Your search keyword '"Margaret E. Hunter"' showing total 99 results

1. In vitro impacts of glyphosate on manatee lymphocytes

Author

Maite De Maria, Natalia Garcia-Reyero, Nicole I. Stacy, Jeffrey R. Abbott, Fahong Yu, Ruyiu Pu, Kevin J. Kroll, Francisco R. Barboza, Michael T. Walsh, Juan G. Perez-Jimenez, David A. Moraga Amador, Margaret E. Hunter, and Nancy D. Denslow

Subjects

Immune system, T-cell, Acute-phase inflammation, Proliferation, Mammals, Transcriptomics, Environmental sciences, GE1-350

Abstract

Exposure to contaminants, such as the herbicide glyphosate, can suppress protective immune functions. Glyphosate is the herbicide most used worldwide and has been found in the plasma of more than 50 % of the Florida manatees (Trichechus manatus latirostris) and all-year-round in their aquatic environment. Our objectives were to analyze the consequences of glyphosate exposure on their immune responses via T-lymphocyte proliferation assays and transcriptomics. We isolated peripheral blood mononuclear cells (mainly lymphocytes) of free-ranging manatees and performed T-cell proliferation assays. We used transcriptomics to understand the consequences of glyphosate in vitro exposure. The three doses chosen ranged from environmentally relevant concentrations at 10 to 10,000 µg.L−1 that is considered an environmental contamination scenario. Glyphosate caused a dose-dependent reduction in T-lymphocyte proliferation, with a significant mean reduction of 27.3 % at 10,000 µg.L−1 and up to 51.5 % in some individuals. Additionally, T-lymphocyte proliferation was significantly reduced in mid-winter compared to early winter. Transcriptomic analysis of peripheral blood mononuclear cells indicated that all doses of glyphosate (10, 1,000, and 10,000 µg.L−1) resulted in up-regulation of genes related to acute phase inflammation and inhibition of the T-lymphocyte proliferation pathway. Exposure to this contaminant along with other environmental stressors, such as extreme winters and red tide, might further affect the adaptive immune response of this threatened species.

Published

2024

2. A Guide to Environmental DNA Extractions for Non‐Molecular Trained Biologists, Ecologists, and Conservation Scientists

Author

Jessica Rieder, Eliane Jemmi, Margaret E. Hunter, and Irene Adrian‐Kalchhauser

Subjects

conservation ecologists and biologists, DNA extraction, DNA isolation, environmental DNA (eDNA), molecular methods, Environmental sciences, GE1-350, Microbial ecology, QR100-130

Abstract

ABSTRACT Ecologists, biologists, and conservation scientists are increasingly interested in the use of environmental DNA (eDNA) data for research and potentially decision‐making. While commercial DNA extraction kits are typically user‐friendly and accessible, they may fail to deliver the desired results with inherently complex eDNA samples, necessitating protocol optimization or educated selection of alternative approaches. To this end, knowledge of the basic steps and principles of DNA extractions is essential, but traditional education tracks in ecology, conservation, and environmental management typically do not include in‐depth training in molecular methods. The primary objective of this paper is to enable scientists with an ecological background and limited molecular training to understand the four key steps of eDNA isolations, and to use this expertise to their advantage. We describe the purpose of commonly used reagents and chemicals, point out alternatives for each key step, explain the impact of certain choices regarding isolation approaches on DNA integrity and purity, and highlight the possibility of a tailor‐made “mix and match” approach. We anticipate that this paper will enable field ecologists to develop a deeper understanding of the mechanisms and chemistry underlying eDNA extractions, thus allowing them to make informed decisions regarding the best eDNA extraction method for their research goals. Our intention is not to provide comprehensive, step‐by‐step protocols, but to offer guiding principles while highlighting alternative solutions. Finally, we hope that this paper will act as a useful resource to support knowledge transfer and teaching.

Published

2024

3. Environmental DNA metabarcoding read numbers and their variability predict species abundance, but weakly in non‐dominant species

Author

James Skelton, Allison Cauvin, and Margaret E. Hunter

Subjects

abundance, amplicon sequence variants (ASVs), biosurveillance, cichlid species, exact amplicon sequence inference approaches, Illumina NovaSeq, Environmental sciences, GE1-350, Microbial ecology, QR100-130

Abstract

Abstract Metabarcoding of environmental DNA (eDNA) provides more comprehensive, efficient, and non‐invasive sampling of biological communities than conventional methods. However, limitations of metabarcoding include taxon‐specific biases in amplification and sequencing that distort assessments of community composition. Further, hyper‐abundant species may disproportionately affect community composition assessments and impair the detection of rare species (i.e., “species masking”). In this study, we examine methodological approaches to improve eDNA metabarcoding assessments of community structure using fish community diversity in a pond in south Florida using MiFish primers modified to improve cichlid detection. Mitochondrial 12S eDNA amplicon sequencing via Illumina NovaSeq was analyzed using the DADA2 model‐based exact sequence inference. The fish species and abundances in the system were recorded during piscicide treatment and subsequent native species restocking. Our results demonstrate that (1) ultra‐high‐throughput sequencing on the newer NovaSeq patterned flow cell provided reliable detection of very rare taxa—with detections of a single individual. (2) Read numbers were significantly correlated to the total surface area of the fish population, and numerical abundance to a lesser degree; however, dominant taxa largely drove those correlations, and simulations showed that biases in the most abundant taxa will have disproportionate effects on the strength of the correlation. (3) The read number coefficient of variation for each species across spatially separated replicate samples may provide less biased abundance estimates compared with estimates based on average read counts. Finally, (4) exact sequence inference detected multiple haplotypes and population genetic diversity within a species. Our results demonstrate the real‐world metabarcoding capacity to reveal community structure and reliably detect rare species and unique haplotypes and shows that read numbers can, to a limited degree, be used to infer the size of fish populations. Careful examination of detection biases among dominant taxa and spatial variation among samples are required for rigorous eDNA‐based estimates of community structure. Our results demonstrate the capacity of NovaSeq metabarcoding to reveal freshwater fish community structure and reliably detect rare species and unique haplotypes. Metabarcoding read numbers were significantly correlated to the total surface area of the fish species' populations, allowing for conditional inferences of population sizes. However, dominant taxa largely drove those correlations, and simulations indicated that biases toward the most abundant taxa will have disproportionate effects on the strength of the correlation.

Published

2023

4. Toward a national eDNA strategy for the United States

Author

Ryan P. Kelly, David M. Lodge, Kai N. Lee, Susanna Theroux, Adam J. Sepulveda, Christopher A. Scholin, Joseph M. Craine, Elizabeth Andruszkiewicz Allan, Krista M. Nichols, Kim M. Parsons, Kelly D. Goodwin, Zachary Gold, Francisco P. Chavez, Rachel T. Noble, Cathryn L. Abbott, Melinda R. Baerwald, Amanda M. Naaum, Peter M. Thielen, Ariel Levi Simons, Christopher L. Jerde, Jeffrey J. Duda, Margaret E. Hunter, John A. Hagan, Rachel Sarah Meyer, Joshua A. Steele, Mark Y. Stoeckle, Holly M. Bik, Christopher P. Meyer, Eric Stein, Karen E. James, Austen C. Thomas, Elif Demir‐Hilton, Molly A. Timmers, John F. Griffith, Michael J. Weise, and Stephen B. Weisberg

Subjects

environmental DNA, federal, genetic, implementation, management, natural resources, Environmental sciences, GE1-350, Microbial ecology, QR100-130

Abstract

Abstract Environmental DNA (eDNA) data make it possible to measure and monitor biodiversity at unprecedented resolution and scale. As use‐cases multiply and scientific consensus grows regarding the value of eDNA analysis, public agencies have an opportunity to decide how and where eDNA data fit into their mandates. Within the United States, many federal and state agencies are individually using eDNA data in various applications and developing relevant scientific expertise. A national strategy for eDNA implementation would capitalize on recent scientific developments, providing a common set of next‐generation tools for natural resource management and public health protection. Such a strategy would avoid patchwork and possibly inconsistent guidelines in different agencies, smoothing the way for efficient uptake of eDNA data in management. Because eDNA analysis is already in widespread use in both ocean and freshwater settings, we focus here on applications in these environments. However, we foresee the broad adoption of eDNA analysis to meet many resource management issues across the nation because the same tools have immediate terrestrial and aerial applications.

Published

2024

5. A pragmatic approach for integrating molecular tools into biodiversity conservation

Author

Laura D. Bertola, Anna Brüniche‐Olsen, Francine Kershaw, Isa‐Rita M. Russo, Anna J. MacDonald, Paul Sunnucks, Michael W. Bruford, Carlos Daniel Cadena, Kyle M. Ewart, Mark deBruyn, Mark D. B. Eldridge, Richard Frankham, Juan M. Guayasamin, Catherine E. Grueber, Thierry B. Hoareau, Sean Hoban, Paul A. Hohenlohe, Margaret E. Hunter, Antoinette Kotze, Josiah Kuja, Robert C. Lacy, Linda Laikre, Nathan Lo, Mariah H. Meek, Joachim Mergeay, Cinnamon Mittan‐Moreau, Linda E. Neaves, David O'Brien, Joel W. Ochieng, Rob Ogden, Pablo Orozco‐terWengel, Mónica Páez‐Vacas, Jennifer Pierson, Katherine Ralls, Robyn E. Shaw, Etotépé A. Sogbohossou, Adam Stow, Tammy Steeves, Cristiano Vernesi, Mrinalini Watsa, and Gernot Segelbacher

Subjects

conservation, management, molecular tools, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Molecular tools are increasingly applied for assessing and monitoring biodiversity and informing conservation action. While recent developments in genetic and genomic methods provide greater sensitivity in analysis and the capacity to address new questions, they are not equally available to all practitioners: There is considerable bias across institutions and countries in access to technologies, funding, and training. Consequently, in many cases, more accessible traditional genetic data (e.g., microsatellites) are still utilized for making conservation decisions. Conservation approaches need to be pragmatic by tackling clearly defined management questions and using the most appropriate methods available, while maximizing the use of limited resources. Here we present some key questions to consider when applying the molecular toolbox for accessible and actionable conservation management. Finally, we highlight a number of important steps to be addressed in a collaborative way, which can facilitate the broad integration of molecular data into conservation.

Published

2024

6. Burmese pythons in Florida: A synthesis of biology, impacts, and management tools

Author

Jacquelyn C. Guzy, Bryan G. Falk, Brian J. Smith, John David Willson, Robert N. Reed, Nicholas G. Aumen, Michael L. Avery, Ian A. Bartoszek, Earl Campbell, Michael S. Cherkiss, Natalie M. Claunch, Andrea F. Currylow, Tylan Dean, Jeremy Dixon, Richard Engeman, Sarah Funck, Rebekah Gibble, Kodiak C. Hengstebeck, John S. Humphrey, Margaret E. Hunter, Jillian M. Josimovich, Jennifer Ketterlin, Michael Kirkland, Frank J. Mazzotti, Robert McCleery, Melissa A. Miller, Matthew McCollister, M. Rockwell Parker, Shannon E. Pittman, Michael Rochford, Christina Romagosa, Art Roybal, Ray W. Snow, McKayla M. Spencer, J. Hardin Waddle, Amy A. Yackel Adams, and Kristen M. Hart

Subjects

Biology (General), QH301-705.5

Abstract

Burmese pythons (Python molurus bivittatus) are native to southeastern Asia, however, there is an established invasive population inhabiting much of southern Florida throughout the Greater Everglades Ecosystem. Pythons have severely impacted native species and ecosystems in Florida and represent one of the most intractable invasive-species management issues across the globe. The difficulty stems from a unique combination of inaccessible habitat and the cryptic and resilient nature of pythons that thrive in the subtropical environment of southern Florida, rendering them extremely challenging to detect. Here we provide a comprehensive review and synthesis of the science relevant to managing invasive Burmese pythons. We describe existing control tools and review challenges to productive research, identifying key knowledge gaps that would improve future research and decision making for python control.

