Your search keyword '"Pinsky, Malin"' showing total 10 results

1. Bringing traits back into the equation: A roadmap to understand species redistribution.

Author

Comte L, Bertrand R, Diamond S, Lancaster LT, Pinsky ML, Scheffers BR, Baecher JA, Bandara RMWJ, Chen IC, Lawlor JA, Moore NA, Oliveira BF, Murienne J, Rolland J, Rubenstein MA, Sunday J, Thompson LM, Villalobos F, Weiskopf SR, and Lenoir J

Subjects

Phylogeny, Geography, Phenotype, Biodiversity, Climate Change

Abstract

Ecological and evolutionary theories have proposed that species traits should be important in mediating species responses to contemporary climate change; yet, empirical evidence has so far provided mixed evidence for the role of behavioral, life history, or ecological characteristics in facilitating or hindering species range shifts. As such, the utility of trait-based approaches to predict species redistribution under climate change has been called into question. We develop the perspective, supported by evidence, that trait variation, if used carefully can have high potential utility, but that past analyses have in many cases failed to identify an explanatory value for traits by not fully embracing the complexity of species range shifts. First, we discuss the relevant theory linking species traits to range shift processes at the leading (expansion) and trailing (contraction) edges of species distributions and highlight the need to clarify the mechanistic basis of trait-based approaches. Second, we provide a brief overview of range shift-trait studies and identify new opportunities for trait integration that consider range-specific processes and intraspecific variability. Third, we explore the circumstances under which environmental and biotic context dependencies are likely to affect our ability to identify the contribution of species traits to range shift processes. Finally, we propose that revealing the role of traits in shaping species redistribution may likely require accounting for methodological variation arising from the range shift estimation process as well as addressing existing functional, geographical, and phylogenetic biases. We provide a series of considerations for more effectively integrating traits as well as extrinsic and methodological factors into species redistribution research. Together, these analytical approaches promise stronger mechanistic and predictive understanding that can help society mitigate and adapt to the effects of climate change on biodiversity., (© 2024 John Wiley & Sons Ltd. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2024

2. FISHGLOB_data: an integrated dataset of fish biodiversity sampled with scientific bottom-trawl surveys.

Author

Maureaud AA, Palacios-Abrantes J, Kitchel Z, Mannocci L, Pinsky ML, Fredston A, Beukhof E, Forrest DL, Frelat R, Palomares MLD, Pecuchet L, Thorson JT, van Denderen PD, and Mérigot B

Subjects

Animals, Ecosystem, Fisheries, Oceans and Seas, Biodiversity, Fishes

Abstract

Scientific bottom-trawl surveys are ecological observation programs conducted along continental shelves and slopes of seas and oceans that sample marine communities associated with the seafloor. These surveys report taxa occurrence, abundance and/or weight in space and time, and contribute to fisheries management as well as population and biodiversity research. Bottom-trawl surveys are conducted all over the world and represent a unique opportunity to understand ocean biogeography, macroecology, and global change. However, combining these data together for cross-ecosystem analyses remains challenging. Here, we present an integrated dataset of 29 publicly available bottom-trawl surveys conducted in national waters of 18 countries that are standardized and pre-processed, covering a total of 2,170 sampled fish taxa and 216,548 hauls collected from 1963 to 2021. We describe the processing steps to create the dataset, flags, and standardization methods that we developed to assist users in conducting spatio-temporal analyses with stable regional survey footprints. The aim of this dataset is to support research, marine conservation, and management in the context of global change., (© 2024. The Author(s).)

Published

2024

3. Gradual changes in range size accompany long-term trends in species richness.

Author

Batt RD, Morley JW, Selden RL, Tingley MW, and Pinsky ML

Subjects

Islands, North America, Biodiversity, Ecosystem

Abstract

Species richness has long been used as an indicator of ecosystem functioning and health. Global richness is declining, but it is unclear whether sub-global trends differ. Regional trends are especially understudied, with most focused on island regions where richness is strongly impacted by novel colonisations. We addressed this knowledge gap by testing for multi-decade trends in species richness in nine open marine regions around North America (197 region-years) while accounting for imperfect observations and grounding our findings in species-level range dynamics. We found positive richness trends in eight of nine regions, four of which were statistically significant. Species' range sizes generally contracted pre-extinction and expanded post-colonisation, but the ranges of transient species expanded over the long-term, slowly increasing their regional retention and driving increasing richness. These results provide more evidence that sub-global richness trends are stable or increasing, and highlight the utility of range size for understanding richness dynamics., (© 2017 John Wiley & Sons Ltd/CNRS.)

