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3. Meeting fisheries, ecosystem function, and biodiversity goals in a human-dominated world.

Author

Cinner, JE, Zamborain-Mason, J, Gurney, GG, Graham, NAJ, MacNeil, MA, Hoey, AS, Mora, C, Villéger, S, Maire, E, McClanahan, TR, Maina, JM, Kittinger, JN, Hicks, CC, D'agata, S, Huchery, C, Barnes, ML, Feary, DA, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, GJ, Stuart-Smith, RD, Sandin, SA, Green, AL, Beger, M, Friedlander, AM, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Tupper, M, Ferse, SCA, Sumaila, UR, Hardt, MJ, Mouillot, D, Cinner, JE, Zamborain-Mason, J, Gurney, GG, Graham, NAJ, MacNeil, MA, Hoey, AS, Mora, C, Villéger, S, Maire, E, McClanahan, TR, Maina, JM, Kittinger, JN, Hicks, CC, D'agata, S, Huchery, C, Barnes, ML, Feary, DA, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, GJ, Stuart-Smith, RD, Sandin, SA, Green, AL, Beger, M, Friedlander, AM, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Tupper, M, Ferse, SCA, Sumaila, UR, Hardt, MJ, and Mouillot, D

Abstract

The worldwide decline of coral reefs necessitates targeting management solutions that can sustain reefs and the livelihoods of the people who depend on them. However, little is known about the context in which different reef management tools can help to achieve multiple social and ecological goals. Because of nonlinearities in the likelihood of achieving combined fisheries, ecological function, and biodiversity goals along a gradient of human pressure, relatively small changes in the context in which management is implemented could have substantial impacts on whether these goals are likely to be met. Critically, management can provide substantial conservation benefits to most reefs for fisheries and ecological function, but not biodiversity goals, given their degraded state and the levels of human pressure they face.

Published
2020

4. Gravity of human impacts mediates coral reef conservation gains

Author

Cinner, Joshua, Marie, E, Huchery, C, MacNeil, MA, Graham, Nicholas Anthony James, Mora, C, McClanahan, TR, Barnes, ML, Kittinger, JN, Hicks, Christina, D'Agata, S, Hoey, AS, Gurney, GG, Feary, DA, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, GJ, Stuart-Smith, RD, Sandin, SA, Green, A, Hardt, MJ, Beger, M, Friedlander, AM, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Gough, C, Tupper, M, Ferse, SCA, Sumaila, UR, Pardede, S, Mouillot, D, Cinner, Joshua, Marie, E, Huchery, C, MacNeil, MA, Graham, Nicholas Anthony James, Mora, C, McClanahan, TR, Barnes, ML, Kittinger, JN, Hicks, Christina, D'Agata, S, Hoey, AS, Gurney, GG, Feary, DA, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, GJ, Stuart-Smith, RD, Sandin, SA, Green, A, Hardt, MJ, Beger, M, Friedlander, AM, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Gough, C, Tupper, M, Ferse, SCA, Sumaila, UR, Pardede, S, and Mouillot, D

Abstract

Coral reefs provide ecosystem goods and services for millions of people in the tropics, but reef conditions are declining worldwide. Effective solutions to the crisis facing coral reefs depend in part on understanding the context under which different types of conservation benefits can be maximized. Our global analysis of nearly 1,800 tropical reefs reveals how the intensity of human impacts in the surrounding seascape, measured as a function of human population size and accessibility to reefs (“gravity”), diminishes the effectiveness of marine reserves at sustaining reef fish biomass and the presence of top predators, even where compliance with reserve rules is high. Critically, fish biomass in high-compliance marine reserves located where human impacts were intensive tended to be less than a quarter that of reserves where human impacts were low. Similarly, the probability of encountering top predators on reefs with high human impacts was close to zero, even in high-compliance marine reserves. However, we find that the relative difference between openly fished sites and reserves (what we refer to as conservation gains) are highest for fish biomass (excluding predators) where human impacts are moderate and for top predators where human impacts are low. Our results illustrate critical ecological trade-offs in meeting key conservation objectives: reserves placed where there are moderate-to-high human impacts can provide substantial conservation gains for fish biomass, yet they are unlikely to support key ecosystem functions like higher-order predation, which is more prevalent in reserve locations with low human impacts.