Published

2023

7. Monitoring status and trends in genetic diversity for the Convention on Biological Diversity: An ongoing assessment of genetic indicators in nine countries

Author

Sean Hoban, Jessica M. da Silva, Alicia Mastretta‐Yanes, Catherine E. Grueber, Myriam Heuertz, Margaret E. Hunter, Joachim Mergeay, Ivan Paz‐Vinas, Keiichi Fukaya, Fumiko Ishihama, Rebecca Jordan, Viktoria Köppä, María Camilla Latorre‐Cárdenas, Anna J. MacDonald, Victor Rincon‐Parra, Per Sjögren‐Gulve, Naoki Tani, Henrik Thurfjell, and Linda Laikre

Subjects

adaptive capacity, conservation genetics, indicators, monitoring, policy, resilience, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Recent scientific evidence shows that genetic diversity must be maintained, managed, and monitored to protect biodiversity and nature's contributions to people. Three genetic diversity indicators, two of which do not require DNA‐based assessment, have been proposed for reporting to the Convention on Biological Diversity and other conservation and policy initiatives. These indicators allow an approximation of the status and trends of genetic diversity to inform policy, using existing demographic and geographic information. Application of these indicators has been initiated and here we describe ongoing efforts in calculating these indicators with examples. We specifically describe a project underway to apply these indicators in nine countries, provide example calculations, address concerns of policy makers and implementation challenges, and describe a roadmap for further development and deployment, incorporating feedback from the broader community. We also present guidance documents and data collection tools for calculating indicators. We demonstrate that Parties can successfully and cost‐effectively report these genetic diversity indicators with existing biodiversity observation data, and, in doing so, better conserve the Earth's biodiversity.

Published

2023

8. Diet composition of the African manatee: Spatial and temporal variation within the Sanaga River Watershed, Cameroon

Author

Aristide Takoukam Kamla, Dylan G. E. Gomes, Cathy A. Beck, Lucy W. Keith‐Diagne, Margaret E. Hunter, Ruth Francis‐Floyd, and Robert K. Bonde

Subjects

endangered species, marine mammal, protection, Sirenia, threatened, Trichechidae, Ecology, QH540-549.5

Abstract

Abstract The present study aimed to investigate the diet of African manatees in Cameroon to better inform conservation decisions within protected areas. A large knowledge gap on diet and seasonal changes in forage availability limits the ability to develop informed local management plans for the African manatee in much of its range. This research took place in the Sanaga River Watershed, which includes two protected areas in the Littoral Region of Cameroon: the Douala‐Edea National Park and the Lake Ossa Wildlife Reserve. We analyzed 113 manatee fecal samples and surveyed shoreline emergent and submerged vegetation within the Sanaga River Watershed. We used microhistological analyses to determine the relative contribution of each plant species to African manatee diets and compared across locations and across seasons (wet vs. dry season). We found that the shoreline vegetation is diverse with over 160 plant species, unevenly distributed across space and season, and dominated by emergent vegetation mostly represented by the antelope grass (Echinochloa pyramidalis). We recorded a total of 36 plant species from fecal samples with a spatial and temporal distribution mostly reflecting that of the corresponding shoreline vegetation. African manatees appear to be primarily opportunistically feeding on available vegetation across the seasons and habitat. This work documents the current, but changing, state of plant availability in the Sanaga River Watershed and reports the African manatee diet in Cameroon for the first time. This information can play a critical role in successfully managing the species and these protected areas. If we wish to protect the African manatee and the aquatic ecosystems within the Sanaga River Watershed, we must understand how forage availability changes over time, especially as its waters become nutrient enriched, eutrophic, and exposed to invasive species of plants in a changing world.

Published

2021

9. The Coalition for Conservation Genetics: Working across organizations to build capacity and achieve change in policy and practice

Author

Francine Kershaw, Michael W. Bruford, W. Chris Funk, Catherine E. Grueber, Sean Hoban, Margaret E. Hunter, Linda Laikre, Anna J. MacDonald, Mariah H. Meek, Cinnamon Mittan, David O'Brien, Rob Ogden, Robyn E. Shaw, Cristiano Vernesi, and Gernot Segelbacher

Subjects

capacity building, conservation genetics, genetic diversity, international policy, policy and practice, scientific networks, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract The Coalition for Conservation Genetics (CCG) brings together four eminent organizations with the shared goal of improving the integration of genetic information into conservation policy and practice. We provide a historical context of conservation genetics as a field and reflect on current barriers to conserving genetic diversity, highlighting the need for collaboration across traditional divides, international partnerships, and coordinated advocacy. We then introduce the CCG and illustrate through examples how a coalition approach can leverage complementary expertise and improve the organizational impact at multiple levels. The CCG has proven particularly successful at implementing large synthesis‐type projects, training early‐career scientists, and advising policy makers. Achievements to date highlight the potential for the CCG to make effective contributions to practical conservation policy and management that no one “parent” organization could achieve on its own. Finally, we reflect on the lessons learned through forming the CCG, and our vision for the future.

Published

2022

10. Reporting the limits of detection and quantification for environmental DNA assays

Author

Katy E. Klymus, Christopher M. Merkes, Michael J. Allison, Caren S. Goldberg, Caren C. Helbing, Margaret E. Hunter, Craig A. Jackson, Richard F. Lance, Anna M. Mangan, Emy M. Monroe, Antoinette J. Piaggio, Joel P. Stokdyk, Chris C. Wilson, and Catherine A. Richter

Subjects

assay optimization, eDNA, qPCR, standardization, Environmental sciences, GE1-350, Microbial ecology, QR100-130

Abstract

Abstract Background Environmental DNA (eDNA) analysis is increasingly being used to detect the presence and relative abundance of rare species, especially invasive or imperiled aquatic species. The rapid progress in the eDNA field has resulted in numerous studies impacting conservation and management actions. However, standardization of eDNA methods and reporting across the field is yet to be fully established, with one area being the calculation and interpretation of assay limit of detection (LOD) and limit of quantification (LOQ). Aims Here, we propose establishing consistent methods for determining and reporting of LOD and LOQ for single‐species quantitative PCR (qPCR) eDNA studies. Materials & Methods/ Results We utilize datasets from multiple cooperating laboratories to demonstrate both a discrete threshold approach and a curve‐fitting modeling approach for determining LODs and LOQs for eDNA qPCR assays. We also provide details of an R script developed and applied for the modeling method. Discussion/Conclusions Ultimately, standardization of how LOD and LOQ are determined, interpreted, and reported for eDNA assays will allow for more informed interpretation of assay results, more meaningful interlaboratory comparisons of experiments, and enhanced capacity for assessing the relative technical quality and performance of different eDNA qPCR assays.

Published

2020

11. Chronic exposure to glyphosate in Florida manatee

Author

Maite De María, Cecilia Silva-Sanchez, Kevin J. Kroll, Michael T. Walsh, Mohammad-Zaman Nouri, Margaret E. Hunter, Monica Ross, Tonya M. Clauss, and Nancy D. Denslow

Subjects

Marine mammals, Polar Organic Chemical Integrative Samplers, AMPA, Everglades, Ecotoxicology, HPLC-MS/MS, Environmental sciences, GE1-350

Abstract

Florida manatees depend on freshwater environments as a source of drinking water and as warm-water refuges. These freshwater environments are in direct contact with human activities where glyphosate-based herbicides are being used. Glyphosate is the most used herbicide worldwide and it is intensively used in Florida as a sugarcane ripener and to control invasive aquatic plants. The objective of the present study was to determine the concentration of glyphosate and its breakdown product, aminomethylphosphonic acid (AMPA), in Florida manatee plasma and assess their exposure to manatees seeking a warm-water refuge in Crystal River (west central Florida), and in South Florida. We analyzed glyphosate’s and AMPA’s concentrations in Florida manatee plasma (n = 105) collected during 2009–2019 using HPLC-MS/MS. We sampled eight Florida water bodies between 2019 and 2020, three times a year: before, during and after the sugarcane harvest using grab samples and molecular imprinted passive Polar Organic Chemical Integrative Samplers (MIP-POCIS). Glyphosate was present in 55.8% of the sampled Florida manatees’ plasma. The concentration of glyphosate has significantly increased in Florida manatee samples from 2009 until 2019. Glyphosate and AMPA were ubiquitous in water bodies. The concentration of glyphosate and AMPA was higher in South Florida than in Crystal River, particularly before and during the sugarcane harvest when Florida manatees depend on warm water refuges. Based on our results, Florida manatees were chronically exposed to glyphosate and AMPA, during and beyond the glyphosate applications to sugarcane, possibly associated with multiple uses of glyphosate-based herbicides for other crops or to control aquatic weeds. This chronic exposure in Florida water bodies may have consequences for Florida manatees’ immune and renal systems which may further be compounded by other environmental exposures such as red tide or cold stress.

Published

2021

12. Intended consequences statement

Author

Ryan Phelan, Bridget Baumgartner, Stewart Brand, Evelyn Brister, Stanley W. Burgiel, R. Alta Charo, Isabelle Coche, Al Cofrancesco, Jason A. Delborne, Owain Edwards, Joshua P. Fisher, Martin Gaywood, Doria R. Gordon, Gregg Howald, Margaret E. Hunter, Peter Kareiva, Aditi Mankad, Michelle Marvier, Katherine Moseby, Andrew E. Newhouse, Ben J. Novak, Gerry Ohrstrom, Steven Olson, Megan J. Palmer, Stephen Palumbi, Neil Patterson Jr., Miguel Pedrono, Francisco Pelegri, Yasha Rohwer, Oliver A. Ryder, J. Royden Saah, Robert M. Scheller, Philip J. Seddon, H. Bradley Shaffer, Beth Shapiro, Mike Sweeney, Mark R. Tercek, Delphine Thizy, Whitney Tilt, Michele Weber, Renee D. Wegrzyn, Bruce Whitelaw, Matthew Winkler, Josh Wodak, Mark Zimring, and Paul Robbins

Subjects

Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Published

2021

13. Genetic Connectivity of the West Indian Manatee in the Southern Range and Limited Evidence of Hybridization With Amazonian Manatees

Author

Fábia de Oliveira Luna, Caitlin E. Beaver, Coralie Nourisson, Robert K. Bonde, Fernanda L. N. Attademo, Adriana Vieira Miranda, Juan Pablo Torres-Florez, Glaucia Pereira de Sousa, José Zanon Passavante, and Margaret E. Hunter

Subjects

Antillean manatee, conservation genetics, population structure, endangered species, sympatric species, hybrid, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The Antillean subspecies of the West Indian manatee is classified as endangered by the International Union for the Conservation of Nature (IUCN) Red List. In Brazil, the manatee population is listed as endangered with an estimated population size of 500–1,000. Historic hunting, recent habitat degradation, and fisheries bycatch have decreased the population size. The Amazonian manatee is listed as vulnerable by the IUCN with unknown population sizes within Brazil. The Antillean manatee occurs in sympatry with the Amazonian manatee in Brazil and hybridization has been previously indicated. To provide information on the genetic structure, diversity, and degree of hybridization in the sympatric zone near the Amazon River mouth, the mitochondrial DNA control region and 13 nuclear microsatellite markers were assessed on the two species. Samples were analyzed from the Antillean subspecies across its distribution in Brazil (n = 78) and from the Amazonian species (n = 17) at the Amazon River mouth and inland mainstem river. To assess the previously defined evolutionary significant units of Antillean manatees in the area, an additional 11 samples from Venezuela and Guyana were included. The Antillean manatee was found to be a single population in Brazil and had lower than average number of alleles (3.00), expected heterozygosity (0.34), and haplotype diversity (0.15) when compared to many other manatee populations. The low values may be influenced by the small population size and extended pressures from anthropogenic threats. Gene flow was identified with Venezuela/Guyana in admixed Antillean Brazil samples, although the two populations were found to be moderately divergent. The nuclear loci in Venezuela/Guyana Antillean manatee samples indicated high differentiation from the samples collected in the Amazon River (FST = 0.35 and RST = 0.18, p = 0.0001). No indication of nuclear hybridization was found except for a single sample, “Poque” that had been identified previously. The distribution of Antillean manatees in Brazil is extensive and the areas with unique habitat and threats would benefit from independent management and conservation actions. Gene flow, resulting in genetic diversity and long-term population stability, could be improved in the southern range through habitat restoration, and the establishments of travel corridors and protected areas, which are particularly important for successful parturition and neonatal calf survival.