Published

2017

4. Who Should Pick the Winners of Climate Change?

Author

Webster MS, Colton MA, Darling ES, Armstrong J, Pinsky ML, Knowlton N, and Schindler DE

Subjects

Conservation of Natural Resources, Ecosystem, Humans, Biodiversity, Climate Change, Ecology

Abstract

Many conservation strategies identify a narrow subset of genotypes, species, or geographic locations that are predicted to be favored under different scenarios of future climate change. However, a focus on predicted winners, which might not prove to be correct, risks undervaluing the balance of biological diversity from which climate-change winners could otherwise emerge. Drawing on ecology, evolutionary biology, and portfolio theory, we propose a conservation approach designed to promote adaptation that is less dependent on uncertain predictions about the identity of winners and losers. By designing actions to facilitate numerous opportunities for selection across biological and environmental conditions, we can allow nature to pick the winners and increase the probability that ecosystems continue to provide services to humans and other species., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

5. The importance of oxygen for explaining rapid shifts in a marine fish

Author

Bandara, Rathnayaka Mudiyanselage Wajra Jeewantha, Curchitser, Enrique, and Pinsky, Malin L

Subjects

Climate Change Impacts and Adaptation, Biological Sciences, Environmental Sciences, Life Below Water, Animals, Ecosystem, Oxygen, Fishes, Biodiversity, Food Chain, Climate Change, Temperature, fisheries, marine biogeography, Metabolic Index, oxygen, physiology, species distribution modeling, species shifts, temperature, Ecology, Biological sciences, Earth sciences, Environmental sciences

Abstract

Large-scale shifts in marine species biogeography have been a notable impact of climate change. An effective explanation of what drives these species shifts, as well as accurate predictions of where they might move, is crucial to effectively managing these natural resources and conserving biodiversity. While temperature has been implicated as a major driver of these shifts, physiological processes suggest that oxygen, prey, and other factors should also play important roles. We expanded upon previous temperature-based distribution models by testing whether oxygen, food web productivity, salinity, and scope for metabolic activity (the Metabolic Index) better explained the changing biogeography of Black Sea Bass (Centropristis striata) in the Northeast US. This species has been expanding further north over the past 15 years. We found that oxygen improved model performance beyond a simple consideration of temperature (ΔAIC = 799, ΔTSS = 0.015), with additional contributions from prey and salinity. However, the Metabolic Index did not substantially increase model performance relative to temperature and oxygen (ΔAIC = 0.63, ΔTSS = 0.0002). Marine species are sensitive to oxygen, and we encourage researchers to use ocean biogeochemical hindcast and forecast products to better understand marine biogeographic changes.

Published

2024

6. Climate‐driven ‘species‐on‐the‐move’ provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T, Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I‐Ching, Defeo, Omar, Gaitan‐Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A, Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L, Potts, Warren, Santana‐Garcon, Julia, Sauer, Warwick, Stensgaard, Anna‐Sofie, Tingley, Morgan W, and Verges, Adriana

Subjects

biodiversity, climate change communication, climate change engagement, environmental communication, human values, message framing, place attachment, species redistribution

Abstract

Abstract: Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species‐on‐the‐move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species‐on‐the‐move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species‐on‐the‐move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

7. Marine defaunation: Animal loss in the global ocean

Author

McCauley, Douglas J, Pinsky, Malin L, Palumbi, Stephen R, Estes, James A, Joyce, Francis H, and Warner, Robert R

Subjects

Life Below Water, Life on Land, Animals, Animals, Wild, Aquatic Organisms, Biodiversity, Climate Change, Ecosystem, Endangered Species, Extinction, Biological, Human Activities, Humans, Oceans and Seas, Population Dynamics, Seawater, General Science & Technology

Abstract

Marine defaunation, or human-caused animal loss in the oceans, emerged forcefully only hundreds of years ago, whereas terrestrial defaunation has been occurring far longer. Though humans have caused few global marine extinctions, we have profoundly affected marine wildlife, altering the functioning and provisioning of services in every ocean. Current ocean trends, coupled with terrestrial defaunation lessons, suggest that marine defaunation rates will rapidly intensify as human use of the oceans industrializes. Though protected areas are a powerful tool to harness ocean productivity, especially when designed with future climate in mind, additional management strategies will be required. Overall, habitat degradation is likely to intensify as a major driver of marine wildlife loss. Proactive intervention can avert a marine defaunation disaster of the magnitude observed on land.

Published

2015

8. Governing fisheries in the face of change: Social responses to long-term geographic shifts in a U.S. fishery.

Author

Dubik, Bradford A., Clark, Elizabeth C., Young, Talia, Zigler, Sarah Bess Jones, Provost, Mikaela M., Pinsky, Malin L., and St. Martin, Kevin

Subjects

SUSTAINABLE fisheries, BIODIVERSITY, AQUACULTURE, OCEAN zoning, MARINE resources conservation

