Your search keyword '"McCauley, Douglas J."' showing total 77 results

1. Deep learning enables satellite-based monitoring of large populations of terrestrial mammals across heterogeneous landscape

Author

Wu, Zijing, Zhang, Ce, Gu, Xiaowei, Duporge, Isla, Hughey, Lacey F., Stabach, Jared A., Skidmore, Andrew K., Hopcraft, J. Grant C., Lee, Stephen J., Atkinson, Peter M., McCauley, Douglas J., Lamprey, Richard, Ngene, Shadrack, Wang, Tiejun, Wu, Zijing, Zhang, Ce, Gu, Xiaowei, Duporge, Isla, Hughey, Lacey F., Stabach, Jared A., Skidmore, Andrew K., Hopcraft, J. Grant C., Lee, Stephen J., Atkinson, Peter M., McCauley, Douglas J., Lamprey, Richard, Ngene, Shadrack, and Wang, Tiejun

Abstract

New satellite remote sensing and machine learning techniques offer untapped possibilities to monitor global biodiversity with unprecedented speed and precision. These efficiencies promise to reveal novel ecological insights at spatial scales which are germane to the management of populations and entire ecosystems. Here, we present a robust transferable deep learning pipeline to automatically locate and count large herds of migratory ungulates (wildebeest and zebra) in the Serengeti-Mara ecosystem using fine-resolution (38-50 cm) satellite imagery. The results achieve accurate detection of nearly 500,000 individuals across thousands of square kilometers and multiple habitat types, with an overall F1-score of 84.75% (Precision: 87.85%, Recall: 81.86%). This research demonstrates the capability of satellite remote sensing and machine learning techniques to automatically and accurately count very large populations of terrestrial mammals across a highly heterogeneous landscape. We also discuss the potential for satellite-derived species detections to advance basic understanding of animal behavior and ecology.

Published

2023

2. Combining Game Design and Data Visualization to Inform Plastics Policy: Fostering Collaboration between Science, Decision-Makers, and Artificial Intelligence

Author

Pottinger, A Samuel, Biyani, Nivedita, Geyer, Roland, McCauley, Douglas J, de Bruyn, Magali, Morse, Molly R, Nathan, Neil, Koy, Kevin, Martinez, Ciera, Pottinger, A Samuel, Biyani, Nivedita, Geyer, Roland, McCauley, Douglas J, de Bruyn, Magali, Morse, Molly R, Nathan, Neil, Koy, Kevin, and Martinez, Ciera

Abstract

This multi-disciplinary case study details how a public web application combines information and game design to visualize effects of user-defined policies intended to reduce plastic waste. Contextualizing this open source software within a broader lineage of digital media research, this user experience exploration outlines potential directions for facilitating conversation between artificial intelligence, scientists, and decision makers during an iterative policy building process. Furthermore, this system dissection reveals how this interactive science effort considers the practicalities of a treaty's shifting priorities and proposals in its designs. Specifically, this historically situated investigation of the tool's approach highlights options for centering human decision making where artificial intelligence helps reason about interventions but does not prescribe them. Finally, analysis summarizes this application's specific game design-inspired mechanics and their efforts to: enable users' agency to explore solution possibilities freely, invite deep engagement with scientific findings, and simultaneously serve multiple audiences with divergent objectives and expertise., Comment: 29 pages of which 8 are citations, 4 figures, latex generated from markdown via Pandoc (https://pandoc.org/) for Arxiv

Published

2023

3. Size at maturity, reproductive cycle and fecundity of the southern California brown box crab, Lopholithodes foraminatus, and implications for developing a new targeted fishery

Author

Stroud, Ashley M., Kuris, Armand M1, McCauley, Douglas J, Stroud, Ashley M., Stroud, Ashley M., Kuris, Armand M1, McCauley, Douglas J, and Stroud, Ashley M.

Abstract

The brown box crab, Lopholithodes foraminatus, is a deepwater crab that is found along the eastern Pacific Coast. Historically, landings in California have been low for this species, but an increase in fishing pressure prompted the state to designate it as an emerging fishery and implement an experimental fishery program for it. With no known biological studies on brown box crab in California, gathering essential fisheries information to evaluate the feasibility of a targeted fishery is necessary. We investigated the reproductive capacity of the brown box crab in southern California. From 2018 – 2021 brown box crabs were collected monthly from fishermen. Size at sexual maturity was determined by presence/absence of mature gonads (physiological), relative growth of the chela for males and abdomen width for females (morphometric), and presence/absence of eggs on females (functional). We found that females reach physiological maturity at a carapace width between 50.8 mm and 71.7 mm, and males between 43.3 mm and 66.3 mm. Morphometric maturity analysis showed a clear inflection point of abdomen width between immature and mature females. Females were 50% functionally mature at 75 mm carapace width. Morphometric and functional maturity was not detected for males, albeit samples of small male crabs were extremely limited thus warranting further study. Females followed a biennial reproduction pattern, mating in the fall followed by an 18-month brooding period with hatching the following spring. Fecundity was positively related to size and ranged from 8,352 and 62,181 eggs per female for crabs measuring 67.8 to 130.5 mm carapace width, respectively. These findings provide biological information that can inform the evaluation of a fishery for the brown box crab, including potential management strategies and models for assessing stock condition.

Published

2022

4. Emergent research and priorities for shark and ray conservation

Author

Jorgensen, Salvador J., Micheli, Fiorenza, White, Timothy D., Van Houtan, Kyle S., Alfaro-Shigueto, Joanna, Andrzejaczek, Samantha, Arnoldi, Natalie S., Baum, Julia K., Block, Barbara, Britten, Gregory L., Butner, Cheryl, Caballero, Susana, Cardeñosa, Diego, Chapple, Taylor K., Clarke, Shelley, Cortés, Enric, Dulvy, Nicholas K., Fowler, Sarah, Gallagher, Austin J., Gilman, Eric, Godley, Brendan J., Graham, Rachel T., Hammerschlag, Neil, Harry, Alastair V., Heithaus, Michael R., Hutchinson, Melanie, Huveneers, Charlie, Lowe, Chris G., Lucifora, Luis O., MacKeracher, Tracy, Mangel, Jeffrey C., Barbosa Martins, Ana Paula, McCauley, Douglas J., McClenachan, Loren, Mull, Christopher, Natanson, Lisa J., Pauly, Daniel, Pazmiño, Diana A., Pistevos, Jennifer C.A., Queiroz, Nuno, Roff, George, Shea, Brendan D., Simpfendorfer, Colin A., Sims, David W., Ward-Paige, Christine, Worm, Boris, Ferretti, Francesco, Jorgensen, Salvador J., Micheli, Fiorenza, White, Timothy D., Van Houtan, Kyle S., Alfaro-Shigueto, Joanna, Andrzejaczek, Samantha, Arnoldi, Natalie S., Baum, Julia K., Block, Barbara, Britten, Gregory L., Butner, Cheryl, Caballero, Susana, Cardeñosa, Diego, Chapple, Taylor K., Clarke, Shelley, Cortés, Enric, Dulvy, Nicholas K., Fowler, Sarah, Gallagher, Austin J., Gilman, Eric, Godley, Brendan J., Graham, Rachel T., Hammerschlag, Neil, Harry, Alastair V., Heithaus, Michael R., Hutchinson, Melanie, Huveneers, Charlie, Lowe, Chris G., Lucifora, Luis O., MacKeracher, Tracy, Mangel, Jeffrey C., Barbosa Martins, Ana Paula, McCauley, Douglas J., McClenachan, Loren, Mull, Christopher, Natanson, Lisa J., Pauly, Daniel, Pazmiño, Diana A., Pistevos, Jennifer C.A., Queiroz, Nuno, Roff, George, Shea, Brendan D., Simpfendorfer, Colin A., Sims, David W., Ward-Paige, Christine, Worm, Boris, and Ferretti, Francesco

