Your search keyword '"Laura M. Thompson"' showing total 41 results

1. Existing evidence on the effects of climate variability and climate change on ungulates in North America: a systematic map

Author

Katherine C. Malpeli, Sarah C. Endyke, Sarah R. Weiskopf, Laura M. Thompson, Ciara G. Johnson, Katherine A. Kurth, and Maxfield A. Carlin

Subjects

Climate effects, Global change, Ungulate ecology, Ungulate management, Weather, Environmental sciences, GE1-350

Abstract

Abstract Background Climate is an important driver of ungulate life-histories, population dynamics, and migratory behaviors. Climate conditions can directly impact ungulates via changes in the costs of thermoregulation and locomotion, or indirectly, via changes in habitat and forage availability, predation, and species interactions. Many studies have documented the effects of climate variability and climate change on North America’s ungulates, recording impacts to population demographics, physiology, foraging behavior, migratory patterns, and more. However, ungulate responses are not uniform and vary by species and geography. Here, we present a systematic map describing the abundance and distribution of evidence on the effects of climate variability and climate change on native ungulates in North America. Methods We searched for all evidence documenting or projecting how climate variability and climate change affect the 15 ungulate species native to the U.S., Canada, Mexico, and Greenland. We searched Web of Science, Scopus, and the websites of 62 wildlife management agencies to identify relevant academic and grey literature. We screened English-language documents for inclusion at both the title and abstract and full-text levels. Data from all articles that passed full-text review were extracted and coded in a database. We identified knowledge clusters and gaps related to the species, locations, climate variables, and outcome variables measured in the literature. Review findings We identified a total of 674 relevant articles published from 1947 until September 2020. Caribou (Rangifer tarandus), elk (Cervus canadensis), and white-tailed deer (Odocoileus virginianus) were the most frequently studied species. Geographically, more research has been conducted in the western U.S. and western Canada, though a notable concentration of research is also located in the Great Lakes region. Nearly 75% more articles examined the effects of precipitation on ungulates compared to temperature, with variables related to snow being the most commonly measured climate variables. Most studies examined the effects of climate on ungulate population demographics, habitat and forage, and physiology and condition, with far fewer examining the effects on disturbances, migratory behavior, and seasonal range and corridor habitat. Conclusions The effects of climate change, and its interactions with stressors such as land-use change, predation, and disease, is of increasing concern to wildlife managers. With its broad scope, this systematic map can help ungulate managers identify relevant climate impacts and prepare for future changes to the populations they manage. Decisions regarding population control measures, supplemental feeding, translocation, and the application of habitat treatments are just some of the management decisions that can be informed by an improved understanding of climate impacts. This systematic map also identified several gaps in the literature that would benefit from additional research, including climate effects on ungulate migratory patterns, on species that are relatively understudied yet known to be sensitive to changes in climate, such as pronghorn (Antilocapra americana) and mountain goats (Oreamnos americanus), and on ungulates in the eastern U.S. and Mexico.

Published

2024

2. Reimagining large river management using the Resist–Accept–Direct (RAD) framework in the Upper Mississippi River

Author

Nicole K. Ward, Abigail J. Lynch, Erik A. Beever, Joshua Booker, Kristen L. Bouska, Holly Embke, Jeffrey N. Houser, John F. Kocik, Joshua Kocik, David J. Lawrence, Mary Grace Lemon, Doug Limpinsel, Madeline R. Magee, Bryan M. Maitland, Owen McKenna, Andrew Meier, John M. Morton, Jeffrey D. Muehlbauer, Robert Newman, Devon C. Oliver, Heidi M. Rantala, Greg G. Sass, Aaron Shultz, Laura M. Thompson, and Jennifer L. Wilkening

Subjects

Ecosystem, Management, Transformation, Social-ecological system, Anthropocene, Climate change, Ecology, QH540-549.5

Abstract

Abstract Background Large-river decision-makers are charged with maintaining diverse ecosystem services through unprecedented social-ecological transformations as climate change and other global stressors intensify. The interconnected, dendritic habitats of rivers, which often demarcate jurisdictional boundaries, generate complex management challenges. Here, we explore how the Resist–Accept–Direct (RAD) framework may enhance large-river management by promoting coordinated and deliberate responses to social-ecological trajectories of change. The RAD framework identifies the full decision space of potential management approaches, wherein managers may resist change to maintain historical conditions, accept change toward different conditions, or direct change to a specified future with novel conditions. In the Upper Mississippi River System, managers are facing social-ecological transformations from more frequent and extreme high-water events. We illustrate how RAD-informed basin-, reach-, and site-scale decisions could: (1) provide cross-spatial scale framing; (2) open the entire decision space of potential management approaches; and (3) enhance coordinated inter-jurisdictional management in response to the trajectory of the Upper Mississippi River hydrograph. Results The RAD framework helps identify plausible long-term trajectories in different reaches (or subbasins) of the river and how the associated social-ecological transformations could be managed by altering site-scale conditions. Strategic reach-scale objectives may reprioritize how, where, and when site conditions could be altered to contribute to the basin goal, given the basin’s plausible trajectories of change (e.g., by coordinating action across sites to alter habitat connectivity, diversity, and redundancy in the river mosaic). Conclusions When faced with long-term systemic transformations (e.g., > 50 years), the RAD framework helps explicitly consider whether or when the basin vision or goals may no longer be achievable, and direct options may open yet unconsidered potential for the basin. Embedding the RAD framework in hierarchical decision-making clarifies that the selection of actions in space and time should be derived from basin-wide goals and reach-scale objectives to ensure that site-scale actions contribute effectively to the larger river habitat mosaic. Embedding the RAD framework in large-river decisions can provide the necessary conduit to link flexibility and innovation at the site scale with stability at larger scales for adaptive governance of changing social-ecological systems.

Published

2023

3. Climate change and the global redistribution of biodiversity: substantial variation in empirical support for expected range shifts

Author

Madeleine A. Rubenstein, Sarah R. Weiskopf, Romain Bertrand, Shawn L. Carter, Lise Comte, Mitchell J. Eaton, Ciara G. Johnson, Jonathan Lenoir, Abigail J. Lynch, Brian W. Miller, Toni Lyn Morelli, Mari Angel Rodriguez, Adam Terando, and Laura M. Thompson

Subjects

Global change, Distribution shift, Species redistribution, Latitude, Elevation, Depth, Environmental sciences, GE1-350

Abstract

Abstract Background Among the most widely predicted climate change-related impacts to biodiversity are geographic range shifts, whereby species shift their spatial distribution to track their climate niches. A series of commonly articulated hypotheses have emerged in the scientific literature suggesting species are expected to shift their distributions to higher latitudes, greater elevations, and deeper depths in response to rising temperatures associated with climate change. Yet, many species are not demonstrating range shifts consistent with these expectations. Here, we evaluate the impact of anthropogenic climate change (specifically, changes in temperature and precipitation) on species’ ranges, and assess whether expected range shifts are supported by the body of empirical evidence. Methods We conducted a Systematic Review, searching online databases and search engines in English. Studies were screened in a two-stage process (title/abstract review, followed by full-text review) to evaluate whether they met a list of eligibility criteria. Data coding, extraction, and study validity assessment was completed by a team of trained reviewers and each entry was validated by at least one secondary reviewer. We used logistic regression models to assess whether the direction of shift supported common range-shift expectations (i.e., shifts to higher latitudes and elevations, and deeper depths). We also estimated the magnitude of shifts for the subset of available range-shift data expressed in distance per time (i.e., km/decade). We accounted for methodological attributes at the study level as potential sources of variation. This allowed us to answer two questions: (1) are most species shifting in the direction we expect (i.e., each observation is assessed as support/fail to support our expectation); and (2) what is the average speed of range shifts? Review findings We found that less than half of all range-shift observations (46.60%) documented shifts towards higher latitudes, higher elevations, and greater marine depths, demonstrating significant variation in the empirical evidence for general range shift expectations. For the subset of studies looking at range shift rates, we found that species demonstrated significant average shifts towards higher latitudes (average = 11.8 km/dec) and higher elevations (average = 9 m/dec), although we failed to find significant evidence for shifts to greater marine depths. We found that methodological factors in individual range-shift studies had a significant impact on the reported direction and magnitude of shifts. Finally, we identified important variation across dimensions of range shifts (e.g., greater support for latitude and elevation shifts than depth), parameters (e.g., leading edge shifts faster than trailing edge for latitude), and taxonomic groups (e.g., faster latitudinal shifts for insects than plants). Conclusions Despite growing evidence that species are shifting their ranges in response to climate change, substantial variation exists in the extent to which definitively empirical observations confirm these expectations. Even though on average, rates of shift show significant movement to higher elevations and latitudes for many taxa, most species are not shifting in expected directions. Variation across dimensions and parameters of range shifts, as well as differences across taxonomic groups and variation driven by methodological factors, should be considered when assessing overall confidence in range-shift hypotheses. In order for managers to effectively plan for species redistribution, we need to better account for and predict which species will shift and by how much. The dataset produced for this analysis can be used for future research to explore additional hypotheses to better understand species range shifts.