Published

2021

14. A novel technique for isolating DNA from Tempus™ blood RNA tubes after RNA isolation

Author

Jason A. Ferrante, Michelle R. Giles, Emily Benzie, and Margaret E. Hunter

Subjects

Blood, Tempus, RNA, Genomic DNA, Isolation, Preservation, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective We use Tempus blood RNA tubes (Applied Biosystems) during health assessments of American moose (Alces alces spp.) as a minimally invasive means to obtain RNA. Here we describe a novel protocol to additionally isolate high-quality DNA from the supernatant remaining after the RNA isolation methodology. Metrics used to qualify DNA quality included measuring the concentration, obtaining a DNA integrity number from a genomic DNA ScreenTape assay (Agilent), and running the isolated DNA on an agarose gel. Results Of the 23 samples analyzed, the average DNA concentration was 121 ng/µl (range 4–337 ng/µl) and a genomic DNA ScreenTape assay of seven samples indicated high DNA integrity values for 6 of the 7 samples (range 9.1–9.4 out of 10). Of the DNA sent for genotyping by sequencing, all proved to be of sufficient integrity to yield high-quality next-generation sequence results. We recommend this simple procedure to maximize the yield of both RNA and DNA from blood samples.

Published

2018

15. The first assessment of the genetic diversity and structure of the endangered West Indian manatee in Cuba

Author

Anmari Alvarez-Aleman, Margaret E. Hunter, Thomas K. Frazer, James A. Powell, Eddy Garcia Alfonso, and James D. Austin

Subjects

Insect Science, Genetics, Animal Science and Zoology, Plant Science, General Medicine

Published

2022

16. Toward a national <scp>eDNA</scp> strategy for the United States

Author

Ryan P. Kelly, David M. Lodge, Kai N. Lee, Susanna Theroux, Adam J. Sepulveda, Christopher A. Scholin, Joseph M. Craine, Elizabeth Andruszkiewicz Allan, Krista M. Nichols, Kim M. Parsons, Kelly D. Goodwin, Zachary Gold, Francisco P. Chavez, Rachel T. Noble, Cathryn L. Abbott, Melinda R. Baerwald, Amanda M. Naaum, Peter M. Thielen, Ariel Levi Simons, Christopher L. Jerde, Jeffrey J. Duda, Margaret E. Hunter, John A. Hagan, Rachel Sarah Meyer, Joshua A. Steele, Mark Y. Stoeckle, Holly M. Bik, Christopher P. Meyer, Eric Stein, Karen E. James, Austen C. Thomas, Elif Demir‐Hilton, Molly A. Timmers, John F. Griffith, Michael J. Weise, and Stephen B. Weisberg

Subjects

Ecology, Genetics, Ecology, Evolution, Behavior and Systematics

Published

2023

17. Compensatory mortality explains rodent resilience to an invasive predator

Author

Marina E McCampbell, Margaret E Hunter, John V Stechly, Kaitlyn N Leist, Kristen Hart, and Robert A McCleery

Subjects

Ecology, Genetics, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Invasive Burmese pythons (Python bivittatus) in the Everglades of Florida, United States, have drastically reduced populations of mammals, yet populations of some rodents appear unaffected by the invasion. To understand this pattern, we radio-tagged cotton rats (Sigmodon hispidus) in areas of high and low python occurrence densities (hereafter occurrence) and quantified the effects of python occurrence, seasonality, and sex on their survival and cause-specific mortality. Cotton rat survival was not influenced by difference in python occurrence (hazard ratio = 1.32, 95% CI = 0.77–2.26, P = 0.30). However, cotton rats were at greater risk from mortalities caused by mammals in areas of low python occurrence. In areas with elevated python occurrence, we attributed most cotton rat mortalities to birds of prey (48.6%) and reptiles (non-python = 24.3%, python = 16.2%). Where python occurrence was relatively low, we attributed cotton rat mortalities to native reptilian (28.6%), avian (35.7%), and mammalian predators (35.7%) with no python-related deaths. In total, pythons were responsible for 11.8% of all cotton rat mortalities. Finding no difference in the survival of cotton rats, despite differences in the causative agents of mortality, suggests that predation pressure from an invasive predator was compensatory for cotton rat population dynamics. This type of compensatory mortality is common for small mammals and helps explain why mammal communities in python-invaded portions of the Greater Everglades Ecosystem are increasingly dominated by cotton rats and other rodents.

Published

2023

18. Reduction of Paraoxonase Expression Followed by Inactivation across Independent Semiaquatic Mammals Suggests Stepwise Path to Pseudogenization

Author

Allie M Graham, Jerrica M Jamison, Marisol Bustos, Charlotte Cournoyer, Alexa Michaels, Jason S Presnell, Rebecca Richter, Daniel E Crocker, Ari Fustukjian, Margaret E Hunter, Lorrie D Rea, Judit Marsillach, Clement E Furlong, Wynn K Meyer, and Nathan L Clark

Subjects

Genetics, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Convergent adaptation to the same environment by multiple lineages frequently involves rapid evolutionary change at the same genes, implicating these genes as important for environmental adaptation. Such adaptive molecular changes may yield either change or loss of protein function; loss of function can eliminate newly deleterious proteins or reduce energy necessary for protein production. We previously found a striking case of recurrent pseudogenization of the Paraoxonase 1 (Pon1) gene among aquatic mammal lineages—Pon1 became a pseudogene with genetic lesions, such as stop codons and frameshifts, at least four times independently in aquatic and semiaquatic mammals. Here, we assess the landscape and pace of pseudogenization by studying Pon1 sequences, expression levels, and enzymatic activity across four aquatic and semiaquatic mammal lineages: pinnipeds, cetaceans, otters, and beavers. We observe in beavers and pinnipeds an unexpected reduction in expression of Pon3, a paralog with similar expression patterns but different substrate preferences. Ultimately, in all lineages with aquatic/semiaquatic members, we find that preceding any coding-level pseudogenization events in Pon1, there is a drastic decrease in expression, followed by relaxed selection, thus allowing accumulation of disrupting mutations. The recurrent loss of Pon1 function in aquatic/semiaquatic lineages is consistent with a benefit to Pon1 functional loss in aquatic environments. Accordingly, we examine diving and dietary traits across pinniped species as potential driving forces of Pon1 functional loss. We find that loss is best associated with diving activity and likely results from changes in selective pressures associated with hypoxia and hypoxia-induced inflammation.

Published

2023

19. A framework to integrate innovations in invasion science for proactive management

Author

Charles B. van Rees, Brian K. Hand, Sean C. Carter, Chuck Bargeron, Timothy J. Cline, Wesley Daniel, Jason A. Ferrante, Keith Gaddis, Margaret E. Hunter, Catherine S. Jarnevich, Melodie A. McGeoch, Jeffrey T. Morisette, Matthew E. Neilson, Helen E. Roy, Mary Ann Rozance, Adam Sepulveda, Rebekah D. Wallace, Diane Whited, Taylor Wilcox, John S. Kimball, and Gordon Luikart

Subjects

Biodiversity, Introduced Species, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

Invasive alien species (IAS) are a rising threat to biodiversity, national security, and regional economies, with impacts in the hundreds of billions of U.S. dollars annually. Proactive or predictive approaches guided by scientific knowledge are essential to keeping pace with growing impacts of invasions under climate change. Although the rapid development of diverse technologies and approaches has produced tools with the potential to greatly accelerate invasion research and management, innovation has far outpaced implementation and coordination. Technological and methodological syntheses are urgently needed to close the growing implementation gap and facilitate interdisciplinary collaboration and synergy among evolving disciplines. A broad review is necessary to demonstrate the utility and relevance of work in diverse fields to generate actionable science for the ongoing invasion crisis. Here, we review such advances in relevant fields including remote sensing, epidemiology, big data analytics, environmental DNA (eDNA) sampling, genomics, and others, and present a generalized framework for distilling existing and emerging data into products for proactive IAS research and management. This integrated workflow provides a pathway for scientists and practitioners in diverse disciplines to contribute to applied invasion biology in a coordinated, synergistic, and scalable manner.

Published

2022

20. When are environmental DNA early detections of invasive species actionable?

Author

Adam J. Sepulveda, Christine E. Dumoulin, Denise L. Blanchette, John McPhedran, Colin Holme, Nathan Whalen, Margaret E. Hunter, Christopher M. Merkes, Catherine A. Richter, Matthew E. Neilson, Wesley M. Daniel, Devin N. Jones, and David R. Smith

Subjects

Environmental Engineering, General Medicine, Management, Monitoring, Policy and Law, Waste Management and Disposal

Published

2023

21. Genetic diversity Goals and Targets have improved, but remain insufficient for clear implementation of the post-2020 global biodiversity framework

Author

Sean Hoban, Michael W. Bruford, Jessica M. da Silva, W. Chris Funk, Richard Frankham, Michael J. Gill, Catherine E. Grueber, Myriam Heuertz, Margaret E. Hunter, Francine Kershaw, Robert C. Lacy, Caroline Lees, Margarida Lopes-Fernandes, Anna J. MacDonald, Alicia Mastretta-Yanes, Philip J. K. McGowan, Mariah H. Meek, Joachim Mergeay, Katie L. Millette, Cinnamon S. Mittan-Moreau, Laetitia M. Navarro, David O’Brien, Rob Ogden, Gernot Segelbacher, Ivan Paz-Vinas, Cristiano Vernesi, Linda Laikre, and Centro em Rede de Investigação em Antropologia (CRIA - NOVA FCSH)

Subjects

Genetics & Heredity, Science & Technology, Adaptive capacity, Settore BIO/18 - GENETICA, Biodiversity & Conservation, CONSERVATION, Efective population size, Gene flow, Effective population size, Genetics, Global conservation policy, Biodiversity Conservation, POPULATIONS, Indicators, Life Sciences & Biomedicine, Ecology, Evolution, Behavior and Systematics

Abstract

Genetic diversity among and within populations of all species is necessary for people and nature to survive and thrive in a changing world. Over the past three years, commitments for conserving genetic diversity have become more ambitious and specific under the Convention on Biological Diversity's (CBD) draft post-2020 global biodiversity framework (GBF). This Perspective article comments on how goals and targets of the GBF have evolved, the improvements that are still needed, lessons learned from this process, and connections between goals and targets and the actions and reporting that will be needed to maintain, protect, manage and monitor genetic diversity. It is possible and necessary that the GBF strives to maintain genetic diversity within and among populations of all species, to restore genetic connectivity, and to develop national genetic conservation strategies, and to report on these using proposed, feasible indicators. ispartof: CONSERVATION GENETICS vol:24 issue:2 pages:181-191 ispartof: location:Netherlands status: published