Abstract

Over the past 4 decades there has been a growing concern for the conservation status of elasmobranchs (sharks and rays). In 2002, the first elasmobranch species were added to Appendix II of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES). Less than 20 yr later, there were 39 species on Appendix II and 5 on Appendix I. Despite growing concern, effective conservation and management remain challenged by a lack of data on population status for many species, human−wildlife interactions, threats to population viability, and the efficacy of conservation approaches. We surveyed 100 of the most frequently published and cited experts on elasmobranchs and, based on ranked responses, prioritized 20 research questions on elasmobranch conservation. To address these questions, we then convened a group of 47 experts from 35 institutions and 12 countries. The 20 questions were organized into the following broad categories: (1) status and threats, (2) population and ecology, and (3) conservation and management. For each section, we sought to synthesize existing knowledge, describe consensus or diverging views, identify gaps, and suggest promising future directions and research priorities. The resulting synthesis aggregates an array of perspectives on emergent research and priority directions for elasmobranch conservation.

Published

2022

5. Size at maturity, reproductive cycle and fecundity of the southern California brown box crab, Lopholithodes foraminatus, and implications for developing a new targeted fishery

Author

Stroud, Ashley M., Kuris, Armand M1, McCauley, Douglas J, Stroud, Ashley M., Stroud, Ashley M., Kuris, Armand M1, McCauley, Douglas J, and Stroud, Ashley M.

Abstract

The brown box crab, Lopholithodes foraminatus, is a deepwater crab that is found along the eastern Pacific Coast. Historically, landings in California have been low for this species, but an increase in fishing pressure prompted the state to designate it as an emerging fishery and implement an experimental fishery program for it. With no known biological studies on brown box crab in California, gathering essential fisheries information to evaluate the feasibility of a targeted fishery is necessary. We investigated the reproductive capacity of the brown box crab in southern California. From 2018 – 2021 brown box crabs were collected monthly from fishermen. Size at sexual maturity was determined by presence/absence of mature gonads (physiological), relative growth of the chela for males and abdomen width for females (morphometric), and presence/absence of eggs on females (functional). We found that females reach physiological maturity at a carapace width between 50.8 mm and 71.7 mm, and males between 43.3 mm and 66.3 mm. Morphometric maturity analysis showed a clear inflection point of abdomen width between immature and mature females. Females were 50% functionally mature at 75 mm carapace width. Morphometric and functional maturity was not detected for males, albeit samples of small male crabs were extremely limited thus warranting further study. Females followed a biennial reproduction pattern, mating in the fall followed by an 18-month brooding period with hatching the following spring. Fecundity was positively related to size and ranged from 8,352 and 62,181 eggs per female for crabs measuring 67.8 to 130.5 mm carapace width, respectively. These findings provide biological information that can inform the evaluation of a fishery for the brown box crab, including potential management strategies and models for assessing stock condition.

Published

2022

6. Study Protocol: Interactive Dynamics of Coral Reef Fisheries and the Nutrition Transition in Kiribati.

Author

Golden, Christopher D, Golden, Christopher D, Ayroles, Julien, Eurich, Jacob G, Gephart, Jessica A, Seto, Katherine L, Sharp, Michael K, Balcom, Prentiss, Barravecchia, Haley M, Bell, Keegan K, Gorospe, Kelvin D, Kim, Joy, Koh, William H, Zamborain-Mason, Jessica, McCauley, Douglas J, Murdoch, Helen, Nair, Nilendra, Neeti, Kaaro, Passarelli, Simone, Specht, Aaron, Sunderland, Elsie M, Tekaieti, Aritita, Tekiau, Aranteiti, Tekoaua, Rosemary, Timeon, Eretii, Golden, Christopher D, Golden, Christopher D, Ayroles, Julien, Eurich, Jacob G, Gephart, Jessica A, Seto, Katherine L, Sharp, Michael K, Balcom, Prentiss, Barravecchia, Haley M, Bell, Keegan K, Gorospe, Kelvin D, Kim, Joy, Koh, William H, Zamborain-Mason, Jessica, McCauley, Douglas J, Murdoch, Helen, Nair, Nilendra, Neeti, Kaaro, Passarelli, Simone, Specht, Aaron, Sunderland, Elsie M, Tekaieti, Aritita, Tekiau, Aranteiti, Tekoaua, Rosemary, and Timeon, Eretii

Abstract

The Kiribati 2019 Integrated Household Income and Expenditure Survey (Integrated HIES) embeds novel ecological and human health research into an ongoing social and economic survey infrastructure implemented by the Pacific Community in partnership with national governments. This study seeks to describe the health status of a large, nationally representative sample of a geographically and socially diverse I-Kiribati population through multiple clinical measurements and detailed socio-economic surveys, while also conducting supporting food systems research on ecological, social, and institutional drivers of change. The specific hypotheses within this research relate to access to seafood and the potential nutritional and health benefits of these foods. We conducted this research in 21 of the 23 inhabited islands of Kiribati, excluding the two inhabited islands-Kanton Islands in the Phoenix Islands group with a population of 41 persons (2020 census) and Banaba Island in the Gilbert Islands group with a population of 333 persons (2020 census)-and focusing exclusively on the remaining islands in the Gilbert and Line Islands groups. Within this sample, we focused our intensive human health and ecological research in 10 of the 21 selected islands to examine the relationship between ecological conditions, resource governance, food system dynamics, and dietary patterns. Ultimately, this research has created a baseline for future Integrated HIES assessments to simultaneously monitor change in ecological, social, economic, and human health conditions and how they co-vary over time.