Published
2018

5. Gravity of human impacts mediates coral reef conservation gains

Author

Cinner, JE, Maire, E, Huchery, C, Aaron MacNeil, M, Graham, NAJ, Mora, C, McClanahan, TR, Barnes, ML, Kittinger, JN, Hicks, CC, D’Agata, S, Hoey, AS, Gurney, GG, Feary, DA, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, GJ, Stuart-Smith, RD, Sandin, SA, Green, A, Hardt, MJ, Beger, M, Friedlander, AM, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Gough, C, Tupper, M, Ferse, SCA, Rashid Sumaila, U, Pardede, S, Mouillot, D, Cinner, JE, Maire, E, Huchery, C, Aaron MacNeil, M, Graham, NAJ, Mora, C, McClanahan, TR, Barnes, ML, Kittinger, JN, Hicks, CC, D’Agata, S, Hoey, AS, Gurney, GG, Feary, DA, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, GJ, Stuart-Smith, RD, Sandin, SA, Green, A, Hardt, MJ, Beger, M, Friedlander, AM, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Gough, C, Tupper, M, Ferse, SCA, Rashid Sumaila, U, Pardede, S, and Mouillot, D

Abstract

© 2018 National Academy of Sciences. All Rights Reserved. Coral reefs provide ecosystem goods and services for millions of people in the tropics, but reef conditions are declining worldwide. Effective solutions to the crisis facing coral reefs depend in part on understanding the context under which different types of conservation benefits can be maximized. Our global analysis of nearly 1,800 tropical reefs reveals how the intensity of human impacts in the surrounding seascape, measured as a function of human population size and accessibility to reefs (“gravity”), diminishes the effectiveness of marine reserves at sustaining reef fish biomass and the presence of top predators, even where compliance with reserve rules is high. Critically, fish biomass in high-compliance marine reserves located where human impacts were intensive tended to be less than a quarter that of reserves where human impacts were low. Similarly, the probability of encountering top predators on reefs with high human impacts was close to zero, even in high-compliance marine reserves. However, we find that the relative difference between openly fished sites and reserves (what we refer to as conservation gains) are highest for fish biomass (excluding predators) where human impacts are moderate and for top predators where human impacts are low. Our results illustrate critical ecological trade-offs in meeting key conservation objectives: reserves placed where there are moderate-to-high human impacts can provide substantial conservation gains for fish biomass, yet they are unlikely to support key ecosystem functions like higher-order predation, which is more prevalent in reserve locations with low human impacts.

Published
2018

6. Modeling and computational tools for coral reef management and conservation

Author

Maire, E., Cinner, J., Velez, L., Huchery, C., Mora, C., D’agata, S., Vigliola, L., Wantiez, L., Kulbicki, M., Mouillot, D., Laboratoire Insulaire du Vivant et de l'Environnement (LIVE), Université de la Nouvelle-Calédonie (UNC), and BUNC, Pole ID

Subjects
[SDE] Environmental Sciences, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, [SDE]Environmental Sciences, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2016

7. Bright spots among the world's coral reefs

Author

Cinner, JE, Huchery, C, MacNeil, MA, Graham, NAJ, McClanahan, TR, Maina, J, Maire, E, Kittinger, JN, Hicks, CC, Mora, C, Allison, EH, D'Agata, S, Hoey, A, Feary, DA, Crowder, L, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, G, Stuart-Smith, RD, Sandin, SA, Green, AL, Hardt, MJ, Beger, M, Friedlander, A, Campbell, SJ, Holmes, KE, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Gough, C, Tupper, M, Ferse, SCA, Sumaila, UR, Mouillot, D, Cinner, JE, Huchery, C, MacNeil, MA, Graham, NAJ, McClanahan, TR, Maina, J, Maire, E, Kittinger, JN, Hicks, CC, Mora, C, Allison, EH, D'Agata, S, Hoey, A, Feary, DA, Crowder, L, Williams, ID, Kulbicki, M, Vigliola, L, Wantiez, L, Edgar, G, Stuart-Smith, RD, Sandin, SA, Green, AL, Hardt, MJ, Beger, M, Friedlander, A, Campbell, SJ, Holmes, KE, Wilson, SK, Brokovich, E, Brooks, AJ, Cruz-Motta, JJ, Booth, DJ, Chabanet, P, Gough, C, Tupper, M, Ferse, SCA, Sumaila, UR, and Mouillot, D

