Editorial Material
Biodiversity Conservation
Meryl F. Larkin, David Harasti, Tom R. Davis, Stephen D. A. Smith
Article
Marine & Freshwater Biology
Meryl F. Larkin, Tom R. Davis, David Harasti, Gwenael Cadiou, Davina E. Poulos, Stephen D. A. Smith
Summary: The Endangered soft coral Dendronephthya australis in the central coast region of New South Wales, Australia, is rapidly declining, possibly due to sediment mobilisation, complex hydrodynamics, and human activities. Remaining aggregations are vulnerable to fishing, boating impacts, and severe storm events.
ESTUARINE COASTAL AND SHELF SCIENCE
(2021)
Article
Biodiversity Conservation
Tom R. Davis, Curtis Champion, Melinda A. Coleman
Summary: By considering the ecological interactions between kelp and urchins, the study projected future impacts of climate change on kelp distribution. It found range contractions of kelp at lower latitudes due to ocean warming, but offset by increased kelp biomass at higher latitudes resulting from reductions in urchin herbivory.
DIVERSITY AND DISTRIBUTIONS
(2022)
Article
Biochemistry & Molecular Biology
Rick D. Stuart-Smith, Graham J. Edgar, Ella Clausius, Elizabeth S. Oh, Neville S. Barrett, Michael J. Emslie, Amanda E. Bates, Nic Bax, Daniel Brock, Antonia Cooper, Tom R. Davis, Paul B. Day, Jillian C. Dunic, Andrew Green, Norfaizny Hasweera, Jamie Hicks, Thomas H. Holmes, Ben Jones, Alan Jordan, Nathan Knott, Meryl F. Larkin, Scott D. Ling, Peter Mooney, Jacqueline B. Pocklington, Yanir Seroussi, Ian Shaw, Derek Shields, Margo Smith, German A. Soler, Jemina Stuart-Smith, Emre Turak, John W. Turnbull, Camille Mellin
Summary: Warming seas, marine heatwaves, and habitat degradation have dynamic and widespread impacts on marine biodiversity, with the extent of these impacts varying regionally. Temperature-related changes are most evident in temperate and subtropical reefs, while low latitude coral reefs are affected by habitat changes. Scaling up ecological monitoring is crucial for understanding the diverse drivers of large-scale biodiversity change and connecting disjointed systems of biodiversity observation, indicator research, and governance.
Article
Marine & Freshwater Biology
T. R. Davis, M. F. Larkin, A. Forbes, R. J. Veenhof, A. Scott, M. A. Coleman
Summary: Climate-induced extreme flooding has severe impacts on kelp and the ecosystems in nearshore systems, causing widespread mortality and net loss of kelp. The mortality is more severe in areas farther from the entrance of embayments. However, surviving kelp gametophytes show resilience and contribute to the rapid recovery of the kelp.
ESTUARINE COASTAL AND SHELF SCIENCE
(2022)
Article
Environmental Sciences
G. L. Butler, T. R. Davis, S. G. Brooks, C. Bowen, L. M. Cameron, S. J. Rowland, D. Smith, J. St Vincent Welch, L. Carpenter-Bundhoo
Summary: This study used bio-telemetry and underwater imagery to investigate the reproductive behavior and strategies of Murray cod in a natural riverine environment in the Northern Murray-Darling Basin, Australia. The study found that breeding behavior of Murray cod occurred from early-August and spawning took place from late-August to late-October. Nesting sites were mostly found in shallow water on hard substrate beneath undercuts along the riverbank edge, and river hydraulics did not play a significant role in spawning. Disturbing nesting Murray cod had a negative impact on the survival of eggs and larvae.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2022)
Article
Environmental Sciences
Meryl F. Larkin, Tom R. Davis, David Harasti, Kirsten Benkendorff, Stephen D. A. Smith
Summary: This study investigates the attachment of D. australis cuttings to moveable substrates and tests three feeding regimes. The results show a 100% survival rate for the cuttings under all three feeding treatments. The study also finds that the cutting removal process has no significant effect on the donor colonies, suggesting the sustainability of this approach for species recovery.