Published

2022

7. Emergent research and priorities for shark and ray conservation

Author

Jorgensen, Salvador J., Micheli, Fiorenza, White, Timothy D., Van Houtan, Kyle S., Alfaro-Shigueto, Joanna, Andrzejaczek, Samantha, Arnoldi, Natalie S., Baum, Julia K., Block, Barbara, Britten, Gregory L., Butner, Cheryl, Caballero, Susana, Cardeñosa, Diego, Chapple, Taylor K., Clarke, Shelley, Cortés, Enric, Dulvy, Nicholas K., Fowler, Sarah, Gallagher, Austin J., Gilman, Eric, Godley, Brendan J., Graham, Rachel T., Hammerschlag, Neil, Harry, Alastair V., Heithaus, Michael R., Hutchinson, Melanie, Huveneers, Charlie, Lowe, Chris G., Lucifora, Luis O., MacKeracher, Tracy, Mangel, Jeffrey C., Barbosa Martins, Ana Paula, McCauley, Douglas J., McClenachan, Loren, Mull, Christopher, Natanson, Lisa J., Pauly, Daniel, Pazmiño, Diana A., Pistevos, Jennifer C.A., Queiroz, Nuno, Roff, George, Shea, Brendan D., Simpfendorfer, Colin A., Sims, David W., Ward-Paige, Christine, Worm, Boris, Ferretti, Francesco, Jorgensen, Salvador J., Micheli, Fiorenza, White, Timothy D., Van Houtan, Kyle S., Alfaro-Shigueto, Joanna, Andrzejaczek, Samantha, Arnoldi, Natalie S., Baum, Julia K., Block, Barbara, Britten, Gregory L., Butner, Cheryl, Caballero, Susana, Cardeñosa, Diego, Chapple, Taylor K., Clarke, Shelley, Cortés, Enric, Dulvy, Nicholas K., Fowler, Sarah, Gallagher, Austin J., Gilman, Eric, Godley, Brendan J., Graham, Rachel T., Hammerschlag, Neil, Harry, Alastair V., Heithaus, Michael R., Hutchinson, Melanie, Huveneers, Charlie, Lowe, Chris G., Lucifora, Luis O., MacKeracher, Tracy, Mangel, Jeffrey C., Barbosa Martins, Ana Paula, McCauley, Douglas J., McClenachan, Loren, Mull, Christopher, Natanson, Lisa J., Pauly, Daniel, Pazmiño, Diana A., Pistevos, Jennifer C.A., Queiroz, Nuno, Roff, George, Shea, Brendan D., Simpfendorfer, Colin A., Sims, David W., Ward-Paige, Christine, Worm, Boris, and Ferretti, Francesco

Abstract

Over the past 4 decades there has been a growing concern for the conservation status of elasmobranchs (sharks and rays). In 2002, the first elasmobranch species were added to Appendix II of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES). Less than 20 yr later, there were 39 species on Appendix II and 5 on Appendix I. Despite growing concern, effective conservation and management remain challenged by a lack of data on population status for many species, human−wildlife interactions, threats to population viability, and the efficacy of conservation approaches. We surveyed 100 of the most frequently published and cited experts on elasmobranchs and, based on ranked responses, prioritized 20 research questions on elasmobranch conservation. To address these questions, we then convened a group of 47 experts from 35 institutions and 12 countries. The 20 questions were organized into the following broad categories: (1) status and threats, (2) population and ecology, and (3) conservation and management. For each section, we sought to synthesize existing knowledge, describe consensus or diverging views, identify gaps, and suggest promising future directions and research priorities. The resulting synthesis aggregates an array of perspectives on emergent research and priority directions for elasmobranch conservation.

Published

2022

8. Scenarios for Global Aquaculture and Its Role in Human Nutrition

Author

Gephart, Jessica A., Golden, Christopher D., Asche, Frank, Belton, Ben, Brugere, Cecile, Froehlich, Halley E., Fry, Jillian P., Halpern, Benjamin S., Hicks, Christina C., Jones, Robert C., Klinger, Dane H., Little, David C., McCauley, Douglas J., Thilsted, Shakuntala H., Troell, Max, Allison, Edward H., Gephart, Jessica A., Golden, Christopher D., Asche, Frank, Belton, Ben, Brugere, Cecile, Froehlich, Halley E., Fry, Jillian P., Halpern, Benjamin S., Hicks, Christina C., Jones, Robert C., Klinger, Dane H., Little, David C., McCauley, Douglas J., Thilsted, Shakuntala H., Troell, Max, and Allison, Edward H.

Abstract

Global demand for freshwater and marine foods (i.e., seafood) is rising and an increasing proportion is farmed. Aquaculture encompasses a range of species and cultivation methods, resulting in diverse social, economic, nutritional, and environmental outcomes. As a result, how aquaculture develops will influence human wellbeing and environmental health outcomes. Recognition of this has spurred a push for nutrition-sensitive aquaculture, which aims to benefit public health through the production of diverse, nutrient-rich seafood and enabling equitable access. This article explores plausible aquaculture futures and their role in nutrition security using a qualitative scenario approach. Two dimensions of economic development - the degree of globalization and the predominant economic development philosophy - bound four scenarios representing systems that are either localized or globalized, and orientated toward maximizing sectoral economic growth or to meeting environmental and equity dimensions of sustainability. The potential contribution of aquaculture in improving nutrition security is then evaluated within each scenario. While aquaculture could be nutrition-sensitive under any of the scenarios, its contribution to addressing health inequities is more likely in the economic and political context of a more globally harmonized trade environment and where economic policies are oriented toward social equity and environmental sustainability.

Published

2021

9. Protect high seas biodiversity

Author

Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Helm, Rebecca R., Clark, Nichola, Harden-Davies, Harriet, Amon, Diva, Girguis, Peter, Bordehore, Cesar, Earle, Sylvia, Gibbons, Mark J., Golbuu, Yimnang, Haddock, Steven H.D., Houghton, Jonathan D.R., Javidpour, Jamileh, McCauley, Douglas J., Morgan, Lance, Obura, David, Pakhomov, Evgeny A., Pitt, Kylie A., Jimenez Ramon, Jorge, Sumaila, Rashid, Thiebot, Jean-Baptiste, Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Helm, Rebecca R., Clark, Nichola, Harden-Davies, Harriet, Amon, Diva, Girguis, Peter, Bordehore, Cesar, Earle, Sylvia, Gibbons, Mark J., Golbuu, Yimnang, Haddock, Steven H.D., Houghton, Jonathan D.R., Javidpour, Jamileh, McCauley, Douglas J., Morgan, Lance, Obura, David, Pakhomov, Evgeny A., Pitt, Kylie A., Jimenez Ramon, Jorge, Sumaila, Rashid, and Thiebot, Jean-Baptiste

Published

2021

10. Social-ecological traps link food systems to nutritional outcomes

Author

Golden, Christopher D, Golden, Christopher D, Gephart, Jessica A, Eurich, Jacob G, McCauley, Douglas J, Sharp, Michael K, Andrew, Neil L, Seto, Katherine L, Golden, Christopher D, Golden, Christopher D, Gephart, Jessica A, Eurich, Jacob G, McCauley, Douglas J, Sharp, Michael K, Andrew, Neil L, and Seto, Katherine L

Published

2021

11. Protect high seas biodiversity

Author

Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Helm, Rebecca R., Clark, Nichola, Harden-Davies, Harriet, Amon, Diva, Girguis, Peter, Bordehore, Cesar, Earle, Sylvia, Gibbons, Mark J., Golbuu, Yimnang, Haddock, Steven H.D., Houghton, Jonathan D.R., Javidpour, Jamileh, McCauley, Douglas J., Morgan, Lance, Obura, David, Pakhomov, Evgeny A., Pitt, Kylie A., Jimenez Ramon, Jorge, Sumaila, Rashid, Thiebot, Jean-Baptiste, Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Helm, Rebecca R., Clark, Nichola, Harden-Davies, Harriet, Amon, Diva, Girguis, Peter, Bordehore, Cesar, Earle, Sylvia, Gibbons, Mark J., Golbuu, Yimnang, Haddock, Steven H.D., Houghton, Jonathan D.R., Javidpour, Jamileh, McCauley, Douglas J., Morgan, Lance, Obura, David, Pakhomov, Evgeny A., Pitt, Kylie A., Jimenez Ramon, Jorge, Sumaila, Rashid, and Thiebot, Jean-Baptiste

Published

2021

12. 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., McCauley, Douglas J., 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.