Published

2023

4. Connecting research and practice to enhance the evolutionary potential of species under climate change

Author

Laura M. Thompson, Lindsey L. Thurman, Carly N. Cook, Erik A. Beever, Carla M. Sgrò, Andrew Battles, Carlos A. Botero, John E. Gross, Kimberly R. Hall, Andrew P. Hendry, Ary A. Hoffmann, Christopher Hoving, Olivia E. LeDee, Claudia Mengelt, Adrienne B. Nicotra, Robyn A. Niver, Felipe Pérez‐Jvostov, Rebecca M. Quiñones, Gregor W. Schuurman, Michael K. Schwartz, Jennifer Szymanski, and Andrew Whiteley

Subjects

climate change, evolutionary adaptive capacity, genomics, knowledge exchange, natural resource management, policy, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Resource managers have rarely accounted for evolutionary dynamics in the design or implementation of climate change adaptation strategies. We brought the research and management communities together to identify challenges and opportunities for applying evidence from evolutionary science to support on‐the‐ground actions intended to enhance species' evolutionary potential. We amalgamated input from natural‐resource practitioners and interdisciplinary scientists to identify information needs, current knowledge that can fill those needs, and future avenues for research. Three focal areas that can guide engagement include: (1) recognizing when to act, (2) understanding the feasibility of assessing evolutionary potential, and (3) identifying best management practices. Although researchers commonly propose using molecular methods to estimate genetic diversity and gene flow as key indicators of evolutionary potential, we offer guidance on several additional attributes (and their proxies) that may also guide decision‐making, particularly in the absence of genetic data. Finally, we outline existing decision‐making frameworks that can help managers compare alternative strategies for supporting evolutionary potential, with the goal of increasing the effective use of evolutionary information, particularly for species of conservation concern. We caution, however, that arguing over nuance can generate confusion; instead, dedicating increased focus on a decision‐relevant evidence base may better lend itself to climate adaptation actions.

Published

2023

5. A Brave New World: Managing for Biodiversity Conservation under Ecosystem Transformation

Author

Jennifer L. Wilkening, Dawn Robin Magness, Laura M. Thompson, and Abigail J. Lynch

Subjects

biodiversity, conservation, natural resource managers, RAD, Mojave Desert, conservation portfolios, Agriculture

Abstract

Traditional conservation practices have primarily relied on maintaining biodiversity by preserving species and habitats in place. Many regions are experiencing unprecedented environmental conditions, shifts in species distribution and habitats, and high turnover in species composition, resulting in ecological transformation. Natural resource managers have lacked tools for identifying and selecting strategies to manage ecosystem transformation. A recently formalized decision support framework provides a way for managers to resist, accept, or direct (RAD) the trajectory of change. We begin by identifying how historical conservation practices are built into the RAD framework. Next, we describe how RAD can be used to implement climate change adaptation actions, using examples from the Mojave Desert to provide ecological context. Third, we discuss how the RAD framework can assist with the creation of conservation portfolios, facilitating the maintenance of overall biodiversity across a landscape. Preserving species assemblages in their current state, or restoring them to historical conditions, will not always be possible, and RAD allows for explicit deliberation about when and where to prioritize scarce resources. We conclude with a set of guidelines for conservation practitioners or managers moving forward. Although operating under an increasingly uncertain future is daunting, managers can utilize RAD to conserve biodiversity and effectively handle ecosystem transformation.

Published

2023

6. Supporting the adaptive capacity of species through more effective knowledge exchange with conservation practitioners

Author

Carly N. Cook, Erik A. Beever, Lindsey L. Thurman, Laura M. Thompson, John E. Gross, Andrew R. Whiteley, Adrienne B. Nicotra, Jennifer A. Szymanski, Carlos A. Botero, Kimberly R. Hall, Ary A. Hoffmann, Gregor W. Schuurman, and Carla M. Sgrò

Subjects

adaptive capacity, conservation management, evidence‐based conservation, evolutionary adaptive capacity, knowledge exchange, natural resource management, Evolution, QH359-425

Abstract

Abstract There is an imperative for conservation practitioners to help biodiversity adapt to accelerating environmental change. Evolutionary biologists are well‐positioned to inform the development of evidence‐based management strategies that support the adaptive capacity of species and ecosystems. Conservation practitioners increasingly accept that management practices must accommodate rapid environmental change, but harbour concerns about how to apply recommended changes to their management contexts. Given the interest from both conservation practitioners and evolutionary biologists in adjusting management practices, we believe there is an opportunity to accelerate the required changes by promoting closer collaboration between these two groups. We highlight how evolutionary biologists can harness lessons from other disciplines about how to foster effective knowledge exchange to make a substantive contribution to the development of effective conservation practices. These lessons include the following: (1) recognizing why practitioners do and do not use scientific evidence; (2) building an evidence base that will influence management decisions; (3) translating theory into a format that conservation practitioners can use to inform management practices; and (4) developing strategies for effective knowledge exchange. Although efforts will be required on both sides, we believe there are rewards for both practitioners and evolutionary biologists, not least of which is fostering practices to help support the long‐term persistence of species.

Published

2021

7. Do empirical observations support commonly-held climate change range shift hypotheses? A systematic review protocol

Author

Madeleine A. Rubenstein, Sarah R. Weiskopf, Shawn L. Carter, Mitchell J. Eaton, Ciara Johnson, Abigail J. Lynch, Brian W. Miller, Toni Lyn Morelli, Mari Angel Rodriguez, Adam Terando, and Laura M. Thompson

Subjects

Global change, Distribution shift, Species redistribution, Latitude, Elevation, Depth, Environmental sciences, GE1-350

Abstract

Abstract Background Among the most widely anticipated climate-related impacts to biodiversity are geographic range shifts, whereby species shift their spatial distribution in response to changing climate conditions. In particular, a series of commonly articulated hypotheses have emerged: species are expected to shift their distributions to higher latitudes, greater elevations, and deeper depths in response to climate change, reflecting an underlying hypothesis that species will move to cooler locations to track spatial changes in the temperature of their current range. Yet, many species are not demonstrating range shifts consistent with these hypotheses. Resolving this discrepancy and providing effective explanations for the observed variability in species’ range shifts is urgently needed to help support a range of natural resource management decisions. Here, we propose a protocol to review the body of evidence for commonly-held climate change range shift hypotheses at the species level focusing on observed latitudinal, longitudinal, elevational, and depth shifts in response to temperature and precipitation changes. We aim to answer the question: what is the impact of anthropogenic climate change (specifically changes in temperature and precipitation) on species ranges? Methods In this review protocol, we propose to conduct a systematic search of literature from internet databases and search engines in English. Articles will be screened in a two-stage process (title/abstract and full text) to evaluate whether they meet a list of eligibility criteria (e.g., presents species-level data, compares > 1 time period). Initial data coding and extraction will be completed by four reviewers and checked by a secondary reviewer from among our co-authors. We will perform a formal meta-analysis to document estimated effect size using the subset of available range-shift data expressed in distance per time (e.g., km/decade). We will also use multinomial logistic regression models to assess the probability that species are shifting in a direction that supports our hypotheses (i.e. towards higher latitudes, greater elevations, and deeper depths). We will account for study methodology as a potential source of variation.

Published

2020

8. Spatial differences in genetic diversity and northward migration suggest genetic erosion along the boreal caribou southern range limit and continued range retraction

Author

Laura M. Thompson, Cornelya F. C. Klütsch, Micheline Manseau, and Paul J. Wilson

Subjects

boreal caribou, boreal forest, genetic erosion, habitat fragmentation, microsatellite DNA, range retraction, Ecology, QH540-549.5

Abstract

Abstract With increasing human activities and associated landscape changes, distributions of terrestrial mammals become fragmented. These changes in distribution are often associated with reduced population sizes and loss of genetic connectivity and diversity (i.e., genetic erosion) which may further diminish a species' ability to respond to changing environmental conditions and lead to local population extinctions. We studied threatened boreal caribou (Rangifer tarandus caribou) populations across their distribution in Ontario/Manitoba (Canada) to assess changes in genetic diversity and connectivity in areas of high and low anthropogenic activity. Using data from >1,000 caribou and nine microsatellite loci, we assessed population genetic structure, genetic diversity, and recent migration rates using a combination of network and population genetic analyses. We used Bayesian clustering analyses to identify population genetic structure and explored spatial and temporal variation in those patterns by assembling networks based on RST and FST as historical and contemporary genetic edge distances, respectively. The Bayesian clustering analyses identified broad‐scale patterns of genetic structure and closely aligned with the RST network. The FST network revealed substantial contemporary genetic differentiation, particularly in areas presenting contemporary anthropogenic disturbances and habitat fragmentation. In general, relatively lower genetic diversity and greater genetic differentiation were detected along the southern range limit, differing from areas in the northern parts of the distribution. Moreover, estimation of migration rates suggested a northward movement of animals away from the southern range limit. The patterns of genetic erosion revealed in our study suggest ongoing range retraction of boreal caribou in central Canada.

