Your search keyword '"Russell C. Babcock"' showing total 191 results

1. Ecological Forecasting and Operational Information Systems Support Sustainable Ocean Management

Author

Chaojiao Sun, Alistair J. Hobday, Scott A. Condie, Mark E. Baird, J. Paige Eveson, Jason R. Hartog, Anthony J. Richardson, Andrew D. L. Steven, Karen Wild-Allen, Russell C. Babcock, Dezhou Yang, Rencheng Yu, and Mathieu Mongin

Subjects

prediction, climate change, coastal development, fisheries, aquaculture, conservation, Science (General), Q1-390, Mathematics, QA1-939

Abstract

In times of rapid change and rising human pressures on marine systems, information about the future state of the ocean can provide decision-makers with time to avoid adverse impacts and maximise opportunities. An ecological forecast predicts changes in ecosystems and its components due to environmental forcing such as climate variability and change, extreme weather conditions, pollution, or habitat change. Here, we summarise examples from several sectors and a range of locations. We describe the need, approach, forecast performance, delivery system, and end user uptake. This examination shows that near-term ecological forecasts are needed by end users, decisions are being made based on forecasts, and there is an urgent need to develop operational information systems to support sustainable ocean management. An operational information system is critical for connecting to decision makers and providing an enduring approach to forecasting and proactive decision making. These operational systems require significant investment and ongoing maintenance but are key to delivering ecological forecasts for societal benefits. Iterative forecasting practices could provide continuous improvement by incorporating evaluation and feedback to overcome the limitations of the imperfect model and incomplete observations to achieve better forecast outcomes and accuracy.

Published

2022

2. A standardised framework for analysing animal detections from automated tracking arrays

Author

Vinay Udyawer, Ross G. Dwyer, Xavier Hoenner, Russell C. Babcock, Stephanie Brodie, Hamish A. Campbell, Robert G. Harcourt, Charlie Huveneers, Fabrice R. A. Jaine, Colin A. Simpfendorfer, Matthew D. Taylor, and Michelle R. Heupel

Subjects

IMOS, Passive telemetry, Acoustic telemetry, Spatial ecology, Fish tracking, Big data, Ecology, QH540-549.5, Animal biochemistry, QP501-801

Abstract

Abstract Background Over the past 15 years, the integration of localised passive telemetry networks into centralised data repositories has greatly enhanced our ability to monitor the presence and movements of highly mobile and migratory species. These large-scale networks are now generating big data, allowing meta-analyses across multiple species, locations, and temporal scales. Broad-scale comparisons of animal movement metrics are constrained by the use of diverse analytical techniques among researchers. Accordingly, there is a need for a tool-set to assist in calculating animal movement metrics that can be easily applied to datasets from local studies to large-scale cooperative networks. Results We present a standardised framework and an associated analysis tool-set that facilitates the calculation of a range of activity space and movement metrics for passive telemetry datasets. Application of the tool-set is demonstrated using data from the Integrated Marine Observing System continental-scale network of underwater acoustic receivers. We show how the metrics can: (1) be directly compared among multiple species monitored at multiple sites; (2) be compared among multiple species tagged at a single study site; and (3) assess changes in activity space metrics over time. Conclusions Establishing a framework and tool-set to analyse data from large-scale networks progresses the field of passive telemetry beyond the traditional individual-, species-, or location-centric approaches to facilitate national- or international-scale outputs that better address important questions in the field of movement ecology.

Published

2018

3. Long-Term Acoustic Monitoring Reveals Site Fidelity, Reproductive Migrations, and Sex Specific Differences in Habitat Use and Migratory Timing in a Large Coastal Shark (Negaprion acutidens)

Author

Richard D. Pillans, Wayne Rochester, Russell C. Babcock, Damian P. Thomson, Michael D. E. Haywood, and Mathew A. Vanderklift

Subjects

movement, habitat use, migration, acoustic telemetry, reproduction, spatial management, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Knowledge of the movement patterns of the lemon shark Negaprion acutidens is poor in contrast to the allopatric N. brevirostis. Using acoustic telemetry, we investigated daily (diel and tidal) and seasonal patterns in residency, fidelity, home range, habitat preference, and migratory patterns along the Ningaloo coast, Australia. Thirty eight adult N. acutidens were monitored for up 6.1 years (mean 2.5 y) with 19 animals detected for more than 3 years and 5 for more than 5 y. Approximately 50% of the tagged animals remained within 10 km of their tagging location for more than 12 months (average core home range of 1.7 km2). Surprisingly, residency of adults was greater than juveniles in this known nursery area. Adults showed a strong preference for lagoon habitats and moved into shallow nearshore habitats at high tide and at night. During winter months, female sharks shifted their core home range 0.45 km further offshore into deeper lagoon areas, a shift which is likely due to behavioral thermoregulation. Space use by males and females within core areas was asynchronous indicating sexual segregation by resident sharks. Both resident and non-resident sharks were detected up to 140 km away. These highly directional (southerly) and rapid movements (140 km in 2 days) were largely correlated with the parturition and mating periods with males departing 1–2 months earlier than females. In females, periodicity of migrations was variable with evidence of annual and biannual patterns. Negaprion acutidens are highly susceptible to over-fishing and movement data are essential to quantify spatio-temporal overlap with fisheries and assist with developing spatially explicit stock assessment models.

Published

2021

4. Testing Industrial-Scale Coral Restoration Techniques: Harvesting and Culturing Wild Coral-Spawn Slicks

Author

Christopher Doropoulos, Focco Vons, Jesper Elzinga, Remment ter Hofstede, Kinam Salee, Mark van Koningsveld, and Russell C. Babcock

Subjects

aquaculture, coral reef restoration, coral-spawn slick, eco-engineering, Great Barrier Reef, harvest, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Accelerating the recovery of marine coastal ecosystems is a global challenge that has been attempted on many systems around the world. Restoration efforts have shown varying levels of success at localized-scales, but developing techniques for large-scale application are still in their nascent stage for many systems. For seagrass meadows and marsh plants, large-scale successes have been realized by distributing seeds from moving boats or planes, respectively. Similarly for coral reefs, the harvesting, culturing and releasing of wild coral-spawn slicks to targeted reefs is anticipated to achieve cost-efficient, large-scale restoration of coral communities with low-impact technology. Yet, operational protocols for full-scale application still require development by practitioners. In this study we conducted a field trial to evaluate the actual feasibility of harvesting wild coral-spawn slicks for large-scale restoration activities, incorporating technologies used in oil spill remediation, dredging operations, and land-based aquaculture. Testing the potential for scalability to commercial vessels, our trial focused on concentrating and collecting wild coral-spawn slicks for culturing until settlement competency using an experimental 50,000 L aquaculture facility built on a tugboat. Five objectives were set and all were achieved successfully, with only one requiring further optimization. Overall, this restoration approach allows for long-distance translocation of genetically diverse coral assemblages, and may be combined with other larval conditioning techniques that are being developed to increase the resistance to stress and survival of coral recruits. Most importantly, it is fully scalable to produce billions of coral larvae for delivery to target reefs, with negligible impact to source populations.

Published

2019

5. Corrigendum: Severe Continental-Scale Impacts of Climate Change Are Happening Now: Extreme Climate Events Impact Marine Habitat Forming Communities Along 45% of Australia's Coast

Author

Russell C. Babcock, Rodrigo H. Bustamante, Elizabeth A. Fulton, Derek J. Fulton, Michael D. E. Haywood, Alistair James Hobday, Robert Kenyon, Richard James Matear, Eva E. Plagányi, Anthony J. Richardson, and Mathew A. Vanderklift

Subjects

extreme climate events, kelp, coral, seagrass, mangrove, marine heat wave, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Published

2019

6. Severe Continental-Scale Impacts of Climate Change Are Happening Now: Extreme Climate Events Impact Marine Habitat Forming Communities Along 45% of Australia’s Coast

Author

Russell C. Babcock, Rodrigo H. Bustamante, Elizabeth A. Fulton, Derek J. Fulton, Michael D. E. Haywood, Alistair James Hobday, Robert Kenyon, Richard James Matear, Eva E. Plagányi, Anthony J. Richardson, and Mathew A. Vanderklift

Subjects

extreme climate events, kelp, coral, seagrass, mangrove, marine heat wave, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Recent increases in the frequency of extreme climate events (ECEs) such as heatwaves and floods have been attributed to climate change, and could have pronounced ecosystem and evolutionary impacts because they provide little opportunity for organisms to acclimate or adapt. Here we synthesize information on a series of ECEs in Australia from 2011 to 2017 that led to well-documented, abrupt, and extensive mortality of key marine habitat-forming organisms – corals, kelps, seagrasses, and mangroves – along >45% of the continental coastline of Australia. Coral bleaching occurred across much of northern Australia due to marine heatwaves (MHWs) affecting different regions in 2011, 2013, 2016, and 2017, while seagrass was impacted by anomalously high rainfall events in 2011 on both east and west tropical coasts. A MHW off western Australia (WA) during the 2011 La Niña extended into temperate and subtropical regions, causing widespread mortality of kelp forests and seagrass communities at their northern distribution limits. Mangrove forests experienced high mortality during the 2016 El Niño across coastal areas of northern and north-WA due to severe water stress driven by drought and anomalously low mean sea levels. This series of ECEs reflects a variety of different events – MHWs, intense rainfall from tropical storms, and drought. Their repeated occurrence and wide extent are consistent with projections of increased frequency and intensity of ECEs and have broad implications elsewhere because similar trends are predicted globally. The unprecedented and widespread nature of these ECE impacts has likely produced substantial ecosystem-wide repercussions. Predictions from ecosystem models suggest that the widespread mortality of habitat-forming taxa will have long-term and in some cases irreversible consequences, especially if they continue to become more frequent or severe. The abrupt ecological changes that are caused by ECEs could have greater long-term impacts than slower warming that leads to gradual reorganization and possible evolution and adaptation. ECEs are an emerging threat to marine ecosystems, and will require better seasonal prediction and mitigation strategies.

Published

2019

7. Challenges of transferring models of fish abundance between coral reefs

Author

Ana M.M. Sequeira, Camille Mellin, Hector M. Lozano-Montes, Jessica J. Meeuwig, Mathew A. Vanderklift, Michael D.E. Haywood, Russell C. Babcock, and M. Julian Caley

Subjects

Great Barrier Reef, Generalized linear mixed-effects modelling, Ningaloo Reef, Species distribution models, Underwater visual counts, Medicine, Biology (General), QH301-705.5

Abstract

Reliable abundance estimates for species are fundamental in ecology, fisheries, and conservation. Consequently, predictive models able to provide reliable estimates for un- or poorly-surveyed locations would prove a valuable tool for management. Based on commonly used environmental and physical predictors, we developed predictive models of total fish abundance and of abundance by fish family for ten representative taxonomic families for the Great Barrier Reef (GBR) using multiple temporal scenarios. We then tested if models developed for the GBR (reference system) could predict fish abundances at Ningaloo Reef (NR; target system), i.e., if these GBR models could be successfully transferred to NR. Models of abundance by fish family resulted in improved performance (e.g., 44.1% 0.05). High spatio-temporal variability of patterns in fish abundance at the family and population levels in both reef systems likely affected the transferability of these models. Inclusion of additional predictors with potential direct effects on abundance, such as local fishing effort or topographic complexity, may improve transferability of fish abundance models. However, observations of these local-scale predictors are often not available, and might thereby hinder studies on model transferability and its usefulness for conservation planning and management.

Published

2018

8. Density-dependent coral recruitment displays divergent responses during distinct early life-history stages

Author

Christopher Doropoulos, Nicolas R. Evensen, Luis A. Gómez-Lemos, and Russell C. Babcock

Subjects

allee effect, density-dependence, recovery, recruitment, regulation, resilience, Science

Abstract

Population growth involves demographic bottlenecks that regulate recruitment success during various early life-history stages. The success of each early life-history stage can vary in response to population density, interacting with intrinsic (e.g. behavioural) and environmental (e.g. competition, predation) factors. Here, we used the common reef-building coral Acropora millepora to investigate how density-dependence influences larval survival and settlement in laboratory experiments that isolated intrinsic effects, and post-settlement survival in a field experiment that examined interactions with environmental factors. Larval survival was exceptionally high (greater than 80%) and density-independent from 2.5 to 12 days following spawning. By contrast, there was a weak positive effect of larval density on settlement, driven by gregarious behaviour at the highest density. When larval supply was saturated, settlement was three times higher in crevices compared with exposed microhabitats, but a negative relationship between settler density and post-settlement survival in crevices and density-independent survival on exposed surfaces resulted in similar recruit densities just one month following settlement. Moreover, a negative relationship was found between turf algae and settler survival in crevices, whereas gregarious settlement improved settler survival on exposed surfaces. Overall, our findings reveal divergent responses by coral larvae and newly settled recruits to density-dependent regulation, mediated by intrinsic and environmental interactions.