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.

Published

2020

13. 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., McCauley, Douglas J., 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.

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.

Published

2020

14. 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., McCauley, Douglas J., 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.

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.

Published

2020

15. Digital nature: Are field trips a thing of the past?

Author

McCauley, Douglas J, McCauley, Douglas J, McCauley, Douglas J, and McCauley, Douglas J

Published

2017

16. A mammoth undertaking: harnessing insight from functional ecology to shape de-extinction priority setting

Author

McCauley, Douglas J, McCauley, Douglas J, Hardesty-Moore, Molly, Halpern, Benjamin S, Young, Hillary S, McCauley, Douglas J, McCauley, Douglas J, Hardesty-Moore, Molly, Halpern, Benjamin S, and Young, Hillary S

Published

2017

17. A mammoth undertaking: harnessing insight from functional ecology to shape de-extinction priority setting

Author

McCauley, Douglas J, Seddon, Philip1, McCauley, Douglas J, Hardesty-Moore, Molly, Halpern, Benjamin S, Young, Hillary S, McCauley, Douglas J, Seddon, Philip1, McCauley, Douglas J, Hardesty-Moore, Molly, Halpern, Benjamin S, and Young, Hillary S

Published

2017

18. Digital nature: Are field trips a thing of the past?

Author

McCauley, Douglas J, McCauley, Douglas J, McCauley, Douglas J, and McCauley, Douglas J

Abstract

Expand the reach of science education using games and simulations, but choose tools wisely

Published

2017

19. Spatial ecology of male hippopotamus in a changing watershed

Author

Stears, Keenan, Stears, Keenan, Nunez, Tristan A, Muse, Epaphras A, Mutayoba, Benezeth M, McCauley, Douglas J, Stears, Keenan, Stears, Keenan, Nunez, Tristan A, Muse, Epaphras A, Mutayoba, Benezeth M, and McCauley, Douglas J

Published

2019

20. Leveraging satellite technology to create true shark sanctuaries

Author

Bradley, Darcy, Bradley, Darcy, Mayorga, Juan, McCauley, Douglas J, Cabral, Reniel B, Douglas, Patric, Gaines, Steven D, Bradley, Darcy, Bradley, Darcy, Mayorga, Juan, McCauley, Douglas J, Cabral, Reniel B, Douglas, Patric, and Gaines, Steven D

Published

2019

21. Spatial ecology of male hippopotamus in a changing watershed

Author

Stears, Keenan, Stears, Keenan, Nunez, Tristan A, Muse, Epaphras A, Mutayoba, Benezeth M, McCauley, Douglas J, Stears, Keenan, Stears, Keenan, Nunez, Tristan A, Muse, Epaphras A, Mutayoba, Benezeth M, and McCauley, Douglas J

Published

2019

22. Leveraging satellite technology to create true shark sanctuaries

Author

Bradley, Darcy, Bradley, Darcy, Mayorga, Juan, McCauley, Douglas J, Cabral, Reniel B, Douglas, Patric, Gaines, Steven D, Bradley, Darcy, Bradley, Darcy, Mayorga, Juan, McCauley, Douglas J, Cabral, Reniel B, Douglas, Patric, and Gaines, Steven D

Published

2019

23. Use of high-resolution acoustic cameras to study reef shark behavioral ecology

Author

McCauley, Douglas J, McCauley, Douglas J, DeSalles, Paul A, Young, Hillary S, Gardner, Jonathan PA, Micheli, Fiorenza, McCauley, Douglas J, McCauley, Douglas J, DeSalles, Paul A, Young, Hillary S, Gardner, Jonathan PA, and Micheli, Fiorenza

Published

2016

24. MARINE GOVERNANCE. Ending hide and seek at sea.

Author

McCauley, Douglas J, McCauley, Douglas J, Woods, Paul, Sullivan, Brian, Bergman, Bjorn, Jablonicky, Caroline, Roan, Aaron, Hirshfield, Michael, Boerder, Kristina, Worm, Boris, McCauley, Douglas J, McCauley, Douglas J, Woods, Paul, Sullivan, Brian, Bergman, Bjorn, Jablonicky, Caroline, Roan, Aaron, Hirshfield, Michael, Boerder, Kristina, and Worm, Boris

Published

2016

25. Conservation: smart advocacy needs data.

Author

McCauley, Douglas J, McCauley, Douglas J, Joyce, Francis H, Lubchenco, Jane, McCauley, Douglas J, McCauley, Douglas J, Joyce, Francis H, and Lubchenco, Jane

Published

2016

26. Use of high-resolution acoustic cameras to study reef shark behavioral ecology

Author

McCauley, Douglas J, McCauley, Douglas J, DeSalles, Paul A, Young, Hillary S, Gardner, Jonathan PA, Micheli, Fiorenza, McCauley, Douglas J, McCauley, Douglas J, DeSalles, Paul A, Young, Hillary S, Gardner, Jonathan PA, and Micheli, Fiorenza

Published

2016

27. MARINE GOVERNANCE. Ending hide and seek at sea.

Author

McCauley, Douglas J, McCauley, Douglas J, Woods, Paul, Sullivan, Brian, Bergman, Bjorn, Jablonicky, Caroline, Roan, Aaron, Hirshfield, Michael, Boerder, Kristina, Worm, Boris, McCauley, Douglas J, McCauley, Douglas J, Woods, Paul, Sullivan, Brian, Bergman, Bjorn, Jablonicky, Caroline, Roan, Aaron, Hirshfield, Michael, Boerder, Kristina, and Worm, Boris

Abstract

New technologies could revolutionize ocean observation

Published

2016

28. Conservation: smart advocacy needs data.

Author

McCauley, Douglas J, McCauley, Douglas J, Joyce, Francis H, Lubchenco, Jane, McCauley, Douglas J, McCauley, Douglas J, Joyce, Francis H, and Lubchenco, Jane

Published

2016

29. Effects of the hippopotamus on the chemistry and ecology of a changing watershed.

Author

Stears, Keenan, Stears, Keenan, McCauley, Douglas J, Finlay, Jacques C, Mpemba, James, Warrington, Ian T, Mutayoba, Benezeth M, Power, Mary E, Dawson, Todd E, Brashares, Justin S, Stears, Keenan, Stears, Keenan, McCauley, Douglas J, Finlay, Jacques C, Mpemba, James, Warrington, Ian T, Mutayoba, Benezeth M, Power, Mary E, Dawson, Todd E, and Brashares, Justin S

