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8 results on '"Melissa Minter"'

1. Past, current, and potential future distributions of unique genetic diversity in a cold‐adapted mountain butterfly

Author

Thomas Schmitt, Kanchon K. Dasmahapatra, Jane K. Hill, Michael D. Morecroft, Athayde Tonhasca, Chris D. Thomas, Melissa Minter, and Stefanos Siozios

Subjects
0106 biological sciences, Range (biology), Species distribution, Population, Climate change, Refugia, 010603 evolutionary biology, 01 natural sciences, Nymphalidae, 03 medical and health sciences, Refugium (population biology), butterfly, mountain systems, education, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Original Research, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, education.field_of_study, Genetic diversity, biology, Last Glacial Maximum, Ecology, genetic diversity, biology.organism_classification, Geography, climate change, Threatened species, human activities
Abstract

Aim Climatic changes throughout the Pleistocene have strongly modified species distributions. We examine how these range shifts have affected the genetic diversity of a montane butterfly species and whether the genetic diversity in the extant populations is threatened by future climate change. Location Europe. Taxon Erebia epiphron Lepidoptera: Nymphalidae. Methods We analyzed mtDNA to map current genetic diversity and differentiation of E. epiphron across Europe to identify population refugia and postglacial range shifts. We used species distribution modeling (SDM) to hindcast distributions over the last 21,000 years to identify source locations of extant populations and to project distributions into the future (2070) to predict potential losses in genetic diversity. Results We found substantial genetic diversity unique to specific regions within Europe (total number of haplotypes = 31, number of unique haplotypes = 27, H d = 0.9). Genetic data and SDM hindcasting suggest long‐term separation and survival of discrete populations. Particularly, high rates of unique diversity in postglacially colonized sites in England (H d = 0.64) suggest this population was colonized from a now extinct cryptic refugium. Under future climate change, SDMs predict loss of climate suitability for E. epiphron, particularly at lower elevations (, The genetic diversification of cold‐adapted mountain species, such as E. epiphron, has been shaped by Pleistocene glaciations, resulting in unique genetic diversity in isolated populations. The unique genetic diversity in mountain and cold‐adapted species is at under future climate warming, and we predict E. epiphron will lose 38%–64% of its range in the future, resulting in the loss of genetic diversity, reducing its ability to adapt.

Published
2020

2. 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

3. Exploring the potential for ‘Gene Conservation Units’ to conserve genetic diversity in wild populations

Author

Jeanette Hall, Richard A. Ennos, Joan Cottrell, Jane K. Hill, Melissa Minter, and David O'Brien

Subjects
Environmental sciences, Genetic diversity, Gene conservation, Ecology, Evolutionary biology, gene conservation unit, conservation, in situ, GE1-350, genetic diversity, Biology, QH540-549.5
Abstract

1. Genetic diversity is important for species persistence and Gene Conservation Units (GCUs) have been implemented for forest trees to protect genetic diversity and evolutionary processes in situ. The Convention on Biological Diversity stipulates the protection of genetic diversity as an Aichi target, and so we explore the potential for GCUs to be implemented more widely. 2. Our global systematic review showed that GCUs are currently implemented primarily for plant species of economic importance (109/158 species studied), but a questionnaire sent to land managers and conservationists (60 U.K. participants) revealed strong support for fully integrating genetic information into conservation management (90% agree), and for creating GCUs for other plant and animal taxa. 3. Using four case studies of U.K. species of conservation importance which vary in genetic threat and population dynamics (two insect species, a fungus and a plant), we highlight that GCU implementation criteria need to be flexible to account for variation in effective breeding population size and geographic extent of target species. The wider uptake of GCUs would ensure that threatened genetic diversity is protected and support evolutionary processes that aid adaptation to changing environments.