Published

2017

9. Thirty Years of Research on Crown-of-Thorns Starfish (1986–2016): Scientific Advances and Emerging Opportunities

Author

Morgan S. Pratchett, Ciemon F. Caballes, Jennifer C. Wilmes, Samuel Matthews, Camille Mellin, Hugh P. A. Sweatman, Lauren E. Nadler, Jon Brodie, Cassandra A. Thompson, Jessica Hoey, Arthur R. Bos, Maria Byrne, Vanessa Messmer, Sofia A. V. Fortunato, Carla C. M. Chen, Alexander C. E. Buck, Russell C. Babcock, and Sven Uthicke

Subjects

Acanthaster, coral reefs, disturbance, management, population outbreaks, research priorities, Biology (General), QH301-705.5

Abstract

Research on the coral-eating crown-of-thorns starfish (CoTS) has waxed and waned over the last few decades, mostly in response to population outbreaks at specific locations. This review considers advances in our understanding of the biology and ecology of CoTS based on the resurgence of research interest, which culminated in this current special issue on the Biology, Ecology and Management of Crown-of-Thorns Starfish. More specifically, this review considers progress in addressing 41 specific research questions posed in a seminal review by P. Moran 30 years ago, as well as exploring new directions for CoTS research. Despite the plethora of research on CoTS (>1200 research articles), there are persistent knowledge gaps that constrain effective management of outbreaks. Although directly addressing some of these questions will be extremely difficult, there have been considerable advances in understanding the biology of CoTS, if not the proximate and ultimate cause(s) of outbreaks. Moving forward, researchers need to embrace new technologies and opportunities to advance our understanding of CoTS biology and behavior, focusing on key questions that will improve effectiveness of management in reducing the frequency and likelihood of outbreaks, if not preventing them altogether.

Published

2017

10. The short spined crown-of-thorns starfish Acanthaster brevispinus is a corallivore too

Author

John K. Keesing, Nick Mortimer, Logan Hellmrich, Daniel Godoy, Russell C. Babcock, Andrew Heyward, David Paton, and Euan S. Harvey

Subjects

Aquatic Science

Abstract

The short spined crown-of-thorns starfish Acanthaster brevispinus inhabits deeper water soft bottom habitats, in contrast to the more infamous Indo-Pacific Acanthaster species complex of which population outbreaks have been responsible for widespread coral mortality throughout the Indo-West Pacific region. Acanthaster brevispinus has not previously been regarded as a threat to corals or coral reefs. Here, we report A. brevispinus occurring on mesophotic off-reef or inter-reef habitats in 20–70-m depths dominated by solitary corals off both the western and eastern coasts of Australia. On Ningaloo Reef, A. brevispinus were found on mushroom coral (Cycloseris distorta) beds using an underwater towed camera and further exploration using a remotely operated vehicle (ROV) confirmed predation by A. brevispinus on C. distorta. On the southern Great Barrier Reef, A. brevispinus in large numbers were found in habitat dominated by the dendrophylliid Heteropsammia cf. cochlea. Predation on H. cf. cochlea was also directly observed. This is the first confirmed report of predation on hard corals by A. brevispinus, and while there are yet to be any records of population outbreaks of this species, such outbreaks could have a significant effect on mesophotic solitary coral assemblages.

Published

2023

11. Scaling of Activity Space in Marine Organisms across Latitudinal Gradients

Author

Vinay Udyawer, Charlie Huveneers, Fabrice Jaine, Russell C. Babcock, Stephanie Brodie, Marie-Jeanne Buscot, Hamish A. Campbell, Robert G. Harcourt, Xavier Hoenner, Elodie J. I. Lédée, Colin A. Simpfendorfer, Matthew D. Taylor, Asia Armstrong, Adam Barnett, Culum Brown, Barry Bruce, Paul A. Butcher, Gwenael Cadiou, Lydie I. E. Couturier, Leanne Currey-Randall, Michael Drew, Christine L. Dudgeon, Ross G. Dwyer, Mario Espinoza, Luciana C. Ferreira, Anthony Fowler, David Harasti, Alastair R. Harborne, Nathan A. Knott, Kate Lee, Matt Lloyd, Michael Lowry, Teagan Marzullo, Jordan Matley, Jaime D. McAllister, Rory McAuley, Frazer McGregor, Mark Meekan, Kade Mills, Bradley M. Norman, Beverly Oh, Nicholas L. Payne, Vic Peddemors, Toby Piddocke, Richard D. Pillans, Richard D. Reina, Paul Rogers, Jayson M. Semmens, Amy Smoothey, Conrad W. Speed, Dylan van der Meulen, Michelle R. Heupel, Australian Institute of Marine Science (AIMS), Flinders Univ S Australia, Coll Sci & Engn, Natl Ctr Groundwater Res & Training, GPO Box 2100, Adelaide, SA, Australia, Partenaires INRAE, Sydney Institute of Marine Science, Macquarie University [Sydney], Queensland Bioscience Precinct, Environmental Research Division [USA], Southwest Fisheries Science Center (SWFSC), NOAA National Marine Fisheries Service (NMFS), National Oceanic and Atmospheric Administration (NOAA)-National Oceanic and Atmospheric Administration (NOAA)-NOAA National Marine Fisheries Service (NMFS), National Oceanic and Atmospheric Administration (NOAA)-National Oceanic and Atmospheric Administration (NOAA), University of California [Santa Cruz] (UC Santa Cruz), University of California (UC), University of Tasmania [Launceston] (UTAS), Charles Darwin University [Australia], Department of Biological Sciences, Macquarie University, Macquarie University, Department of Biological Sciences, CISRO Oceans and Atmosphere, Carleton University, James Cook University (JCU), Industry and Investment NSW, Port Stephens Fisheries Institute, University of Queensland [Brisbane], National Oceanic and Atmospheric Administration (NOAA), Department of Biological Sciences [North Ryde], Macquarie University, The University of Tennessee [Knoxville], NSW DPI NEW SOUTH WALES GOVERNMENT DEPARTMENT OF PRIMARY INDUSTRIES FISHERIES NSW WOLLONGONG AUS, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), University of Technology Sidney (UTS), Laboratoire des Sciences de l'Environnement Marin (LEMAR) (LEMAR), Institut de Recherche pour le Développement (IRD)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Brest (UBO)-Institut Universitaire Européen de la Mer (IUEM), Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Université de Brest (UBO), University of the Sunshine Coast (USC), Universidad de Costa Rica (UCR), Indian Ocean Marine Res Ctr, Florida International University [Miami] (FIU), New South Wales Dept Primary Ind, University of New South Wales [Sydney] (UNSW), University of Windsor [Ca], University of Tasmania [Hobart, Australia] (UTAS), The University of Western Australia (UWA), Murdoch University, Victorian Natl Pk Assoc, Southern Cross University (SCU), Monash university, and South Australian Research and Development Institute [Australia]

Subjects

Brownian bridge kernel utilization distribution (KUD), continental network, Integrated Marine Observing System (IMOS), spatial ecology, Integrated Marine Ob-serving System (IMOS), Brownian bridge kernel utilizationdistribution (KUD), [SDE.BE]Environmental Sciences/Biodiversity and Ecology, metabolic theory, acoustic telemetry, Ecology, Evolution, Behavior and Systematics

Abstract

Unifying models have shown that the amount of space used by animals (e.g., activity space, home range) scales allometrically with body mass for terrestrial taxa; however, such relationships are far less clear for marine species. We compiled movement data from 1,596 individuals across 79 taxa collected using a continental passive acoustic telemetry network of acoustic receivers to assess allometric scaling of activity space. We found that ectothermic marine taxa do exhibit allometric scaling for activity space, with an overall scaling exponent of 0.64. However, body mass alone explained only 35% of the variation, with the remaining variation best explained by trophic position for teleosts and latitude for sharks, rays, and marine reptiles. Taxon-specific allometric relationships highlighted weaker scaling exponents among teleost fish species (0.07) than sharks (0.96), rays (0.55), and marine reptiles (0.57). The allometric scaling relationship and scaling exponents for the marine taxonomic groups examined were lower than those reported from studies that had collated both marine and terrestrial species data derived using various tracking methods. We propose that these disparities arise because previous work integrated summarized data across many studies that used differing methods for collecting and quantifying activity space, introducing considerable uncertainty into slope estimates. Our findings highlight the benefit of using large-scale, coordinated animal biotelemetry networks to address cross-taxa evolutionary and ecological questions.

Published

2023

12. Knowledge Gaps in the Biology, Ecology, and Management of the Pacific Crown-of-Thorns Sea StarAcanthastersp. on Australia’s Great Barrier Reef

Author

Richard Kenchington, Scott D. Ling, Maria Byrne, Cherie A. Motti, Sven Uthicke, Lone Høj, Ciemon F. Caballes, Katharina E. Fabricius, Benjamin Mos, Zara-Louise Cowan, Amelia Desbiens, Deborah Burn, Maia L. Raymundo, Kennedy Wolfe, Hamish McCallum, Symon A. Dworjanyn, Scott A. Condie, Peter Doherty, Dione J. Deaker, Carla Chen, Michael D. E. Haywood, Shaun K. Wilson, Yves-Marie Bozec, Peter J. Mumby, Richard J. W. Stump, Samuel A. Matthews, Bethan J. Lang, Christopher Cvitanovic, Morgan S. Pratchett, Lyndon M. Devantier, Carolina Castro-Sanguino, Camille Mellin, John K. Keesing, Anne K. Hoggett, Karlo Hock, Mary C. Bonin, Russell C. Babcock, Lyle Vail, Peter C. Doll, and Jason Doyle

Subjects

geography, education.field_of_study, geography.geographical_feature_category, Environmental change, business.industry, Ecology, Ecology (disciplines), Population, Crown of Thorns, Acanthaster, Distribution (economics), Coral reef, Biology, biology.organism_classification, General Agricultural and Biological Sciences, business, education, Reef

Abstract

Crown-of-thorns sea stars (Acanthaster sp.) are among the most studied coral reef organisms, owing to their propensity to undergo major population irruptions, which contribute to significant coral loss and reef degradation throughout the Indo-Pacific. However, there are still important knowledge gaps pertaining to the biology, ecology, and management of Acanthaster sp. Renewed efforts to advance understanding and management of Pacific crown-of-thorns sea stars (Acanthaster sp.) on Australia’s Great Barrier Reef require explicit consideration of relevant and tractable knowledge gaps. Drawing on established horizon scanning methodologies, this study identified contemporary knowledge gaps by asking active and/or established crown-of-thorns sea star researchers to pose critical research questions that they believe should be addressed to improve the understanding and management of crown-of-thorns sea stars on the Great Barrier Reef. A total of 38 participants proposed 246 independent research questions, organized into 7 themes: feeding ecology, demography, distribution and abundance, predation, settlement, management, and environmental change. Questions were further assigned to 48 specific topics nested within the 7 themes. During this process, redundant questions were removed, which reduced the total number of distinct research questions to 172. Research questions posed were mostly related to themes of demography (46 questions) and management (48 questions). The dominant topics, meanwhile, were the incidence of population irruptions (16 questions), feeding ecology of larval sea stars (15 questions), effects of elevated water temperature on crown-of-thorns sea stars (13 questions), and predation on juveniles (12 questions). While the breadth of questions suggests that there is considerable research needed to improve understanding and management of crown-of-thorns sea stars on the Great Barrier Reef, the predominance of certain themes and topics suggests a major focus for new research while also providing a roadmap to guide future research efforts.

Published

2021

13. Continental‐scale acoustic telemetry and network analysis reveal new insights into stock structure

Author

Mario Espinoza, Victor M. Peddemors, Anthony J. Fowler, Robert Harcourt, Ross G. Dwyer, Rory McAuley, Dylan E. van der Meulen, Lachlan Fetterplace, Colin A. Simpfendorfer, Matthew D. Taylor, Paul A. Butcher, Gwenaël Cadiou, Elodie J. I. Lédée, Michelle R. Heupel, Nathan A. Knott, Jaime D. McAllister, Richard D. Pillans, Adam Barnett, Kilian M. Stehfest, Jayson M. Semmens, Matias Braccini, Hamish A. Campbell, Russell C. Babcock, Luciana C. Ferreira, Stephanie Brodie, Kade Mills, Charlie Huveneers, Amy F. Smoothey, Michael B. Lowry, Alastair R. Harborne, Fabrice R. A. Jaine, Vinay Udyawer, Xavier Hoenner, Mark G. Meekan, and Conrad W. Speed

Subjects

Structure (mathematical logic), Scale (ratio), Meteorology, Telemetry, Environmental science, Fisheries management, Management, Monitoring, Policy and Law, Aquatic Science, Oceanography, Ecology, Evolution, Behavior and Systematics, Stock (geology), Network analysis

Published

2021

14. Bright Spots in Coastal Marine Ecosystem Restoration

Author

Megan I. Saunders, Christopher Doropoulos, Maria L. Vozzo, Rodrigo H. Bustamante, Brian R. Silliman, Elisa Bayraktarov, Chris L. Gillies, Mathew A. Vanderklift, Daniel Gorman, Russell C. Babcock, Aaron M. Eger, and Andrew D. L. Steven

Subjects

0301 basic medicine, business.industry, Oceans and Seas, Environmental resource management, Biodiversity, Biology, Global Health, General Biochemistry, Genetics and Molecular Biology, Natural (archaeology), 03 medical and health sciences, Intervention (law), 030104 developmental biology, 0302 clinical medicine, Habitat, Scale (social sciences), Humans, Terrestrial ecosystem, Marine ecosystem, General Agricultural and Biological Sciences, business, Restoration ecology, Ecosystem, Environmental Restoration and Remediation, 030217 neurology & neurosurgery

Abstract

The United Nations General Assembly calls for ecosystem restoration to be a primary intervention strategy used to counter the continued loss of natural habitats worldwide, while supporting human health and wellbeing globally. Restoration of coastal marine ecosystems is perceived by many to be expensive and prone to failure, in part explaining its low rates of implementation compared with terrestrial ecosystems. Yet, marine ecosystem restoration is a relatively new field, and we argue that assessments of its potential to answer this call should not rely on typical outcomes, but also to learn from successful outliers. Here, we review successful restoration efforts across a suite of metrics in coastal marine systems to highlight 'bright spots'. We find that, similar to terrestrial systems, restoration interventions can be effective over large spatial expanses (1,000s-100,000s ha), persist for decades, rapidly expand in size, be cost-effective, and generate social and economic benefits. These bright spots clearly demonstrate restoration of coastal marine systems can be used as a nature-based solution to improve biodiversity and support human health and wellbeing. Examining coastal marine restoration through a historical lens shows that it has developed over a shorter period than restoration in terrestrial systems, partially explaining lower efficiencies. Given these bright spots and the relative immaturity of coastal marine ecosystem restoration, it is likely to advance rapidly over the coming decades and become a common intervention strategy that can reverse marine degradation, contribute to local economies, and improve human wellbeing at a scale relevant to addressing global threats.