Abstract

Cross-boundary transfers of nutrients can profoundly shape the ecology of recipient systems. The common hippopotamus, Hippopotamus amphibius, is a significant vector of such subsidies from terrestrial to river ecosystems. We compared river pools with high and low densities of H. amphibius to determine how H. amphibius subsidies shape the chemistry and ecology of aquatic communities. Our study watershed, like many in sub-Saharan Africa, has been severely impacted by anthropogenic water abstraction reducing dry-season flow to zero. We conducted observations for multiple years over wet and dry seasons to identify how hydrological variability influences the impacts of H. amphibius During the wet season, when the river was flowing, we detected no differences in water chemistry and nutrient parameters between pools with high and low densities of H. amphibius Likewise, the diversity and abundance of fish and aquatic insect communities were indistinguishable. During the dry season, however, high-density H. amphibius pools differed drastically in almost all measured attributes of water chemistry and exhibited depressed fish and insect diversity and fish abundance compared with low-density H. amphibius pools. Scaled up to the entire watershed, we estimate that H. amphibius in this hydrologically altered watershed reduces dry-season fish abundance and indices of gamma-level diversity by 41% and 16%, respectively, but appears to promote aquatic invertebrate diversity. Widespread human-driven shifts in hydrology appear to redefine the role of H. amphibius, altering their influence on ecosystem diversity and functioning in a fashion that may be more severe than presently appreciated.

Published

2018

30. Marine defaunation: animal loss in the global ocean.

Author

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

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

31. Effects of land use on plague (Yersinia pestis) activity in rodents in Tanzania.

Author

McCauley, Douglas J, McCauley, Douglas J, Salkeld, Daniel J, Young, Hillary S, Makundi, Rhodes, Dirzo, Rodolfo, Eckerlin, Ralph P, Lambin, Eric F, Gaffikin, Lynne, Barry, Michele, Helgen, Kristofer M, McCauley, Douglas J, McCauley, Douglas J, Salkeld, Daniel J, Young, Hillary S, Makundi, Rhodes, Dirzo, Rodolfo, Eckerlin, Ralph P, Lambin, Eric F, Gaffikin, Lynne, Barry, Michele, and Helgen, Kristofer M

Abstract

Understanding the effects of land-use change on zoonotic disease risk is a pressing global health concern. Here, we compare prevalence of Yersinia pestis, the etiologic agent of plague, in rodents across two land-use types-agricultural and conserved-in northern Tanzania. Estimated abundance of seropositive rodents nearly doubled in agricultural sites compared with conserved sites. This relationship between land-use type and abundance of seropositive rodents is likely mediated by changes in rodent and flea community composition, particularly via an increase in the abundance of the commensal species, Mastomys natalensis, in agricultural habitats. There was mixed support for rodent species diversity negatively impacting Y. pestis seroprevalence. Together, these results suggest that land-use change could affect the risk of local transmission of plague, and raise critical questions about transmission dynamics at the interface of conserved and agricultural habitats. These findings emphasize the importance of understanding disease ecology in the context of rapidly proceeding landscape change.

Published

2015

32. Marine defaunation: animal loss in the global ocean.

Author

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

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

33. Effects of land use on plague (Yersinia pestis) activity in rodents in Tanzania.

Author

McCauley, Douglas J, McCauley, Douglas J, Salkeld, Daniel J, Young, Hillary S, Makundi, Rhodes, Dirzo, Rodolfo, Eckerlin, Ralph P, Lambin, Eric F, Gaffikin, Lynne, Barry, Michele, Helgen, Kristofer M, McCauley, Douglas J, McCauley, Douglas J, Salkeld, Daniel J, Young, Hillary S, Makundi, Rhodes, Dirzo, Rodolfo, Eckerlin, Ralph P, Lambin, Eric F, Gaffikin, Lynne, Barry, Michele, and Helgen, Kristofer M

Abstract

Understanding the effects of land-use change on zoonotic disease risk is a pressing global health concern. Here, we compare prevalence of Yersinia pestis, the etiologic agent of plague, in rodents across two land-use types-agricultural and conserved-in northern Tanzania. Estimated abundance of seropositive rodents nearly doubled in agricultural sites compared with conserved sites. This relationship between land-use type and abundance of seropositive rodents is likely mediated by changes in rodent and flea community composition, particularly via an increase in the abundance of the commensal species, Mastomys natalensis, in agricultural habitats. There was mixed support for rodent species diversity negatively impacting Y. pestis seroprevalence. Together, these results suggest that land-use change could affect the risk of local transmission of plague, and raise critical questions about transmission dynamics at the interface of conserved and agricultural habitats. These findings emphasize the importance of understanding disease ecology in the context of rapidly proceeding landscape change.

Published

2015

34. Positive and negative effects of a threatened parrotfish on reef ecosystems.

Author

McCauley, Douglas J, McCauley, Douglas J, Young, Hillary S, Guevara, Roger, Williams, Gareth J, Power, Eleanor A, Dunbar, Robert B, Bird, Douglas W, Durham, William H, Micheli, Fiorenza, McCauley, Douglas J, McCauley, Douglas J, Young, Hillary S, Guevara, Roger, Williams, Gareth J, Power, Eleanor A, Dunbar, Robert B, Bird, Douglas W, Durham, William H, and Micheli, Fiorenza

Abstract

Species that are strong interactors play disproportionately important roles in the dynamics of natural ecosystems. It has been proposed that their presence is necessary for positively shaping the structure and functioning of ecosystems. We evaluated this hypothesis using the case of the world's largest parrotfish (Bolbometopon muricatum), a globally imperiled species. We used direct observation, animal tracking, and computer simulations to examine the diverse routes through which B. muricatum affects the diversity, dispersal, relative abundance, and survival of the corals that comprise the foundation of reef ecosystems. Our results suggest that this species can influence reef building corals in both positive and negative ways. Field observation and simulation outputs indicated that B. muricatum reduced the abundance of macroalgae that can outcompete corals, but they also feed directly on corals, decreasing coral abundance, diversity, and colony size. B. muricatum appeared to facilitate coral advancement by mechanically dispersing coral fragments and opening up bare space for coral settlement, but they also damaged adult corals and remobilized a large volume of potentially stressful carbonate sediment. The impacts this species has on reefs appears to be regulated in part by its abundance-the effects of B. muricatum were more intense in simulation scenarios populated with high densities of these fish. Observations conducted in regions with high and low predator (e.g., sharks) abundance generated results that are consistent with the hypothesis that these predators of B. muricatum may play a role in governing their abundance; thus, predation may modulate the intensity of the effects they have on reef dynamics. Overall our results illustrate that functionally unique and threatened species may not have universally positive impacts on ecosystems and that it may be necessary for environmental managers to consider the diverse effects of such species and the forces that media

Published

2014

35. Positive and negative effects of a threatened parrotfish on reef ecosystems.

Author

McCauley, Douglas J, McCauley, Douglas J, Young, Hillary S, Guevara, Roger, Williams, Gareth J, Power, Eleanor A, Dunbar, Robert B, Bird, Douglas W, Durham, William H, Micheli, Fiorenza, McCauley, Douglas J, McCauley, Douglas J, Young, Hillary S, Guevara, Roger, Williams, Gareth J, Power, Eleanor A, Dunbar, Robert B, Bird, Douglas W, Durham, William H, and Micheli, Fiorenza