Abstract

© 2016 Macmillan Publishers Limited, part of Springer Nature. All rights reserved. Ongoing declines in the structure and function of the world's coral reefs require novel approaches to sustain these ecosystems and the millions of people who depend on them. A presently unexplored approach that draws on theory and practice in human health and rural development is to systematically identify and learn from the 'outliers' - places where ecosystems are substantially better ('bright spots') or worse ('dark spots') than expected, given the environmental conditions and socioeconomic drivers they are exposed to. Here we compile data from more than 2,500 reefs worldwide and develop a Bayesian hierarchical model to generate expectations of how standing stocks of reef fish biomass are related to 18 socioeconomic drivers and environmental conditions. We identify 15 bright spots and 35 dark spots among our global survey of coral reefs, defined as sites that have biomass levels more than two standard deviations from expectations. Importantly, bright spots are not simply comprised of remote areas with low fishing pressure; they include localities where human populations and use of ecosystem resources is high, potentially providing insights into how communities have successfully confronted strong drivers of change. Conversely, dark spots are not necessarily the sites with the lowest absolute biomass and even include some remote, uninhabited locations often considered near pristine. We surveyed local experts about social, institutional, and environmental conditions at these sites to reveal that bright spots are characterized by strong sociocultural institutions such as customary taboos and marine tenure, high levels of local engagement in management, high dependence on marine resources, and beneficial environmental conditions such as deep-water refuges. Alternatively, dark spots are characterized by intensive capture and storage technology and a recent history of environmental shocks.

Published
2016

12. Changes in a coral reef fishery along a gradient of fishing pressure in an Indonesian marine protected area.

Author

Campbell, S. J., Mukminin, A., Kartawijaya, T., Huchery, C., and Cinner, J. E.

Subjects
CORAL reef fisheries, MARINE parks & reserves, SMALL-scale fisheries, NATIONAL parks & reserves
Abstract

ABSTRACT Human population growth, rising incomes, and increased commercialization of marine resources promote demand for reef fish, yet few studies in Indonesia have examined how artisanal fisheries are influenced by the socio-cultural conditions that contribute to their exploitation. This study examined artisanal fisheries of Karimunjawa National Park, Java, to understand how the condition of an artisanal fishery was related to socio-cultural factors, along a gradient in fishing pressure., A total of 8674 fishes landed in Karimunjawa by fishers using four artisanal fishing gears were examined to understand how the condition of the artisanal fishery (standard and infinite fish length, trophic level and weight) related to fishing gear use, village fishing grounds, management, human population size, human population density and estimated fishing pressure., Depletion in fish lengths and trophic structure were found at or above 46 fishing trips day-1 km-2, suggesting that fishing pressure is a key factor driving fishery catch structure. When catch characteristics were examined in relation to the fishing pressure estimates from each village, negative correlations were found between inshore fishing pressure (no. trips day-1 km-2) and all four fish catch characteristics, but owing to small sample sizes (n = 5), only the effects on trophic level were significant., Fishery closures had limited impact on fish characteristics, and lack of any effect of spatial controls on fishing also supports the notion that fishing pressure and the types of fishing gears used, most likely driven by human population densities, are the greatest drivers of reef fish catch characteristics in the Karimunjawa fishery., In the absence of support for fishery closures from local fishing communities or adequate enforcement of fishery closures, targeted gear or species management strategies that limit impacts on large-bodied fish and aim to conserve key species may be more effective in improving the size and trophic structure of fish populations., Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2014
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14. Meeting fisheries, ecosystem function, and biodiversity goals in a human-dominated world.