Published

2019

9. Corrigendum: The Role of Personality Traits in Young Adult Fruit and Vegetable Consumption

Author

Tamlin S. Conner, Laura M. Thompson, Rachel L. Knight, Jayde A. M. Flett, Aimee C. Richardson, and Kate L. Brookie

Subjects

personality, Mediterranean diet, health behaviors, daily diary methods, diet, young adult, Psychology, BF1-990

Published

2018

10. The Role of Personality Traits in Young Adult Fruit and Vegetable Consumption

Author

Tamlin S. Conner, Laura M. Thompson, Rachel L. Knight, Jayde A. M. Flett, Aimee C. Richardson, and Kate L. Brookie

Subjects

personality, Mediterranean diet, health behaviors, daily diary methods, diet, young adult, Psychology, BF1-990

Abstract

This project investigated how individual differences in the big-five personality traits (neuroticism, extraversion, openness to experience, conscientiousness, and agreeableness) predicted plant-food consumption in young adults. A total of 1073 participants from two samples of young adults aged 17–25 reported their daily servings of fruits, vegetables, and two unhealthy foods for comparison purposes using an Internet daily diary for 21 or 13 days (micro-longitudinal, correlational design). Participants also completed the Neuroticism, Extraversion, Openness Five Factor Inventory (NEO-FFI) measure of personality, and demographic covariates including gender, age, ethnicity, and body mass index (BMI). Analyses used hierarchical regression to predict average daily fruit and vegetable consumption as separate dependent variables from the demographic covariates (step 1) and the five personality traits (step 2). Results showed that young adults higher in openness and extraversion, and to some extent conscientiousness, ate more fruits and vegetables than their less open, less extraverted, and less conscientious peers. Neuroticism and agreeableness were unrelated to fruit and vegetable consumption. These associations were unique to eating fruit and vegetables and mostly did not extend to unhealthy foods tested. Young adult women also ate more fruit and vegetables than young adult men. Results suggest that traits associated with greater intellect, curiosity, and social engagement (openness and extraversion), and to a lesser extent, discipline (conscientiousness) are associated with greater plant-food consumption in this population. Findings reinforce the importance of personality in establishing healthy dietary habits in young adulthood that could translate into better health outcomes later in life.

Published

2017

11. Comparative woodland caribou population surveys in Slate Islands Provincial Park, Ontario

Author

Natasha L. Carr, Arthur R. Rodgers, Steven R. Kingston, Peter N. Hettinga, Laura M. Thompson, Jennifer L. Renton, and Paul J. Wilson

Subjects

forest-dwelling woodland caribou, population size, genetic profiling, forward looking infrared, FLIR, mark-recapture, Animal culture, SF1-1100

Abstract

We evaluated three methods of estimating population size of woodland caribou (boreal ecotype) on the Slate Islands in northern Ontario. Located on the north shore of Lake Superior, the Slate Islands provide a protected and closed population with very limited predator influence that is ideal for a comparison of survey methods. Our objective was to determine the costs and benefits of three population estimation techniques: (1) forward looking infrared (FLIR) technology to count the number of caribou on regular-spaced transects flown by fixed-wing aircraft; (2) observers to count the number of caribou seen or heard while walking random transects in the spring; and, (3) mark-recapture sampling of caribou pellets using DNA analysis. FLIR and the genetics 3-window approach gave much tighter confidence intervals but similar population estimates were found from all three techniques based on their overlapping confidence intervals. There are various costs and benefits to each technique that are discussed further. Understanding the costs and benefits of different population estimation techniques is necessary to develop cost-effective programs for inventorying and monitoring this threatened species not only on the Slate Islands but for other populations as well.

Published

2012

12. RAD Adaptive Management for Transforming Ecosystems

Author

Joel H. Reynolds, Mark T Porath, Suresh A. Sethi, Frank J. Rahel, Jennifer L. Wilkening, Michael Clifford, Gregor W. Schuurman, Dawn R. Magness, Robert A. Newman, Robert T. Magill, Douglas Limpinsel, Tracy Melvin, Erik A. Beever, Abigail J. Lynch, John M. Morton, and Laura M. Thompson

Subjects

Adaptive management, Computer science, business.industry, Environmental resource management, Ecosystem, General Agricultural and Biological Sciences, business

Abstract

Intensifying global change is propelling many ecosystems toward irreversible transformations. Natural resource managers face the complex task of conserving these important resources under unprecedented conditions and expanding uncertainty. As once familiar ecological conditions disappear, traditional management approaches that assume the future will reflect the past are becoming increasingly untenable. In the present article, we place adaptive management within the resist–accept–direct (RAD) framework to assist informed risk taking for transforming ecosystems. This approach empowers managers to use familiar techniques associated with adaptive management in the unfamiliar territory of ecosystem transformation. By providing a common lexicon, it gives decision makers agency to revisit objectives, consider new system trajectories, and discuss RAD strategies in relation to current system state and direction of change. Operationalizing RAD adaptive management requires periodic review and update of management actions and objectives; monitoring, experimentation, and pilot studies; and bet hedging to better identify and tolerate associated risks.

Published

2021

13. 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

14. Managing for RADical ecosystem change: applying the Resist‐Accept‐Direct (RAD) framework

Author

David J. Lawrence, Trevor J. Krabbenhoft, Robert A. Newman, Tracy Melvin, Robert T. Magill, Gregor W. Schuurman, David N. Cole, Douglas Limpinsel, Jay O. Peterson, Mark T. Porath, Jennifer L. Wilkening, Augustin C. Engman, Erik A. Beever, Laura M. Thompson, John M. Morton, Frank J. Rahel, Cat Hawkins Hoffman, Suresh A. Sethi, Stephen T. Jackson, and Abigail J. Lynch

Subjects

Geography, Ecology, Ecosystem change, Resist, business.industry, Environmental resource management, business, Ecology, Evolution, Behavior and Systematics

Published

2021

15. Supporting the adaptive capacity of species through more effective knowledge exchange with conservation practitioners

Author

Laura M. Thompson, Lindsey L. Thurman, Adrienne B. Nicotra, Jennifer A. Szymanski, Erik A. Beever, John E. Gross, Carlos A. Botero, Carly N. Cook, Ary A. Hoffmann, Gregor W. Schuurman, Carla M. Sgrò, Andrew R. Whiteley, and Kimberly R. Hall

Subjects

evidence‐based conservation, 0106 biological sciences, Knowledge management, Environmental change, Evolution, Biology, 010603 evolutionary biology, 01 natural sciences, Scientific evidence, QH359-425, Genetics, Natural resource management, Ecology, Evolution, Behavior and Systematics, Management practices, Adaptive capacity, business.industry, 010604 marine biology & hydrobiology, 15. Life on land, adaptive capacity, conservation management, Evidence-based conservation, natural resource management, 13. Climate action, knowledge exchange, Perspective, evolutionary adaptive capacity, General Agricultural and Biological Sciences, business

Abstract

There is an imperative for conservation practitioners to help biodiversity adapt to accelerating environmental change. Evolutionary biologists are well‐positioned to inform the development of evidence‐based management strategies that support the adaptive capacity of species and ecosystems. Conservation practitioners increasingly accept that management practices must accommodate rapid environmental change, but harbour concerns about how to apply recommended changes to their management contexts. Given the interest from both conservation practitioners and evolutionary biologists in adjusting management practices, we believe there is an opportunity to accelerate the required changes by promoting closer collaboration between these two groups. We highlight how evolutionary biologists can harness lessons from other disciplines about how to foster effective knowledge exchange to make a substantive contribution to the development of effective conservation practices. These lessons include the following: (1) recognizing why practitioners do and do not use scientific evidence; (2) building an evidence base that will influence management decisions; (3) translating theory into a format that conservation practitioners can use to inform management practices; and (4) developing strategies for effective knowledge exchange. Although efforts will be required on both sides, we believe there are rewards for both practitioners and evolutionary biologists, not least of which is fostering practices to help support the long‐term persistence of species.

Published

2021

16. Responding to Ecosystem Transformation: Resist, Accept, or Direct?

Author

Trevor J. Krabbenhoft, Jennifer L. Wilkening, Douglas Limpinsel, Augustin C. Engman, Jay O. Peterson, Stephen T. Jackson, Erik A. Beever, Mark T. Porath, Tracy Melvin, Robert A. Newman, Frank J. Rahel, Laura M. Thompson, Robert T. Magill, Jeffrey A. Falke, David J. Lawrence, Suresh A. Sethi, John M. Morton, and Abigail J. Lynch

Subjects

Geography, Resist, Natural resource economics, Ecosystem, Aquatic Science, Transformation (music), Nature and Landscape Conservation

Published

2020

17. Unfamiliar Territory: Emerging Themes for Ecological Drought Research and Management

Author

Laura M. Thompson, Jeremy S. Littell, Carolyn A. F. Enquist, Richard N. Palmer, Charles H. Luce, Shelley D. Crausbay, Kimberly R. Hall, Jennifer M. Cartwright, Jason B. Dunham, Shawn L. Carter, Julio L. Betancourt, William C. Dennison, John B. Bradford, Aaron R. Ramirez, Imtiaz Rangwala, Abby G. Frazier, and Brianne M. Walsh

Subjects

Geography, Transformational leadership, Horizon (archaeology), Ecology, Earth and Planetary Sciences (miscellaneous), Climate change, General Environmental Science, Grand Challenges, Teleconnection

Abstract

Summary Novel forms of drought are emerging globally, due to climate change, shifting teleconnection patterns, expanding human water use, and a history of human influence on the environment that increases the probability of transformational ecological impacts. These costly ecological impacts cascade to human communities, and understanding this changing drought landscape is one of today’s grand challenges. By using a modified horizon-scanning approach that integrated scientists, managers, and decision-makers, we identified the emerging issues in ecological drought that represent key challenges to timely and effective responses. Here we review the themes that most urgently need attention, including novel drought conditions, the potential for transformational drought impacts, and the need for anticipatory drought management. This horizon scan and review provides a roadmap to facilitate the research and management innovations that will support forward-looking, co-developed approaches to reduce the risk of drought to our socio-ecological systems during the 21st century.