Abstract

Species that are strong interactors play disproportionately important roles in the dynamics of natural ecosystems. It has been proposed that their presence is necessary for positively shaping the structure and functioning of ecosystems. We evaluated this hypothesis using the case of the world's largest parrotfish (Bolbometopon muricatum), a globally imperiled species. We used direct observation, animal tracking, and computer simulations to examine the diverse routes through which B. muricatum affects the diversity, dispersal, relative abundance, and survival of the corals that comprise the foundation of reef ecosystems. Our results suggest that this species can influence reef building corals in both positive and negative ways. Field observation and simulation outputs indicated that B. muricatum reduced the abundance of macroalgae that can outcompete corals, but they also feed directly on corals, decreasing coral abundance, diversity, and colony size. B. muricatum appeared to facilitate coral advancement by mechanically dispersing coral fragments and opening up bare space for coral settlement, but they also damaged adult corals and remobilized a large volume of potentially stressful carbonate sediment. The impacts this species has on reefs appears to be regulated in part by its abundance-the effects of B. muricatum were more intense in simulation scenarios populated with high densities of these fish. Observations conducted in regions with high and low predator (e.g., sharks) abundance generated results that are consistent with the hypothesis that these predators of B. muricatum may play a role in governing their abundance; thus, predation may modulate the intensity of the effects they have on reef dynamics. Overall our results illustrate that functionally unique and threatened species may not have universally positive impacts on ecosystems and that it may be necessary for environmental managers to consider the diverse effects of such species and the forces that media

Published

2014

36. Reply to Kalinkat et al.: Smallest terrestrial vertebrates are highly imperiled

Author

Ripple, William J., Wolf, Christopher, Newsome, Thomas M., Hoffmann, Michael, Wirsing, Aaron J., McCauley, Douglas J., Ripple, William J., Wolf, Christopher, Newsome, Thomas M., Hoffmann, Michael, Wirsing, Aaron J., and McCauley, Douglas J.

Published

2017

37. Extinction risk is most acute for the world's largest and smallest vertebrates

Author

Ripple, William J., Wolf, Christopher, Newsome, Thomas M., Hoffmann, Michael, Wirsing, Aaron J., McCauley, Douglas J., Ripple, William J., Wolf, Christopher, Newsome, Thomas M., Hoffmann, Michael, Wirsing, Aaron J., and McCauley, Douglas J.

Published

2017

38. Marine reserves can mitigate and promote adaptation to climate change

Author

Roberts, Callum M., O'Leary, Bethan C., Mccauley, Douglas J., Cury, Philippe Maurice, Duarte, Carlos M., Lubchenco, Jane, Pauly, Daniel, Saenz-arroyo, Andrea, Rashid Sumaila, Ussif, Wilson, Rod W., Worm, Boris, Carlos Castilla, Juan, Roberts, Callum M., O'Leary, Bethan C., Mccauley, Douglas J., Cury, Philippe Maurice, Duarte, Carlos M., Lubchenco, Jane, Pauly, Daniel, Saenz-arroyo, Andrea, Rashid Sumaila, Ussif, Wilson, Rod W., Worm, Boris, and Carlos Castilla, Juan

Abstract

Strong decreases in greenhouse gas emissions are required to meet the reduction trajectory resolved within the 2015 Paris Agreement. However, even these decreases will not avert serious stress and damage to life on Earth, and additional steps are needed to boost the resilience of ecosystems, safeguard their wildlife, and protect their capacity to supply vital goods and services. We discuss how well-managed marine reserves may help marine ecosystems and people adapt to five prominent impacts of climate change: acidification, sea-level rise, intensification of storms, shifts in species distribution, and decreased productivity and oxygen availability, as well as their cumulative effects. We explore the role of managed ecosystems in mitigating climate change by promoting carbon sequestration and storage and by buffering against uncertainty in management, environmental fluctuations, directional change, and extreme events. We highlight both strengths and limitations and conclude that marine reserves are a viable low-tech, cost-effective adaptation strategy that would yield multiple cobenefits from local to global scales, improving the outlook for the environment and people into the future.

Published

2017

39. Assessing the effectiveness of a large marine protected area for reef shark conservation

Author

White, Timothy D, White, Timothy D, Carlisle, Aaron B, Kroodsma, David A, Block, Barbara A, Casagrandi, Renato, De Leo, Giulio A, Gatto, Marino, Michell, Fiorenza, McCauley, Douglas J, White, Timothy D, White, Timothy D, Carlisle, Aaron B, Kroodsma, David A, Block, Barbara A, Casagrandi, Renato, De Leo, Giulio A, Gatto, Marino, Michell, Fiorenza, and McCauley, Douglas J

Published

2017

40. Reply to Kalinkat et al.: Smallest terrestrial vertebrates are highly imperiled.

Author

Ripple, William J, Ripple, William J, Wolf, Christopher, Newsome, Thomas M, Hoffmann, Michael, Wirsing, Aaron J, McCauley, Douglas J, Ripple, William J, Ripple, William J, Wolf, Christopher, Newsome, Thomas M, Hoffmann, Michael, Wirsing, Aaron J, and McCauley, Douglas J

Published

2017

41. Extinction risk is most acute for the world's largest and smallest vertebrates.

Author

Ripple, William J, Ripple, William J, Wolf, Christopher, Newsome, Thomas M, Hoffmann, Michael, Wirsing, Aaron J, McCauley, Douglas J, Ripple, William J, Ripple, William J, Wolf, Christopher, Newsome, Thomas M, Hoffmann, Michael, Wirsing, Aaron J, and McCauley, Douglas J

Abstract

Extinction risk in vertebrates has been linked to large body size, but this putative relationship has only been explored for select taxa, with variable results. Using a newly assembled and taxonomically expansive database, we analyzed the relationships between extinction risk and body mass (27,647 species) and between extinction risk and range size (21,294 species) for vertebrates across six main classes. We found that the probability of being threatened was positively and significantly related to body mass for birds, cartilaginous fishes, and mammals. Bimodal relationships were evident for amphibians, reptiles, and bony fishes. Most importantly, a bimodal relationship was found across all vertebrates such that extinction risk changes around a body mass breakpoint of 0.035 kg, indicating that the lightest and heaviest vertebrates have elevated extinction risk. We also found range size to be an important predictor of the probability of being threatened, with strong negative relationships across nearly all taxa. A review of the drivers of extinction risk revealed that the heaviest vertebrates are most threatened by direct killing by humans. By contrast, the lightest vertebrates are most threatened by habitat loss and modification stemming especially from pollution, agricultural cropping, and logging. Our results offer insight into halting the ongoing wave of vertebrate extinctions by revealing the vulnerability of large and small taxa, and identifying size-specific threats. Moreover, they indicate that, without intervention, anthropogenic activities will soon precipitate a double truncation of the size distribution of the world's vertebrates, fundamentally reordering the structure of life on our planet.

