHES, DNA primers

Abstract

Digeneans and cestodes are species-rich taxa and can seriously impact human health, fisheries, aqua- and agriculture, and wildlife conservation and management. DNA barcoding using the COI Folmer region could be applied for species detection and identification, but both 'universal' and taxon-specific COI primers fail to amplify in many flatworm taxa. We found that high levels of nucleotide variation at priming sites made it unrealistic to design primers targeting all flatworms. We developed new degenerate primers that enabled acquisition of the COI barcode region from 100% of specimens tested (n = 46), representing 23 families of digeneans and 6 orders of cestodes. This high success rate represents an improvement over existing methods. Primers and methods provided here are critical pieces towards redressing the current paucity of COI barcodes for these taxa in public databases. [ABSTRACT FROM AUTHOR]

Published

2015

14. Reproducibility of pyrosequencing data for biodiversity assessment in complex communities.

Author

Zhan, Aibin, He, Song, Brown, Emily A., Chain, Frédéric J.J., Therriault, Thomas W., Abbott, Cathryn L., Heath, Daniel D., Cristescu, Melania E., MacIsaac, Hugh J., and Faith, Daniel

Subjects

REPRODUCIBLE research, BIODIVERSITY research, BIOTIC communities, PLANKTON, RIBOSOMAL DNA, NUCLEOTIDE sequencing

Abstract

High-throughput sequencing is rapidly becoming a popular method to profile complex communities and has generated deep insights into community biodiversity. However, the reproducibility of this method for biodiversity assessment remains largely unexplored., Here we evaluated reproducibility by analysing 454 pyrosequenced biological replicates of two complex plankton communities collected from one freshwater port and one marine port. We also tested whether reproducibility potentially influences biodiversity estimates, notably α- and β-diversity., Our evaluation of reproducibility revealed a complex scenario, having both technical and biological significance. At the Operational Taxonomic Unit ( OTU) level, reproducibility was 100% for high-abundance OTUs (>100 sequences), although it was lower for low-abundance OTUs, and sometimes <25% for singletons. BLAST searches showed that >88% of irreproducible OTUs had high sequence similarity to existing records, suggesting that some singletons may reflect rare lineages/genotypes in communities. However, spurious amplification of distantly related taxonomic groups generated mainly low-abundance OTUs that were characterized by low reproducibility. At a broad taxonomic level (i.e. order level), reproducibility decreased as the abundance of OTUs decreased and was particularly low for distantly related taxonomic groups such as algae and protists that were not the targets of our zooplankton biodiversity survey. At a lower taxonomical level (i.e. family-level), overall reproducibility was high (>80%) for crustaceans, the dominant group in zooplankton samples. Therefore, we suggest that random variation during both sample collection and sequencing processes can be responsible for low reproducibility. Our analyses also suggest that random sampling processes may influence both α- and β-diversity estimates., Our results add to growing evidence that caution needs to be applied when designing and interpreting experiments utilizing high-throughput sequencing data for biodiversity assessments. Technical replicates are needed to statistically correct intra-sample variation, while field-based replicate samples are desirable to substantiate results. An overestimation of species diversity can occur when OTUs are uniquely characterized by spuriously amplified sequences and errors/artifacts. Therefore, careful management of low-abundance OTUs is required to reveal unique/rare lineages. Our results suggest that further studies are needed to determine the ecological significance of low-abundance OTUs in complex communities. [ABSTRACT FROM AUTHOR]

Published

2014

15. High sensitivity of 454 pyrosequencing for detection of rare species in aquatic communities.

Author

Zhan, Aibin, Hulák, Martin, Sylvester, Francisco, Huang, Xiaoting, Adebayo, Abisola A., Abbott, Cathryn L., Adamowicz, Sarah J., Heath, Daniel D., Cristescu, Melania E., MacIsaac, Hugh J., and Pond, Sergei Kosakovsky