Published

2020

18. What are the effects of climate variability and change on ungulate life-histories, population dynamics, and migration in North America? A systematic map protocol

Author

Amanda R. Hardy, Laura M. Thompson, Katherine C. Malpeli, and Sarah R. Weiskopf

Subjects

Climate impacts, Ungulate, Forest management, Population, Distribution (economics), Management, Monitoring, Policy and Law, Ungulate management, Abundance (ecology), Ecosystem, education, Global change, Weather, lcsh:Environmental sciences, lcsh:GE1-350, education.field_of_study, Ecology, biology, business.industry, biology.organism_classification, Pollution, Adaptive management, Geography, Biological dispersal, Ungulate ecology, business

Abstract

Background Climate is an important driver of ungulate life-histories, population dynamics, and migratory behaviors, and can affect the growth, development, fecundity, dispersal, and demographic trends of populations. Changes in temperature and precipitation, and resulting shifts in plant phenology, winter severity, drought and wildfire conditions, invasive species distribution and abundance, predation, and disease have the potential to directly or indirectly affect ungulates. However, ungulate responses to climate variability and change are not uniform and vary by species and geography. Here, we present a systematic map protocol aiming to describe the abundance and distribution of evidence on the effects of climate variability and change on ungulate life-histories, population dynamics, and migration in North America. This map will help to identify knowledge gaps and clusters of evidence, and can be used to inform future research directions and adaptive management strategies. Methods We will catalogue evidence on how climate variability and change affect the life-histories, population dynamics, and migration patterns of the fifteen ungulate species native to North America. We will search both academic and grey literature, using academic journal databases and specialist websites. Articles will be screened for inclusion at the title/abstract and full-text levels, and data will be extracted from articles that pass the full-text review. These data will be summarized quantitatively, visually, and with a narrative review to describe the distribution and abundance of evidence on the effects of climate variability and change on ungulates in North America.

Published

2020

19. The Role of Mindfulness in Viewing and Making Art in Children and Adults

Author

Amanda Tobin, Darya L. Zabelina, Laura M. Thompson, and Rebecca White

Subjects

medicine.medical_specialty, Health (social science), Mindfulness, Social Psychology, Public health, Experimental and Cognitive Psychology, Cognition, Contemporary art, Developmental psychology, Art making, Developmental and Educational Psychology, medicine, Psychology, Applied Psychology

Abstract

Mindfulness training has been shown to have robust attentional and cognitive benefits. However, little is known about its effects on viewing and making art. Here, we explored the effects of mindfulness-based manipulation in art viewing and art making in two studies. In Study 1, elementary school children (N = 59) participated in an art tour of the Kidspace gallery at the Massachusetts Museum of Contemporary Art (MASS MoCA), and viewed and made artworks either with or without mindfulness manipulation. In Study 2, university students (N = 193) were randomly assigned to either the mindfulness or the control condition, and also viewed and made artworks. In Study 1, elementary students who received mindfulness induction (vs. control) reported a larger difference in excitement levels between previously seen versus new artworks, expressing more excitement about the old vs. new artworks. Further, the artworks created by children in the mindfulness (vs. control) condition were rated by independent judges as more creative and more complex. In Study 2, university students who received the mindfulness (vs. control) induction reported better memory for previously seen vs. new artworks. Their own artworks were rated by independent judges as more creative, abstract, and expressive compared to the participants in the control condition. Together, results suggest that mindfulness-based practices may result in a deeper art viewing experience, and in personal art that is more creative and expressive in both children and adults.

Published

2020

20. Applying assessments of adaptive capacity to inform natural-resource management in a changing climate

Author

Lindsey L. Thurman, Laura M. Thompson, Gregor W. Schuurman, Christopher L. Hoving, Erik A. Beever, Julian D. Olden, Claudia Mengelt, and John E. Gross

Subjects

education.field_of_study, Adaptive capacity, Conservation of Natural Resources, Extinction, Ecology, business.industry, Computer science, Ecology (disciplines), Climate Change, Population, Environmental resource management, Vulnerability, Climate change, Natural Resources, Natural resource management, education, business, Adaptation (computer science), Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Adaptive capacity (AC)-the ability of a species to cope with or accommodate climate change-is a critical determinant of species vulnerability. Using information on species' AC in conservation planning is key to ensuring successful outcomes. We identified connections between a list of species' attributes (e.g., traits, population metrics, and behaviors) that were recently proposed for assessing species' AC and management actions that may enhance AC for species at risk of extinction. Management actions were identified based on evidence from the literature, a review of actions used in other climate adaptation guidance, and our collective experience in diverse fields of global-change ecology and climate adaptation. Selected management actions support the general AC pathways of persist in place or shift in space, in response to contemporary climate change. Some actions, such as genetic manipulations, can be used to directly alter the ability of species to cope with climate change, whereas other actions can indirectly enhance AC by addressing ecological or anthropogenic constraints on the expression of a species' innate abilities to adapt. Ours is the first synthesis of potential management actions directly linked to AC. Focusing on AC attributes helps improve understanding of how and why aspects of climate are affecting organisms, as well as the mechanisms by which management interventions affect a species' AC and climate change vulnerability. Adaptive-capacity-informed climate adaptation is needed to build connections among the causes of vulnerability, AC, and proposed management actions that can facilitate AC and reduce vulnerability in support of evolving conservation paradigms.Aplicación de Evaluaciones de la Capacidad Adaptativa para Informar la Gestión de Recursos Naturales en un Clima Cambiante Resumen La capacidad adaptativa (CA) - la habilidad que tiene una especie para sobrellevar o acomodarse al cambio climático - es una determinante crítica de la vulnerabilidad de una especie. El uso de la información sobre la CA de una especie dentro de la planeación de la conservación es de suma importancia para asegurar resultados exitosos. Identificamos las conexiones entre una lista de atributos de las especies (p. ej.: características, métricas poblacionales, comportamientos) que fueron propuestos recientemente para la evaluación de la CA de las especies y las acciones de gestión que pueden mejorar la CA para las especies que se encuentran en riesgo de extinción. Las acciones de gestión fueron identificadas con base en la evidencia de la literatura, una revisión de acciones usadas en otras guías de adaptación climática y nuestra experiencia colectiva en diferentes campos de la ecología del cambio global y la adaptación climática. Ciertas acciones de gestión respaldan las vías generales de CA de persistir en el lugar o cambiar en el espacio como respuesta al cambio climático contemporáneo. Algunas acciones, como la manipulación genética, pueden usarse para alterar directamente la habilidad que tienen las especies para sobrellevar el cambio climático, mientras que otras acciones pueden mejorar indirectamente la CA al combatir las restricciones ecológicas o antropogénicas que existen sobre la expresión de las habilidades innatas de una especie para adaptarse. Nuestra síntesis es la primera que aborda acciones potenciales de gestión conectadas directamente con la CA. Enfocarse en los atributos de la CA ayuda a mejorar el conocimiento sobre cómo y por qué los aspectos climáticos están afectando a los organismos, así como los mecanismos mediante los cuales las intervenciones de gestión afectan la CA y la vulnerabilidad al cambio climático de la especie. La adaptación climática orientada por la capacidad adaptativa es necesaria para establecer conexiones entre las causas de la vulnerabilidad, la CA y las acciones de gestión propuestas que pueden facilitar la CA y reducir la vulnerabilidad como apoyo a los paradigmas cambiantes de la conservación.适应能力, 即物种应对或适应气候变化的能力, 是物种脆弱性的一个重要决定因素。在保护规划中应用关于物种适应能力的信息是确保保护成功的关键。本研究确定了最近提出的用于评估物种适应能力的一系列物种特征(如性状、种群指标、行为)与可能有助于提高濒危物种适应能力的管理行动之间的关系。其中, 管理行动是根据文献中的证据、对其它气候适应指南所应用的行动的综述, 以及我们在全球变化生态学和气候适应等不同领域的集体经验而确定的。一些特定的管理行动可以支持物种发挥适应能力的主要方式, 即通过继续留在原有栖息地或在空间中转移来应对当代的气候变化。还有一些管理行动, 如遗传操纵, 则可以直接改变物种应对气候变化的能力, 其它管理行动还可以通过解决生态或人为因素对物种发挥其先天适应能力的限制, 从而间接地加强适应能力。我们的研究首次综述了与适应能力直接相关的潜在管理行动。关注适应能力特征有助于帮助理解气候的各方面因素如何以及为什么会影响生物, 以及管理干预措施影响物种适应能力和对气候变化脆弱性的机制。未来仍需要以适应能力为基础的气候适应性研究, 来建立物种脆弱性成因、适应能力, 以及拟议的管理行动之间的关系, 提高物种适应能力并降低脆弱性, 从而支持不断发展的保护范式。【翻译: 胡怡思; 审校: 聂永刚】.