Published

2023

22. Diet composition of the African manatee: Spatial and temporal variation within the Sanaga River Watershed, Cameroon

Author

Margaret E. Hunter, Ruth Francis-Floyd, Lucy W. Keith-Diagne, Robert K. Bonde, Cathy A. Beck, Aristide Takoukam Kamla, and Dylan G. E. Gomes

Subjects

Trichechus senegalensis, Range (biology), Endangered species, vulnerable, marine mammal, Sirenia, biology.animal, Manatee, Trichechidae, Littoral zone, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Research Articles, Nature and Landscape Conservation, biology, Ecology, National park, threatened, Vegetation, endangered species, protection, Geography, Habitat, Threatened species, Research Article

Abstract

The present study aimed to investigate the diet of African manatees in Cameroon to better inform conservation decisions within protected areas. A large knowledge gap on diet and seasonal changes in forage availability limits the ability to develop informed local management plans for the African manatee in much of its range. This research took place in the Sanaga River Watershed, which includes two protected areas in the Littoral Region of Cameroon: the Douala‐Edea National Park and the Lake Ossa Wildlife Reserve. We analyzed 113 manatee fecal samples and surveyed shoreline emergent and submerged vegetation within the Sanaga River Watershed. We used microhistological analyses to determine the relative contribution of each plant species to African manatee diets and compared across locations and across seasons (wet vs. dry season). We found that the shoreline vegetation is diverse with over 160 plant species, unevenly distributed across space and season, and dominated by emergent vegetation mostly represented by the antelope grass (Echinochloa pyramidalis). We recorded a total of 36 plant species from fecal samples with a spatial and temporal distribution mostly reflecting that of the corresponding shoreline vegetation. African manatees appear to be primarily opportunistically feeding on available vegetation across the seasons and habitat. This work documents the current, but changing, state of plant availability in the Sanaga River Watershed and reports the African manatee diet in Cameroon for the first time. This information can play a critical role in successfully managing the species and these protected areas. If we wish to protect the African manatee and the aquatic ecosystems within the Sanaga River Watershed, we must understand how forage availability changes over time, especially as its waters become nutrient enriched, eutrophic, and exposed to invasive species of plants in a changing world., Due to a large knowledge gap on diet and seasonal changes in forage availability, this study aims to investigate the diet of threatened African manatees to better inform conservation decisions within protected areas of Cameroon. We analyzed 113 manatee fecal samples and surveyed shoreline emergent and submerged vegetation within the Sanaga River watershed and found that African manatees appear to be primarily opportunistically feeding on available vegetation across the seasons and habitat. If we wish to protect the African manatee and the aquatic ecosystems within the Sanaga River watershed, we must understand how forage availability changes over time, especially as its waters become nutrient enriched, eutrophic, and exposed to invasive species of plants in a changing world.

Published

2021

23. Genome-wide SNP analysis of three moose subspecies at the southern range limit in the contiguous United States

Author

Jason A. Ferrante, Margaret E. Hunter, Laura M. Thompson, and Chase H. Smith

Subjects

Genetic diversity, Hybrid zone, Range (biology), Ecology, Genetic variation, Genetics, Biodiversity, Biology, Subspecies, Inbreeding, Ecology, Evolution, Behavior and Systematics, Gene flow

Abstract

Genome-wide evaluations of genetic diversity and population structure are important for informing management and conservation of trailing-edge populations. North American moose (Alces alces) are declining along portions of the southern edge of their range due to disease, species interactions, and marginal habitat, all of which may be exacerbated by climate change. We employed a genotyping by sequencing (GBS) approach in an effort to collect baseline information on the genetic variation of moose inhabiting the species’ southern range periphery in the contiguous United States. We identified 1920 single nucleotide polymorphisms (SNPs) from 155 moose representing three subspecies from five states: A. a. americana (New Hampshire), A. a. andersoni (Minnesota), and A. a. shirasi (Idaho, Montana, and Wyoming). Molecular analyses supported three geographically isolated clusters, congruent with currently recognized subspecies. Additionally, while moderately low genetic diversity was observed, there was little evidence of inbreeding. Results also indicated > 20% shared ancestry proportions between A. a. shirasi samples from northern Montana and A. a. andersoni samples from Minnesota, indicating a putative hybrid zone warranting further investigation. GBS has proven to be a simple and effective method for genome-wide SNP discovery in moose and provides robust data for informing herd management and conservation priorities. With increasing disease, predation, and climate related pressure on range edge moose populations in the United States, the use of SNP data to identify gene flow between subspecies may prove a powerful tool for moose management and recovery, particularly if hybrid moose are more able to adapt.

Published

2021

24. Development of a new faecal DNA extraction method (HV-CTAB-PCI) for amplification of mitochondrial and nuclear markers used in genetic analyses of dugongs (Dugong dugon)

Author

Vicky Ooi, Lee McMichael, Margaret E. Hunter, Aristide Takoukam Kamla, and Janet M. Lanyon

Abstract

Non-invasively collected faecal samples are an alternative source of DNA to tissues, that may be used in genetic studies of wildlife when direct sampling of animals is difficult. Although several faecal DNA extraction methods exist, their efficacy varies between species. Previous attempts to amplify mitochondrial DNA (mtDNA) markers from faeces of wild dugongs have met with limited success and nuclear markers (microsatellites) have been unsuccessful. This study aimed to develop a new tool for sampling both mtDNA and nuclear DNA (nDNA) from dugong faeces by modifying approaches used in studies of other large herbivores. First, amplification success of genetic markers from dugong faeces was compared between an established QIAamp and a newly developed DNA extraction method. Faecal DNA extracted using a new ‘High Volume-CTAB-PCI’ (HV-CTAB-PCI) method was found to achieve comparable amplification results to extraction of dugong skin DNA. As most prevailing practices advocate sampling from the outer surface of a stool to maximise capture of sloughed intestinal cells, this study compared amplification success of mtDNA between the outer and inner layers of faeces, but no difference in amplification was found. Assessment of the impacts of faecal age or degradation on extraction, however, demonstrated that fresher faeces with shorter duration of environmental (seawater) exposure amplified mtDNA and nDNA better than eroded scats. Using the HV-CTAB-PCI method, nDNA was successfully amplified for the first time from dugong faeces. This novel DNA extraction protocol offers a new tool that will facilitate genetic studies of dugongs and other large and cryptic marine herbivores in remote locations.

Published

2022

25. Biology: Integrating Core to Essential Variables (Bio-ICE) Task Team Reports Introduction

Author

Gabrielle Canonico, Samantha Simmons, Erica K. Towle, Laura Lorenzoni, Jennifer Koss, Abigail Benson, Mathew Biddle, Maggie Chory, Kruti Desai, Masha Edmondson, Jason Gedamke, Stacie Hardy, Margaret E. Hunter, Anu Kumar, Brian D. Melzian, Keith Mullin, Kim Parsons, James Price, Shannon Rankin, Patricia Rosel, Heather Spence, Sofie Van Parijs, Michael Weise, Sarah R. D. Bingo, Kaitlyn Brucker, Miguel Figuerola, Christina L. Horstmann, Susan Jackson, Jason Mallett, Kathryn E. Lohr, Anderson B. Mayfield, Frank E. Muller-Karger, Sarah O'Connor, Deborah L. Santavy, Curt Storlazzi, C. Anna Toline, Juan L. Torres-Pérez, and Kimberly K. Yates

Subjects

Ocean observing, marine mammals, corals, essential ocean variables, Bio-ICE, Interagency Ocean Observing Committee, biology, Essential Biodiversity Variables

Abstract

The goal of the Bio-ICE Task Team, convened from July 2020 - January 2022, was to advance the integration of biological observations from local, regional, and federal sources using best practices to inform national needs and ultimately feed into GOOS data visualizations and reporting. Using the GOOS marine mammals and corals EOVs as examples, the Task Team sought to: 1. Reconcile U.S. federal collection of these variables with GOOS EOVs and the Group on Earth Observations’ EBVs, identifying synergies in spatial and temporal observing requirements and with existing observation infrastructure and delivery, including use of documented best practices and standards. 2. Identify and improve pathways for data flow for observations of these variables from the IOOS Regional Associations and federal sources into common data portals. This included a focus on identifying and implementing best practices for standardized data collection and delivery adhering to the FAIR and CARE data principles, as appropriate. The Task Team effort focused on corals and marine mammals to ensure the work of the task team was achievable within the time frame. These two EOVs were selected because of their importance to multiple stakeholders, as well as offering opportunities to tie-in to several critical U.S. priorities in ocean science. While the team chose this focus, it acknowledged that there are activities and communities working to advance the other biology and ecosystem essential variables in ways that might be similar to or synergistic with the task team, such as SCOR Working Group 158: Coordinated Global Research Assessment of Seagrass System (C-GRASS), global efforts to coordinate ocean sound monitoring and data, GOOS BioEco panel community workshops and ongoing panel activities, and other efforts worth tracking or considering for future engagement with IOOC.

Published

2022

26. Biology: Integrating Core to Essential Variables (Bio-ICE) Task Team Report for Marine Mammals

Author

Sam E. Simmons, Abigail Benson, Mathew Biddle, Gabrielle Canonico, Maggie Chory, Kruti Desai, Masha Edmondson, Jason Gedamke, Stacie Hardy, Margaret E. Hunter, Anu Kumar, Laura Lorenzoni, Brian D. Melzian, Keith Mullin, Kim M. Parsons, Jim Price, Shannon Rankin, Patricia E. Rosel, Heather R. Spence, Sofie M. Van Parijs, and Michael J. Weise

Subjects

Ocean observing, marine mammals, essential ocean variables, Bio-ICE, Interagency Ocean Observing Committee, biology, Essential Biodiversity Variables

Abstract

Marine mammals are wide-ranging, relatively long-lived organisms that play a crucial role in maintaining healthy ocean ecosystems. Often referred to as ecosystem engineers and sentinel species in marine ecosystems, these charismatic megafauna feed at a variety of trophic levels, affecting food web dynamics and cycling of chemicals and nutrients in the water column as well as in benthic habitats, both nearshore and in the deep ocean. An understanding of their abundance and distribution is an essential starting point for evaluating their role in ocean ecosystems. Accordingly, marine mammals have been included among key variables to monitor in ocean observing systems, from core variablesfor the U.S. Integrated Ocean Observing System (IOOS) to an Essential Ocean Variable (EOV)for the Global Ocean Observing System (GOOS). They also contribute to several Essential Biodiversity Variables (EBVs)for the Group on Earth Observations Biodiversity Observation Network (GEO BON). Further, evaluation of the health of marine mammal populations will help deliver societal benefits by contributing to the UN Decade of Ocean Science for Sustainable Development; informing reporting activities such as the World Ocean Assessment; and supporting achievement of Sustainable Development Goal 14, the post-2020 framework for the Convention for Biological Diversity, and a new treaty for conservation and sustainable use of marine biodiversity beyond national jurisdiction. The goal of this Interagency Ocean Observation Committee task team was to advance the integration of existing biological observations from local, regional, and federal sources using best practices to inform national needs and ultimately feed seamlessly into the Global Ocean Observing System, as appropriate. To accomplish this goal the subgroup focused on marine mammals to: 1. Reconcile the IOOS core biological variables with GOOS EOVs and the GEO BON EBVs, identifying where there are clear synergies in terms of spatial and temporal observing requirements and existing observation infrastructure and delivery including best practices/standards. 2. Identify and improve pathways for data flow for observations of these variables from Federal sources, such as the stock assessments conducted by NMFS and FWS, into IOOS with a focus on identifying and implementing best practices surrounding standardized data collection and delivery adhering to the FAIR and CAREdata principles, as appropriate.