Published

2017

42. Interacting effects of land use and climate on rodent-borne pathogens in central Kenya.

Author

Young, Hillary S, Young, Hillary S, McCauley, Douglas J, Dirzo, Rodolfo, Nunn, Charles L, Campana, Michael G, Agwanda, Bernard, Otarola-Castillo, Erik R, Castillo, Eric R, Pringle, Robert M, Veblen, Kari E, Salkeld, Daniel J, Stewardson, Kristin, Fleischer, Robert, Lambin, Eric F, Palmer, Todd M, Helgen, Kristofer M, Young, Hillary S, Young, Hillary S, McCauley, Douglas J, Dirzo, Rodolfo, Nunn, Charles L, Campana, Michael G, Agwanda, Bernard, Otarola-Castillo, Erik R, Castillo, Eric R, Pringle, Robert M, Veblen, Kari E, Salkeld, Daniel J, Stewardson, Kristin, Fleischer, Robert, Lambin, Eric F, Palmer, Todd M, and Helgen, Kristofer M

Abstract

Understanding the effects of anthropogenic disturbance on zoonotic disease risk is both a critical conservation objective and a public health priority. Here, we evaluate the effects of multiple forms of anthropogenic disturbance across a precipitation gradient on the abundance of pathogen-infected small mammal hosts in a multi-host, multi-pathogen system in central Kenya. Our results suggest that conversion to cropland and wildlife loss alone drive systematic increases in rodent-borne pathogen prevalence, but that pastoral conversion has no such systematic effects. The effects are most likely explained both by changes in total small mammal abundance, and by changes in relative abundance of a few high-competence species, although changes in vector assemblages may also be involved. Several pathogens responded to interactions between disturbance type and climatic conditions, suggesting the potential for synergistic effects of anthropogenic disturbance and climate change on the distribution of disease risk. Overall, these results indicate that conservation can be an effective tool for reducing abundance of rodent-borne pathogens in some contexts (e.g. wildlife loss alone); however, given the strong variation in effects across disturbance types, pathogen taxa and environmental conditions, the use of conservation as public health interventions will need to be carefully tailored to specific pathogens and human contexts.This article is part of the themed issue 'Conservation, biodiversity and infectious disease: scientific evidence and policy implications'.

Published

2017

43. Marine reserves can mitigate and promote adaptation to climate change.

Author

Roberts, Callum M, Roberts, Callum M, O'Leary, Bethan C, McCauley, Douglas J, Cury, Philippe Maurice, Duarte, Carlos M, Lubchenco, Jane, Pauly, Daniel, Sáenz-Arroyo, Andrea, Sumaila, Ussif Rashid, Wilson, Rod W, Worm, Boris, Castilla, Juan Carlos, Roberts, Callum M, Roberts, Callum M, O'Leary, Bethan C, McCauley, Douglas J, Cury, Philippe Maurice, Duarte, Carlos M, Lubchenco, Jane, Pauly, Daniel, Sáenz-Arroyo, Andrea, Sumaila, Ussif Rashid, Wilson, Rod W, Worm, Boris, and Castilla, Juan Carlos

Abstract

Strong decreases in greenhouse gas emissions are required to meet the reduction trajectory resolved within the 2015 Paris Agreement. However, even these decreases will not avert serious stress and damage to life on Earth, and additional steps are needed to boost the resilience of ecosystems, safeguard their wildlife, and protect their capacity to supply vital goods and services. We discuss how well-managed marine reserves may help marine ecosystems and people adapt to five prominent impacts of climate change: acidification, sea-level rise, intensification of storms, shifts in species distribution, and decreased productivity and oxygen availability, as well as their cumulative effects. We explore the role of managed ecosystems in mitigating climate change by promoting carbon sequestration and storage and by buffering against uncertainty in management, environmental fluctuations, directional change, and extreme events. We highlight both strengths and limitations and conclude that marine reserves are a viable low-tech, cost-effective adaptation strategy that would yield multiple cobenefits from local to global scales, improving the outlook for the environment and people into the future.

Published

2017

44. Growth and life history variability of the grey reef shark (Carcharhinus amblyrhynchos) across its range.

Author

Bradley, Darcy, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Kendall, Bruce E, Gaines, Steven D, Caselle, Jennifer E, Bradley, Darcy, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Kendall, Bruce E, Gaines, Steven D, and Caselle, Jennifer E

Abstract

For broadly distributed, often overexploited species such as elasmobranchs (sharks and rays), conservation management would benefit from understanding how life history traits change in response to local environmental and ecological factors. However, fishing obfuscates this objective by causing complex and often mixed effects on the life histories of target species. Disentangling the many drivers of life history variability requires knowledge of elasmobranch populations in the absence of fishing, which is rarely available. Here, we describe the growth, maximum size, sex ratios, size at maturity, and offer a direct estimate of survival of an unfished population of grey reef sharks (Carcharhinus amblyrhynchos) using data from an eight year tag-recapture study. We then synthesized published information on the life history of C. amblyrhynchos from across its geographic range, and for the first time, we attempted to disentangle the contribution of fishing from geographic variation in an elasmobranch species. For Palmyra's unfished C. amblyrhynchos population, the von Bertalanffy growth function (VBGF) growth coefficient k was 0.05 and asymptotic length L∞ was 163.3 cm total length (TL). Maximum size was 175.5 cm TL from a female shark, length at maturity was estimated at 116.7-123.2 cm TL for male sharks, maximum lifespan estimated from VBGF parameters was 18.1 years for both sexes combined, and annual survival was 0.74 year-1. Consistent with findings from studies on other elasmobranch species, we found significant intraspecific variability in reported life history traits of C. amblyrhynchos. However, contrary to what others have reported, we did not find consistent patterns in life history variability as a function of biogeography or fishing. Ultimately, the substantial, but not yet predictable variability in life history traits observed for C. amblyrhynchos across its geographic range suggests that regional management may be necessary to set sustainable harvest targets

Published

2017

45. Resetting predator baselines in coral reef ecosystems.

Author

Bradley, Darcy, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Pollock, Amanda, Kendall, Bruce E, Gaines, Steven D, Caselle, Jennifer E, Bradley, Darcy, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Pollock, Amanda, Kendall, Bruce E, Gaines, Steven D, and Caselle, Jennifer E

Abstract

What did coral reef ecosystems look like before human impacts became pervasive? Early efforts to reconstruct baselines resulted in the controversial suggestion that pristine coral reefs have inverted trophic pyramids, with disproportionally large top predator biomass. The validity of the coral reef inverted trophic pyramid has been questioned, but until now, was not resolved empirically. We use data from an eight-year tag-recapture program with spatially explicit, capture-recapture models to re-examine the population size and density of a key top predator at Palmyra atoll, the same location that inspired the idea of inverted trophic biomass pyramids in coral reef ecosystems. Given that animal movement is suspected to have significantly biased early biomass estimates of highly mobile top predators, we focused our reassessment on the most mobile and most abundant predator at Palmyra, the grey reef shark (Carcharhinus amblyrhynchos). We estimated a density of 21.3 (95% CI 17.8, 24.7) grey reef sharks/km2, which is an order of magnitude lower than the estimates that suggested an inverted trophic pyramid. Our results indicate that the trophic structure of an unexploited reef fish community is not inverted, and that even healthy top predator populations may be considerably smaller, and more precarious, than previously thought.