Published

2021

21. Real Men Don’t Cry: Skill Expressing Discrete Emotions Differentially Predicts Cardiovascular Disease Risk in Men and Women

Author

Sarah D. Pressman, Natalie L. Tuck, Laura M. Thompson, and Nathan S. Consedine

Subjects

Adult, Male, media_common.quotation_subject, Emotions, Happiness, Blood Pressure, Context (language use), Anger, Lower risk, 050105 experimental psychology, 03 medical and health sciences, Sex Factors, 0302 clinical medicine, Sadness, Humans, 0501 psychology and cognitive sciences, General Psychology, Aged, media_common, Framingham Risk Score, Cholesterol, HDL, 05 social sciences, Fear, Middle Aged, Disgust, Facial Expression, Psychiatry and Mental health, Cholesterol, Cardiovascular Diseases, Heart Disease Risk Factors, Trait, Female, Psychology, 030217 neurology & neurosurgery, Clinical psychology

Abstract

Background Expressing emotions effectively is central to social functioning and has links to health and cardiovascular disease (CVD) risk. Previous work has linked the ability to smile to lower CVD risk in men but has not studied other expressions or considered the context of these skills. Purpose To test whether the ability to express fear, anger, sadness, happiness, and disgust cross-sectionally predict CVD risk in both genders and whether links are moderated by the ability to decode others’ emotional signals. Methods A community sample of 125 men and women (30–75 years) provided trait emotion data before a laboratory visit where blood was drawn and performance-based assessments of the ability to signal and decode emotions were administered. Expressive accuracy was scored using FaceReader software. Projected CVD risk was calculated using Framingham, a New Zealand (NZ) specific, and Atherosclerosis CVD (ASCVD) risk algorithms. Results Accuracy expressing happiness predicted lower projected risk, whereas greater accuracy expressing fear and sadness predicted higher risk. Gender frequently moderated these links; greater accuracy expressing happiness predicted lower risk in men but not women. Conversely, greater accuracy expressing fear predicted higher risk in men, whereas greater accuracy expressing sadness predicted lower risk in women but, again, higher risk in men. The ability to accurately decode others’ emotions moderated some links. Conclusions The ability to signal emotion has complex links to health parameters. The ability to flexibly regulate expressions in accordance with gender norms may be one useful way of thinking about adaptive expressive regulation.

Published

2019

22. Climate change effects on deer and moose in the Midwest

Author

Olivia E. LeDee, Sarah R. Weiskopf, and Laura M. Thompson

Subjects

Geography, Ecology, General Earth and Planetary Sciences, Climate change, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Published

2019

23. Monitoring is vital for RAD

Author

Abigail J Lynch and Laura M Thompson

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

24. Do empirical observations support commonly-held climate change range shift hypotheses? A systematic review protocol

Author

Mari Angel Rodriguez, Ciara Johnson, Shawn L. Carter, Sarah R. Weiskopf, Toni Lyn Morelli, Abigail J. Lynch, Madeleine A. Rubenstein, Laura M. Thompson, Adam J. Terando, Brian W. Miller, and Mitchell J. Eaton

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Range (biology), Forest management, Biodiversity, Climate change, Management, Monitoring, Policy and Law, Spatial distribution, 010603 evolutionary biology, 01 natural sciences, Empirical evidence, Global change, lcsh:Environmental sciences, 0105 earth and related environmental sciences, Multinomial logistic regression, lcsh:GE1-350, Species redistribution, Latitude, Ecology, Distribution shift, Depth, Global warming, Pollution, Geography, Elevation, Physical geography

Abstract

Background Among the most widely anticipated climate-related impacts to biodiversity are geographic range shifts, whereby species shift their spatial distribution in response to changing climate conditions. In particular, a series of commonly articulated hypotheses have emerged: species are expected to shift their distributions to higher latitudes, greater elevations, and deeper depths in response to climate change, reflecting an underlying hypothesis that species will move to cooler locations to track spatial changes in the temperature of their current range. Yet, many species are not demonstrating range shifts consistent with these hypotheses. Resolving this discrepancy and providing effective explanations for the observed variability in species’ range shifts is urgently needed to help support a range of natural resource management decisions. Here, we propose a protocol to review the body of evidence for commonly-held climate change range shift hypotheses at the species level focusing on observed latitudinal, longitudinal, elevational, and depth shifts in response to temperature and precipitation changes. We aim to answer the question: what is the impact of anthropogenic climate change (specifically changes in temperature and precipitation) on species ranges? Methods In this review protocol, we propose to conduct a systematic search of literature from internet databases and search engines in English. Articles will be screened in a two-stage process (title/abstract and full text) to evaluate whether they meet a list of eligibility criteria (e.g., presents species-level data, compares > 1 time period). Initial data coding and extraction will be completed by four reviewers and checked by a secondary reviewer from among our co-authors. We will perform a formal meta-analysis to document estimated effect size using the subset of available range-shift data expressed in distance per time (e.g., km/decade). We will also use multinomial logistic regression models to assess the probability that species are shifting in a direction that supports our hypotheses (i.e. towards higher latitudes, greater elevations, and deeper depths). We will account for study methodology as a potential source of variation.

Published

2020

25. Multiple conceptualizations of nature are key to inclusivity and legitimacy in global environmental governance

Author

Rahat Sabyrbekov, Luca Coscieme, A. A. A. Mohamed, Julio Díaz-José, Ruishan Chen, Houda Ghazi, Cosmas Kombat Lambini, Maylis Desrousseaux, Maria P. Barral, Amani Al-Assaf, Ignacio Palomo, Álvaro Fernández-Llamazares, Joyce Ojino, Lenke Balint, Nadia Sitas, Gregory Dowo, Odirilwe Selomane, Sugeng Budiharta, Mphatso M. Kalemba, Zeenatul Basher, Patricio Pliscoff, Tuyeni H. Mwampamba, Håkon da Silva Hyldmo, Fanny Boeraeve, Michelle Lim, Mireia Valle, Anna A. Sidorovich, Yasuo Takahashi, Pedro Jaureguiberry, Rodolfo Jaffé, Aibek Samakov, Sonali Ghosh, Uttam Babu Shrestha, Aidin Niamir, Laura M. Thompson, Catherine M. Febria, Bernard N. Baatuuwie, Felicia Lasmana, Zuzana V. Harmáčková, Juliana Sampaio Farinaci, Organismal and Evolutionary Biology Research Programme, Helsinki Institute of Sustainability Science (HELSUS), and Global Change and Conservation Lab

Subjects

Earth jurisprudence, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Globe, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Ciencias Biológicas, Resource (project management), 11. Sustainability, medicine, SCIENCE-POLICY PROCESS, Sociology, Legitimacy, 1172 Environmental sciences, 0105 earth and related environmental sciences, EARTH JURISPRUDENCE, INDIGENOUS PEOPLES, Repertoire, Environmental ethics, Biodiversity, Rights of Nature, Ecología, KNOWLEDGE SYSTEMS, ONTOLOGICAL TURN, medicine.anatomical_structure, Environmental governance, 13. Climate action, Sustainability, 1181 Ecology, evolutionary biology, RIGHTS OF NATURE, CIENCIAS NATURALES Y EXACTAS