Published
2021

5. An analysis of genetic diversity actions, indicators and targets in 114 National Reports to the Convention on Biological Diversity

Author

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

Subjects
Genetic diversity, Convention on Biological Diversity, media_common.quotation_subject, Biodiversity, respiratory system, Red List Index, Geography, Sustainability, Threatened species, Psychological resilience, Genetic erosion, human activities, Environmental planning, media_common
Abstract

Genetic diversity is critically important for all species-domesticated and wild- to adapt to environmental change, and for ecosystem resilience to extreme events. International agreements such as the Convention on Biological Diversity (CBD) have committed to conserve and sustainably and equitably use all levels of biodiversity-genes, species and ecosystems-globally. However, assessment and monitoring of genetic diversity are often overlooked, and there are large knowledge and policy gaps regarding genetic diversity conservation. In this study, we present the first quantitative analysis of genetic diversity assessments conducted by Parties to the CBD. We conducted a detailed, systematic analysis of 114 CBD 5th (submitted 2014) and 6th (submitted 2018) National Reports to quantitatively assess actions, progress on targets, values and indicators related to genetic diversity. First, we found that the importance of genetic diversity is recognised by most Parties to the CBD, and that recognition increased over time. However, genetic targets mainly addressed genetic diversity within cultivated plants, farm animals, and crop wild relatives, with little focus on other wild species. Also, actions for conserving genetic diversity primarily concerned ex-situ facilities and policy, rather than monitoring and intervention for maintaining genetic diversity in situ. The most commonly used indicators of genetic diversity status were the number of genetic resources in conservation facilities, number of threatened breeds, and Red List Index, which are not well correlated to genetic erosion in most species -- highlighting that genetic change is poorly monitored by current indicators. Lastly, analyses of genetic data observations, indigenous use and knowledge of genetic diversity, and strategies being developed and implemented to conserve genetic diversity are highly under-reported. We make several recommendations for the post-2020 CBD Biodiversity Framework to improve awareness, assessment, and monitoring, and facilitate consistent and complete reporting of progress of genetic diversity in future National Reports.Article Impact StatementAn analysis of genetic diversity in CBD National Reports neglects non-domesticated species and demonstrates need for sufficient indicators.

Published
2020

6. The tethered flight technique as a tool for studying life-history strategies associated with migration in insects

Author

Ka S. Lim, Christopher M. Jones, Melissa Minter, Kenneth Wilson, Aislinn J. Pearson, and Jason W. Chapman

Subjects
0106 biological sciences, Future studies, Ecology, 15. Life on land, Biology, Flight behaviour, 010603 evolutionary biology, 01 natural sciences, Data science, Life history theory, 010602 entomology, Insect Science, Insect migration, Biological dispersal, Identification (biology), Life history
Abstract

1. Every year billions of insects engage in long-distance, seasonal mass migrations which have major consequences for agriculture, ecosystem services and insect-vectored diseases. Tracking this movement in the field is difficult, with mass migrations often occurring at high altitudes and over large spatial scales. 2. As such, tethered flight provides a valuable tool for studying the flight behaviour of insects, giving insights into flight propensity (e.g. distance, duration and velocity) and orientation under controlled laboratory settings. By experimentally manipulating a variety of environmental and physiological traits, numerous studies have used this technology to study the flight behaviour of migratory insects ranging in size from aphids to butterflies. Advances in functional genomics promise to extend this to the identification of genetic factors associated with flight. Tethered flight techniques have been used to study migratory flight characteristics in insects for more than 50years, but have never been reviewed. 3. This study summarises the key findings of this technology, which has been employed in studies of species from six Orders. By providing detailed descriptions of the tethered flight systems, the present study also aims to further the understanding of how tethered flight studies support field observations, the situations under which the technology is useful and how it might be used in future studies. 4. The aim is to contextualise the available tethered flight studies within the broader knowledge of insect migration and to describe the significant contribution these systems have made to the literature.

Published
2018

8. New and Improved Test Technologies to Validate and Analyze High-Response Aerodynamic Test Data

Author

Melissa Minter and Donald J. Malloy

Subjects
Computer science, law, Volume (computing), Aerodynamics, Space vehicle, Transonic, Automotive engineering, Test data, Jet engine, law.invention, Test (assessment), Wind tunnel
Abstract

The continued demand to reduce the time and cost of developing modern aerospace systems combined with the ever-increasing volume of test data and the constant challenge of providing test customers with more accurate, near-real-time test results mandates the development of new and improved test technologies to validate and analyze test data. This paper focuses on the application of these test technologies to internal and external aerodynamic high-response test data acquired in the Arnold Engineering Development Center 16-foot Transonic Wind Tunnel for a sub-scale jet engine inlet and full-scale components of a space vehicle.

Published
2008

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