Published

2022

27. Genetic analysis of red lionfish Pterois volitans from Florida, USA, leads to alternative North Atlantic introduction scenarios

Author

Dayne Buddo, Eleanor K. Bors, Margaret E. Hunter, Brian R. Silliman, Caitlin E. Beaver, Edgardo Díaz-Ferguson, Antonio A. Mignucci-Giannoni, Nathan A. Johnson, and Linda Searle

Subjects

Mitochondrial DNA, Pterois, Ecology, biology, Microsatellite Analysis, Zoology, Aquatic Science, Red lionfish, biology.organism_classification, Genetic analysis, Ecology, Evolution, Behavior and Systematics, Invasive species

Abstract

The red lionfish Pterois volitans is a successful invasive predator across the western North Atlantic, Caribbean, and Gulf of Mexico. The southeast coast of Florida (USA) has been identified as the original introduction location, but genetic analyses including Florida lionfish have yet to investigate introduction scenarios. Here, we assessed the potential lionfish invasion pathways using 1795 sequences from previously published mitochondrial D-loop sequences (n = 1558) and new samples (n = 237) from 6 locations: The Bahamas, Florida Keys, northwest Florida, North Carolina, Panamá, and southeast Florida. None of the assessed Florida lionfish (n = 394) contained the H05-H09 D-loop haplotypes found in The Bahamas, North Carolina, and Bermuda (the Northern Region), indicating that Florida was not the source for these haplotypes. Assessing the mitochondrial population structure, the Florida east coast lionfish grouped with the Caribbean/Gulf of Mexico, as opposed to the Northern Region. To further explore connectivity and invasion pathways, 14 nuclear microsatellite loci were multiplexed on lionfish collected from 15 locations (n = 394). As found in other nuclear lionfish studies, the analyses identified a lack of population structure likely due to founding effects and/or inbreeding in aquaculture brood stocks. Together, the significant haplotype differences and H01-H04 haplotypes refute Florida as the sole source of red lionfish introduction. The results of this study support alternative invasion scenarios, in which Florida was colonized as a secondary introduction site or by individuals from the Northern Region. Understanding invasive species’ population boundaries and dispersal patterns informs local control efforts and management planning for future invasive species introductions.

Published

2021

28. Opportunities and challenges of macrogenetic studies

Author

Deborah M. Leigh, Stéphanie Manel, Gernot Segelbacher, Joachim Mergeay, Joshua M. Miller, Laura D. Bertola, Gordon Luikart, Katie L. Millette, Chloé Schmidt, Brian K. Hand, Francine Kershaw, Sean Hoban, Martin F. Breed, Libby Liggins, Margaret E. Hunter, Charles B. van Rees, Evelyn L. Jensen, and Ivan Paz-Vinas

Subjects

Open science, Best practice, Ecology (disciplines), Genetics, Biodiversity, Biology, Molecular Biology, Data science, Genetics (clinical), Field (computer science)

Abstract

The rapidly emerging field of macrogenetics focuses on analysing publicly accessible genetic datasets from thousands of species to explore large-scale patterns and predictors of intraspecific genetic variation. Facilitated by advances in evolutionary biology, technology, data infrastructure, statistics and open science, macrogenetics addresses core evolutionary hypotheses (such as disentangling environmental and life-history effects on genetic variation) with a global focus. Yet, there are important, often overlooked, limitations to this approach and best practices need to be considered and adopted if macrogenetics is to continue its exciting trajectory and reach its full potential in fields such as biodiversity monitoring and conservation. Here, we review the history of this rapidly growing field, highlight knowledge gaps and future directions, and provide guidelines for further research.

Published

2021

29. Environmental <scp>DNA</scp> metabarcoding read numbers and their variability predict species abundance, but weakly in non‐dominant species

Author

James Skelton, Allison Cauvin, and Margaret E. Hunter

Subjects

Ecology, Genetics, Ecology, Evolution, Behavior and Systematics

Published

2022

30. Global genetic diversity status and trends: towards a suite of Essential Biodiversity Variables (EBVs) for genetic composition

Author

Sean Hoban, Frederick I. Archer, Laura D. Bertola, Jason G. Bragg, Martin F. Breed, Michael W. Bruford, Melinda A. Coleman, Robert Ekblom, W. Chris Funk, Catherine E. Grueber, Brian K. Hand, Rodolfo Jaffé, Evelyn Jensen, Jeremy S. Johnson, Francine Kershaw, Libby Liggins, Anna J. MacDonald, Joachim Mergeay, Joshua M. Miller, Frank Muller‐Karger, David O'Brien, Ivan Paz‐Vinas, Kevin M. Potter, Orly Razgour, Cristiano Vernesi, and Margaret E. Hunter

Subjects

Life Sciences & Biomedicine - Other Topics, CONSERVATION UNITS, Conservation of Natural Resources, EFFECTIVE POPULATION-SIZE, interoperability, General Biochemistry, Genetics and Molecular Biology, Settore BIO/05 - ZOOLOGIA, LOCAL ADAPTATION, environmental policy, Indicators, Humans, molecular ecology, Biology, Ecosystem, Population Density, Metadata, PROVIDES EVIDENCE, Science & Technology, CLIMATE-CHANGE, metadata, R-PACKAGE, Genetic Variation, Biodiversity, DEMOGRAPHIC HISTORY, Biodiversity monitoring, Interoperability, indicators, Environmental policy, HABITAT FRAGMENTATION, biodiversity monitoring, Molecular ecology, General Agricultural and Biological Sciences, Life Sciences & Biomedicine, GENOMICS, MARTES-AMERICANA

Abstract

Biodiversity underlies ecosystem resilience, ecosystem function, sustainable economies, and human well-being. Understanding how biodiversity sustains ecosystems under anthropogenic stressors and global environmental change will require new ways of deriving and applying biodiversity data. A major challenge is that biodiversity data and knowledge are scattered, biased, collected with numerous methods, and stored in inconsistent ways. The Group on Earth Observations Biodiversity Observation Network (GEO BON) has developed the Essential Biodiversity Variables (EBVs) as fundamental metrics to help aggregate, harmonize, and interpret biodiversity observation data from diverse sources. Mapping and analyzing EBVs can help to evaluate how aspects of biodiversity are distributed geographically and how they change over time. EBVs are also intended to serve as inputs and validation to forecast the status and trends of biodiversity, and to support policy and decision making. Here, we assess the feasibility of implementing Genetic Composition EBVs (Genetic EBVs), which are metrics of within-species genetic variation. We review and bring together numerous areas of the field of genetics and evaluate how each contributes to global and regional genetic biodiversity monitoring with respect to theory, sampling logistics, metadata, archiving, data aggregation, modeling, and technological advances. We propose four Genetic EBVs: (i) Genetic Diversity; (ii) Genetic Differentiation; (iii) Inbreeding; and (iv) Effective Population Size (Ne ). We rank Genetic EBVs according to their relevance, sensitivity to change, generalizability, scalability, feasibility and data availability. We outline the workflow for generating genetic data underlying the Genetic EBVs, and review advances and needs in archiving genetic composition data and metadata. We discuss how Genetic EBVs can be operationalized by visualizing EBVs in space and time across species and by forecasting Genetic EBVs beyond current observations using various modeling approaches. Our review then explores challenges of aggregation, standardization, and costs of operationalizing the Genetic EBVs, as well as future directions and opportunities to maximize their uptake globally in research and policy. The collection, annotation, and availability of genetic data has made major advances in the past decade, each of which contributes to the practical and standardized framework for large-scale genetic observation reporting. Rapid advances in DNA sequencing technology present new opportunities, but also challenges for operationalizing Genetic EBVs for biodiversity monitoring regionally and globally. With these advances, genetic composition monitoring is starting to be integrated into global conservation policy, which can help support the foundation of all biodiversity and species' long-term persistence in the face of environmental change. We conclude with a summary of concrete steps for researchers and policy makers for advancing operationalization of Genetic EBVs. The technical and analytical foundations of Genetic EBVs are well developed, and conservation practitioners should anticipate their increasing application as efforts emerge to scale up genetic biodiversity monitoring regionally and globally. ispartof: BIOLOGICAL REVIEWS vol:97 issue:4 pages:1511-1538 ispartof: location:England status: published

Published

2022

31. Strategic considerations for invasive species managers in the utilization of environmental DNA (eDNA): steps for incorporating this powerful surveillance tool

Author

Adam J. Sepulveda, Richard F. Lance, Stanley W. Burgiel, Keith D. Gaddis, Jeanette Davis, Yale Passamaneck, Antoinette J. Piaggio, Brian Rector, Thomas W. Franklin, Taylor M. Wilcox, Margaret E. Hunter, Wesley Daniel, John A. Darling, Melissa Smith, Jeffrey T. Morisette, Kelsey A. Brantley, Tracy C. Leskey, and Carol A. Stepien

Subjects

Conservation genetics, Ecology, Early detection, Environmental DNA, Management, Monitoring, Policy and Law, Biology, Environmental planning, Ecology, Evolution, Behavior and Systematics, Invasive species

Abstract

Invasive species surveillance programs can utilize environmental DNA sampling and analysis to provide information on the presence of invasive species. Wider utilization of eDNA techniques for invasive species surveillance may be warranted. This paper covers topics directed towards invasive species managers and eDNA practitioners working at the intersection of eDNA techniques and invasive species surveillance. It provides background information on the utility of eDNA for invasive species management and points to various examples of its use across federal and international programs. It provides information on 1) why an invasive species manager should consider using eDNA, 2) deciding if eDNA can help with the manager's surveillance needs, 3) important components to operational implementation, and 4) a high-level overview of the technical steps necessary for eDNA analysis. The goal of this paper is to assist invasive species managers in deciding if, when, and how to use eDNA for surveillance. If eDNA use is elected, the paper provides guidance on steps to ensure a clear understanding of the strengths and limitation of the methods and how results can be best utilized in the context of invasive species surveillance.

Published

2021

32. Reporting the limits of detection and quantification for environmental DNA assays

Author

Craig Jackson, Katy E. Klymus, Caren S. Goldberg, Chris C. Wilson, Antoinette J. Piaggio, Caren C. Helbing, Emy M. Monroe, Michael J. Allison, Anna M. Mangan, Christopher M. Merkes, Richard F. Lance, Margaret E. Hunter, Catherine A. Richter, and Joel P. Stokdyk

Subjects

Service (business), standardization, lcsh:GE1-350, Research program, Ecology, Standardization, biology, business.industry, Environmental resource management, Wildlife, biology.organism_classification, lcsh:Microbial ecology, Technical support, qPCR, Geography, Agriculture, Genetics, lcsh:QR100-130, assay optimization, Guan, eDNA, business, Ecology, Evolution, Behavior and Systematics, Research center, lcsh:Environmental sciences

Abstract

Background Environmental DNA (eDNA) analysis is increasingly being used to detect the presence and relative abundance of rare species, especially invasive or imperiled aquatic species. The rapid progress in the eDNA field has resulted in numerous studies impacting conservation and management actions. However, standardization of eDNA methods and reporting across the field is yet to be fully established, with one area being the calculation and interpretation of assay limit of detection (LOD) and limit of quantification (LOQ). Aims Here, we propose establishing consistent methods for determining and reporting of LOD and LOQ for single‐species quantitative PCR (qPCR) eDNA studies. Materials & Methods/ Results We utilize datasets from multiple cooperating laboratories to demonstrate both a discrete threshold approach and a curve‐fitting modeling approach for determining LODs and LOQs for eDNA qPCR assays. We also provide details of an R script developed and applied for the modeling method. Discussion/Conclusions Ultimately, standardization of how LOD and LOQ are determined, interpreted, and reported for eDNA assays will allow for more informed interpretation of assay results, more meaningful interlaboratory comparisons of experiments, and enhanced capacity for assessing the relative technical quality and performance of different eDNA qPCR assays.