Abstract

Despite increasing scientific understanding of the global environmental crisis, we struggle to adopt the policies science suggests would be effective. One of the reasons for that is the lack of inclusive engagement and dialogue among a wide range of different actors. Furthermore, there is a lack of consideration of differences between languages, worldviews and cultures. In this paper, we propose that engagement across the science-policy interface can be strengthened by being mindful of the breadth and depth of the diverse human-nature relations found around the globe. By examining diverse conceptualizations of ?nature? in more than 60 languages, we identify three clusters: inclusive conceptualizations where humans are viewed as an integral component of nature; non-inclusive conceptualizations where humans are separate from nature; and deifying conceptualizations where nature is understood and experienced within a spiritual dimension. Considering and respecting this rich repertoire of ways of describing, thinking about and relating to nature can help us communicate in ways that resonate across cultures and worldviews. This repertoire also provides a resource we can draw on when defining policies and sustainability scenarios for the future, offering opportunities for finding solutions to global environmental challenges. Fil: Coscieme, Luca. Trinity College Dublin; Irlanda Fil: da Silva Hyldmo, Håkon. Norwegian Environment Agency; Noruega Fil: Fernández-Llamazares, Álvaro. Helsingin Yliopisto; Finlandia Fil: Palomo, Ignacio. Bc3 Basque Centre For Climate Change; España Fil: Mwampamba, Tuyeni H.. Universidad Nacional Autónoma de México; México Fil: Selomane, Odirilwe. Stockholms Universitet; Suecia Fil: Sitas, Nadia. Stockholms Universitet; Suecia Fil: Jaureguiberry, Pedro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto Multidisciplinario de Biología Vegetal. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas Físicas y Naturales. Instituto Multidisciplinario de Biología Vegetal; Argentina Fil: Takahashi, Yasuo. Institute for Global Environmental Strategies; Japón Fil: Lim, Michelle. University of Adelaide; Australia Fil: Barral, María Paula. Consejo Nacional de Investigaciones Cientificas y Tecnicas. Centro Cientifico Tecnologico Conicet - Mar del Plata. Instituto de Innovación Para la Producción Agropecuaria y El Desarrollo Sostenible. - Instituto Nacional de Tecnologia Agropecuaria. Centro Regional Buenos Aires Sur. Estacion Experimental Agropecuaria Balcarce. Instituto de Innovación Para la Producción Agropecuaria y El Desarrollo Sostenible.; Argentina Fil: Farinaci, Juliana S.. National Institute For Space Research; Brasil Fil: Diaz-José, Julio. Tecnológico Nacional de México; México Fil: Ghosh, Sonali. Wild life Institute of India; India Fil: Ojino, Joyce. international Institute of Industrial Environmental Economics; Suecia Fil: Alassaf, Amani. The University of Jordan; Jordania Fil: Baatuuwie, Bernard N.. University for Development Studies; Ghana Fil: Balint, Lenke. The Royal Society for the Protection of Birds; Reino Unido Fil: Basher, Zeenatul. Center for Systems Integration and Sustainability; Estados Unidos Fil: Boeraeve, Fanny. Research unit Biodiversity and Landscape; Bélgica Fil: Budiharta, Sugeng. Indonesian Institute of Sciences; India Fil: Chen, Ruishan. East China Normal University; China Fil: Desrousseaux, Maylis. Envrionmental Law Institute; Francia Fil: Dowo, Gregory. Department of Applied Biosciences and Biotechnolog; Zimbabue Fil: Febria, Catherine. University of Canterbury; Nueva Zelanda Fil: Ghazi, Houda. Cadi Ayyad University; Marruecos Fil: Harmáčková, Zuzana V.. Czech Academy of Sciences; República Checa Fil: Jaffe, Rodolfo. Instituto Tecnológico Vale; Brasil Fil: Kalemba, Mphatso M.. Environmental Affairs Department; Malaui Fil: Lambini, Cosmas K.. Bayreuth University; Alemania Fil: Lasmana, Felicia P.S.. HCV Resource Network; Reino Unido Fil: Mohamed, Assem A. A.. Central Laboratory for Agricultural Climate; Egipto Fil: Niamir, Aidin. Senckenberg Biodiversity and Climate Research Center; Alemania Fil: Pliscoff Varas, Patricio Andrés. Universidad Católica de Chile; Chile Fil: Sabyrbekov, Rahat. American University of Central Asia; Kirguistán Fil: Shrestha, Uttam B.. University of Southern Queensland; Australia Fil: Samakov, Aibek. Aigine Cultural Research Center; Kirguistán Fil: Sidorovich, Anna A.. ScientificandPracticalCenterforBioresourcesoftheNationalAcademyofSciencesofBelarus; Bielorrusia Fil: Thompson, Laura. U.S. Geological Survey; Estados Unidos Fil: Valle, Mireia. National Center for Ecological Analysis and Synthesis; Estados Unidos

Published

2020

26. Persist in place or shift in space? Evaluating the adaptive capacity of species to climate change

Author

Bruce E. Young, Laura M. Thompson, Erik A. Beever, Olivia E. LeDee, John E. Gross, Lindsey L. Thurman, Bruce A. Stein, David J. Lawrence, Wendy Foden, Nancy Green, Sonya R. Geange, and Julian D. Olden

Subjects

Klimatilpasning, Ecology: 488 [VDP], Adaptive capacity, Geography, Ecology, business.industry, Environmental resource management, Climate change, Climate change adaptation, Space (commercial competition), business, Økologi: 488 [VDP], Ecology, Evolution, Behavior and Systematics

Abstract

Assessing the vulnerability of species to climate change serves as the basis for climate-adaptation planning and climate-smart conservation, and typically involves an evaluation of exposure, sensitivity, and adaptive capacity (AC). AC is a species’ ability to cope with or adjust to changing climatic conditions, and is the least understood and most inconsistently applied of these three factors. We propose an attribute-based framework for evaluating the AC of species, identifying two general classes of adaptive responses: “persist in place” and “shift in space”. Persist-in-place attributes enable species to survive in situ, whereas the shift-in-space response emphasizes attributes that facilitate tracking of suitable bioclimatic conditions. We provide guidance for assessing AC attributes and demonstrate the framework's application for species with disparate life histories. Results illustrate the broad utility of this generalized framework for informing adaptation planning and guiding species conservation in a rapidly changing climate. publishedVersion

Published

2020

27. Mobile Mindfulness Meditation: a Randomised Controlled Trial of the Effect of Two Popular Apps on Mental Health

Author

Harlene Hayne, Jayde A. M. Flett, Laura M. Thompson, Benjamin C. Riordan, and Tamlin S. Conner

Subjects

medicine.medical_specialty, Health (social science), Mindfulness, 020205 medical informatics, Social Psychology, media_common.quotation_subject, Experimental and Cognitive Psychology, 02 engineering and technology, 050105 experimental psychology, law.invention, Randomized controlled trial, law, Intervention (counseling), 0202 electrical engineering, electronic engineering, information engineering, Developmental and Educational Psychology, medicine, 0501 psychology and cognitive sciences, Applied Psychology, media_common, Public health, Flourishing, 05 social sciences, Mental health, Anxiety, Psychological resilience, medicine.symptom, Psychology, Clinical psychology

Abstract

We present the results of a pre-registered randomised controlled trial (RCT) that tested whether two smartphone-based mindfulness meditation applications (apps) lead to improvements in mental health. University students (n = 208, aged 18 to 49) were randomly assigned to use one of the three apps: Headspace, Smiling Mind, or Evernote (control group). Participants were instructed to use their assigned app for 10 min each day for 10 days, after which they received an extended 30 days’ access to continue practicing at their discretion. Participants completed measures of depressive symptoms, anxiety, stress, college adjustment, flourishing, resilience, and mindfulness at baseline, after the 10-day intervention, and after the 30-day continued access period. App usage was measured by self-report. Mindfulness app usage was high during the 10-day period (used on 8 of 10 days), but low during the 30-day extended use period (less than 20% used the app 2+ times per week). Mindfulness app users showed significant improvements in depressive symptoms, college adjustment, resilience (Smiling Mind only), and mindfulness (Headspace only) from baseline to the end of 10 days relative to control participants. Participants who continued to use the app frequently were more likely to maintain improvements in mental health, e.g. in depressive symptoms and resilience (Headspace only), until the end of the 30-day period. Thus, brief mobile mindfulness meditation practice can improve some aspects of negative mental health in the short term and may strengthen positive mental health when used regularly. Further research is required to examine the long-term effects of these apps.

Published

2018

28. Visual analogue mood scale scores in healthy young versus older adults

Author

Liana Machado, Christopher H. R. Brett, and Laura M. Thompson

Subjects

Male, Aging, Personality Inventory, Visual Analog Scale, media_common.quotation_subject, Mood scale, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Mood state, Humans, Medicine, Affective Symptoms, Young adult, Depression (differential diagnoses), Aged, media_common, Psychological Tests, 030214 geriatrics, Sleep quality, Mood Disorders, business.industry, Age Factors, Middle Aged, Affect, Psychiatry and Mental health, Clinical Psychology, Mood, Feeling, Anxiety, Female, Geriatrics and Gerontology, medicine.symptom, business, Gerontology, 030217 neurology & neurosurgery, Clinical psychology

Abstract

Background:The current research sought to characterize current mood state profiles in healthy young versus older adults using 100-point visual analogue mood scales (VAMS), provide within-sample and new sample replication of age-group differences, assess sex differences, and compare with commonly used standardized symptom measures.Methods:In two studies, six word-only VAMS (happy, sad, calm, tense, energetic, and sleepy) were administered in a laboratory setting. In Study 1, 22 young and 29 older males completed the VAMS six times (twice per day at weekly intervals). In Study 2, 60 young (30 males) and 60 older (30 males) adults completed on one occasion the VAMS, Beck Depression Inventory-II, State-Trait Anxiety Inventory, and Pittsburgh Sleep Quality Index.Results:VAMS scores showed that older adults had a tendency to indicate feeling happier, less sad, calmer, less tense, more energetic, and less sleepy than young adults. This pattern occurred across assessment points and irrespective of sex, except for the tense VAMS, which showed higher scores in females than males in young but not older adults. The standardized measures showed significant age-group differences for Trait Anxiety only (lower in older than young adults).Conclusions:These findings establish current mood state differences in young versus older adults. The absence of age-group differences in past studies may relate to the limited precision of the scales (only 7 points, in contrast to the 100-point scales used here).