Subjects

AQUATIC biology, PLANKTON, PHYCOLOGY, RIBOSOMAL DNA, BIOTIC communities

Abstract

Concerns regarding the rapid loss of endemic biodiversity, and introduction and spread of non-indigenous species, have focused attention on the need and ability to detect species present in communities at low abundance. However, detection of rare species poses immense technical challenges, especially for morphologically cryptic species, microscopic taxa and those beneath the water surface in aquatic ecosystems., Next-generation sequencing technology provides a robust tool to assess biodiversity, especially for detection of rare species. Here, we assess the sensitivity of 454 pyrosequencing for detection of rare species using known indicator species spiked into existing complex plankton samples. In addition, we develop universal small subunit ribosomal DNA primers for amplification of a wide range of taxa for detailed description of biodiversity in complex communities., A universality test of newly designed primers for the hypervariable V4 region of the nuclear small subunit ribosomal DNA (V4- nSSU) using a plankton sample collected from Hamilton Harbor showed that 454 pyrosequencing based on this universal primer pair can recover a wide range of taxa, including animals, plants (algae), fungi, blue-green algae and protists., A sensitivity test showed that 454 pyrosequencing based on newly designed universal V4- nSSU primers was extremely sensitive for detection of very rare species. Pyrosequencing was able to recover spiked indicator species with biomass percentage as low as approximately 2·3 × 10−5% when 24 artificially assembled samples were tagged and sequenced in one PicoTiter plate (i.e. sequencing depth of an equivalent of 1/24 PicoTiter plate). In addition, spiked rare species were sometimes recovered as singletons (i.e. Operational Taxonomic Units represented by a single sequence), suggesting that at least some singletons are informative for recovering unique lineages in 'rare biospheres'., The method established here allows biologists to better investigate the composition of aquatic communities, especially for detection of rare taxa. Despite a small-scale pyrosequencing effort, we demonstrate the extreme sensitivity of pyrosequencing using rare species spiked into plankton samples. We propose that the method is a powerful tool for detection of rare native and/or alien species. [ABSTRACT FROM AUTHOR]

Published

2013

16. The signal crayfish is not a single species: cryptic diversity and invasions in the Pacific Northwest range of Pacifastacus leniusculus.

Author

LARSON, ERIC R., ABBOTT, CATHRYN L., USIO, NISIKAWA, AZUMA, NORIKO, WOOD, KIMBERLY A., HERBORG, LEIF-MATTHIAS, and OLDEN, JULIAN D.

Subjects

*PACIFASTACUS leniusculus, *MITOCHONDRIAL DNA, *ANIMAL morphology, *PARSIMONIOUS models

Abstract

1. We used historical sources, morphology-based taxonomy and mtDNA sequence data to address questions about the signal crayfish Pacifastacus leniusculus. These included evaluating unrecognised cryptic diversity and investigating the extent to which P. leniusculus may have been introduced within its presumed native range in the Pacific Northwest region of North America. Our study builds and expands on Pacific Northwest phylogeographic knowledge, particularly related to patterns of glacial refugia for freshwater species. 2. Extensive collections (824 specimens) from British Columbia (Canada), Idaho, Nevada, Oregon and Washington (United States) were used to characterise P. leniusculus at the mitochondrial 16S rRNA gene. Genetic groups within the species were elucidated by phylogenetics and amova; evolutionary relationships within the most common and diverse group were investigated using a statistical parsimony haplotype network, a nested amova, and tests of isolation by distance. Morphological measurements were used to relate findings of molecular analyses to three historically recognised P. leniusculus subspecies and characterise cryptic diversity by morphology. 3. We found substantial cryptic diversity, with three groups highly distinct from P. leniusculus in discrete geographic regions: the Chehalis River glacial refugium, Central Oregon and the Okanagan Plateau. Disjunct distributions of P. leniusculus relative to these cryptic groups and known patterns of Pleistocene glaciation and landscape evolution cast doubt on whether P. leniusculus is native to some areas such as coastal drainages of northern Washington and southern British Columbia. Morphological traits previously used to characterise P. leniusculus subspecies still persist but may be incapable of distinguishing P. leniusculus from newly discovered cryptic groups. 4. Cryptic diversity found within P. leniusculus highlights the pressing need for a thorough investigation of the genus Pacifastacus using data based on more extensive gene and taxon sampling. It also warrants conservation attention, as introductions of P. leniusculus within the Pacific Northwest may carry risks of hybridisation and introgression for cryptic groups. Owing to high genetic diversity and limited dispersal capacity relative to more vagile organisms like freshwater fish, crayfish of the genus Pacifastacus offer powerful potential insights into the geological history and phylogeography of the Pacific Northwest region. Finally, by shedding light on the long-neglected native range of P. leniusculus, our results should also better inform our understanding of potential source populations for, and the ecology of, this important invasive species in regions including Europe, Japan and elsewhere in North America. [ABSTRACT FROM AUTHOR]

Published

2012

17. An unusual source of apparent mitochondrial heteroplasmy: duplicate mitochondrial control regions in Thalassarche albatrosses.