Published

2020

33. Environmental DNA Methods for Ecological Monitoring and Biodiversity Assessment in Estuaries

Author

Raman P. Nagarajan, Mallory Bedwell, Ann E. Holmes, Thiago Sanches, Shawn Acuña, Melinda Baerwald, Matthew A. Barnes, Scott Blankenship, Richard E. Connon, Kristy Deiner, Daphne Gille, Caren S. Goldberg, Margaret E. Hunter, Christopher L. Jerde, Gordon Luikart, Rachel S. Meyer, Alison Watts, and Andrea Schreier

Subjects

Biodiversity, Environmental DNA, Estuary, Invasive species, Monitoring, San Francisco Estuary, Ecology, Aquatic Science, Ecology, Evolution, Behavior and Systematics

Abstract

Environmental DNA (eDNA) detection methods can complement traditional biomonitoring to yield new ecological insights in aquatic systems. However, the conceptual and methodological frameworks for aquatic eDNA detection and interpretation were developed primarily in freshwater environments and have not been well established for estuaries and marine environments that are by nature dynamic, turbid, and hydrologically complex. Environmental context and species life history are critical for successful application of eDNA methods, and the challenges associated with eDNA detection in estuaries were the subject of a symposium held at the University of California Davis on January 29, 2020 (https:// marinescie nce.ucdavis. edu/engagement/past-events/edna). Here, we elaborate upon topics addressed in the symposium to evaluate eDNA methods in the context of monitoring and biodiversity studies in estuaries. We first provide a concise overview of eDNA science and methods, and then examine the San Francisco Estuary (SFE) as a case study to illustrate how eDNA detection can complement traditional monitoring programs and provide regional guidance on future potential eDNA applications. Additionally, we offer recommendations for enhancing communication between eDNA scientists and natural resource managers, which is essential for integrating eDNA methods into existing monitoring programs. Our intent is to create a resource that is accessible to those outside the field of eDNA, especially managers, without oversimplifying the challenges or advantages of these methods., Estuaries and coasts, 45, ISSN:1559-2731, ISSN:1559-2723

Published

2022

34. Correction to: Authors’ Reply to Letter to the Editor: Continued improvement to genetic diversity indicator for CBD

Author

Jennifer Pierson, Linda Laikre, Laura D. Bertola, Fred W. Allendorf, Per Sjögren-Gulve, Catherine E. Grueber, Sean Hoban, Rob Ogden, Antonio González-Rodríguez, Libby Liggins, Ivan Paz-Vinas, Michael William Bruford, Myriam Heuertz, W. Chris Funk, Gernot Segelbacher, Lisette P. Waits, Paul A. Hohenlohe, Margaret E. Hunter, Kerstin Johannesson, Gonzalo Gajardo, Nils Ryman, Martin F. Breed, David O'Brien, Farideh Moharrek, Clarisse Palma-Silva, Isa-Rita M. Russo, Philip W. Hedrick, Pablo Orozco-terWengel, Joachim Mergeay, Cristiano Vernesi, and Anna J. MacDonald

Subjects

Genetic diversity, Letter to the editor, Ecology (disciplines), Genetics, Biodiversity, Environmental ethics, Biology, Ecology, Evolution, Behavior and Systematics

Abstract

A correction to this paper has been published: https://doi.org/10.1007/s10592-021-01376-9

Published

2021

35. Macrogenetic studies must not ignore limitations of genetic markers and scale

Author

Martin F. Breed, Charles B. van Rees, Deborah M. Leigh, Joachim Mergeay, Gernot Segelbacher, Gordon Luikart, Sean Hoban, Evelyn L. Jensen, Brian K. Hand, Margaret E. Hunter, Laura D. Bertola, Francine Kershaw, Ivan Paz-Vinas, and Joshua M. Miller

Subjects

Genetic Markers, 0106 biological sciences, Genetic diversity, Scale (ratio), Ecology, Unintended consequences, 010604 marine biology & hydrobiology, Scale (chemistry), Ecology (disciplines), Genetic Variation, Population genetics, Biology, DNA, Mitochondrial, 010603 evolutionary biology, 01 natural sciences, Lead (geology), Geography, Genetic marker, Evolutionary biology, Animals, Ecology, Evolution, Behavior and Systematics

Abstract

Millette et al. (Ecology Letters, 2020, 23:55-67) reported no consistent worldwide anthropogenic effects on animal genetic diversity using repurposed mitochondrial sequences. We describe limitations to this study, some of which are common to other macrogenetic studies, that may lead to misinterpretations and unintended consequences for conservation.

Published

2021

36. Genome-Wide SNP Analysis Reveals Multiple Paternity in Burmese Pythons Invasive to the Greater Florida Everglades

Author

Kristen M. Hart, Margaret E. Hunter, James Skelton, Ian A. Bartoszek, and Caitlin E. Beaver

Subjects

Genetic diversity, media_common.quotation_subject, Diversity Arrays Technology, Sire, food and beverages, Zoology, Introduced species, Biology, Predation, Abundance (ecology), behavior and behavior mechanisms, Animal Science and Zoology, Genetic variability, Reproduction, reproductive and urinary physiology, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Reproductive strategies are an essential component of invasion ecology that influence invasion success and rates of population growth. Burmese Pythons (Python bivittatus) are large constrictor snakes that were introduced to the Greater Everglades Ecosystem of southern Florida, USA, from Asia. Since their introduction, these giant constrictors have spread throughout wetlands of southern Florida while increasing in abundance and causing declines in the native species upon which they prey. Multiple paternity in reproduction could facilitate invasion success by increasing the genetic diversity produced within each reproductive event. We used Diversity Arrays Technology genome-wide genotyping to assess multiple paternity in the progeny of wild Burmese Pythons in Florida. We analyzed >4,000 single nucleotide polymorphisms from 153 neonates belonging to 4 clutches collected in southwestern Florida. Complementary hierarchical and K-means clustering analyses of the genetic distances within clutches revealed that three clutches were each fertilized by two sires, with a fourth fertilized by a single sire. The proportions of offspring attributable to each sire within multiple paternity clutches ranged from nearly even to highly skewed. Analysis of multivariate dispersion showed significantly increased genetic variability in the multiple paternity clutches. These results improve our understanding of the reproductive strategy and invasion potential of a giant constrictor with significant ecological impacts.

Published

2021

37. Corrigendum to: Range-wide population genetic analysis of Seaside Sparrows (Ammospiza maritima) supports at least five distinct population segments that do not align with current subspecies descriptions

Author

Amie E Settlecowski, Stefan Woltmann, Mackenzie R Roeder, Thomas Virzi, Kathryn E C Davis, Margaret E. Hunter, Sabrina S. Taylor, and Carolyn Enloe

Subjects

Current (stream), education.field_of_study, Range (biology), Evolutionary biology, Population, Animal Science and Zoology, Biology, Subspecies, education, Genetic analysis, Ecology, Evolution, Behavior and Systematics

Published

2021

38. Systematic assessment of long-read RNA-seq methods for transcript identification and quantification

Author

Hazuki Takahashi, Christopher Vollmers, Stefan Goetz, Margaret E. Hunter, Gabriela Balderrama-Gutierrez, David Moraga, Maite De María, Mark Diekhans, Francisco Jose Pardo-Palacios, Piero Carninci, Jonathan M. Mudge, Roderic Guigó, Gloria M. Sheynkman, Ingrid Youngworth, Kin Fai Au, Matthew Adams, Muhammed Hasan Çelik, Haoran Li, Alison D. Tang, Ana Conesa, Silvia Carbonell-Sala, Barbara J. Wold, Angela N. Brooks, Brian Williams, Julien Lagarde, Cindy Liang, Fairlie Reese, Ali Mortazavi, Andrey D. Prjibelski, Natàlia Garcia-Reyero, Jane E. Loveland, Nancy D. Denslow, Dingjie Wang, Amit Behera, Adam Frankish, Hagen Tilgner, and Carlos Menor

Subjects

Identification (biology), RNA-Seq, Computational biology, Biology

Abstract

With increased usage of long-read sequencing technologies to perform transcriptome analyses, there becomes a greater need to evaluate different methodologies including library preparation, sequencing platform, and computational analysis tools. Here, we report the study design of a community effort called the Long-read RNA-Seq Genome Annotation Assessment Project (LRGASP) Consortium, whose goals are characterizing the strengths and remaining challenges in using long-read approaches to identify and quantify the transcriptomes of both model and non-model organisms. The LRGASP organizers have generated cDNA and direct RNA datasets in human, mouse, and manatee samples using different protocols followed by sequencing on Illumina, Pacific Biosciences, and Oxford Nanopore Technologies platforms. Participants will use the provided data to submit predictions for three challenges: transcript isoform detection with a high-quality genome, transcript isoform quantification, and de novo transcript isoform identification. Evaluators from different institutions will determine which pipelines have the highest accuracy for a variety of metrics using benchmarks that include spike-in synthetic transcripts, simulated data, and a set of undisclosed, manually curated transcripts by GENCODE. We also describe plans for experimental validation of predictions that are platform-specific and computational tool-specific. We believe that a community effort to evaluate long-read RNA-seq methods will help move the field toward a better consensus on the best approaches to use for transcriptome analyses.

Published

2021

39. Genetic diversity is considered important but interpreted narrowly in country reports to the Convention on Biological Diversity::current actions and indicators are insufficient

Author

Gernot Segelbacher, Ivan Paz Vinas, W. Chris Funk, Catriona D. Campbell, Sarah K. Pearson, Joachim Mergeay, Kevin M. Potter, Francine Kershaw, David O'Brien, Sílvia Pérez-Espona, Sean Hoban, Anna J. MacDonald, Jessica M. da Silva, C. Vernesi, José A. Godoy, Isa-Rita M. Russo, Brittany A. Garner, Margaret E. Hunter, Robert Ekblom, and Melissa Minter

Subjects

Conservation genetics, media_common.quotation_subject, Biodiversity & Conservation, Genetic monitoring, Biodiversity, Environmental Sciences & Ecology, Target 13, Settore BIO/05 - ZOOLOGIA, GAPS, IMPLEMENTATION, Indicators, media_common.cataloged_instance, European union, PROGRESS, Environmental planning, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, media_common, Genetic diversity, Convention on Biological Diversity, Science & Technology, CONSEQUENCES, Ecology, Conservation policy, CONSERVATION GENETICS, RECOVERY, respiratory system, POLICY, Geography, Sustainability, Biodiversity Conservation, POPULATIONS, Psychological resilience, Life Sciences & Biomedicine, GENOMICS, human activities, Environmental Sciences

Abstract

International agreements such as the Convention on Biological Diversity (CBD) have committed to conserve, and sustainably and equitably use, biodiversity. The CBD is a vital instrument for global conservation because it guides 195 countries and the European Union in setting priorities and allocating resources, and requires regular reporting on progress. However, the CBD and similar policy agreements have often neglected genetic diversity. This is a critical gap because genetic diversity underlies adaptation to environmental change and ecosystem resilience. Here we aim to inform future policy, monitoring, and reporting efforts focused on limiting biodiversity loss by conducting the largest yet evaluation of how Parties to the CBD report on genetic diversity. A large, globally representative sample of 114 CBD National Reports was examined to assess reported actions, progress, values and indicators related to genetic diversity. Although the importance of genetic diversity is recognized by most Parties to the CBD, genetic diversity targets mainly addressed variation within crops and livestock (a small fraction of all species). Reported actions to conserve genetic diversity primarily concerned ex situ facilities and legislation, rather than monitoring and in situ intervention. The most commonly reported status indicators are not well correlated to maintaining genetic diversity. Lastly, few reports mentioned genetic monitoring using DNA data, indigenous use and knowledge of genetic diversity, or development of strategies to conserve genetic diversity. We make several recommendations for the post-2020 CBD Biodiversity Framework, and similar efforts such as IPBES, to improve awareness, assessment, and monitoring of genetic diversity, and facilitate consistent and complete reporting in the future.