Published

2017

46. Extinction risk is most acute for the world's largest and smallest vertebrates

Author

Ripple, William J., Wolf, Christopher, Newsome, Thomas M., Hoffmann, Michael, Wirsing, Aaron J., McCauley, Douglas J., Ripple, William J., Wolf, Christopher, Newsome, Thomas M., Hoffmann, Michael, Wirsing, Aaron J., and McCauley, Douglas J.

Published

2017

47. Interacting effects of land use and climate on rodent-borne pathogens in central Kenya.

Author

Young, Hillary S, Young, Hillary S, McCauley, Douglas J, Dirzo, Rodolfo, Nunn, Charles L, Campana, Michael G, Agwanda, Bernard, Otarola-Castillo, Erik R, Castillo, Eric R, Pringle, Robert M, Veblen, Kari E, Salkeld, Daniel J, Stewardson, Kristin, Fleischer, Robert, Lambin, Eric F, Palmer, Todd M, Helgen, Kristofer M, Young, Hillary S, Young, Hillary S, McCauley, Douglas J, Dirzo, Rodolfo, Nunn, Charles L, Campana, Michael G, Agwanda, Bernard, Otarola-Castillo, Erik R, Castillo, Eric R, Pringle, Robert M, Veblen, Kari E, Salkeld, Daniel J, Stewardson, Kristin, Fleischer, Robert, Lambin, Eric F, Palmer, Todd M, and Helgen, Kristofer M

Abstract

Understanding the effects of anthropogenic disturbance on zoonotic disease risk is both a critical conservation objective and a public health priority. Here, we evaluate the effects of multiple forms of anthropogenic disturbance across a precipitation gradient on the abundance of pathogen-infected small mammal hosts in a multi-host, multi-pathogen system in central Kenya. Our results suggest that conversion to cropland and wildlife loss alone drive systematic increases in rodent-borne pathogen prevalence, but that pastoral conversion has no such systematic effects. The effects are most likely explained both by changes in total small mammal abundance, and by changes in relative abundance of a few high-competence species, although changes in vector assemblages may also be involved. Several pathogens responded to interactions between disturbance type and climatic conditions, suggesting the potential for synergistic effects of anthropogenic disturbance and climate change on the distribution of disease risk. Overall, these results indicate that conservation can be an effective tool for reducing abundance of rodent-borne pathogens in some contexts (e.g. wildlife loss alone); however, given the strong variation in effects across disturbance types, pathogen taxa and environmental conditions, the use of conservation as public health interventions will need to be carefully tailored to specific pathogens and human contexts.This article is part of the themed issue 'Conservation, biodiversity and infectious disease: scientific evidence and policy implications'.

Published

2017

48. Resetting predator baselines in coral reef ecosystems.

Author

Bradley, Darcy, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Pollock, Amanda, Kendall, Bruce E, Gaines, Steven D, Caselle, Jennifer E, Bradley, Darcy, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Pollock, Amanda, Kendall, Bruce E, Gaines, Steven D, and Caselle, Jennifer E

Abstract

What did coral reef ecosystems look like before human impacts became pervasive? Early efforts to reconstruct baselines resulted in the controversial suggestion that pristine coral reefs have inverted trophic pyramids, with disproportionally large top predator biomass. The validity of the coral reef inverted trophic pyramid has been questioned, but until now, was not resolved empirically. We use data from an eight-year tag-recapture program with spatially explicit, capture-recapture models to re-examine the population size and density of a key top predator at Palmyra atoll, the same location that inspired the idea of inverted trophic biomass pyramids in coral reef ecosystems. Given that animal movement is suspected to have significantly biased early biomass estimates of highly mobile top predators, we focused our reassessment on the most mobile and most abundant predator at Palmyra, the grey reef shark (Carcharhinus amblyrhynchos). We estimated a density of 21.3 (95% CI 17.8, 24.7) grey reef sharks/km2, which is an order of magnitude lower than the estimates that suggested an inverted trophic pyramid. Our results indicate that the trophic structure of an unexploited reef fish community is not inverted, and that even healthy top predator populations may be considerably smaller, and more precarious, than previously thought.

Published

2017

49. Growth and life history variability of the grey reef shark (Carcharhinus amblyrhynchos) across its range.

Author

Bradley, Darcy, Patterson, Heather M1, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Kendall, Bruce E, Gaines, Steven D, Caselle, Jennifer E, Bradley, Darcy, Patterson, Heather M1, Bradley, Darcy, Conklin, Eric, Papastamatiou, Yannis P, McCauley, Douglas J, Pollock, Kydd, Kendall, Bruce E, Gaines, Steven D, and Caselle, Jennifer E

Abstract

For broadly distributed, often overexploited species such as elasmobranchs (sharks and rays), conservation management would benefit from understanding how life history traits change in response to local environmental and ecological factors. However, fishing obfuscates this objective by causing complex and often mixed effects on the life histories of target species. Disentangling the many drivers of life history variability requires knowledge of elasmobranch populations in the absence of fishing, which is rarely available. Here, we describe the growth, maximum size, sex ratios, size at maturity, and offer a direct estimate of survival of an unfished population of grey reef sharks (Carcharhinus amblyrhynchos) using data from an eight year tag-recapture study. We then synthesized published information on the life history of C. amblyrhynchos from across its geographic range, and for the first time, we attempted to disentangle the contribution of fishing from geographic variation in an elasmobranch species. For Palmyra's unfished C. amblyrhynchos population, the von Bertalanffy growth function (VBGF) growth coefficient k was 0.05 and asymptotic length L∞ was 163.3 cm total length (TL). Maximum size was 175.5 cm TL from a female shark, length at maturity was estimated at 116.7-123.2 cm TL for male sharks, maximum lifespan estimated from VBGF parameters was 18.1 years for both sexes combined, and annual survival was 0.74 year-1. Consistent with findings from studies on other elasmobranch species, we found significant intraspecific variability in reported life history traits of C. amblyrhynchos. However, contrary to what others have reported, we did not find consistent patterns in life history variability as a function of biogeography or fishing. Ultimately, the substantial, but not yet predictable variability in life history traits observed for C. amblyrhynchos across its geographic range suggests that regional management may be necessary to set sustainable harvest targets

Published

2017

50. Assessing the effectiveness of a large marine protected area for reef shark conservation

Author

White, Timothy D, White, Timothy D, Carlisle, Aaron B, Kroodsma, David A, Block, Barbara A, Casagrandi, Renato, De Leo, Giulio A, Gatto, Marino, Michell, Fiorenza, McCauley, Douglas J, White, Timothy D, White, Timothy D, Carlisle, Aaron B, Kroodsma, David A, Block, Barbara A, Casagrandi, Renato, De Leo, Giulio A, Gatto, Marino, Michell, Fiorenza, and McCauley, Douglas J

Published

2017