Author

Abbott, Cathryn L., Double, Michael C., Trueman, John W. H., Robinson, Anna, and Cockburn, Andrew

Subjects

*THALASSARCHE, *ALBATROSSES, *MITOCHONDRIAL DNA, *GENE amplification, *POPULATION genetics, *ANIMAL populations, *MOLECULAR ecology, *MOLECULAR biology

Abstract

Molecular ecologists, in search of suitable molecular markers, frequently PCR-amplify regions of mitochondrial DNA from total DNA extracts. This approach, although common, is prone to the co-amplification of nuclear copies of transposed DNA sequences (numts), which can then generate apparent mitochondrial sequence heteroplasmy. In this study we describe the discovery of apparent mitochondrial sequence heteroplasmy in Thalassarche albatrosses but eliminate the possibility of true sequence heteroplasmy and numts and instead reveal the source of the apparent heteroplasmy to be a duplicated control region. The two control regions align easily but are not identical in sequence or in length. Comparisons of functionally significant conserved sequence blocks do not provide evidence of degeneration in either duplicate. Phylogenetic analyses of domain I of both control region copies in five Thalassarche species indicate that they are largely evolving in concert; however, a short section within them is clearly evolving independently. To our knowledge this is the first time contrasting evolutionary patterns have been reported for duplicate control regions. Available evidence suggests that this duplication may be taxonomically widespread, so the results presented here should be considered in future evolutionary studies targeting the control region of all Procellariiformes and potentially other closely related avian groups. [ABSTRACT FROM AUTHOR]

Published

2005

18. Genetic structure, conservation genetics and evidence of speciation by range expansion in shy and white-capped albatrosses.

Author

Abbott, Cathryn L. and Double, Michael C.

Subjects

*ALBATROSSES, *SEA birds, *ANIMAL genetics, *MOLECULAR ecology

Abstract

Six variable microsatellite loci were used to examine genetic structuring in the closely related shy albatross ( Thalassarche cauta) and white-capped albatross ( T. steadi). First, levels of genetic differentiation between the species, and among three populations within each species, were analysed using amova, FST and RST. We found high levels of genetic structuring and detected many unshared alleles between the species, which provide strong evidence against any contemporary gene flow between them. Within each species, shy albatross populations were found to be genetically distinct whereas white-capped albatross populations were undifferentiated, which implies that dispersal events are much rarer in the former than in the latter. These results formed the basis for the recommendation that the three white-capped albatross populations (as a whole) and each shy albatross population be treated as separate units for conservation. Second, levels of genetic diversity and allelic patterns in shy and white-capped albatrosses were assessed for whether they support earlier mtDNA results suggesting that shy albatrosses arose through range expansion of white-capped albatrosses. All measures indicated lower genetic diversity within shy albatrosses than within white-capped albatrosses and upheld the hypothesis that shy albatrosses were founded by white-capped albatrosses. [ABSTRACT FROM AUTHOR]

Published

2003

19. Phylogeography of shy and white-capped albatrosses inferred from mitochondrial DNA sequences: implications for population history and taxonomy.

Author

Abbott, Cathryn L. and Double, Michael C.

Subjects

*ALBATROSSES, *BIRD populations, *PHYLOGEOGRAPHY

Abstract

Abstract The evolutionary relationship between shy (Thalassarche cauta ) and white-capped (T. steadi ) albatrosses was examined using mitochondrial control region sequences. Results were interpreted in the context of a recent and contentious taxonomic revision that recommended full species status for shy and white-capped albatrosses. Low sequence divergence between shy and white-capped albatrosses (1.8%) and between their close relatives, Salvin's and Chatham albatrosses (2.9%), was observed. Much higher sequence divergence was found between the shy/white-capped pair and the Salvin’s/Chatham pair (7.0%). Phylogenetic analyses confirmed the separation of the shy/white-capped pair from the Salvin’s/Chatham pair but did not provide species-level resolution. Phylogeographic analyses, including a nested clade analysis, F [sub ST] estimates and an analysis of molecular variance, indicated unambiguous genetic structuring between shy and white-capped albatrosses, thus confirming the demographic isolation of the species, but showed little to no structuring within each species. The geographical distribution of mtDNA haplotypes and other evidence suggest that shy albatrosses arose through range expansion by white-capped albatrosses. [ABSTRACT FROM AUTHOR]

Published

2003