Published

2020

15. Ecological analyses to inform management targets for the culling of crown-of-thorns starfish to prevent coral decline

Author

Mary C. Bonin, Éva E. Plagányi, E. Bee Morello, Russell C. Babcock, and Jacob G. D. Rogers

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, biology, Ecology, 010604 marine biology & hydrobiology, Coral, Acanthaster, Culling, Coral reef, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Crown-of-thorns starfish, Population model, Environmental science, Marine park, Reef

Abstract

The crown-of-thorns starfish (COTS), Acanthaster cf. solaris, is one of the main contributors to declines in coral cover on the Great Barrier Reef (GBR) and remains one of the major acute disturbances on coral reefs throughout much of the Indo-Pacific. Extensive control programs on the GBR involve manual culling of COTS in the field, and research is needed to inform these management efforts. Data from the Great Barrier Reef Marine Park Authority’s (GBRMPA) COTS control program provide near-real-time CPUE (Catch-Per-Unit-Effort, COTS culled per minute) data ideal for operational decision-making but these must be converted to density estimates before they can be related to ecological status of reefs or incorporated into ecological models. We developed conversions between common COTS field survey methods (i.e. manta tow, SCUBA transect searches) and COTS control program CPUE data using estimates of sightability and detectability. We used a population model and COTS size-structure data from COTS control program culling efforts to estimate that, on average, only 19% of 1-yr-old COTS (1–15 cm) are available to be culled. Finally, we developed a CPUE-COTS density relationship to estimate the threshold levels of COTS that prevent net growth of hard corals. Culling programs should therefore aim to achieve CPUEs below these ecological thresholds in order to effectively promote coral growth and recovery. These ecologically sustainable thresholds of COTS density varied depending on hard coral cover. For example, for 35% fast-growing coral cover, COTS culling needs to continue until CPUE decreases to below 0.05 COTS/min (1 COTS per 20 min) in order to prevent coral decline, whereas if coral cover is higher (80%), then a higher target threshold CPUE of ca. 0.08 COTS/min (ca. 3 COTS per 40 min) may be ecologically sustainable. These estimates underpin the current pest management rules being implemented by the GBRMPA in its COTS control program.

Published

2020

16. Suppressing the next crown-of-thorns outbreak on the Great Barrier Reef

Author

Éva E. Plagányi, Cameron S. Fletcher, Scott A. Condie, Darren S. Cameron, David A. Westcott, Mary C. Bonin, and Russell C. Babcock

Subjects

0106 biological sciences, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, Crown of Thorns, Outbreak, Business, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Great barrier reef

Abstract

Crown-of-thorns starfish (COTS) outbreaks are a globally significant driver of coral mortality in the Indo-Pacific and work synergistically with other disturbances. We argue that our improved understanding of COTS ecology and ability to monitor their populations, combined with new efficiencies in COTS control technologies, provides a sound basis for attempting to suppress COTS outbreaks on the GBR before they reach full outbreak status. This conclusion is based on research on the GBR which we have synthesised to develop a new, pragmatic approach to managing primary outbreaks. We also outline key actions that must be undertaken in order for suppression to be successful, providing clear direction for future management action. The next COTS outbreak on the GBR is predicted to begin between 2025 and 2027, consequently efforts to detect and suppress pre-initiation populations must start no later than the summer of 2022–2023.

Published

2020

17. Sexual production of corals for reef restoration in the Anthropocene

Author

Carly J. Randall, Line K. Bay, Russell C. Babcock, Gerard F. Ricardo, Peter Harrison, Nicole S. Webster, Andrew P. Negri, Andrew Heyward, Kate M. Quigley, and Taryn Foster

Subjects

0106 biological sciences, 0303 health sciences, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, media_common.quotation_subject, Coral, Global warming, Climate change, Context (language use), Aquatic Science, 01 natural sciences, 03 medical and health sciences, Disturbance (ecology), Ecosystem, Psychological resilience, Reef, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, media_common

Abstract

Coral-reef ecosystems are experiencing frequent and severe disturbance events that are reducing global coral abundance and potentially overwhelming the natural capacity for reefs to recover. While mitigation strategies for climate warming and other anthropogenic disturbances are implemented, coral restoration programmes are being established worldwide as an additional conservation measure to minimise coral loss and enhance coral recovery. Current restoration efforts predominantly rely on asexually produced coral fragments—a process with inherent practical constraints on the genetic diversity conserved and the spatial scale achieved. Because the resilience of coral communities has hitherto relied on regular renewal with natural recruits, the scaling-up of restoration programmes would benefit from greater use of sexually produced corals, which is an approach that is gaining momentum. Here we review the present state of knowledge of scleractinian coral sexual reproduction in the context of reef restoration, with a focus on broadcast-spawning corals. We identify key knowledge gaps and bottlenecks that currently constrain the sexual production of corals and consider the feasibility of using sexually produced corals for scaling-up restoration to the reef- and reef-system scales.

Published

2020

18. Disentangling the response of fishes to recreational fishing over 30 years within a fringing coral reef reserve network

Author

Martial Depczynski, Rick D. Stuart-Smith, Tim J. Langlois, Michael Renton, Andrew R. Halford, Anthony M. Ayling, Christopher J. Fulton, Mark Westera, Rebecca Fisher, Joachim Claudet, Thomas H. Holmes, Graham J. Edgar, Ben Fitzpatrick, Shaun K. Wilson, Russell C. Babcock, Nicholas A. J. Graham, Euan S. Harvey, Damian P. Thomson, Michael D. E. Haywood, Anna K. Cresswell, Dianne L. McLean, Richard D. Pillans, Paul Tinkler, Alistair J. Cheal, Mathew A. Vanderklift, Australian Institute of Marine Science [Townsville] (AIMS Townsville), Australian Institute of Marine Science (AIMS), Laboratoire d'Excellence CORAIL (LabEX CORAIL), Université des Antilles (UA)-Institut d'écologie et environnement-Université de la Nouvelle-Calédonie (UNC)-Université de la Polynésie Française (UPF)-Université de La Réunion (UR)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École des hautes études en sciences sociales (EHESS)-Université des Antilles et de la Guyane (UAG)-Institut de Recherche pour le Développement (IRD), Centre de recherches insulaires et observatoire de l'environnement (CRIOBE), Université de Perpignan Via Domitia (UPVD)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Department of Entomology, University of Arkansas [Fayetteville], School of Marine Science & Technology, University of Northumbria at Newcastle [United Kingdom], The UWA Oceans Institute, CSIRO Indian Ocean Marine Research Centre [Australia], The University of Western Australia (UWA), Université de Perpignan Via Domitia (UPVD)-École Pratique des Hautes Études (EPHE), Institut de Recherche pour le Développement (IRD)-Université des Antilles et de la Guyane (UAG)-École des hautes études en sciences sociales (EHESS)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de La Réunion (UR)-Université de la Polynésie Française (UPF)-Université de la Nouvelle-Calédonie (UNC)-Institut d'écologie et environnement-Université des Antilles (UA), Research School of Biology [Canberra, Australia], Australian National University (ANU), Institute for Marine and Antarctic Studies [Hobart] (IMAS), University of Tasmania [Hobart, Australia] (UTAS), Lancaster Environment Centre, Lancaster University, Curtin University [Perth], Planning and Transport Research Centre (PATREC), and Institute for Marine and Antarctic Studies [Horbat] (IMAS)

Subjects

0106 biological sciences, Coral reefs, Lethrinidae, Coral reef fish, Marine protected area, Fishing, Fisheries, MPAs, 010603 evolutionary biology, 01 natural sciences, Commercial fishing, Abundance (ecology), 14. Life underwater, Reef, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, geography.geographical_feature_category, 010604 marine biology & hydrobiology, Adaptative management, Recreational fishing, Coral reef, Fishery, Geography, Reserve design, [SDE]Environmental Sciences, Ningaloo marine park western australia, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

International audience; Few studies assess the effects of recreational fishing in isolation from commercial fishing. We used meta-analysis to synthesise 4444 samples from 30 years (1987–2017) of fish surveys inside and outside a large network of highly protected reserves in the Ningaloo Marine Park, Western Australia, where the major fishing activity is recreational. Data were collected by different agencies, using varied survey designs and sampling methods. We contrasted the relative abundance and biomass of target and non-target fish groups between fished and reserve locations. We considered the influence of, and possible interactions between, seven additional variables: age and size of reserve, one of two reserve network configurations, reef habitat type, recreational fishing activity, shore-based fishing regulations and survey method. Taxa responded differently: the abundance and biomass inside reserves relative to outside was higher for targeted lethrinids, while other targeted (and non-targeted) fish groups were indistinguishable. Reef habitat was important for explaining lethrinid response to protection, and this factor interacted with reserve size, such that larger reserves were demonstrably more effective in the back reef and lagoon habitats. There was little evidence of changes in relative abundance and biomass of fishes with reserve age, or after rezoning and expansion of the reserve network. Our study demonstrates the complexities in quantifying fishing effects, highlighting some of the key factors and interactions that likely underlie the varied results in reserve assessments that should be considered in future reserve design and assessment.

Published

2019

19. Information-theoretic measures of ecosystem change, sustainability, and resilience

Author

Fabio Boschetti, Anna K. Cresswell, Russell C. Babcock, Christopher Doropoulos, Karine Prunera, Hector Lozano-Montes, Damian P. Thomson, and Mathew A. Vanderklift

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, business.industry, Computer science, Environmental resource management, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Ecosystem change, Sustainability, business, Resilience (network), Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

We introduce five measures describing the system-wide behaviour of complex ecological systems. Within an information-theoretic framework, these measures account for changes in both species diversity and total biomass to describe (i) overall system change, (ii) sustainability to external pressure, (iii) shift from a baseline state and two types of resilience: (iv) ability to recover from local pressures and (v) overall potential to return to a baseline state. We apply these measures to study the behaviour of three computer models: a large 59-functional groups complex ecological model (Ecopath with Ecosim) of north Western Australia undergoing internal dynamics, a smaller 6-group coral reef model subjected to various combinations of single and multiple stressors and a prey–predator model displaying limit cycles. We demonstrate the state-dependency of properties like resilience and sustainability by showing how these measures change in time as a function of internal dynamics and external forcing. Furthermore, we show how our proposed measures can simplify system analysis and monitoring by providing indicators of changes in system behaviour, sustainability, and resilience.

Published

2019

20. How does spatial resolution affect model performance? A case for ensemble approaches for marine benthic mesophotic communities

Author

Gary A. Kendrick, Joseph A. Turner, Russell C. Babcock, and Renae Hovey

Subjects

0106 biological sciences, 0303 health sciences, Ecology, Grid, 010603 evolutionary biology, 01 natural sciences, Ensemble learning, Plot (graphics), Environmental niche modelling, 03 medical and health sciences, Benthic zone, Statistics, Range (statistics), Spatial ecology, Environmental science, Taxonomic rank, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

AIM: To investigate how changing grid size can alter model predictions of the distribution of mesophotic taxa and how it affects different modelling methods. LOCATION: Ningaloo Marine Park, Western Australia. TAXON: Benthic mesophotic taxa: corals, macroalgae and sponges. METHODS: We determined the distributions of the major benthic taxonomic groups: corals, macroalgae and sponges, using a number of modelling techniques and an ensemble using the ‘sdm’ R package. A range of grid sizes were used (10, 50, 100 and 250 m) to identify how model predictions were altered. Models were evaluated using the area under the curve of a receiver operator characteristic plot (AUC) and the true skill statistic (TSS) using a spatially independent dataset. RESULTS: Grid size had a large effect on model performance across the taxonomic groups. Model outputs were compared to null surfaces and 88.8% of models performed significantly better than null. Distribution of corals was best predicted using the finest grid size (10 m) regardless of modelling method, although a model ensemble produced the best results (AUC = 0.80, TSS = 0.52). Macroalgae and sponges were better predicted at coaster grids sizes (250 m). Again, ensembles performed well for both macroalgae (AUC = 0.83, TSS = 0.63) and sponges (AUC = 0.88, TSS = 0.66). Model ensembles maintained high accuracy across grid sizes and were consistently the best, or second‐best, performing method. MAIN CONCLUSIONS: This study has shown how grid size should be considered when producing distribution models. Identifying the most relevant grid size and being aware of the influence it may have will provide more accurate predictions of the distributions of taxa. Ensemble methods maintained good performance across scenarios and thus provide a useful tool for conservation and management especially where single modelling methods showed high levels of variability.