Published

2021

40. Chronic exposure to glyphosate in Florida manatee

Author

Cecilia Silva-Sanchez, Tonya M. Clauss, Kevin J. Kroll, Nancy D. Denslow, Monica Ross, Michael Walsh, Maite De María, Margaret E. Hunter, and Mohammad-Zaman Nouri

Subjects

Chronic exposure, 010504 meteorology & atmospheric sciences, Red tide, Glycine, Organophosphonates, 010501 environmental sciences, Ecotoxicology, 01 natural sciences, chemistry.chemical_compound, Tandem Mass Spectrometry, Aquatic plant, AMPA, Animals, Aminomethylphosphonic acid, GE1-350, Trichechus manatus, 0105 earth and related environmental sciences, General Environmental Science, Herbicides, HPLC-MS/MS, Everglades, Polar Organic Chemical Integrative Samplers, Environmental sciences, Agronomy, chemistry, Glyphosate, Marine mammals, Warm water, Environmental science, Florida manatee

Abstract

Florida manatees depend on freshwater environments as a source of drinking water and as warm-water refuges. These freshwater environments are in direct contact with human activities where glyphosate-based herbicides are being used. Glyphosate is the most used herbicide worldwide and it is intensively used in Florida as a sugarcane ripener and to control invasive aquatic plants. The objective of the present study was to determine the concentration of glyphosate and its breakdown product, aminomethylphosphonic acid (AMPA), in Florida manatee plasma and assess their exposure to manatees seeking a warm-water refuge in Crystal River (west central Florida), and in South Florida. We analyzed glyphosate’s and AMPA’s concentrations in Florida manatee plasma (n = 105) collected during 2009–2019 using HPLC-MS/MS. We sampled eight Florida water bodies between 2019 and 2020, three times a year: before, during and after the sugarcane harvest using grab samples and molecular imprinted passive Polar Organic Chemical Integrative Samplers (MIP-POCIS). Glyphosate was present in 55.8% of the sampled Florida manatees’ plasma. The concentration of glyphosate has significantly increased in Florida manatee samples from 2009 until 2019. Glyphosate and AMPA were ubiquitous in water bodies. The concentration of glyphosate and AMPA was higher in South Florida than in Crystal River, particularly before and during the sugarcane harvest when Florida manatees depend on warm water refuges. Based on our results, Florida manatees were chronically exposed to glyphosate and AMPA, during and beyond the glyphosate applications to sugarcane, possibly associated with multiple uses of glyphosate-based herbicides for other crops or to control aquatic weeds. This chronic exposure in Florida water bodies may have consequences for Florida manatees’ immune and renal systems which may further be compounded by other environmental exposures such as red tide or cold stress.

Published

2021

41. Efficacy of eDNA as an early detection indicator for Burmese pythons in the ARM Loxahatchee National Wildlife Refuge in the greater Everglades ecosystem

Author

Kristen M. Hart, Jason A. Ferrante, Brian J. Smith, Margaret E. Hunter, and Gaia Meigs-Friend

Subjects

0106 biological sciences, education.field_of_study, Ecology, biology, Population, General Decision Sciences, Introduced species, 010501 environmental sciences, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, Fishery, Geography, Habitat, Python (genus), Wildlife refuge, Environmental DNA, education, Burmese python, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Environmental DNA (eDNA) detection of invasive species can be used to inform management decisions by delimiting occupied ranges and estimating detection probabilities. Environmental DNA is shed into the environment through skin cells and bodily fluids and can be detected in water samples collected from lakes, rivers, and swamps. In south Florida, USA, invasive Burmese pythons (Python bivittatus) occupy much of the Greater Everglades in mostly inaccessible habitat and are credited with causing severe declines in populations of native species. Detection of Burmese pythons by traditional methods, including trapping and visual searching, has been largely ineffective, making eDNA a superior method to identify invaded areas. We adapted a quantitative PCR eDNA assay for use in droplet digital PCR, a state-of-the-art method that improves the precision and accuracy of eDNA detection and quantification. From August 2014 to October 2016, locations in and around Arthur R. Marshall Loxahatchee National Wildlife Refuge in southeast Florida were surveyed for Burmese python eDNA. Positive eDNA detections were made in each of the five sampling events, assessing a total of 399 samples, with moderate-to-high occurrence (ψ = 58–91%) and moderate detection (p = 38–70%) probabilities, potentially reduced by a high presence of PCR-inhibiting compounds in the water. The high occurrence rates and geographic distribution of the positive samples within Loxahatchee suggests a steady release of python eDNA from resident Burmese pythons and reduces support for transport of eDNA by boats or flowing water from the north. The first confirmed sighting of a Burmese python in the Refuge occurred in September 2016 after eDNA testing had indicated the presence of pythons. While the established population boundary is thought to be south of Loxahatchee, the eDNA detections indicate a northern range limit at, or north of, the refuge on the eastern side of the Florida peninsula. Our study demonstrates the utility of eDNA for determining more accurate range limits and expansion information for Burmese pythons, and provides a means for assessing control efforts.

Published

2019

42. Improving eDNA yield and inhibitor reduction through increased water volumes and multi-filter isolation techniques

Author

Margaret E. Hunter, Jason A. Ferrante, Gaia Meigs-Friend, and Amelia Ulmer

Subjects

0301 basic medicine, lcsh:Medicine, Polymerase Chain Reaction, Article, 03 medical and health sciences, 0302 clinical medicine, Isolation techniques, Environmental DNA, lcsh:Science, Volume concentration, Protocol testing, Ecosystem, Multidisciplinary, Chromatography, Chemistry, lcsh:R, Water, DNA, Environmental, Filter (aquarium), 030104 developmental biology, Linear relationship, Yield (chemistry), lcsh:Q, Water volume, 030217 neurology & neurosurgery, Environmental Monitoring

Abstract

To inform management and conservation decisions, environmental DNA (eDNA) methods are used to detect genetic material shed into the water by imperiled and invasive species. Methodological enhancements are needed to reduce filter clogging, PCR inhibition, and false-negative detections when eDNA is at low concentrations. In the first of three simple experiments, we sought to ameliorate filter clogging from particulates and organic material through a scaled-up, multi-filter protocol. We combined four filters in a 5 mL Phenol-Chloroform-Isoamyl (PCI) procedure to allow for larger volumes of water (~1 L) to be filtered rapidly. Increasing the filtered water volume by four times resulted in 4.4X the yield of target DNA. Next, inhibition from organic material can reduce or block eDNA detections in PCR-based assays. To remove inhibitory compounds retained during eDNA isolation, we tested three methods to chemically strip inhibitors from eDNA molecules. The use of CTAB as a short-term (5–8 day) storage buffer, followed by a PCI isolation, resulted in the highest eDNA yields. Finally, as opposed to a linear relationship among increasing concentrations of filtered genomic eDNA, we observed a sharp change between the lower (70–280 ng) and higher (420–560 ng) amounts. This may be important for effectively precipitating eDNA during protocol testing.

Published

2019

43. Range-wide population genetic analysis of Seaside Sparrows (Ammospiza maritima) supports at least five distinct population segments that do not align with current subspecies descriptions

Author

Kathryn E C Davis, Amie E Settlecowski, Mackenzie R Roeder, Carolyn Enloe, Thomas Virzi, Margaret E Hunter, Stefan Woltmann, and Sabrina S Taylor

Subjects

0106 biological sciences, 0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Animal Science and Zoology, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics

Abstract

As an obligate salt marsh species, Seaside Sparrows (Ammospiza maritima) are vulnerable to numerous threats including climate change, coastal erosion, sea-level rise, and both natural and anthropogenic disasters. Of the 9 recognized subspecies, 2 are extinct and 1 is endangered. Previous genetic analyses of mitochondrial DNA (mtDNA) and microsatellite loci showed that current taxonomy does not accurately reflect underlying genetic diversity, with possible consequences for the distribution of conservation resources. To further inform Seaside Sparrow management, we comprehensively describe genetic structure among 24 range-wide sampling locations that include all extant subspecies. We inferred population structure from several thousand single-nucleotide polymorphisms collected from 272 individuals via restriction-site-associated DNA sequencing. Principal components, pairwise FST values, and clustering approaches suggest that Seaside Sparrows on the Atlantic and Gulf Coasts are distinct and consist of at least 5 genetic clusters: 1 in southern Texas, 1 ranging from Aransas County, Texas, to Mississippi; 1 in western Florida; and 2 or 3 genetic groups intermixed along a gradient on the Atlantic Coast. These genetic clusters are not consistent with current subspecies taxonomy and could be used as distinct population segments (DPSs) to inform the most efficient allocation of resources to Seaside Sparrow conservation. Our results regarding the endangered subspecies, A. m. mirabilis, from southern Florida are inconclusive due to low sample size, but indicate that it is distinct and may represent a sixth DPS. Based on our genetic results, we recommend additional song and morphometric analyses in western Florida and a closer study of the boundary between the breeding distributions of A. m. maritima and A. m. macgillivraii to ensure the proper identification of DPSs.

Published

2021

44. Lipidomics reveals specific lipid molecules associated with cold stress syndrome in the Florida manatee (Trichechus manatus latirostris)

Author

Emily K. Griffin, Michael P. Napolitano, Kaylie Anne Costa, John A. Bowden, Juan J. Aristizabal-Henao, Jason A. Ferrante, and Margaret E. Hunter

Subjects

0106 biological sciences, Ecology, biology, 010604 marine biology & hydrobiology, Physiology, Trichechus manatus latirostris, Lipid metabolism, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Energy homeostasis, biology.animal, Lipidomics, Manatee, Serum amyloid A, Florida manatee, Ecology, Evolution, Behavior and Systematics, Cold stress

Abstract

Cold stress syndrome (CSS) in the Florida manatee (Trichechus manatus latirostris) results in perturbations to many physiological pathways, often leading to further illness or death. In this study, we applied a non-targeted lipidomics approach with ultra-high performance liquid chromatography and high-resolution tandem mass spectrometry to characterize changes related to CSS in the lipidomic profiles of manatee plasma. Lipidomic analyses were conducted on healthy manatee (control) and cold-exposed manatee plasma samples with varying concentrations of Serum Amyloid A (SAA), an acute-phase protein that is associated with inflammatory disease. Control manatees (n = 10) were compared to all manatees exposed to cold temperatures (n = 17), and a subset of those manatees with SAA values > 120 μg/mL (n = 9). Increased SAA values were associated with higher levels of various acylcarnitine lipids, while several triacylglycerols and oxidized triacylglycerols were significantly lower in manatees with cold exposure. These identified lipids are critical molecules involved in the maintenance of energy homeostasis and could potentially be examined in conjunction with current physical parameters to characterize cold stress. The ability to detect such differences highlights the addition of lipidomics as a valuable tool in understanding cold stress and potentially other illnesses in manatees. Further investigation into the function of the altered lipids could greatly increase our understanding of lipid metabolism in physiologically stressed manatees as well as other marine mammals and inform future management recovery strategies.

