Your search keyword '"Galbraith, Gemma F."' showing total 3 results

1. Plastic pollution on the world’s coral reefs

Author

Pinheiro, Hudson T., MacDonald, Chancey, Santos, Robson G., Ali, Ramadhoine, Bobat, Ayesha, Cresswell, Benjamin J., Francini-Filho, Ronaldo, Freitas, Rui, Galbraith, Gemma F., Musembi, Peter, Phelps, Tyler A., Quimbayo, Juan P., Quiros, T. E. Angela L., Shepherd, Bart, Stefanoudis, Paris V., Talma, Sheena, Teixeira, João B., Woodall, Lucy C., and Rocha, Luiz A.

Published

2023

2. Strong hydrodynamic drivers of coral reef fish biodiversity on submerged pinnacle coral reefs.

Author

Galbraith, Gemma F., Cresswell, Benjamin J., McCormick, Mark I., and Jones, Geoffrey P.

Subjects

*CORAL reef fishes, *CORAL reef ecology, *CORALS, *REEFS, *CORAL reefs & islands, *FISH communities, *MARINE biodiversity, *BIODIVERSITY, *SPECIES diversity

Abstract

Hydrodynamic processes are important in all marine environments and on coral reefs drive patterns of habitat zonation, community structure, and biodiversity. Abrupt geomorphological features like pinnacles and seamounts often possess distinct localized currents and these habitats are also often characterized by high abundance and biomass of fishes. However, differences in fish community structure between pinnacles and emergent reefs, and their key drivers are poorly understood. In this study, we compared fish communities among emergent fringing and offshore coral reefs, and submerged pinnacle reefs in Papua New Guinea. Submerged pinnacles possessed higher fish biomass, abundance, and species richness than both fringing and offshore emergent reefs. We collected in‐situ current speed and temperature data over a full year at each reef and used random forest analysis to investigate the relative influence of hydrodynamics compared to other well‐established drivers of reef fish biodiversity, including habitat and biogeographic factors. Environmental variables explained 70%, 52%, and 5% of variability in models for species richness, abundance and biomass respectively. In all models, average current speed, current speed variability, and reef area were consistently among the most influential variables. Models examining relationships between fish biodiversity metrics and current speed did not yield conclusive results but did highlight the association of distinct hydrodynamic regimes on pinnacles with high fish richness, abundance, and biomass. Our study highlights the strong influence of reef‐scale hydrodynamics on fish biodiversity and demonstrates the ecological value of small, submerged coral reefs, which are globally numerous yet remain understudied in coral reef ecology. [ABSTRACT FROM AUTHOR]

Published

2023

3. Contrasting hydrodynamic regimes of submerged pinnacle and emergent coral reefs.

Author

Galbraith, Gemma F., Cresswell, Benjamin J., McCormick, Mark I., Bridge, Thomas C., and Jones, Geoffrey P.

Subjects

*CORAL reefs & islands, *CORALS, *CORAL bleaching, *OCEAN temperature, *SUBMERGED structures, *WATER currents, *REEFS

Abstract

Hydrodynamics on coral reefs vary with depth, reef morphology and seascape position. Differences in hydrodynamic regimes strongly influence the structure and function of coral reef ecosystems. Submerged coral reefs on steep-sided, conical bathymetric features like seamounts experience enhanced water circulation as a result of interactions between currents and the abrupt physical structure. There may also be similar interactions between smaller pinnacles and regional water currents in offshore locations (crests > 10 m), while shallow reefs (crests <10 m) may be more subject to surface currents driven by wind, waves and tide. Here we tested whether coral pinnacles experienced stronger and more variable currents compared to emergent reefs at the same depth in both nearshore and offshore positions. Current speeds and temperature were monitored for 12 months at 11 reefs, representing the three different reef categories: submerged offshore pinnacles, emergent offshore reefs and emergent nearshore reefs. We found different patterns in current speeds and temperature among reef types throughout the year and between seasons. Submerged pinnacles exhibited stronger, more variable current speeds compared to both near and offshore emergent reefs. We found seasonal changes in current speeds for pinnacle and nearshore reefs but no variation in current strength on offshore reefs. Whilst instantaneous current directions did reflect the seascape position of individual sites, there was no difference in the directional variability of current speeds between reef types. Annual daily average temperatures at all reef types were not strongly seasonal, changing by less than 2 °C throughout the year. Daily temperature ranges at specific sites however, exhibited considerable variability (annual range of up to 6.5 °C), particularly amongst offshore emergent reefs which experienced the highest temperatures despite greater exposure to regional-scale circulation patterns. Additionally, we found a consistent mismatch between satellite sea surface temperatures and in-situ temperature data, which was on average 2 °C cooler throughout the annual study period. Our results suggest that distinct hydrodynamic processes occur on smaller submerged structures that are physically analogous to seamounts. Our findings highlight important nuances in environmental processes that occur on morphologically distinct coral reef habitats and these are likely to be important drivers for the community dynamics of organisms that inhabit these reefs. [ABSTRACT FROM AUTHOR]

Published

2022