Published

2019

21. The state of Western Australia’s coral reefs

Author

Russell C. Babcock, Andrew Heyward, Camilla Piggott, Daniel Oades, Christopher D. Nutt, James P. Gilmour, Marjetta Puotinen, Teresa B. Coutts, Jean-Paul A. Hobbs, Shaun K. Wilson, Kylie Cook, Andrew R. Halford, Zoe T. Richards, Damian P. Thomson, Taryn Foster, Rebecca H. Green, Nicole M. Ryan, Martial Depczynski, George Shedrawi, Verena Schoepf, Scott N. Evans, Kevin P. Bancroft, Peter Barnes, Ben Radford, Richard D. Evans, and Joanna Buckee

Subjects

La Niña, Oceanography, Geography, geography.geographical_feature_category, Disturbance (ecology), Coral bleaching, Climate change, Storm, Coral reef, Aquatic Science, Tropical cyclone, Reef

Abstract

Western Australia’s coral reefs have largely escaped the chronic pressures affecting other reefs around the world, but are regularly affected by seasonal storms and cyclones, and increasingly by heat stress and coral bleaching. Reef systems north of 18°S have been impacted by heat stress and coral bleaching during strong El Nino phases and those further south during strong La Nina phases. Cumulative heat stress and the extent of bleaching throughout the northern reefs in 2016 were higher than at any other time on record. To assess the changing regime of disturbance to reef systems across Western Australia (WA), we linked their site-specific exposure to damaging waves and heat stress since 1990 with mean changes in coral cover. Since 2010, there has been a noticeable increase in heat stress and coral bleaching across WA. Over half the reef systems have been severely impacted by coral bleaching since 2010, which was further compounded by cyclones at some reefs. For most (75%) reef systems with long-term data (5–26 yrs), mean coral cover is currently at (or near) the lowest on record and a full recovery is unlikely if disturbances continue to intensify with climate change. However, some reefs have not yet experienced severe bleaching and their coral cover has remained relatively stable or increased in recent years. Additionally, within all reef systems the condition of communities and their exposure to disturbances varied spatially. Identifying the communities least susceptible to future disturbances and linking them through networks of protected areas, based on patterns of larval connectivity, are important research and management priorities in coming years while the causes of climate change are addressed.

Published

2019

22. Optimizing industrial-scale coral reef restoration: comparing harvesting wild coral spawn slicks and transplanting gravid adult colonies

Author

Christopher Doropoulos, Mark van Koningsveld, Jesper Elzinga, Russell C. Babcock, and Remment ter Hofstede

Subjects

Fishery, geography, geography.geographical_feature_category, Ecology, Coral, Industrial scale, Transplanting, Coral reef, Biology, Spawn (biology), Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Published

2019

23. Effects of human footprint and biophysical factors on the body-size structure of fished marine species

Author

Alan Jordan, Neville S. Barrett, Jamie Hicks, Dianne L. McLean, Charlie Huveneers, Brooke A. Gibbons, Thomas Wernberg, Corey B. Wakefield, Leanne M. Currey-Randall, Russell C. Babcock, Néstor E. Bosch, Hamish A. Malcolm, David Harasti, Jordan Goetze, Ben Radford, Nathan A. Knott, Jacquomo Monk, Michelle R. Heupel, Stephen J. Newman, Matthew J. Rees, David V. Fairclough, Rebecca Fisher, Thomas H. Holmes, Mark G. Meekan, Tim J. Langlois, Daniel Ierodiaconou, Shaun K. Wilson, Euan S. Harvey, Jock Clough, Conrad W. Speed, Michael J. Travers, and Benjamin J. Saunders

Subjects

Seascape, Conservation of Natural Resources, Ecology, Range (biology), Coral reef fish, Marine reserve, Australia, Fisheries, Fishes, Fishery, Geography, Habitat, Abundance (ecology), Animals, Body Size, Humans, Marine protected area, Ecosystem, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Marine fisheries in coastal ecosystems in many areas of the world have historically removed large-bodied individuals, potentially impairing ecosystem functioning and the long-term sustainability of fish populations. Reporting on size-based indicators that link to food-web structure can contribute to ecosystem-based management, but the application of these indicators over large (cross-ecosystem) geographical scales has been limited to either fisheries-dependent catch data or diver-based methods restricted to shallow waters (20 m) that can misrepresent the abundance of large-bodied fished species. We obtained data on the body-size structure of 82 recreationally or commercially targeted marine demersal teleosts from 2904 deployments of baited remote underwater stereo-video (stereo-BRUV). Sampling was at up to 50 m depth and covered approximately 10,000 km of the continental shelf of Australia. Seascape relief, water depth, and human gravity (i.e., a proxy of human impacts) were the strongest predictors of the probability of occurrence of large fishes and the abundance of fishes above the minimum legal size of capture. No-take marine reserves had a positive effect on the abundance of fishes above legal size, although the effect varied across species groups. In contrast, sublegal fishes were best predicted by gradients in sea surface temperature (mean and variance). In areas of low human impact, large fishes were about three times more likely to be encountered and fishes of legal size were approximately five times more abundant. For conspicuous species groups with contrasting habitat, environmental, and biogeographic affinities, abundance of legal-size fishes typically declined as human impact increased. Our large-scale quantitative analyses highlight the combined importance of seascape complexity, regions with low human footprint, and no-take marine reserves in protecting large-bodied fishes across a broad range of species and ecosystem configurations.Las pesquerías marinas de los ecosistemas costeros en muchas áreas del mundo históricamente han removido a individuos de gran tamaño, potencialmente perjudicando el funcionamiento ambiental y la sostenibilidad a largo plazo de las poblaciones de peces. Los reportes sobre los indicadores basados en el tamaño que se vinculan con la estructura de la red alimenticia pueden contribuir al manejo basado en el ecosistema, aunque la aplicación de estos indicadores a grandes (inter-ecosistemas) escalas geográficas ha estado limitada a datos de captura dependientes de las pesquerías o métodos basados en el buceo restringidos a aguas someras (20 m), lo cual puede representar erróneamente la abundancia de peces de gran tamaño capturados para la pesca. Obtuvimos los datos de la estructura del tamaño corporal de 82 teleósteos marinos demersales focalizados por razones recreativas o comerciales tomados de 2,904 despliegues de video estéreo subacuático remoto con cebo (stereo-BRUV, en inglés). El muestreo se realizó hasta los 50 metros de profundidad y abarcó aproximadamente 10,000 km del talud continental de Australia. El relieve marino, la profundidad del agua y la gravedad humana (es decir, un indicador de los impactos humanos) fueron los pronosticadores más sólidos de la probabilidad de incidencia de los peces de gran tamaño y de la abundancia de peces por encima del tamaño legal mínimo de captura. Las reservas marinas de protección total tienen un efecto positivo sobre la abundancia de los peces que están por encima del tamaño legal, aunque el efecto varió según el grupo de especies. Como contraste, los peces de tamaño sublegal fueron pronosticados de mejor manera usando gradientes de la temperatura de la superficie marina (media y varianza). En las áreas con un impacto humano reducido, los peces de gran tamaño corporal tenían hasta tres veces mayor probabilidad de aparecer y los peces de tamaño legal eran aproximadamente cinco veces más abundantes. Para los grupos de especies conspicuas con afinidades contrastantes de hábitat, ambiente y biogeografía, la abundancia de peces de tamaño legal normalmente declinó conforme aumentó el impacto humano. Nuestros análisis cuantitativos a gran escala resaltan la importancia conjunta que tienen la complejidad marina, las regiones con una huella humana reducida y las reservas marinas de protección total para la protección de los peces de gran tamaño corporal en una extensa gama de especies y configuraciones ecosistémicas. Efectos de la Huella Humana y los Factores Biofísicos sobre la Estructura del Tamaño Corporal de Especies Marinas Capturadas para la Pesca.

Published

2021

24. Large-scale interventions may delay decline of the Great Barrier Reef

Author

David A. Westcott, Rebecca Gorton, Éva E. Plagányi, Scott A. Condie, Russell C. Babcock, Mark E. Baird, Roger Beeden, Cameron S. Fletcher, Daniel P. Harrison, Alistair J. Hobday, and Kenneth R. N. Anthony

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Coral bleaching, Coral, Science, Climate change, climate adaptation, 01 natural sciences, Great Barrier Reef, Solar radiation management, Reef, Research Articles, climate impacts, 0105 earth and related environmental sciences, geography, Ecology, Conservation, and Global Change Biology, Multidisciplinary, geography.geographical_feature_category, Flood myth, 010604 marine biology & hydrobiology, coral bleaching, Ocean acidification, Coral reef, meta-community model, Fishery, Environmental science, coral reef

Abstract

On the iconic Great Barrier Reef (GBR), the cumulative impacts of tropical cyclones, marine heatwaves and regular outbreaks of coral-eating crown-of-thorns starfish (CoTS) have severely depleted coral cover. Climate change will further exacerbate this situation over the coming decades unless effective interventions are implemented. Evaluating the efficacy of alternative interventions in a complex system experiencing major cumulative impacts can only be achieved through a systems modelling approach. We have evaluated combinations of interventions using a coral reef meta-community model. The model consisted of a dynamic network of 3753 reefs supporting communities of corals and CoTS connected through ocean larval dispersal, and exposed to changing regimes of tropical cyclones, flood plumes, marine heatwaves and ocean acidification. Interventions included reducing flood plume impacts, expanding control of CoTS populations, stabilizing coral rubble, managing solar radiation and introducing heat-tolerant coral strains. Without intervention, all climate scenarios resulted in precipitous declines in GBR coral cover over the next 50 years. The most effective strategies in delaying decline were combinations that protected coral from both predation (CoTS control) and thermal stress (solar radiation management) deployed at large scale. Successful implementation could expand opportunities for climate action, natural adaptation and socioeconomic adjustment by at least one to two decades.

Published

2021

25. Increased connectivity and depth improve the effectiveness of marine reserves

Author

Alan Jordan, Dianne L. McLean, Jock Clough, Jordan Goetze, Sasha K. Whitmarsh, Thomas H. Holmes, Nathan A. Knott, Stephen J. Newman, Eric A. Treml, Charlie Huveneers, Joachim Claudet, David Miller, Matthew J. Rees, Jacquomo Monk, Daniel Ierodiaconou, Hamish A. Malcolm, Conrad W. Speed, Michael J. Travers, Benjamin J. Saunders, Tim J. Langlois, Shaun K. Wilson, Michelle R. Heupel, Leanne M. Currey-Randall, Rebecca Fisher, Euan S. Harvey, Corey B. Wakefield, David V. Fairclough, Danny Brock, Néstor E. Bosch, Mark G. Meekan, Russell C. Babcock, Neville S. Barrett, David Harasti, Ben Radford, Kelsey E. Roberts, Centre National de la Recherche Scientifique (CNRS), Centre de recherches insulaires et observatoire de l'environnement (CRIOBE), Université de Perpignan Via Domitia (UPVD)-École pratique des hautes études (EPHE), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, Marine conservation, Conservation of Natural Resources, 010504 meteorology & atmospheric sciences, Oceans and Seas, Fishing, Biodiversity, Fisheries, marine reserve effectiveness, 010603 evolutionary biology, 01 natural sciences, marine conservation, sanctuaries, Abundance (ecology), Environmental Chemistry, Animals, Primary Research Article, 14. Life underwater, Ecosystem, marine reserve design, 0105 earth and related environmental sciences, General Environmental Science, Global and Planetary Change, Biomass (ecology), Ecology, Marine reserve, Australia, Fishes, 15. Life on land, Primary Research Articles, meta-analysis, Fishery, Habitat, meta‐analysis, [SDE]Environmental Sciences, fully protected areas, Environmental science, Marine protected area, marine protected areas

Abstract

Marine reserves are a key tool for the conservation of marine biodiversity, yet only ~2.5% of the world's oceans are protected. The integration of marine reserves into connected networks representing all habitats has been encouraged by international agreements, yet the benefits of this design has not been tested empirically. Australia has one of the largest systems of marine reserves, providing a rare opportunity to assess how connectivity influences conservation success. An Australia‐wide dataset was collected using baited remote underwater video systems deployed across a depth range from 0 to 100 m to assess the effectiveness of marine reserves for protecting teleosts subject to commercial and recreational fishing. A meta‐analytical comparison of 73 fished species within 91 marine reserves found that, on average, marine reserves had 28% greater abundance and 53% greater biomass of fished species compared to adjacent areas open to fishing. However, benefits of protection were not observed across all reserves (heterogeneity), so full subsets generalized additive modelling was used to consider factors that influence marine reserve effectiveness, including distance‐based and ecological metrics of connectivity among reserves. Our results suggest that increased connectivity and depth improve the aforementioned marine reserve benefits and that these factors should be considered to optimize such benefits over time. We provide important guidance on factors to consider when implementing marine reserves for the purpose of increasing the abundance and size of fished species, given the expected increase in coverage globally. We show that marine reserves that are highly protected (no‐take) and designed to optimize connectivity, size and depth range can provide an effective conservation strategy for fished species in temperate and tropical waters within an overarching marine biodiversity conservation framework., An Australia‐wide dataset was collected using baited remote underwater video systems deployed across a depth range from 0 to 100 m to assess the effectiveness of marine reserves for protecting fished species. A meta‐analytical comparison of 73 fished species within 91 marine reserves found that, on average, marine reserves had 28% greater abundance and 53% greater biomass of fished species compared to adjacent areas open to fishing. We show that marine reserves that are highly protected (no‐take) and designed to optimize connectivity, size and depth range can provide an effective conservation strategy for fished species in temperate and tropical waters.