Published

2018

29. Sharpen Your Pencils: Preliminary Evidence that Adult Coloring Reduces Depressive Symptoms and Anxiety

Author

Benjamin C. Riordan, Jayde A. M. Flett, Tamlin S. Conner, Celia Lie, Laura M. Thompson, and Harlene Hayne

Subjects

050103 clinical psychology, 030506 rehabilitation, medicine.medical_specialty, Stress management, Visual Arts and Performing Arts, Art therapy, 05 social sciences, 03 medical and health sciences, Intervention (counseling), Developmental and Educational Psychology, medicine, Anxiety, 0501 psychology and cognitive sciences, Psychological testing, Statistical analysis, Psychology (miscellaneous), medicine.symptom, 0305 other medical science, Psychiatry, Psychology, Depressive symptoms

Abstract

Adult coloring books have flooded the market with titles alluding to therapeutic value, yet it is unclear whether they fulfil that promise. Here, we tested whether adult coloring was related to imp...

Published

2017

30. Spatial differences in genetic diversity and northward migration suggest genetic erosion along the boreal caribou southern range limit and continued range retraction

Author

Cornelya F. C. Klütsch, Laura M. Thompson, Micheline Manseau, and Paul J. Wilson

Subjects

0106 biological sciences, Range (biology), Population, Rangifer tarandus caribou, Biology, 010603 evolutionary biology, 01 natural sciences, genetic erosion, 03 medical and health sciences, lcsh:QH540-549.5, boreal caribou, boreal forest, Genetic erosion, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, Original Research, 0303 health sciences, Genetic diversity, education.field_of_study, Habitat fragmentation, range retraction, Ecology, 15. Life on land, Rangifer tarandus, Threatened species, Genetic structure, microsatellite DNA, lcsh:Ecology, habitat fragmentation

Abstract

With increasing human activities and associated landscape changes, distributions of terrestrial mammals become fragmented. These changes in distribution are often associated with reduced population sizes and loss of genetic connectivity and diversity (i.e., genetic erosion) which may further diminish a species' ability to respond to changing environmental conditions and lead to local population extinctions. We studied threatened boreal caribou (Rangifer tarandus caribou) populations across their distribution in Ontario/Manitoba (Canada) to assess changes in genetic diversity and connectivity in areas of high and low anthropogenic activity. Using data from >1,000 caribou and nine microsatellite loci, we assessed population genetic structure, genetic diversity, and recent migration rates using a combination of network and population genetic analyses. We used Bayesian clustering analyses to identify population genetic structure and explored spatial and temporal variation in those patterns by assembling networks based on R ST and F ST as historical and contemporary genetic edge distances, respectively. The Bayesian clustering analyses identified broad‐scale patterns of genetic structure and closely aligned with the R ST network. The F ST network revealed substantial contemporary genetic differentiation, particularly in areas presenting contemporary anthropogenic disturbances and habitat fragmentation. In general, relatively lower genetic diversity and greater genetic differentiation were detected along the southern range limit, differing from areas in the northern parts of the distribution. Moreover, estimation of migration rates suggested a northward movement of animals away from the southern range limit. The patterns of genetic erosion revealed in our study suggest ongoing range retraction of boreal caribou in central Canada.

Published

2018

31. Hypotheses from Recent Assessments of Climate Impacts to Biodiversity and Ecosystems in the United States

Author

Abigail J. Lynch, Shawn L. Carter, Laura M. Thompson, Bonnie J. E. Myers, and Madeleine A. Rubenstein

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, business.industry, Environmental resource management, Biodiversity, Climate change, Context (language use), 010603 evolutionary biology, 01 natural sciences, Freshwater ecosystem, Geography, Scale (social sciences), Ecosystem, Resource management, Adaptation, business, 0105 earth and related environmental sciences

Abstract

Climate change poses multiple threats to biodiversity, and has already caused demonstrable impacts. We summarize key results from a recent national assessment of observed climate change impacts to terrestrial, marine, and freshwater ecosystems in the United States, and place results in the context of commonly articulated hypotheses about ecosystem response to climate change for global implications. Specific impacts we consider include: range shifts; phenological shifts; phenotypic changes; primary production changes; biological invasions; and novel communities. Significant effort has been made recently to incorporate adaptation measures into land and water management at both national and international scales, but the scale of impacts and associated uncertainties pose challenges to existing management institutions. Using commonly articulated hypotheses about climate change, biodiversity, and ecosystem response can provide context for informed decisions at multiple scales and can help to provide a clearer understanding of the ecological and mechanistic linkages between climate change and biodiversity.

Published

2018

32. Chapter 7 : Ecosystems, Ecosystem Services, and Biodiversity. Impacts, Risks, and Adaptation in the United States: The Fourth National Climate Assessment, Volume II

Author

Shawn L. Carter, Sarah R. Weiskopf, Charles A. Stock, Jay O. Peterson, Lisa G. Crozier, Toni Lyn Morelli, Sarah Gaichas, Jake F. Weltzin, Rajendra Poudel, Robin S. Waples, Hassan Moustahfid, Kimberly J. W. Hyde, Jeffrey T. Morisette, Michael J. Fogarty, Roldan C. Muñoz, Michelle D. Staudinger, Douglas W. Lipton, Laura M. Thompson, and Madeleine A. Rubenstein

Subjects

Geography, business.industry, Environmental resource management, Biodiversity, Volume (computing), Ecosystem, Adaptation (computer science), business, Ecosystem services

Published

2018

33. The Role of Personality Traits in Young Adult Fruit and Vegetable Consumption

Author

Laura M. Thompson, Rachel L. Knight, Aimee C. Richardson, Jayde A. M. Flett, Tamlin S. Conner, and Kate L. Brookie

Subjects

0301 basic medicine, Agreeableness, media_common.quotation_subject, Population, lcsh:BF1-990, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Mediterranean diet, Openness to experience, daily diary methods, Personality, Psychology, 030212 general & internal medicine, Big Five personality traits, education, General Psychology, media_common, Original Research, education.field_of_study, 030109 nutrition & dietetics, Extraversion and introversion, Correction, Conscientiousness, Neuroticism, health behaviors, lcsh:Psychology, personality, young adult, diet, Demography

Abstract

This project investigated how individual differences in the big-five personality traits (neuroticism, extraversion, openness to experience, conscientiousness, and agreeableness) predicted plant-food consumption in young adults. A total of 1,073 participants from two samples of young adults aged 17 to 25 reported their daily servings of fruits, vegetables, and two unhealthy foods for comparison purposes using an Internet daily diary for 21 or 13 days (micro-longitudinal, correlational design). Participants also completed the Neuroticism, Extraversion, Openness Five Factor Inventory (NEO-FFI) measure of personality and demographic covariates including gender, age, ethnicity, and body mass index (BMI). Analyses used hierarchical regression to predict average daily fruit and vegetable consumption as separate dependent variables from the demographic covariates (step 1) and the five personality traits (step 2). Results showed that young adults higher in openness and extraversion, and to some extent conscientiousness, ate more fruits and vegetables than their less open, less extraverted, and less conscientious peers. Neuroticism and agreeableness were unrelated to fruit and vegetable consumption. These associations were unique to eating fruit and vegetables and mostly did not extend to unhealthy foods tested. Young adult women also ate more fruit and vegetables than young adult men. Results suggest that traits associated with greater intellect, curiosity, and social engagement (openness and extraversion), and to a lesser extent, discipline (conscientiousness) are associated with greater plant-food consumption in this population. Findings reinforce the importance of personality in establishing healthy dietary habits in young adulthood that could translate into better health outcomes later in life.

Published

2017

34. Biodiversity in a changing climate: a synthesis of current and projected trends in the US

Author

John O'Leary, Laura M. Thompson, Scott A. Morrison, Bruce A. Stein, Jessica J. Hellmann, J. Emmett Duffy, Roger Griffis, Shawn L. Carter, Natalie S. Dubois, Molly S. Cross, Woody Turner, Carolyn A. F. Enquist, Michelle D. Staudinger, Lesley Sneddon, and Joshua J. Lawler

Subjects

education.field_of_study, Ecology, business.industry, Population, Environmental resource management, Biodiversity, Climate change, Ecosystem services, Variable (computer science), Geography, Biological dispersal, education, business, Ecology, Evolution, Behavior and Systematics, Local adaptation, Global biodiversity

Abstract

This paper provides a synthesis of the recent literature describing how global biodiversity is being affected by climate change and is projected to respond in the future. Current studies reinforce earlier findings of major climate-change-related impacts on biological systems and document new, more subtle after-effects. For example, many species are shifting their distributions and phenologies at faster rates than were recorded just a few years ago; however, responses are not uniform across species. Shifts have been idiosyncratic and in some cases counterintuitive, promoting new community compositions and altering biotic interactions. Although genetic diversity enhances species' potential to respond to variable conditions, climate change may outpace intrinsic adaptive capacities and increase the relative vulnerabilities of many organisms. Developing effective adaptation strategies for biodiversity conservation will not only require flexible decision-making and management approaches that account for uncerta...