Abstract

Abstract Change, adaptation, and resilience have emerged as central concerns in the study of natural resource governance. The mobility of fisheries makes them particularly dynamic and susceptible to long term drivers of movement, such as changing climatic conditions and human pressures. To explore how movement impacts resource systems, this paper presents a mixed-method empirical analysis of long-term geographic shifts and social response in the Northeast U.S. summer flounder fishery from 1996 to 2014. First, the paper describes changes in the distribution of summer flounder and the catch location of commercial fishing trips landing summer flounder. This is followed by a description of the institutional context of summer flounder fishery management and a narrative policy analysis of the ongoing regulatory process. Results indicate significant northward movement of both resource and resource users. Fisheries movement patterns are a result of both ecological change, and an institutional context that allows for some types of fishery mobility while constraining others. Significant conflict has emerged over the distribution of resource access and benefits as these fishery shifts occur within a spatially allocative, and relatively static management context. The analysis identifies competing policy narratives that have emerged to advocate for different forms of adaptation. Narratives offer contesting constructions of the nature and extent of locational shifts, and the fundamental goals of allocation. The differences in these narratives highlight how policy history shapes contemporary disagreements about appropriate response. This fishery serves as a case study for exploring human response to large scale, long-term movements of a natural resource. Highlights • Fishing activity for summer flounder, Paralichthys dentatus has shifted northward. • Amount of shift differs among participating states. • Shifts lead to conflict around management and basic assumptions about the fishery. • Actors employ policy narratives to advocate for institutional change. [ABSTRACT FROM AUTHOR]

Published

2019

9. Angling Ecotourism: Issues, Guidelines and Experience from Kamchatka.

Author

Zwirn, Michael, Pinsky, Malin, and Rahr, Guido

Subjects

FISHING, RECREATION, TOURISM, BIODIVERSITY, ECOTOURISM, WILDLIFE watching industry

Abstract

Recreational fishing is an important component of the tourism industry and an important component of regional economies around the world. When angling tourists reach threatened freshwater ecosystems, however, there is a risk of degrading the very fishery and landscapes that attracted them, thwarting long-term economic development prospects and reducing biodiversity. Following the emergence of catch-and-release recreational fishing, we believe that angling can be legitimately considered a form of ecotourism that contributes positively to conservation, science, and local or regional economic development. With successful angling ecotourism projects, anglers and local populations can become viable constituencies for conservation. We describe the angler-sponsored research programme of the Kamchatka Steelhead Project as one case study where many aspects of a successful ecotourism project were present. We then propose guidelines for future angling ecotourism projects and address opportunities and obstacles to the continued development of angling ecotourism. [ABSTRACT FROM AUTHOR]

Published

2005

10. Data-driven approach for highlighting priority areas for protection in marine areas beyond national jurisdiction.

Author

Visalli, Morgan E., Best, Benjamin D., Cabral, Reniel B., Cheung, William W.L., Clark, Nichola A., Garilao, Cristina, Kaschner, Kristin, Kesner-Reyes, Kathleen, Lam, Vicky W.Y., Maxwell, Sara M., Mayorga, Juan, Moeller, Holly V., Morgan, Lance, Crespo, Guillermo Ortuño, Pinsky, Malin L., White, Timothy D., and McCauley, Douglas J.

Subjects

MARINE resources conservation, MARINE biodiversity, MARINE parks & reserves, SPECIES diversity, CLIMATE change, PROTECTED areas, SPECIES distribution

Abstract

One of the aims of the United Nations (UN) negotiations on the conservation and sustainable use of marine biodiversity in areas beyond national jurisdiction (ABNJ) is to develop a legal process for the establishment of area-based management tools, including marine protected areas, in ABNJ. Here we use a conservation planning algorithm to integrate 55 global data layers on ABNJ species diversity, habitat heterogeneity, benthic features, productivity, and fishing as a means for highlighting priority regions in ABNJ to be considered for spatial protection. We also include information on forecasted species distributions under climate change. We found that parameterizing the planning algorithm to protect at least 30% of these key ABNJ conservation features, while avoiding areas of high fishing effort, yielded a solution that highlights 52,545,634 km2 (23.7%) of ABNJ as high priority regions for protection. Instructing the planning model to avoid ABNJ areas with high fishing effort resulted in relatively minor shifts in the planning solution, when compared to a separate model that did not consider fishing effort. Integrating information on climate change had a similarly minor influence on the planning solution, suggesting that climate-informed ABNJ protected areas may be able to protect biodiversity now and in the future. This globally standardized, data-driven process for identifying priority ABNJ regions for protection serves as a valuable complement to other expert-driven processes underway to highlight ecologically or biologically significant ABNJ regions. Both the outputs and methods exhibited in this analysis can additively inform UN decision-making concerning establishment of ABNJ protected areas. • As ABNJ becomes busier, spatial management options become more constrained. • High priority regions for MPA establishment occur in all of the world's oceans. • Protecting 30% of key biodiversity features requires protecting at least 24% of ABNJ. • Planning algorithms & global experts highlight many of the same ABNJ priority areas. • Contemporary protected areas can aid biodiversity now & in a climate-altered future. [ABSTRACT FROM AUTHOR]

Published

2020