Published

2021

26. Long-Term Acoustic Monitoring Reveals Site Fidelity, Reproductive Migrations, and Sex Specific Differences in Habitat Use and Migratory Timing in a Large Coastal Shark (Negaprion acutidens)

Author

Wayne Rochester, Russell C. Babcock, Damian P. Thomson, Michael D. E. Haywood, Richard D. Pillans, and Mathew A. Vanderklift

Subjects

0106 biological sciences, Stock assessment, lcsh:QH1-199.5, media_common.quotation_subject, Home range, Allopatric speciation, Ocean Engineering, spatial management, Aquatic Science, lcsh:General. Including nature conservation, geographical distribution, Oceanography, migration, 010603 evolutionary biology, 01 natural sciences, reproduction, Mating, lcsh:Science, Diel vertical migration, acoustic telemetry, media_common, Water Science and Technology, Global and Planetary Change, biology, 010604 marine biology & hydrobiology, habitat use, biology.organism_classification, Fishery, Habitat, Negaprion acutidens, lcsh:Q, Reproduction, movement

Abstract

Knowledge of the movement patterns of the lemon shark Negaprion acutidens is poor in contrast to the allopatric N. brevirostis. Using acoustic telemetry, we investigated daily (diel and tidal) and seasonal patterns in residency, fidelity, home range, habitat preference, and migratory patterns along the Ningaloo coast, Australia. Thirty eight adult N. acutidens were monitored for up 6.1 years (mean 2.5 y) with 19 animals detected for more than 3 years and 5 for more than 5 y. Approximately 50% of the tagged animals remained within 10 km of their tagging location for more than 12 months (average core home range of 1.7 km2). Surprisingly, residency of adults was greater than juveniles in this known nursery area. Adults showed a strong preference for lagoon habitats and moved into shallow nearshore habitats at high tide and at night. During winter months, female sharks shifted their core home range 0.45 km further offshore into deeper lagoon areas, a shift which is likely due to behavioral thermoregulation. Space use by males and females within core areas was asynchronous indicating sexual segregation by resident sharks. Both resident and non-resident sharks were detected up to 140 km away. These highly directional (southerly) and rapid movements (140 km in 2 days) were largely correlated with the parturition and mating periods with males departing 1–2 months earlier than females. In females, periodicity of migrations was variable with evidence of annual and biannual patterns. Negaprion acutidens are highly susceptible to over-fishing and movement data are essential to quantify spatio-temporal overlap with fisheries and assist with developing spatially explicit stock assessment models.

Published

2021

27. Coral larval recruitment in north-western Australia predicted by regional and local conditions

Author

Dirk Slawinski, Russell C. Babcock, Shaun K. Wilson, Andrew S. Hoey, Damian Thomson, Richard D. Evans, Ming Feng, Molly Moustaka, and Melanie Orr

Subjects

0106 biological sciences, Coral, Population, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Abundance (ecology), Animals, natural sciences, Marine ecosystem, education, Reef, Ecosystem, education.field_of_study, geography.geographical_feature_category, Ecology, Coral Reefs, 010604 marine biology & hydrobiology, fungi, technology, industry, and agriculture, General Medicine, Coral reef, Western Australia, biochemical phenomena, metabolism, and nutrition, Anthozoa, Pollution, Geography, Larva, Archipelago, Biological dispersal, geographic locations

Abstract

Understanding ecological processes that shape contemporary and future communities facilitates knowledge-based environmental management. In marine ecosystems, one of the most important processes is the supply of new recruits into a population. Here, we investigated spatiotemporal variability in coral recruitment at 15 reefs throughout the Dampier Archipelago, north-western Australia between 2015 and 2017 and identified the best environmental predictors for coral recruitment patterns over this period. Large differences in recruitment were observed among years with the average density of recruits increasing by 375% from 0.017 recruits cm−2 in 2015 to 0.059 recruits cm−2 in 2017. Despite differences in recruitment among years, the rank order of coral recruit density among reefs remained similar among years, suggesting that spatial variation in recruitment within the Dampier Archipelago is partly deterministic and predictable. The density of coral recruits was best explained by percent cover of live corals at both local (within 5 m) and meso-scales (within 15 km), water turbidity and an oceanographic model that predicted larval dispersal. The highest density of coral recruits (~0.13 recruits cm−2 or 37 recruits per tile) occurred on reefs within sub-regions (15 km) with greater than 35% coral cover, low to moderate turbidity (KD490 < 0.2) and moderate to high modelled predictions of larval dispersal. Our results demonstrate that broad-scale larval dispersal models, when combined with local metrics of percent hard coral cover and water turbidity, can reliably predict the relative abundance of coral recruits over large geographical areas and thus can identify hotspots of recruit abundance and potential recovery following environmental disturbances; information that is essential for effective management of coral reefs.

Published

2021

28. The oceanography and marine ecology of Ningaloo, a World Heritage Area

Author

Thomas H. Holmes, Richard D. Pillans, Anton D. Tucker, Claire B. Smallwood, Damian P. Thomson, Kelly Waples, Michael D. E. Haywood, Russell C. Babcock, Mathew A. Vanderklift, Anna K. Cresswell, Paul S. Lavery, Shaun K. Wilson, Ming Feng, and Peter Barnes

Subjects

Shore, geography, geography.geographical_feature_category, Seagrass, Oceanography, biology, Fringing reef, Global warming, Upwelling, Pelagic zone, Coral reef, biology.organism_classification, Reef

Abstract

The Ningaloo coast of north-western Australia (eastern Indian Ocean) hosts one of the world's longest and most extensive fringing coral reef systems, along with globally significant abundances of large marine fauna such as whale sharks. These characteristics – which have contributed to its inscription on the World Heritage list – exist because of the unique climatic, geomorphologic and oceanographic conditions. The region is hot and arid, so runoff of water from land is low, facilitating clear water that allows corals to grow close to the shore. The poleward-flowing Leeuwin Current is an important influence, bringing warm water and generally suppressing coastal upwelling. During the austral summer, strong southerly winds generate the equatorward-flowing Ningaloo Current on the inner shelf – this current facilitates sporadic upwelling events that enhance concentrations of nutrients, which in turn enhance pelagic primary productivity that supports the reef's biota. The coast has experienced several marine heatwaves since 2011 that have caused mortality of corals and probably seagrass, albeit relatively less than elsewhere along the coast. Wind-generated surface waves break over the fringing reef crest, causing cooling currents that tend to dampen warming – although this mechanism seems not to have prevented some areas from experiencing damaging heat, and corals in places that do not receive the wave-generated currents have experienced substantial mortality. Herbivores, from fish to green turtles, are abundant, and in the lagoon, extensive stands of large brown algae provide an important habitat for newly recruited fish. There has been a decline in abundance of some fish. Predictions of future pressures include a weaker but more variable Leeuwin Current and increased human use. The ability of Ningaloo's 144ecosystems to withstand growing pressures will depend partly on the rate and magnitude of global warming but also on actions that manage local pressures from increasing human use. These actions will rely on continued science to provide the evidence needed to identify the pressures, the changes they create and the ways that we can mitigate them.

Published

2020

29. Priority species to support the functional integrity of coral reefs

Author

Angus Thompson, Kenneth R. N. Anthony, Anthony J. Richardson, David G. Bourne, Pedro R. Frade, George Roff, Paul Groves, David Wachenfeld, Manuel González-Rivero, Line K. Bay, Dylan Horne, Sue-Ann Watson, Tries B. Razak, Juan-Carlos Ortiz, Dione J. Deaker, M. A.R.K. McCormick, Guillermo Diaz-Pulido, Genevieve Williams, Damien Burrows, Damien Weekers, Jessica Stella, Jason Vains, Lauric Thiault, Hannah Sheppard-Brennand, Roger Beeden, Mel Cowlishaw, Mia O. Hoogenboom, Donna Audas, Jesseca Carver, Russell C. Babcock, Peter J. Mumby, Andrew S. Hoey, Maria Byrne, Nicole S. Webster, Kennedy Wolfe, Michelle Dyer, University of Queensland [Brisbane], University of Algarve [Portugal], Great Barrier Reef Marine Park Authority (GBRMPA), Centre de recherches insulaires et observatoire de l'environnement (CRIOBE), Université de Perpignan Via Domitia (UPVD)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Excellence CORAIL (LabEX CORAIL), Université des Antilles (UA)-Institut d'écologie et environnement-Université de la Nouvelle-Calédonie (UNC)-Université de la Polynésie Française (UPF)-Université de La Réunion (UR)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-École pratique des hautes études (EPHE), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École des hautes études en sciences sociales (EHESS)-Université des Antilles et de la Guyane (UAG)-Institut de Recherche pour le Développement (IRD)

Subjects

0301 basic medicine, geography, geography.geographical_feature_category, Range (biology), business.industry, Environmental resource management, Marine reserve, Expert elicitation, Coral reef, 030108 mycology & parasitology, 15. Life on land, 03 medical and health sciences, Adaptive management, 030104 developmental biology, Ecosystem, 14. Life underwater, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, business, Reef, ComputingMilieux_MISCELLANEOUS, Apex predator

Abstract

Ecosystem-based management on coral reefs has historically focussed on biodiversity conservation through the establishment of marine reserves, but it is increasingly recognised that a subset of species can be key to the maintenance of ecosystem processes and functioning. Specific provisions for these key taxa are essential to biodiversity conservation and resilience-based adaptive management. While a wealth of literature addresses ecosystem functioning on coral reefs, available information covers only a subset of specific taxa, ecological processes and environmental stressors. What is lacking is a comparative assessment across the diverse range of coral reef species to synthesise available knowledge to inform science and management. Here we employed expert elicitation coupled with a literature review to generate the first comprehensive assessment of 70 taxonomically diverse and functionally distinct coral reef species from microbes to top predators to summarise reef functioning. Although our synthesis is largely through the lens of the Great Barrier Reef, Australia, a particularly data-rich system, it is relevant to coral reefs in general. We use this assessment to evaluate which taxa drive processes that maintain a healthy reef and whether management of these taxa is considered a priority (i.e. are they vulnerable?) or is feasible (i.e. can they be managed?). Scientific certainty was scored to weight our recommendations, particularly when certainty was low. We use five case studies to highlight critical gaps in knowledge that limit our understanding of ecosystem functioning. To inform the development of novel management strategies and research objectives, we identify taxa that support positive interactions and enhance ecosystem performance, including those where these roles are currently underappreciated. We conclude that current initiatives effectively capture many priority taxa but that there is significant room to increase opportunities for underappreciated taxa in both science and management to maximally safeguard coral reef functioning.

Published

2020

30. Relative efficacy of three approaches to mitigate Crown-of-Thorns Starfish outbreaks on Australia’s Great Barrier Reef

Author

Cameron S. Fletcher, David A. Westcott, Éva E. Plagányi, Russell C. Babcock, Morgan S. Pratchett, Mary C. Bonin, and Frederieke J. Kroon

Subjects

0106 biological sciences, Conservation of Natural Resources, Coral, Population Dynamics, Population, lcsh:Medicine, 010603 evolutionary biology, 01 natural sciences, Article, Starfish, Animals, lcsh:Science, education, Resilience (network), Reef, geography, education.field_of_study, Multidisciplinary, geography.geographical_feature_category, Ecology, biology, Conservation biology, Coral Reefs, 010604 marine biology & hydrobiology, lcsh:R, fungi, Australia, Acanthaster, Coral reef, Tropical ecology, biology.organism_classification, Fishery, Ocean sciences, Crown-of-thorns starfish, Predatory Behavior, Environmental science, lcsh:Q, Marine protected area

Abstract

Population outbreaks of Crown-of-Thorns Starfish (COTS; Acanthaster spp.) are a major contributor to loss of hard coral throughout the Indo-Pacific. On Australia’s Great Barrier Reef (GBR), management interventions have evolved over four COTS outbreaks to include: (1) manual COTS control, (2) Marine Protected Area (MPA) zoning, and, (3) water quality improvement. Here we evaluate the contribution of these three approaches to managing population outbreaks of COTS to minimize coral loss. Strategic manual control at sites reduced COTS numbers, including larger, more fecund and damaging individuals. Sustained reduction in COTS densities and improvements in hard coral cover at a site were achieved through repeated control visits. MPAs influenced initial COTS densities but only marginally influenced final hard coral cover following COTS control. Water quality improvement programs have achieved only marginal reductions in river nutrient loads delivered to the GBR and the study region. This, a subsequent COTS outbreak, and declining coral cover across the region suggest their contributions are negligible. These findings support manual control as the most direct, and only effective, means of reducing COTS densities and improving hard coral cover currently available at a site. We provide recommendations for improving control program effectiveness with application to supporting reef resilience across the Indo-Pacific.