Author

Cinner JE, Zamborain-Mason J, Gurney GG, Graham NAJ, MacNeil MA, Hoey AS, Mora C, Villéger S, Maire E, McClanahan TR, Maina JM, Kittinger JN, Hicks CC, D'agata S, Huchery C, Barnes ML, Feary DA, Williams ID, Kulbicki M, Vigliola L, Wantiez L, Edgar GJ, Stuart-Smith RD, Sandin SA, Green AL, Beger M, Friedlander AM, Wilson SK, Brokovich E, Brooks AJ, Cruz-Motta JJ, Booth DJ, Chabanet P, Tupper M, Ferse SCA, Sumaila UR, Hardt MJ, and Mouillot D

Subjects
Animals, Fishes, Goals, Human Activities, Humans, Biodiversity, Conservation of Natural Resources, Coral Reefs, Fisheries
Abstract

The worldwide decline of coral reefs necessitates targeting management solutions that can sustain reefs and the livelihoods of the people who depend on them. However, little is known about the context in which different reef management tools can help to achieve multiple social and ecological goals. Because of nonlinearities in the likelihood of achieving combined fisheries, ecological function, and biodiversity goals along a gradient of human pressure, relatively small changes in the context in which management is implemented could have substantial impacts on whether these goals are likely to be met. Critically, management can provide substantial conservation benefits to most reefs for fisheries and ecological function, but not biodiversity goals, given their degraded state and the levels of human pressure they face., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published
2020
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15. Gravity of human impacts mediates coral reef conservation gains.

Author

Cinner JE, Maire E, Huchery C, MacNeil MA, Graham NAJ, Mora C, McClanahan TR, Barnes ML, Kittinger JN, Hicks CC, D'Agata S, Hoey AS, Gurney GG, Feary DA, Williams ID, Kulbicki M, Vigliola L, Wantiez L, Edgar GJ, Stuart-Smith RD, Sandin SA, Green A, Hardt MJ, Beger M, Friedlander AM, Wilson SK, Brokovich E, Brooks AJ, Cruz-Motta JJ, Booth DJ, Chabanet P, Gough C, Tupper M, Ferse SCA, Sumaila UR, Pardede S, and Mouillot D

Subjects
Animals, Humans, Biomass, Conservation of Natural Resources, Coral Reefs, Fishes physiology, Food Chain
Abstract

Coral reefs provide ecosystem goods and services for millions of people in the tropics, but reef conditions are declining worldwide. Effective solutions to the crisis facing coral reefs depend in part on understanding the context under which different types of conservation benefits can be maximized. Our global analysis of nearly 1,800 tropical reefs reveals how the intensity of human impacts in the surrounding seascape, measured as a function of human population size and accessibility to reefs ("gravity"), diminishes the effectiveness of marine reserves at sustaining reef fish biomass and the presence of top predators, even where compliance with reserve rules is high. Critically, fish biomass in high-compliance marine reserves located where human impacts were intensive tended to be less than a quarter that of reserves where human impacts were low. Similarly, the probability of encountering top predators on reefs with high human impacts was close to zero, even in high-compliance marine reserves. However, we find that the relative difference between openly fished sites and reserves (what we refer to as conservation gains) are highest for fish biomass (excluding predators) where human impacts are moderate and for top predators where human impacts are low. Our results illustrate critical ecological trade-offs in meeting key conservation objectives: reserves placed where there are moderate-to-high human impacts can provide substantial conservation gains for fish biomass, yet they are unlikely to support key ecosystem functions like higher-order predation, which is more prevalent in reserve locations with low human impacts., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published
2018
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16. Human Disruption of Coral Reef Trophic Structure.

Author

Graham NA, McClanahan TR, MacNeil MA, Wilson SK, Cinner JE, Huchery C, and Holmes TH

Subjects
Animals, Biomass, Ecosystem, Humans, Sea Urchins physiology, Conservation of Natural Resources, Coral Reefs, Fisheries
Abstract