Published

2013

35. Short-Term Impacts of a 4-Lane Highway on American Black Bears in Eastern North Carolina

Author

Laura M. Thompson, Mark D. Jones, Jeremy M. Nicholson, Matthew F. Mccollister, Frank T. van Manen, and Jason L. Kindall

Subjects

Fishery, Population response, Geography, biology, Environmental protection, biology.animal, Capture mark recapture, American black, American black bear, Transportation infrastructure, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Term (time)

Published

2012

36. Rural Inequity in STEMI Treatment can be Addressed by Implementation of the New Zealand National STEMI Pathway

Author

Tony Smith, Laura M. Thompson, Tammy J Pegg, Thalib Mowjood, Kris Gagliardi, Andrew Kerr, Barnaby Rennie, and Nick Fisher

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, business.industry, Family medicine, Optometry, Medicine, Cardiology and Cardiovascular Medicine, business

Published

2017

37. Range-wide distribution of genetic diversity in the North American tree Juglans cinerea: a product of range shifts, not ecological marginality or recent population decline

Author

Daniel S. Borkowski, Jeanne Romero-Severson, Marie A. Pereira, Scott E. Schlarbaum, Sunshine L. Brosi, Jason S. McLachlan, Laura M. Thompson, Tim S. McCleary, and Sean Hoban

Subjects

Conservation genetics, Genetic diversity, education.field_of_study, Range (biology), Ecology, Population, Population genetics, Biology, Ex situ conservation, Population decline, Population viability analysis, Genetics, education, Ecology, Evolution, Behavior and Systematics

Abstract

The spatial distribution of genetic diversity is a product of recent and historical ecological processes, as well as anthropogenic activities. A current challenge in population and conservation genetics is to disentangle the relative effects of these processes, as a first step in predicting population response to future environmental change. In this investigation, we compare the influence of contemporary population decline, contemporary ecological marginality and postglacial range shifts. Using classical model comparison procedures and Bayesian methods, we have identified postglacial range shift as the clear determinant of genetic diversity, differentiation and bottlenecks in 29 populations of butternut, Juglans cinerea L., a North American outcrossing forest tree. Although butternut has experienced dramatic 20th century decline because of an introduced fungal pathogen, our analysis indicates that recent population decline has had less genetic impact than postglacial recolonization history. Location within the range edge vs. the range core also failed to account for the observed patterns of diversity and differentiation. Our results suggest that the genetic impact of large-scale recent population losses in forest trees should be considered in the light of Pleistocene-era large-scale range shifts that may have had long-term genetic consequences. The data also suggest that the population dynamics and life history of wind-pollinated forest trees may provide a buffer against steep population declines of short duration, a result having important implications for habitat management efforts, ex situ conservation sampling and population viability analysis.

Published

2010

38. A Spatial Modeling Approach to Identify Potential Butternut Restoration Sites in Mammoth Cave National Park

Author

Mark DePoy, Laura M. Thompson, Scott E. Schlarbaum, and Frank T. van Manen

Subjects

Canopy, Ecology, Land use, biology, Juglans cinerea, National park, biology.organism_classification, food.food, food, Habitat, Threatened species, Environmental science, Scale (map), Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Mammoth

Abstract

Incorporation of disease resistance is nearly complete for several important North American hardwood species threatened by exotic fungal diseases. The next important step toward species restoration would be to develop reliable tools to delineate ideal restoration sites on a landscape scale. We integrated spatial modeling and remote sensing techniques to delineate potential restoration sites for Butternut (Juglans cinerea L.) trees, a hardwood species being decimated by an exotic fungus, in Mammoth Cave National Park (MCNP), Kentucky. We first developed a multivariate habitat model to determine optimum Butternut habitats within MCNP. Habitat characteristics of 54 known Butternut locations were used in combination with eight topographic and land use data layers to calculate an index of habitat suitability based on Mahalanobis distance (D2). We used a bootstrapping technique to test the reliability of model predictions. Based on a threshold value for the D2 statistic, 75.9% of the Butternut locations were correctly classified, indicating that the habitat model performed well. Because Butternut seedlings require extensive amounts of sunlight to become established, we used canopy cover data to refine our delineation of favorable areas for Butternut restoration. Areas with the most favorable conditions to establish Butternut seedlings were limited to 291.6 ha. Our study provides a useful reference on the amount and location of favorable Butternut habitat in MCNP and can be used to identify priority areas for future Butternut restoration. Given the availability of relevant habitat layers and accurate location records, our approach can be applied to other tree species and areas.

Published

2006

39. Geostatistical analysis of allele presence patterns among American black bears in eastern North Carolina

Author

Laura M. Thompson, Frank T. van Manen, and Tim L. King

Subjects

biology, Ecology, Fragmentation (computing), Geostatistics, Management, Monitoring, Policy and Law, biology.organism_classification, Gene flow, Geography, Habitat, biology.animal, Control area, Animal Science and Zoology, Ursus, Allele, American black bear, Nature and Landscape Conservation

Abstract

Highways are one of the leading causes of wildlife habitat fragmentation and may particularly affect wide-ranging species, such as American black bears (Ursus americanus). We initiated a research project in 2000 to determine potential effects of a 4-lane highway on black bear ecology in Washington County, North Carolina. The research design included a treatment area (highway construction) and a control area and a pre- and post-construction phase. We used data from the pre-construction phase to determine whether we could detect scale dependency or directionality among allele occurrence patterns using geostatistics. Detection of such patterns could provide a powerful tool to measure the effects of landscape fragmentation on gene flow. We sampled DNA from roots of black bear hair at 70 hair-sampling sites on each study area for 7 weeks during fall of 2000. We used microsatellite analysis based on 10 loci to determine unique multi-locus genotypes. We examined all alleles sampled at ≥25 sites on each ...

Published

2005

40. Comparative woodland caribou population surveys in Slate Islands Provincial Park, Ontario

Author

Arthur R. Rodgers, Peter N. Hettinga, Paul J. Wilson, Laura M. Thompson, Jennifer L. Renton, Natasha L. Carr, and Steven R. Kingston

Subjects

population size, Population survey, Caribou, Ontario, Population, Rangifer tarandus caribou, forest-dwelling woodland caribou, FLIR, Mark and recapture, Survey methodology, biology.animal, Woodland caribou, genetic profiling, forward looking infrared, mark-recapture, transects, protected areas, Slate Islands Provincial Park, education, Transect, lcsh:SF1-1100, education.field_of_study, biology, Ecology, Population size, General Medicine, Fishery, Geography, Threatened species, lcsh:Animal culture

Abstract

We evaluated three methods of estimating population size of woodland caribou (boreal ecotype) on the Slate Islands in northern Ontario. Located on the north shore of Lake Superior, the Slate Islands provide a protected and closed population with very limited predator influence that is ideal for a comparison of survey methods. Our objective was to determine the costs and benefits of three population estimation techniques: (1) forward looking infrared (FLIR) technology to count the number of caribou on regular-spaced transects flown by fixed-wing aircraft; (2) observers to count the number of caribou seen or heard while walking random transects in the spring; and, (3) mark-recapture sampling of caribou pellets using DNA analysis. FLIR and the genetics 3-window approach gave much tighter confidence intervals but similar population estimates were found from all three techniques based on their overlapping confidence intervals. There are various costs and benefits to each technique that are discussed further. Understanding the costs and benefits of different population estimation techniques is necessary to develop cost-effective programs for inventorying and monitoring this threatened species not only on the Slate Islands but for other populations as well.

Published

2012

41. Range-wide distribution of genetic diversity in the North American tree Juglans cinerea: a product of range shifts, not ecological marginality or recent population decline

Author

Sean M, Hoban, Daniel S, Borkowski, Sunshine L, Brosi, Tim S, McCleary, Laura M, Thompson, Jason S, McLachlan, Marie A, Pereira, Scott E, Schlarbaum, and Jeanne, Romero-Severson

Subjects

Conservation of Natural Resources, Ecology, Genotype, Population Dynamics, Cluster Analysis, Genetic Variation, Bayes Theorem, Juglans, Ecosystem, Trees

Abstract

The spatial distribution of genetic diversity is a product of recent and historical ecological processes, as well as anthropogenic activities. A current challenge in population and conservation genetics is to disentangle the relative effects of these processes, as a first step in predicting population response to future environmental change. In this investigation, we compare the influence of contemporary population decline, contemporary ecological marginality and postglacial range shifts. Using classical model comparison procedures and Bayesian methods, we have identified postglacial range shift as the clear determinant of genetic diversity, differentiation and bottlenecks in 29 populations of butternut, Juglans cinerea L., a North American outcrossing forest tree. Although butternut has experienced dramatic 20th century decline because of an introduced fungal pathogen, our analysis indicates that recent population decline has had less genetic impact than postglacial recolonization history. Location within the range edge vs. the range core also failed to account for the observed patterns of diversity and differentiation. Our results suggest that the genetic impact of large-scale recent population losses in forest trees should be considered in the light of Pleistocene-era large-scale range shifts that may have had long-term genetic consequences. The data also suggest that the population dynamics and life history of wind-pollinated forest trees may provide a buffer against steep population declines of short duration, a result having important implications for habitat management efforts, ex situ conservation sampling and population viability analysis.

Published

2010