Published

2020

31. Depth gradients drive changes in early successional community composition and associated coral larvae settlement interactions

Author

Christopher Doropoulos, Anna K. Cresswell, Melanie L. Trapon, Damian P. Thomson, Russell C. Babcock, and Joseph A. Turner

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Ecology, biology, Settlement (structural), 010604 marine biology & hydrobiology, Coral, Coralline algae, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Acroporidae, Algae, Juvenile, Crustose, Reef, Ecology, Evolution, Behavior and Systematics

Abstract

Depth gradients are known to drive patterns of adult and juvenile coral distribution, but the influence on early successional communities and subsequent interactions with coral larvae settlement are poorly understood. We studied how early successional communities changed across a 40 m depth gradient to test whether patterns of coral larvae settlement could be explained by changes in preferred settlement substrates. Light decreased 83-fold from 3 to 40 m, and coral settlement orientation switched from tile undersides at 3 and 8 m to tile topsides at 25 and 40 m as expected. Regardless of the reduction in light, community composition on the topsides of settlement tiles did not change across depths, being dominated by turf algae (49%), crustose coralline algae (CCA; 29%), and biofilmed tile (12%). In contrast, settlement tile undersides were dominated by coralline and fleshy algae at 3 m, transitioning to ascidians and bryozoans at 8 m and 25 m, and biofilmed tile (80%) at 40 m. Following multiple regression analysis from an initial 21 bio-physical variables (R2 = 0.34), the optimal reduced model for predicting coral settlement included just five variables and explained most of the variability (R2 = 0.29). CCA contributed an R2 of 0.14 to the model and was positively correlated with Acroporidae settlement, biofilmed tile contributed an R2 of 0.09 to the model and was negatively correlated with Acroporidae settlement, while the other predictors explained nominal model variance. As assessed using electivity indices, Acroporidae switched settlement preference from CCA at shallower depths to biofilmed tile in deeper environments. In addition to the influence of light on larval settlement behaviour as described in previous research, our results show that CCA also provide an important facilitator of coral settlement behaviour across depth gradients. However, as in shallow reefs environments, further work is required to elucidate whether changes occurring at a finer taxonomic resolution within the CCA community can help to further explain switches in coral larval settlement behaviour in light-limited environments.

Published

2020

32. Coral restoration - A systematic review of current methods, successes, failures and future directions

Author

Boze Hancock, Peter Harrison, Tali Vardi, Sebastian C. A. Ferse, Adam N. H. Smith, Daniela M. Ceccarelli, Margaux Y. Hein, Elisa Bayraktarov, Ian M. McLeod, Russell C. Babcock, Elizabeth C. Shaver, Phoebe J. Stewart-Sinclair, David J. Suggett, Lisa Boström-Einarsson, and Nathan Cook

Subjects

0106 biological sciences, Life Cycles, Conservation Biology, Coral, Marine and Aquatic Sciences, Reef Ecosystems, Surveys, 01 natural sciences, Larvae, Conservation Science, media_common, Multidisciplinary, geography.geographical_feature_category, Ecology, Coral Reefs, Environmental resource management, Coral reef, Research Assessment, Anthozoa, Habitat, Research Design, Corals, Conservation Genetics, Medicine, Psychological resilience, Research Article, Marine conservation, Conservation of Natural Resources, Climate Change, media_common.quotation_subject, Science, Climate change, Marine Biology, Research and Analysis Methods, 010603 evolutionary biology, Ecosystems, Genetics, Animals, Restoration ecology, Ecosystem, geography, Survey Research, business.industry, 010604 marine biology & hydrobiology, Ecology and Environmental Sciences, Endangered Species, Biology and Life Sciences, Conservation genetics, Reef ecosystems, Endangered species, Coral reefs, Earth Sciences, Reefs, Public trust, business, Developmental Biology

Abstract

Coral reef ecosystems have suffered an unprecedented loss of habitat-forming hard corals in recent decades. While marine conservation has historically focused on passive habitat protection, demand for and interest in active restoration has been growing in recent decades. However, a disconnect between coral restoration practitioners, coral reef managers and scientists has resulted in a disjointed field where it is difficult to gain an overview of existing knowledge. To address this, we aimed to synthesise the available knowledge in a comprehensive global review of coral restoration methods, incorporating data from the peer-reviewed scientific literature, complemented with grey literature and through a survey of coral restoration practitioners. We found that coral restoration case studies are dominated by short-term projects, with 60% of all projects reporting less than 18 months of monitoring of the restored sites. Similarly, most projects are relatively small in spatial scale, with a median size of restored area of 100 m2. A diverse range of species are represented in the dataset, with 229 different species from 72 coral genera. Overall, coral restoration projects focused primarily on fast-growing branching corals (59% of studies), and report survival between 60 and 70%. To date, the relatively young field of coral restoration has been plagued by similar ‘growing pains’ as ecological restoration in other ecosystems. These include 1) a lack of clear and achievable objectives, 2) a lack of appropriate and standardised monitoring and reporting and, 3) poorly designed projects in relation to stated objectives. Mitigating these will be crucial to successfully scale up projects, and to retain public trust in restoration as a tool for resilience based management. Finally, while it is clear that practitioners have developed effective methods to successfully grow corals at small scales, it is critical not to view restoration as a replacement for meaningful action on climate change.

Published

2020

33. Outbreak densities of the coral predator Drupella in relation to in situ Acropora growth rates on Ningaloo Reef, Western Australia

Author

M.D.E. Haywood, Damian P. Thomson, Cindy Bessey, and Russell C. Babcock

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, biology, Ecology, Range (biology), 010604 marine biology & hydrobiology, Coral, Coral reef, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Predation, Abundance (ecology), Acropora, Drupella, Reef

Abstract

Outbreaks of coral predators are defined as increases (often rapid) in their abundance above threshold densities that can be sustained by local coral assemblages, which in turn depends on the abundance and turnover of coral prey. To investigate the outbreak densities of the corallivorous gastropod Drupella cornus, we conducted both in situ feeding and coral growth experiments at Mandu reef within the Ningaloo Marine Park, Western Australia. Over two 10-day periods, we tagged and photographed feeding scars on colonies of the tabulate coral Acropora spicifera that harboured Drupella feeding aggregations. We calculated a mean in situ Drupella consumption rate of 1.16 ± 1.1 cm2 coral area individual−1 d−1. We also determined coral growth rates by tagging and photographing 24 colonies of Acropora spicifera at time zero and then again 1 year later. We calculated a mean linear extension rate of 7.9 ± 3.7 cm yr−1 for actively growing Acropora spicifera, which we then used to estimate A. spicifera growth rates over a range of coral cover values. This combination allowed us to determine the maximum number of Drupella that could be sustained across a range of coral cover. Our data suggest that the outbreak density of Drupella at the average level of coral cover for back reef sites at Mandu reef (17.6 ± 13.7%) is approximately 0.95 individuals m−2 reef area. At the maximum coral cover observed at Mandu reef (60%), the outbreak density of Drupella is estimated to be approximately 2.83 individuals m−2 reef area. Establishing Drupella outbreak densities assists managers in predicting possible outbreak abundances and in monitoring coral reef health.

Published

2018

34. Early recovery dynamics of turbid coral reefs after recurring bleaching events

Author

Nicole M. Ryan, Russell C. Babcock, Richard D. Evans, Rebecca Fisher, Peter Fearns, David Blakeway, Francois Dufois, Damian P. Thomson, Ryan J. Lowe, Shaun K. Wilson, Todd Bond, J. A. Stoddart, and Passang Dorji

Subjects

Environmental Engineering, Coral bleaching, Coral, Climate Change, 0208 environmental biotechnology, Climate change, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Dredging, Anthozoa, Animals, Waste Management and Disposal, Reef, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, biology, Coral Reefs, Global warming, Fishes, General Medicine, Coral reef, biology.organism_classification, Seaweed, 020801 environmental engineering, Oceanography, Environmental science

Abstract

The worlds' coral reefs are declining due to the combined effects of natural disturbances and anthropogenic pressures including thermal coral bleaching associated with global climate change. Nearshore corals are receiving increased anthropogenic stress from coastal development and nutrient run-off. Considering forecast increases in global temperatures, greater understanding of drivers of recovery on nearshore coral reefs following widespread bleaching events is required to inform management of local stressors. The west Pilbara coral reefs, with cross-shelf turbidity gradients coupled with a large nearby dredging program and recent history of repeated coral bleaching due to heat stress, represent an opportune location to study recovery from multiple disturbances. Mean coral cover at west Pilbara reefs was monitored from 2009 to 2018 and declined from 45% in 2009 to 5% in 2014 following three heat waves. Recruitment and juvenile abundance of corals were monitored from 2014 to 2018 and were combined with biological and physical data to identify which variables enhanced or hindered early-stage coral recovery of all hard corals and separately for the acroporids, the genera principally responsible for recovery in the short-term (

Published

2019

35. AUV-based classification of benthic communities of the Ningaloo shelf and mesophotic areas

Author

Russell C. Babcock, Renae Hovey, Gary A. Kendrick, and Joseph A. Turner

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Continental shelf, 010604 marine biology & hydrobiology, Coral, Biota, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Substrate (marine biology), Oceanography, Benthic zone, Environmental science, Ecosystem, Bathymetry, Invertebrate

Abstract

Despite a growing understanding of the importance of mesophotic ecosystems, they remain relatively unexplored globally, and particularly in the Indian Ocean. The composition of benthic communities of the Ningaloo Marine Park in deeper water (> 20 m) was determined using autonomous underwater vehicles (AUVs). Environmental variables collected by the AUVs as well as geomorphological variables derived from high-resolution multibeam bathymetry were used to explain the distribution of these communities. Imagery was classified for benthic biota, and non-hierarchical k-means clustering was used to identify community groups. Overall, 12 community groups were identified which fell into three broad categories: (1) coral-dominated, (2) CCA-dominated; and (3) macroalgae- and filter-feeder-dominated. Specific deeper water communities (> 50 m) were characterised by the presence of sponges or other non-photosynthetic filter feeders. Corals were confined to depths

Published

2018

36. Depth-related patterns in coral recruitment across a shallow to mesophotic gradient

Author

Russell C. Babcock, Joseph A. Turner, Melanie L. Trapon, Anna K. Cresswell, and Damian P. Thomson

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010604 marine biology & hydrobiology, Coral, fungi, technology, industry, and agriculture, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Scuba diving, Indian ocean, Oceanography, Abundance (ecology), Coral cover, Larval behaviour, Spatial ecology, population characteristics, natural sciences, Reef, geographic locations, Geology

Abstract

There is currently very limited information around the spatial patterns of coral recruitment at mesophotic depths globally. This study investigated depth-related differences in coral recruitment patterns from shallow (~ 3 m) to mesophotic depths (~ 40 m) in the Indian Ocean. A new method is described for assessing coral recruitment, which allows for the improved study of recruitment patterns on deep reefs globally, as the method does not require SCUBA diving. This method allows for comparisons with other studies as there appears to be no influence on the density, composition, or settlement orientation of recruits relative to the most commonly used methods. Using this method, we investigated coral recruitment at Ningaloo Reef, Western Australia, finding the abundance of coral recruits varied significantly with depth and was highest at 25 m. The size of coral recruits changed significantly with depth, with larger recruits observed in shallower areas (3 and 8 m) than in deep areas. Distinct changes in settlement densities on tile surfaces occurred with increasing depth, with a shift to upper tile surfaces between 8 and 25 m, where the proportion of recruits increased from 10.72 to 87.69%, respectively. Overall counts of recruits were low, with minimal recruitment at the deepest sites and moderate but significant correlations between recruit numbers and hard coral cover were observed. This suggests that variations in larval supply, potentially coupled with larval behaviour and local-scale influences, limit exchange of larvae between depths and locations. This is consistent with genetic studies that show limited exchange between shallow and mesophotic reefs and points to a limited potential for mesophotic reefs to act as a source of larvae for impacted shallow reefs.