The distribution of biomass among trophic levels provides a theoretical basis for understanding energy flow and the hierarchical structure of animal communities. In the absence of energy subsidies [1], bottom-heavy trophic pyramids are expected to predominate, based on energy transfer efficiency [2] and empirical evidence from multiple ecosystems [3]. However, the predicted pyramid of biomass distribution among trophic levels may be disrupted through trophic replacement by alternative organisms in the ecosystem, trophic cascades, and humans preferentially impacting specific trophic levels [4-6]. Using empirical data spanning >250 coral reefs, we show how trophic pyramid shape varies given human-mediated gradients along two orders of magnitude in reef fish biomass. Mean trophic level of the assemblage increased modestly with decreasing biomass, contrary to predictions of fishing down the food web [7]. The mean trophic level pattern is explained by trophic replacement of herbivorous fish by sea urchins at low biomass and the accumulation of slow-growing, large-bodied, herbivorous fish at high biomass. Further, at high biomass, particularly where fishers are not selectively removing higher trophic level individuals, a concave trophic distribution emerges. The concave trophic distribution implies a more direct link between lower and upper trophic levels, which may confer greater energy efficiency. This trophic distribution emerges when community biomass exceeds ∼650 kg/ha, suggesting that fisheries for upper trophic level species will only be supported under lightly fished scenarios., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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17. Bright spots among the world’s coral reefs.

Author

Cinner JE, Huchery C, MacNeil MA, Graham NA, McClanahan TR, Maina J, Maire E, Kittinger JN, Hicks CC, Mora C, Allison EH, D'Agata S, Hoey A, Feary DA, Crowder L, Williams ID, Kulbicki M, Vigliola L, Wantiez L, Edgar G, Stuart-Smith RD, Sandin SA, Green AL, Hardt MJ, Beger M, Friedlander A, Campbell SJ, Holmes KE, Wilson SK, Brokovich E, Brooks AJ, Cruz-Motta JJ, Booth DJ, Chabanet P, Gough C, Tupper M, Ferse SC, Sumaila UR, and Mouillot D

Subjects
Animals, Bayes Theorem, Biomass, Conservation of Natural Resources legislation & jurisprudence, Fisheries legislation & jurisprudence, Fishes, Socioeconomic Factors, Wilderness, Conservation of Natural Resources methods, Coral Reefs, Ecosystem, Geography
Abstract

Ongoing declines in the structure and function of the world’s coral reefs require novel approaches to sustain these ecosystems and the millions of people who depend on them3. A presently unexplored approach that draws on theory and practice in human health and rural development is to systematically identify and learn from the ‘outliers’—places where ecosystems are substantially better (‘bright spots’) or worse (‘dark spots’) than expected, given the environmental conditions and socioeconomic drivers they are exposed to. Here we compile data from more than 2,500 reefs worldwide and develop a Bayesian hierarchical model to generate expectations of how standing stocks of reef fish biomass are related to 18 socioeconomic drivers and environmental conditions. We identify 15 bright spots and 35 dark spots among our global survey of coral reefs, defined as sites that have biomass levels more than two standard deviations from expectations. Importantly, bright spots are not simply comprised of remote areas with low fishing pressure; they include localities where human populations and use of ecosystem resources is high, potentially providing insights into how communities have successfully confronted strong drivers of change. Conversely, dark spots are not necessarily the sites with the lowest absolute biomass and even include some remote, uninhabited locations often considered near pristine6. We surveyed local experts about social, institutional, and environmental conditions at these sites to reveal that bright spots are characterized by strong sociocultural institutions such as customary taboos and marine tenure, high levels of local engagement in management, high dependence on marine resources, and beneficial environmental conditions such as deep-water refuges. Alternatively, dark spots are characterized by intensive capture and storage technology and a recent history of environmental shocks. Our results suggest that investments in strengthening fisheries governance, particularly aspects such as participation and property rights, could facilitate innovative conservation actions that help communities defy expectations of global reef degradation.

Published
2016
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18. How accessible are coral reefs to people? A global assessment based on travel time.