Published

2021

45. Authors’ Reply to Letter to the Editor: Continued improvement to genetic diversity indicator for CBD

Author

Jennifer Pierson, Laura D. Bertola, Myriam Heuertz, Isa-Rita M. Russo, Linda Laikre, Joachim Mergeay, Paul A. Hohenlohe, Philip W. Hedrick, Rob Ogden, Cristiano Vernesi, Gonzalo Gajardo, Anna J. MacDonald, Nils Ryman, Fred W. Allendorf, David O'Brien, Gernot Segelbacher, Sean Hoban, Pablo Orozco-terWengel, Antonio González-Rodríguez, Lisette P. Waits, Michael William Bruford, Ivan Paz-Vinas, Catherine E. Grueber, W. Chris Funk, Kerstin Johannesson, Clarisse Palma-Silva, Per Sjögren-Gulve, Libby Liggins, Margaret E. Hunter, Martin F. Breed, Farideh Moharrek, Stockholm University, Institute for Bioinformatics and Evolutionary Studies [Moscow] (IBEST), University of Idaho [Moscow, USA], Division of Biological Sciences [San Diego], University of California [San Diego] (UC San Diego), University of California-University of California, The City College of New York (CCNY), City University of New York [New York] (CUNY), Flinders University [Adelaide, Australia], School of Biosciences [Cardiff], Cardiff University, Colorado State University [Fort Collins] (CSU), Centro Universitario de los Lagos - Universidad de Guadalajara (U de G), Universidad de Guadalajara-Nanotechnology laboratory, Instituto de Investigaciones en Ecosistemas y Sustentabilidad (IIES), Universidad Nacional Autónoma de México (UNAM), The University of Sydney, Arizona State University [Tempe] (ASU), Biodiversité, Gènes & Communautés (BioGeCo), Université de Bordeaux (UB)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), U.S Geological Survey, University of Gothenburg (GU), Massey University, Australian National University (ANU), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), University of Copenhagen = Københavns Universitet (KU), Tarbiat Modares University [Tehran], Scottish Natural Heritage, Scotland, UK, The Roslin Institute, University of Campinas [Campinas] (UNICAMP), Evolution et Diversité Biologique (EDB), Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, University of Freiburg [Freiburg], The Swedish Environmental Protection Agency, Fondazione Edmund Mach - Edmund Mach Foundation [Italie] (FEM), The Morton Arboretum, School of Biological Sciences [Univ California San Diego] (UC San Diego), University of California (UC)-University of California (UC), Universidad Nacional Autónoma de México = National Autonomous University of Mexico (UNAM), University of Copenhagen = Københavns Universitet (UCPH), Biotechnology and Biological Sciences Research Council (BBSRC), Universidade Estadual de Campinas = University of Campinas (UNICAMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), and Université de Toulouse (UT)-Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Genetics & Heredity, 0106 biological sciences, 0303 health sciences, Genetic diversity, Science & Technology, Letter to the editor, Ecology, Ecology (disciplines), Biodiversity & Conservation, Biodiversity, SIZES, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Settore BIO/07 - ECOLOGIA, Diversite genetique, [SDE]Environmental Sciences, Genetics, Biodiversity Conservation, Life Sciences & Biomedicine, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology

Abstract

ispartof: CONSERVATION GENETICS vol:22 issue:4 pages:533-536 status: published

Published

2021

46. Intended consequences statement

Author

Mark Zimring, Owain R. Edwards, Andrew E. Newhouse, Bruce Whitelaw, H. Bradley Shaffer, Mike Sweeney, Michelle Marvier, Stanley W. Burgiel, Margaret E. Hunter, Ben J. Novak, Mark R. Tercek, Gregg R. Howald, Ryan Phelan, Al Cofrancesco, Robert M. Scheller, Francisco Pelegri, Paul Robbins, Renee D. Wegrzyn, Beth Shapiro, Delphine Thizy, Yasha Rohwer, Josh Wodak, Stewart Brand, Megan J. Palmer, Jason A. Delborne, Miguel Pedrono, Matthew Winkler, Joshua P. Fisher, Steven Olson, Isabelle Coche, Gerry Ohrstrom, Katherine E. Moseby, Oliver A. Ryder, Philip J. Seddon, Neil Patterson, Michele Weber, Evelyn Brister, Aditi Mankad, Martin Gaywood, Peter Kareiva, Stephen R. Palumbi, J. Royden Saah, R. Alta Charo, Whitney Tilt, Doria R. Gordon, and Bridget Baumgartner

Subjects

lcsh:QH1-199.5, Statement (logic), lcsh:QH540-549.5, Political science, Law, General Earth and Planetary Sciences, lcsh:Ecology, lcsh:General. Including nature conservation, geographical distribution, General Environmental Science

Published

2021

47. Northern shrimp Pandalus borealis population collapse linked to climate-driven shifts in predator distribution

Author

R. Anne Richards and Margaret E. Hunter

Subjects

0106 biological sciences, Hot Temperature, 010504 meteorology & atmospheric sciences, Population Dynamics, Predation, Marine and Aquatic Sciences, 01 natural sciences, Pandalus borealis, Geographical locations, Medicine and Health Sciences, Marine Fish, Atlantic Ocean, Biomass (ecology), education.field_of_study, Multidisciplinary, biology, Ecology, Stomach, Decapodiformes, Eukaryota, Shrimp, Crustaceans, Spring, Trophic Interactions, Longfin, Community Ecology, Vertebrates, Medicine, Seasons, Anatomy, Research Article, Cephalopods, animal structures, Squids, Arthropoda, Fish Biology, Science, Climate Change, Fishing, Population, Fisheries, Marine Biology, Pandalidae, Fish Physiology, Animals, Animal Physiology, Maine, education, 0105 earth and related environmental sciences, 010604 marine biology & hydrobiology, fungi, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Molluscs, Models, Theoretical, biology.organism_classification, Crustacean, Invertebrates, United States, Vertebrate Physiology, Fishery, Gastrointestinal Tract, Fish, Predatory Behavior, North America, Earth Sciences, People and places, Animal Distribution, Zoology, Digestive System

Abstract

The northern shrimp (Pandalus borealisKrøyer) population in the Gulf of Maine collapsed during an extreme heatwave that occurred across the Northwest Atlantic Ocean in 2012. Northern shrimp is a boreal species, and reaches its southern limit in the Gulf of Maine. Here we investigate proximate causes for the population collapse using data from fishery-independent surveys, environmental monitoring, and the commercial fishery. We first examined spatial data to confirm that the decline in population estimates was not due to a major displacement of the population, and then tested hypotheses related to fishing mortality and shifts in predation pressure. Fishing mortality may have contributed but could not explain the magnitude of the decline or the disappearance of pre-exploitable size individuals. Stomach contents analysis and biomass trends revealed no new fish predators of shrimp. However, longfin squid (Doryteuthis pealeiiLesueur) was unique among all species in showing time-series biomass peaks during spring, summer and fall of 2012, and spatial overlap with northern shrimp was unusually high in 2012. Longfin squid is a voracious and opportunistic predator that consumes crustaceans as well as fish. We hypothesize that the warmer temperatures of 2012 not only led to expansion of longfin squid distribution in Gulf of Maine, but had differential effects on migration phenology that further increased spatial overlap with northern shrimp. The weight of our evidence suggests that longfin squid predation was likely a significant factor in the collapse of northern shrimp in the Gulf of Maine.

Published

2021

48. Environmental DNA surveys of Burmese pythons in the Greater Everglades Ecosystem

Author

Gaia Meigs-Friend, Caitlin E. Beaver, and Margaret E. Hunter

Subjects

Burmese, Geography, Ecology, language, Environmental DNA, Ecosystem, language.human_language

Published

2021

49. Effective population size remains a suitable, pragmatic indicator of genetic diversity for all species, including forest trees

Author

Sally N. Aitken, Rodolfo Jaffé, Ivan Paz-Vinas, Laura D. Bertola, Michael William Bruford, David O'Brien, ML Fernandes, Sean Hoban, Paul A. Hohenlohe, Joachim Mergeay, Gernot Segelbacher, W. C. Funk, Lisette P. Waits, C. Vernesi, Catherine E. Grueber, Linda Laikre, Myriam Heuertz, Martin F. Breed, Farideh Moharrek, Margaret E. Hunter, The Morton Arboretum, Evolution et Diversité Biologique (EDB), Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, University of British Columbia (UBC), The City College of New York (CCNY), City University of New York [New York] (CUNY), Flinders University [Adelaide, Australia], School of Biosciences [Cardiff], Cardiff University, Colorado State University [Fort Collins] (CSU), The University of Sydney, Biodiversité, Gènes & Communautés (BioGeCo), Université de Bordeaux (UB)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institute for Bioinformatics and Evolutionary Studies [Moscow] (IBEST), University of Idaho [Moscow, USA], U.S Geological Survey, Instituto Tecnologico de Informatica [Valencia] (ITI), Universitat Politècnica de València (UPV), Instituto da Conservação da Natureza e das Florestas [Portugal], Research Institute for Nature and Forest (INBO), The Natural History Museum [London] (NHM), Scottish Natural Heritage, Fraser Darling House, Research and Innovation Centre, Fondazione Edmund Mach, and Stockholm University

Subjects

0106 biological sciences, 0303 health sciences, Genetic diversity, Science & Technology, Ecology, Population size, Settore BIO/18 - GENETICA, Biodiversity & Conservation, Environmental Sciences & Ecology, 15. Life on land, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Effective population size, [SDE]Environmental Sciences, Biodiversity Conservation, Life Sciences & Biomedicine, Ecology, Evolution, Behavior and Systematics, Environmental Sciences, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, Nature and Landscape Conservation, science-policy interface

Abstract

ispartof: BIOLOGICAL CONSERVATION vol:253 status: published

Published

2021

50. Validation of eDNA surveillance sensitivity for detection of Asian carps in controlled and field experiments.

Author

Andrew R Mahon, Christopher L Jerde, Matthew Galaska, Jennifer L Bergner, W Lindsay Chadderton, David M Lodge, Margaret E Hunter, and Leo G Nico

Subjects

Medicine, Science

Abstract

In many North American rivers, populations of multiple species of non-native cyprinid fishes are present, including black carp (Mylpharyngodon piceus), grass carp (Ctenopharyngodon idella), bighead carp (Hypophthalmichthys nobilis), silver carp (Hypophthalmichthys molitrix), common carp (Cyprinus carpio), and goldfish (Carassius auratus). All six of these species are found in the Mississippi River basin and tracking their invasion has proven difficult, particularly where abundance is low. Knowledge of the location of the invasion front is valuable to natural resource managers because future ecological and economic damages can be most effectively prevented when populations are low. To test the accuracy of environmental DNA (eDNA) as an early indicator of species occurrence and relative abundance, we applied eDNA technology to the six non-native cyprinid species putatively present in a 2.6 river mile stretch of the Chicago (IL, USA) canal system that was subsequently treated with piscicide. The proportion of water samples yielding positive detections increased with relative abundance of the six species, as indicated by the number of carcasses recovered after poisoning. New markers for black carp, grass carp, and a common carp/goldfish are reported and details of the marker testing to ensure specificity are provided.

Published

2013