Published

2018

37. Can single classifiers be as useful as model ensembles to produce benthic seabed substratum maps?

Author

Renae Hovey, Russell C. Babcock, Joseph A. Turner, and Gary A. Kendrick

Subjects

0106 biological sciences, Majority rule, 010504 meteorology & atmospheric sciences, business.industry, 010604 marine biology & hydrobiology, Word error rate, Pattern recognition, Aquatic Science, Oceanography, 01 natural sciences, Random forest, Naive Bayes classifier, Benthic zone, Artificial intelligence, business, Classifier (UML), Kappa, Seabed, 0105 earth and related environmental sciences, Mathematics

Abstract

Numerous machine-learning classifiers are available for benthic habitat map production, which can lead to different results. This study highlights the performance of the Random Forest (RF) classifier, which was significantly better than Classification Trees (CT), Naive Bayes (NB), and a multi-model ensemble in terms of overall accuracy, Balanced Error Rate (BER), Kappa, and area under the curve (AUC) values. RF accuracy was often higher than 90% for each substratum class, even at the most detailed level of the substratum classification and AUC values also indicated excellent performance (0.8–1). Total agreement between classifiers was high at the broadest level of classification (75–80%) when differentiating between hard and soft substratum. However, this sharply declined as the number of substratum categories increased (19–45%) including a mix of rock, gravel, pebbles, and sand. The model ensemble, produced from the results of all three classifiers by majority voting, did not show any increase in predictive performance when compared to the single RF classifier. This study shows how a single classifier may be sufficient to produce benthic seabed maps and model ensembles of multiple classifiers.

Published

2018

38. Continental-scale animal tracking reveals functional movement classes across marine taxa

Author

Elodie J. I. Lédée, Michelle R. Heupel, Fabrice R. A. Jaine, Charlie Huveneers, Russell C. Babcock, Hamish A. Campbell, Daniel C. Gledhill, Vinay Udyawer, Matthew D. Taylor, Colin A. Simpfendorfer, Xavier Hoenner, Stephanie Brodie, and Robert Harcourt

Subjects

0106 biological sciences, 0301 basic medicine, Behavioural ecology, Animal Scales, lcsh:Medicine, Information repository, 010603 evolutionary biology, 01 natural sciences, Article, 03 medical and health sciences, Telemetry, Redundancy (engineering), Animals, Cluster Analysis, lcsh:Science, Ecosystem, Functional movement, Multidisciplinary, Ecology, Conservation biology, lcsh:R, Ranging, 030104 developmental biology, Geography, Taxon, Hydrophone array, lcsh:Q, Animal Distribution, Cartography

Abstract

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/., Acoustic telemetry is a principle tool for observing aquatic animals, but coverage over large spatial scales remains a challenge. To resolve this, Australia has implemented the Integrated Marine Observing System’s Animal Tracking Facility which comprises a continental-scale hydrophone array and coordinated data repository. This national acoustic network connects localized projects, enabling simultaneous monitoring of multiple species over scales ranging from 100 s of meters to 1000 s of kilometers. There is a need to evaluate the utility of this national network in monitoring animal movement ecology, and to identify the spatial scales that the network effectively operates over. Cluster analyses assessed movements and residency of 2181 individuals from 92 species, and identified four functional movement classes apparent only through aggregating data across the entire national network. These functional movement classes described movement metrics of individuals rather than species, and highlighted the plasticity of movement patterns across and within populations and species. Network analyses assessed the utility and redundancy of each component of the national network, revealing multiple spatial scales of connectivity influenced by the geographic positioning of acoustic receivers. We demonstrate the significance of this nationally coordinated network of receivers to better reveal intra-specific differences in movement profiles and discuss implications for effective management.

Published

2018

39. Gradients of disturbance and environmental conditions shape coral community structure for south-eastern Indian Ocean reefs

Author

Shaun K. Wilson, Stuart N. Field, Cordelia H. Moore, Marji Puotinen, Jens Zinke, Rebecca Fisher, Jean-Paul A. Hobbs, Tim R. McClanahan, Michael Stat, Emily S. Darling, Joseph Maina, James P. Gilmour, Zoe T. Richards, Ming Feng, George Shedrawi, Russell C. Babcock, Maria Beger, Nicholas A. J. Graham, and Scott N. Evans

Subjects

0106 biological sciences, Disturbance (geology), geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Coral bleaching, Ecology, 010604 marine biology & hydrobiology, Fringing reef, Biodiversity, Foundation (engineering), Climate change, 01 natural sciences, Oceanography, Geography, Conservation biology, Reef, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Aim To describe, model and assess the relative importance of environmental and climatic factors likely influencing the regional distribution of coral cover and assemblages with contrasting life histories and susceptibilities to bleaching. Location We compiled the first comprehensive empirical dataset for coral communities in the south-eastern Indian Ocean (SEIO), incorporating information from 392 sites along the western coast of Australia and offshore atolls/islands across ~19° of latitude. Methods We assessed hard coral cover and community composition to genus using point-intercept transects or point-count analysis of digital images taken along transects. We explored spatial variation in environmental conditions and in composition of corals with contrasting life histories. After de-trending the temporal patterns, we assessed the relative importance of environmental metrics to coral cover, life histories and bleaching susceptibility using a full subsets model-selection approach with generalized additive mixed models, accounting for both temporal and among site variation. Results The distribution of temperature, light, the frequency of temperature anomalies and tropical cyclones appear to be drivers of coral community structure. Functional diversity of low- to mid-latitude coral communities may convey some resilience to thermal stress, while higher latitude communities dominated by Competitive and Bleaching-Susceptible taxa may lack this functional resilience. These patterns likely reflect varying historical exposure to cyclones and temperature anomalies. Main conclusions As evident in recent years, changing background conditions and regimes of disturbance in coming decades will shift the distribution, functional diversity and resilience of coral reefs throughout the SEIO. The rate and magnitude of environmental change will ultimately determine the future of the tropical reefs and whether the higher latitude reefs provide some refuge from climate change. Our study highlights the need to quantify the distributional properties of key environmental metrics to better understand and predict reef condition through coming decades.

Published

2018

40. Exploring variable patterns of density-dependent larval settlement among corals with distinct and shared functional traits

Author

Christopher Doropoulos, Russell C. Babcock, and Luis A. Gómez-Lemos

Subjects

0106 biological sciences, geography, food.ingredient, geography.geographical_feature_category, biology, Ecology, Settlement (structural), 010604 marine biology & hydrobiology, Coral, Coralline algae, Coral reef, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, food, Goniastrea retiformis, Acropora digitifera, Acropora, Goniastrea

Abstract

Coral settlement is a key process for the recovery and maintenance of coral reefs, yet interspecific variations in density-dependent settlement are unknown. Settlement of the submassive Goniastrea retiformis and corymbose Acropora digitifera and A. millepora was quantified at densities ranging from 1 to 50 larvae per 20 mL from 110 to 216 h following spawning. Settlement patterns were distinct for each species. Goniastrea settlement was rapid and increased linearly with time, whereas both Acropora spp. hardly settled until crustose coralline algae was provided. Both Goniastrea and A. digitifera showed positive density-dependent settlement, but the relationship was exponential for Goniastrea but linear for A. digitifera. Settlement was highest but density independent in A. millepora. Our results suggest that larval density can have significant effects on settler replenishment, and highlight variability in density-dependent settlement among corals with distinct functional traits as well as those with similar functional forms.

Published

2017

41. Aggregation, Allee effects and critical thresholds for the management of the crown-of-thorns starfish Acanthaster planci

Author

Russell C. Babcock, Jacob G. D. Rogers, and Éva E. Plagányi

Subjects

0106 biological sciences, Ecology, biology, Reproductive success, 010604 marine biology & hydrobiology, Starfish, Acanthaster, Aquatic Science, biology.organism_classification, Polyspermy, 010603 evolutionary biology, 01 natural sciences, symbols.namesake, Crown-of-thorns starfish, symbols, Biological dispersal, Ecology, Evolution, Behavior and Systematics, Fertilisation, Allee effect

Abstract

We investigated how density and aggregation influence crown-of-Thorns starfish Acanthaster planci reproductive success, using an empirically-Tuned, individual-based simulation model that incorporates spatial and temporal biological stochasticity associated with spawning, and a kinetics model of fertilisation that explicitly incorporates the probability of polyspermy. Greater aggregation of individuals relieved Allee fertilisation dynamics, particularly at low densities, leading to higher rates of successful monospermic fertilisation and allowing populations to produce many more zygotes. This is likely more important to smaller, rather than larger, populations, due to limited and more variable reproductive success. In higher density populations a fertilisation optimum was observed at moderate levels of aggregation, above which monospermic fertilisation plateaued or even declined. This was likely due to 2 factors: The spatial dynamics of gamete plume dispersal and polyspermic fertilisation. Comparison of in situ natural spawning aggregation with model results indicates a cost-benefit equilibrium may exist between aggregation and reproductive success, and that relief from mechanisms limiting aggregation (for example, decreased relative predator abundance) may permit increased aggregation resulting in greater fertilisation and zygote production. We propose an Allee threshold of 3 starfish ha-1 (for starfish of a mean diameter 345 mm), below which reproductive capacity is greatly reduced regardless of aggregation level. These preliminary findings posit aggregation as a key factor in outbreak formation that may feasibly be incorporated into preventative management strategies to detect and define incipient outbreak conditions and to mitigate subsequent risk.

Published

2017

42. Deep thinking: a systematic review of mesophotic coral ecosystems

Author

Gary A. Kendrick, Russell C. Babcock, Joseph A. Turner, and Renae Hovey

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Ecology, biology, 010604 marine biology & hydrobiology, Coral, Climate change, Coral reef, Aquatic Science, Stylophora pistillata, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Great barrier reef, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Mesophotic coral ecosystems (MCEs) occur at depths beyond those typically associated with coral reefs. Significant logistical challenges associated with data collection in deep water have resulted in a limited understanding of the ecological relevance of these deeper coral ecosystems. We review the trends in this research, covering the geographic spread of MCE research, the focus of these studies, the methods used, how MCEs differ in terms of species diversity and begin to assess connectivity of coral populations. Clear locational biases were observed, with studies concentrated in a few discrete areas mainly around the Atlantic region. The focus of MCE studies has diversified in recent years and more detailed aspects of MCE ecology are now being investigated in particular areas of research. Advances in technology are also reflected in the current range of research, with a wider variety of methods now employed. However, large information gaps are present in entire regions and particularly in relation to the threats, impacts and subsequent management of MCEs. Analysis of species diversity shows that initial definitions based on depth alone may not be appropriate globally, while further taxonomic resolution may also be required to deduce the full biodiversity of major groups in certain regions. Genetic studies to date show species-specific results, although distinct deeper populations do appear to exist, which raises questions regarding the potential of MCEs to act as refugia.

Published

2017

43. Limited effects of an extreme flood event on corals at Ningaloo Reef

Author

Russell C. Babcock, Monique G. G. Grol, John K. Keesing, Kevin P. Bancroft, Michael D. E. Haywood, Hector Lozano-Montes, and Mathew A. Vanderklift

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, 010604 marine biology & hydrobiology, Coral, Sediment, Aquatic Science, Oceanography, biology.organism_classification, 01 natural sciences, Plume, Algae, Benthic zone, Acropora, Transect, Reef, Geology, 0105 earth and related environmental sciences

Abstract

In late April 2014 Ningaloo Reef was exposed to significant freshwater and sediment outflow following an extreme rainfall event (>200 mm in 48 h). It produced a plume of brown water of 9.63 km 2 that was present two days after the rainfall event. The extent of the plume decreased by 55.9% within ten days. Benthic surveys were conducted at eight sites at Ningaloo (three of them within the plume and five outside the plume) using 25 m line transects to assess the percentage cover of all major benthic organisms, including hard corals, soft corals, algae and turf algae. Results from a survey done in May 2014 (approximately one month after the flooding) were compared with one done in March 2014 (before the extreme rainfall event). Corals from the genus Acropora were the dominant species in the coral assemblages surveyed. Our results indicate that percentage cover of Acropora did not vary significantly between sites inside and outside of the plume, but percentage cover of non- Acropora coral varied significantly among plume and non-plume sites. Both patterns were present before the flood. The results show that the flood-induced plumes caused limited damage to the coral along this part of Ningaloo Reef.

Published

2017

44. Differential response to abiotic stress controls species distributions at biogeographic transition zones

Author

Maria Beger, Peter Harrison, Brigitte Sommer, John M. Pandolfi, and Russell C. Babcock

Subjects

0106 biological sciences, Ecology, Range (biology), Abiotic stress, 010604 marine biology & hydrobiology, Beta diversity, Biodiversity, Biology, 010603 evolutionary biology, 01 natural sciences, Abundance (ecology), Nestedness, Alpha diversity, Species richness, Ecology, Evolution, Behavior and Systematics

Abstract

Understanding range limits is critical to predicting species responses to climate change. Subtropical environments, where many species overlap at their range margins, are cooler, more light-limited and variable than tropical environments. It is thus likely that species respond variably to these multi-stressor regimes and that factors other than mean climatic conditions drive biodiversity patterns. Here, we tested these hypotheses for scleractinian corals at their high-latitude range limits in eastern Australia and investigated the role of mean climatic conditions and of parameters linked to abiotic stress in explaining the distribution and abundance of different groups of species. We found that environmental drivers varied among taxa and were predominantly linked to abiotic stress. The distribution and abundance of tropical species and gradients in species richness (alpha diversity) and turnover (beta diversity) were best explained by light limitation, whereas minimum temperatures and temperature fluctuations best explained gradients in subtropical species, species nestedness and functional diversity. Variation in community structure (considering species composition and abundance) was most closely linked to the combined thermal and light regime. Our study demonstrates the role of abiotic stress in controlling the distribution of species towards their high-latitude range limits and suggests that, at biogeographic transition zones, robust predictions of the impacts of climate change require approaches that account for various aspects of physiological stress and for species abundances and characteristics. These findings support the hypothesis that abiotic stress controls high-latitude range limits and caution that projections solely based on mean temperature could underestimate species’ vulnerabilities to climate change.