Author

Maire E, Cinner J, Velez L, Huchery C, Mora C, Dagata S, Vigliola L, Wantiez L, Kulbicki M, and Mouillot D

Subjects
Animals, Humans, Time Factors, Travel, Conservation of Natural Resources, Coral Reefs
Abstract

The depletion of natural resources has become a major issue in many parts of the world, with the most accessible resources being most at risk. In the terrestrial realm, resource depletion has classically been related to accessibility through road networks. In contrast, in the marine realm, the impact on living resources is often framed into the Malthusian theory of human density around ecosystems. Here, we develop a new framework to estimate the accessibility of global coral reefs using potential travel time from the nearest human settlement or market. We show that 58% of coral reefs are located < 30 min from the nearest human settlement. We use a case study from New Caledonia to demonstrate that travel time from the market is a strong predictor of fish biomass on coral reefs. We also highlight a relative deficit of protection on coral reef areas near people, with disproportional protection on reefs far from people. This suggests that conservation efforts are targeting low-conflict reefs or places that may already be receiving de facto protection due to their isolation. Our global assessment of accessibility in the marine realm is a critical step to better understand the interplay between humans and resources., (© 2016 John Wiley & Sons Ltd/CNRS.)

Published
2016
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19. Coral reef community composition in the context of disturbance history on the Great Barrier Reef, Australia.

Author

Graham NA, Chong-Seng KM, Huchery C, Januchowski-Hartley FA, and Nash KL

Subjects
Animals, Australia, Biodiversity, Coral Reefs
Abstract

Much research on coral reefs has documented differential declines in coral and associated organisms. In order to contextualise this general degradation, research on community composition is necessary in the context of varied disturbance histories and the biological processes and physical features thought to retard or promote recovery. We conducted a spatial assessment of coral reef communities across five reefs of the central Great Barrier Reef, Australia, with known disturbance histories, and assessed patterns of coral cover and community composition related to a range of other variables thought to be important for reef dynamics. Two of the reefs had not been extensively disturbed for at least 15 years prior to the surveys. Three of the reefs had been severely impacted by crown-of-thorns starfish outbreaks and coral bleaching approximately a decade before the surveys, from which only one of them was showing signs of recovery based on independent surveys. We incorporated wave exposure (sheltered and exposed) and reef zone (slope, crest and flat) into our design, providing a comprehensive assessment of the spatial patterns in community composition on these reefs. Categorising corals into life history groupings, we document major coral community differences in the unrecovered reefs, compared to the composition and covers found on the undisturbed reefs. The recovered reef, despite having similar coral cover, had a different community composition from the undisturbed reefs, which may indicate slow successional processes, or a different natural community dominance pattern due to hydrology and other oceanographic factors. The variables that best correlated with patterns in the coral community among sites included the density of juvenile corals, herbivore fish biomass, fish species richness and the cover of macroalgae. Given increasing impacts to the Great Barrier Reef, efforts to mitigate local stressors will be imperative to encouraging coral communities to persist into the future.

Published
2014
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20. Evaluating social and ecological vulnerability of coral reef fisheries to climate change.

Author

Cinner JE, Huchery C, Darling ES, Humphries AT, Graham NA, Hicks CC, Marshall N, and McClanahan TR

Subjects
Adaptation, Psychological, Animals, Biodiversity, Conservation of Natural Resources, Coral Reefs, Ecosystem, Fisheries economics, Humans, Kenya, Population Density, Principal Component Analysis, Anthozoa physiology, Climate Change economics, Fisheries statistics & numerical data, Fishes physiology
Abstract

There is an increasing need to evaluate the links between the social and ecological dimensions of human vulnerability to climate change. We use an empirical case study of 12 coastal communities and associated coral reefs in Kenya to assess and compare five key ecological and social components of the vulnerability of coastal social-ecological systems to temperature induced coral mortality [specifically: 1) environmental exposure; 2) ecological sensitivity; 3) ecological recovery potential; 4) social sensitivity; and 5) social adaptive capacity]. We examined whether ecological components of vulnerability varied between government operated no-take marine reserves, community-based reserves, and openly fished areas. Overall, fished sites were marginally more vulnerable than community-based and government marine reserves. Social sensitivity was indicated by the occupational composition of each community, including the importance of fishing relative to other occupations, as well as the susceptibility of different fishing gears to the effects of coral bleaching on target fish species. Key components of social adaptive capacity varied considerably between the communities. Together, these results show that different communities have relative strengths and weaknesses in terms of social-ecological vulnerability to climate change.

Published
2013
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21. Global effects of local human population density and distance to markets on the condition of coral reef fisheries.