AQUATIC CONSERVATION-MARINE AND FRESHWATER ECOSYSTEMS
(2023)
Article
Multidisciplinary Sciences
Matt J. Nimbs, Thomas Wernberg, Tom R. Davis, Curtis Champion, Melinda A. Coleman
Summary: Climate change has led to the decline and loss of kelp forests globally, affecting their ecological and economic values. Kelp populations at the equatorward range edges are particularly vulnerable to warming, which may result in the loss of unique adaptive or evolutionary genetic diversity. Through genetic analysis, we identified haplotype diversity in the dominant Laminarian kelp Ecklonia radiata in the south-western Pacific, a region experiencing high warming rates. We discovered a genetically diverse deep-water range-edge population off Moreton Island, Queensland, which serves as a refuge during climatic changes and requires urgent conservation efforts.
SCIENTIFIC REPORTS
(2023)
Article
Biodiversity Conservation
Matt J. Nimbs, Tom R. Davis, Sebastian P. Holmes, Lachlan Hill, Samara Wehmeyer, Amanda Prior, Jane E. Williamson
Summary: The genus Smeagol includes five named species of air-breathing marine slugs, with restricted distribution to southern Australia, New Zealand, and southern Japan. The critically endangered S. hilaris from New South Wales has had a known distribution limited to Merry Beach. This study surveyed the known population at Merry Beach and discovered a new population at Storm Bay, doubling the known global populations of this species. DNA barcoding confirmed the conspecificity among the populations and recommendations for ongoing management are provided.
Article
Ecology
Tom R. Davis, Curtis Champion, Steve Dalton, Melinda A. Coleman
Summary: Climate change is causing coral species to move towards the poles, but the rate and extent of such movements in temperate regions are rarely studied. It is important to understand the future distribution of corals to anticipate the social, economic, and environmental consequences. This study projects the expansion of suitable thermal conditions for coral communities along the east Australian coast using data on coral presence and ocean temperatures. The findings show that coral communities dominated by subtropical coral species could extend their range by 80 to 450 km by the year 2100, and diverse coral communities may expand by 130 to 580 km. These projections are similar to those in other parts of the world, and the establishment of coral communities in temperate regions could create new economic opportunities, particularly in marine tourism.
Article
Multidisciplinary Sciences
Graham J. Edgar, Rick D. Stuart-Smith, Freddie J. Heather, Neville S. Barrett, Emre Turak, Hugh Sweatman, Michael J. Emslie, Danny J. Brock, Jamie Hicks, Ben French, Susan C. Baker, Steffan A. Howe, Alan Jordan, Nathan A. Knott, Peter Mooney, Antonia T. Cooper, Elizabeth S. Oh, German A. Soler, Camille Mellin, Scott D. Ling, Jillian C. Dunic, John W. Turnbull, Paul B. Day, Meryl F. Larkin, Yanir Seroussi, Jemina Stuart-Smith, Ella Clausius, Tom R. Davis, Joe Shields, Derek Shields, Olivia J. Johnson, Yann Herrera Fuchs, Lara Denis-Roy, Tyson Jones, Amanda E. Bates
Summary: Human society is dependent on nature, but the lack of systematic monitoring of species' populations makes it unknown whether our ecological foundations are at risk. Knowledge of species fluctuations is particularly inadequate in the marine realm. In this study, the population trends of 1,057 common shallow reef species in Australia over the past decade were assessed. Most populations decreased, including tropical fishes, temperate invertebrates, and southwestern Australian macroalgae, while coral populations remained stable. Heatwaves were found to be a significant factor in population declines, and species abundances tended to decline near warm range edges and increase near cool range edges. Efforts to expand monitoring of species' population trends are crucial for conservation and adaptation to anthropogenic and natural pressures.
Article
Biodiversity Conservation
Tom R. Davis, Nathan A. Knott, Curtis Champion, Rachel Przeslawski
Summary: The urchin Centrostephanus rodgersii is expanding its range southward in eastern Australia, and the increase in its density is causing negative ecological impacts, especially the conversion of kelp forests to barrens. This study analyzes data from underwater surveys conducted between 1992 and 2022 to develop a density model for C. rodgersii and predicts future densities by 2100. The results show significant increases in C. rodgersii densities in the South-east marine region but no significant increases in the Temperate East marine region. Future projections suggest further increases in the South-east region and reductions in the Temperate East region by 2100.