Published

2017

45. Ocean circulation drives heterogeneous recruitments and connectivity among coral populations on the North West Shelf of Australia

Author

Ming Feng, Frank Colberg, Oliver Berry, Russell C. Babcock, and Dirk Slawinski

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Coral, Ocean current, Coral reef, Aquatic Science, Oceanography, biology.organism_classification, Monsoon, 010603 evolutionary biology, 01 natural sciences, Acropora millepora, Archipelago, Spatial variability, Reef, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences

Abstract

The North West Shelf (NWS) of Australia features extensive and globally significant fringing coral reef ecosystems with high levels of endemism and consequently has received significant conservation efforts in the form of Marine Parks. The shelf circulation on the NWS is dominated by the southwestward-flowing Holloway Current during austral autumn–winter and by the northeastward monsoonal currents during austral summer. Intraseasonal Oscillation and short-term wind variability also influence advection processes on the NWS. These circulation processes are likely to determine demographic inter-dependencies among reef systems in the region, but the extent and spatial variability of the inter-dependence are not well understood. In this study, we used a 3-dimensional, hydrostatic, primitive equations model, to simulate the shelf circulation on the NWS at 1 km horizontal resolution during 2004–2009. We then used a particle tracking model based on the shelf circulation model to simulate larval dispersal in a representative coral species, Acropora millepora, among the 3430 coral reefs on the NWS during its autumn mass spawning. Model results predicted that settling larvae typically reach suitable reef within 10 days of spawning, with a predominantly southwestward tendency of transport. There was significant spatial heterogeneity in larval settlements and the Dampier Archipelago areas seemed to be more isolated from the rest of the NWS. Year-to-year variations of larval dispersals were sensitive to the seasonal and intraseasonal variations of alongshore winds: mass spawning in late March would expose the Dampier Archipelago area to the Holloway Current onset, resulting in it being an occasional source region of larval supply for the rest of the NWS to the southwest; intraseasonal northeastward wind pulses coinciding with the mass larval spawning would bring larvae from coastal regions to the Dampier Archipelago on rare occasions. By aggregating the reefs into 47 subregions, we estimated that the mean rate of self-seeding within the subregions (as a proportion of total supply) was 22% (range from 99% to

Published

2016

46. Setting priorities for conservation at the interface between ocean circulation, connectivity, and population dynamics

Author

Mathew A. Vanderklift, Damian P. Thomson, Fabio Boschetti, Oliver Berry, Christopher Doropoulos, Ming Feng, Dirk Slawinski, and Russell C. Babcock

Subjects

0106 biological sciences, Conservation of Natural Resources, Oceans and Seas, Population Dynamics, Population, Climate change, 010603 evolutionary biology, 01 natural sciences, Ecosystem model, Animals, Humans, education, Reef, Ecosystem, geography, education.field_of_study, geography.geographical_feature_category, Ecology, Coral Reefs, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, Australia, Coral reef, Anthozoa, Network dynamics, Ecological network, Biological dispersal, Environmental science, business

Abstract

Population persistence in the marine environment is driven by patterns of ocean circulation, larval dispersal, ecological interactions, and demographic rates. For habitat-forming organisms in particular, understanding the relationship between larval connectivity and meta-population dynamics aids in planning for marine spatial management. Here, we estimate networks of connectivity between fringing coral reefs in the northwest shelf of Australia by combining a particle tracking model based on shelf circulation with models of subpopulation dynamics of individual reefs. Coral cover data were used as a proxy for overall habitat quality, which can change as a result of natural processes, human-driven impacts, and management initiatives. We obtain three major results of conservation significance. First, the dynamics of the ecological network result from the interplay between network connectivity and ecological processes on individual reefs. The maximum coral cover a zone can sustain imposes a significant nonlinearity on the role an individual reef plays within the dynamics of the network, and thus on the impact of conservation interventions on specific reefs. Second, the role of an individual reef within these network dynamics changes considerably depending on the overall state of the system: a reef's role in sustaining the system's state can be different from the same reef's role in helping the system recover following major disturbance. Third, patterns of network connectivity change significantly as a function of yearly shelf circulation trends, and nonlinearity in network dynamics make mean connectivity a poor representation of yearly variations. From a management perspective, the priority list of reefs that are targets for management interventions depends crucially on what type of stressors (system-wide vs. localized) need addressing. This choice also depends not only on the ultimate purpose of management, but also on future oceanographic, climate change, and development scenarios that will determine the network connectivity and habitat quality.

Published

2019

47. Testing Industrial-Scale Coral Restoration Techniques

Author

Christopher Doropoulos, Focco Vons, Jesper Elzinga, Remment ter Hofstede, Kinam Salee, Mark van Koningsveld, and Russell C. Babcock

Subjects

0106 biological sciences, lcsh:QH1-199.5, 010504 meteorology & atmospheric sciences, Coral, coral-spawn slick, Ocean Engineering, lcsh:General. Including nature conservation, geographical distribution, Aquatic Science, Oceanography, 01 natural sciences, Dredging, Aquaculture, Great Barrier Reef, marine invertebrate larvae, lcsh:Science, Reef, coral reef restoration, harvest, reseeding, 0105 earth and related environmental sciences, Water Science and Technology, Global and Planetary Change, geography, geography.geographical_feature_category, biology, business.industry, 010604 marine biology & hydrobiology, eco-engineering, Coral reef, biology.organism_classification, Ecological engineering, Fishery, Seagrass, aquaculture, Field trial, Environmental science, lcsh:Q, business

Abstract

Accelerating the recovery of marine coastal ecosystems is a global challenge that has been attempted on many systems around the world. Restoration efforts have shown varying levels of success at localized-scales, but developing techniques for large-scale application are still in their nascent stage for many systems. For seagrass meadows and marsh plants, large-scale successes have been realized by distributing seeds from moving boats or planes, respectively. Similarly for coral reefs, the harvesting, culturing and releasing of wild coral-spawn slicks to targeted reefs is anticipated to achieve cost-efficient, large-scale restoration of coral communities with low-impact technology. Yet, operational protocols for full-scale application still require development by practitioners. In this study we conducted a field trial to evaluate the actual feasibility of harvesting wild coral-spawn slicks for large-scale restoration activities, incorporating technologies used in oil spill remediation, dredging operations, and land-based aquaculture. Testing the potential for scalability to commercial vessels, our trial focused on concentrating and collecting wild coral-spawn slicks for culturing until settlement competency using an experimental 50,000 L aquaculture facility built on a tugboat. Five objectives were set and all were achieved successfully, with only one requiring further optimization. Overall, this restoration approach allows for long-distance translocation of genetically diverse coral assemblages, and may be combined with other larval conditioning techniques that are being developed to increase the resistance to stress and survival of coral recruits. Most importantly, it is fully scalable to produce billions of coral larvae for delivery to target reefs, with negligible impact to source populations.

Published

2019

48. Biology and Ecology of the Globally Significant Kelp Ecklonia radiata

Author

Thomas Wernberg, Peter D. Steinberg, Melinda A. Coleman, Adriana Vergés, Jeffrey T. Wright, Sahira Y. Bell, Catriona L. Hurd, Mads S. Thomsen, Nick T. Shears, Ezequiel M. Marzinelli, Craig R. Johnson, Russell C. Babcock, John J. Bolton, Mathew A. Vanderklift, and Sean D. Connell

Subjects

Abiotic component, biology, Environmental change, Resistance (ecology), Ecology, Radiata, Kelp, Biodiversity, Ecklonia, Ecklonia radiata, biology.organism_classification

Abstract

Ecklonia radiata is a globally widespread kelp, dominating temperate reefs throughout the southern hemisphere. Throughout much of its range it is the only laminarian kelp and hence plays a key role in facilitating biodiversity and driving food webs, and underpins immense ecological and socioeconomic values. This review synthesises the growing literature on E. radiata from its phylogeny and distribution through to its biology, ecology and recent changes. It provides an assessment of the state of knowledge and identifies gaps in our understanding of this important species. Despite being tolerant to a wide range of abiotic conditions, recent environmental change has caused direct and indirect loss of E. radiata forests, with extensive areas transitioning to turf and urchin barrens. Ongoing climate change may require application of multi-faceted and novel strategies to increase resistance and resilience to future conditions. By integrating variation across space, time and environmental change, this review provides a synthesis of the current status and possible future trajectories of E. radiata forests.

Published

2019

49. Severe Continental-Scale Impacts of Climate Change Are Happening Now: Extreme Climate Events Impact Marine Habitat Forming Communities Along 45% of Australia’s Coast

Author

Richard J. Matear, Derek J. Fulton, Anthony J. Richardson, Éva E. Plagányi, Russell C. Babcock, Elizabeth A. Fulton, Rodrigo H. Bustamante, Michael D. E. Haywood, Robert A. Kenyon, Alistair J. Hobday, and Mathew A. Vanderklift

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, lcsh:QH1-199.5, Coral bleaching, seagrass, Climate change, Ocean Engineering, Subtropics, lcsh:General. Including nature conservation, geographical distribution, Aquatic Science, Oceanography, 01 natural sciences, extreme climate events, Temperate climate, Marine ecosystem, lcsh:Science, coral, 0105 earth and related environmental sciences, Water Science and Technology, mangrove, Global and Planetary Change, biology, kelp, Ecology, 010604 marine biology & hydrobiology, Marine habitats, biology.organism_classification, Kelp forest, Geography, Seagrass, marine heat wave, lcsh:Q

Abstract

Recent increases in the frequency of Extreme Climate Events (ECEs) such as heatwaves and floods have been attributed to climate change, and could have pronounced ecosystem and evolutionary impacts because they provide little opportunity for organisms to acclimate or adapt. Here we synthesize information on a series of ECEs in Australia from 2011-2017 that led to well-documented, abrupt and extensive mortality of key marine habitat-forming organisms – corals, kelps, seagrasses and mangroves – along nearly more than 45% of the continental coastline of Australia. Coral bleaching occurred across much of northern Australia due to marine heatwaves affecting different regions in 2011, 2013, 2016 and 2017, while seagrass was impacted by anomalously high rainfall events in 2011 on both east and west tropical coasts. A marine heatwave off western Australia during the 2011 La Nina extended into temperate and subtropical regions, causing widespread mortality of kelp forests and seagrass communities at their northern distribution limits. Mangrove forests experienced high mortality during the 2016 El Nino across coastal areas of northern and north-western Australia due to severe water stress driven by drought and anomalously low mean sea levels. This series of ECEs reflects a variety of different events – marine heatwaves, intense rainfall from tropical storms, and drought. Their repeated occurrence and wide extent are consistent with projections of increased frequency and intensity of ECEs, and have broad implications elsewhere because similar trends are predicted globally. The unprecedented and widespread nature of these ECE impacts has likely produced substantial ecosystem-wide repercussions. Predictions from ecosystem models suggest that the widespread mortality of habitat-forming taxa will have long-term and in some cases irreversible consequences, especially if they continue to become more frequent or severe. The abrupt ecological changes that are caused by ECEs could have greater long-term impacts than slower warming that leads to gradual reorganisation and possible evolution and adaptation. ECEs are an emerging threat to marine ecosystems, and will require better seasonal prediction and mitigation strategies.

Published

2019

50. Crown-of-thorns starfish impede the recovery potential of coral reefs following bleaching

Author

Richard D. Evans, M.D.E. Haywood, A. Donovan, Margaret Miller, George Shedrawi, Richard D. Pillans, Wayne Rochester, John K. Keesing, Damian P. Thomson, Russell C. Babcock, and Stuart N. Field

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Ecology, biology, 010604 marine biology & hydrobiology, Coral, Starfish, Acanthaster, Coral reef, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Fishery, Crown-of-thorns starfish, Bioregion, Food supply, Ecology, Evolution, Behavior and Systematics

Abstract

High densities of the corallivorous crown-of-thorns starfish (CoTS; Acanthaster sp.) have occurred throughout the Indo-Pacific often resulting in widespread coral loss. Whilst CoTS have previously been recorded at Barrow and the Montebello Islands, in the Pilbara offshore bioregion of northwestern Australia, their densities were relatively low. Outbreak densities of CoTS have been described as the level at which the rate of coral consumption by the starfish is equal to or greater than rate at which the coral grows. In 2014, we recorded densities as high as 320 ± 58 CoTS ha−1 in the region which is well above recognised outbreak densities. Whilst there is little terrestrial runoff and agriculture in the Pilbara region, both temperature and chlorophyll-α levels appear to be sufficient to allow a high degree of CoTS larval success in most years. The region was subjected to anomalously high water temperatures during the summers of 2010–2011 and particularly 2012–2013 which resulted in the mortality of almost 70% of live coral. We hypothesise that the high densities of CoTS observed are a result of CoTS responding to a reduced food supply and aggregating around the remaining live coral resulting in outbreak densities rather than a significant increase in the number of CoTS in the area. The small amount of remaining live coral is concentrated in a few areas and this, combined with high densities of CoTS in these areas, suggest that CoTS represent a significant threat to the recovery of the coral communities of the region.

Published

2019