Author

Cinner JE, Graham NA, Huchery C, and Macneil MA

Subjects
Animals, Bayes Theorem, Biomass, Conservation of Natural Resources, Fishes physiology, Geographic Information Systems, Geography, Humans, Socioeconomic Factors, Coral Reefs, Fisheries, Population Density
Abstract

Coral reef fisheries support the livelihoods of millions of people but have been severely and negatively affected by anthropogenic activities. We conducted a systematic review of published data on the biomass of coral reef fishes to explore how the condition of reef fisheries is related to the density of local human populations, proximity of the reef to markets, and key environmental variables (including broad geomorphologic reef type, reef area, and net productivity). When only population density and environmental covariates were considered, high variability in fisheries conditions at low human population densities resulted in relatively weak explanatory models. The presence or absence of human settlements, habitat type, and distance to fish markets provided a much stronger explanatory model for the condition of reef fisheries. Fish biomass remained relatively low within 14 km of markets, then biomass increased exponentially as distance from reefs to markets increased. Our results suggest the need for an increased science and policy focus on markets as both a key driver of the condition of reef fisheries and a potential source of solutions., (© 2012 Society for Conservation Biology.)

Published
2013
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22. Reef size and isolation determine the temporal stability of coral reef fish populations.

Author

Mellin C, Huchery C, Caley MJ, Meekan MG, and Bradshaw CJ

Subjects
Animals, Australia, Population Dynamics, Time Factors, Anthozoa physiology, Coral Reefs, Fishes physiology
Abstract

Temporal variance in species abundance, a potential driver of extinction, is linked to mean abundance through Taylor's power law, the empirical observation of a linear log-log relationship with a slope between 1 and 2 for most species. Here we test the idea that the slope of Taylor's power law can vary both among species and spatially as a function of habitat area and isolation. We used the world's most extensive database of coral reef fish communities comprising a 15-year series of fish abundances on 43 reefs of Australia's Great Barrier Reef. Greater temporal variances were observed at small and isolated reefs, and lower variances at large and connected ones. The combination of reef area and isolation was associated with an even greater effect on temporal variances, indicating strong empirical support for the idea that populations on small and isolated reefs will succumb more frequently to local extinction via higher temporal variability, resulting in lower resilience at the community level. Based on these relationships, we constructed a regional predictive map of the dynamic fragility of coral reef fish assemblages on the Great Barrier Reef.

Published
2010
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23. Helminth fauna of the Siberian chipmunk, Tamias sibiricus Laxmann (Rodentia, Sciuridae) introduced in suburban French forests.

Author

Pisanu B, Jerusalem C, Huchery C, Marmet J, and Chapuis JL

Subjects
Animals, Ecosystem, France epidemiology, Helminthiasis, Animal epidemiology, Suburban Population, Helminthiasis, Animal parasitology, Sciuridae parasitology
Abstract

The spread of an immigrant host species can be influenced both by its specific helminth parasites that come along with it and by newly acquired infections from native fauna. The Siberian chipmunk, Tamias sibiricus Laxmann (Rodentia, Sciuridae), a northeastern Eurasiatic ground nesting Sciurid, has been introduced in France for less than three decades. Thirty individuals were collected from three suburban forests in the Ile-de-France Region between 2002 and 2006. Two intestinal nematode species dominated the helminth fauna: Brevistriata skrjabini [Prevalence, P, 99% C.I., 87% (64-97%); mean intensity, M.I., 99% C.I., 43 (28-78)] and Aonchotheca annulosa [P, 47% (25-69%); M.I., 35 (3-157)]. B. skrjabini is a direct life cycle nematode species of North Eurasiatic origin, with a restricted spectrum of phylogenetically related suitable hosts. This result indicates that B. skrjabini successfully settled and spread with founder pet chipmunks maintained in captivity and released in natura. Chipmunks acquired A. annulosa, a nematode species with a large spectrum of phylogenetically unrelated suitable host species, from local Muroid rodent species with similar behavior, life-history traits and habitats. Quantitative studies are needed to evaluate the potential for both B. skrjabini and A. annulosa to impede the spread of Tamias and for B. skrjabini to favor chipmunk colonization through detrimental effects upon native co-inhabiting host species.

Published
2007
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