Leteisha A. Prescott scite author profile

Leteisha A. Prescott

3Publications

1Citation Statement Received

0Citation Statements Given

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168

Affiliations

University of Tasmania, ARC Centre of Excellence for Coral Reef Studies, James Cook University

Publications

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Rapid embryonic development supports the early onset of gill functions in two coral reef damselfishes

Prescott

Regish

McMahon

et al. 2021

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The gill is one of the most important organs for growth and survival of fishes. Early life stages in coral reef fishes often exhibit extreme physiological and demographic characteristics that are linked to well-established respiratory and ionoregulatory processes. However, gill development and function in coral reef fishes is not well understood. Therefore, we investigated gill morphology, oxygen uptake and ionoregulatory systems throughout embryogenesis in two coral reef damselfishes, Acanthochromis polyacanthus and Amphiprion melanopus (Pomacentridae). In both species, we found key gill structures to develop rapidly early in the embryonic phase. Ionoregulatory cells appear on gill filaments 3–4 days post-fertilization and increase in density, whilst disappearing or shrinking in cutaneous locations. Primary respiratory tissue (lamellae) appears 5–7 days post-fertilization, coinciding with a peak in oxygen uptake rates of the developing embryos. Oxygen uptake was unaffected by phenylhydrazine across all ages (pre-hatching), indicating that haemoglobin is not yet required for oxygen uptake. This suggests that gills have limited contribution to respiratory functions during embryonic development, at least until hatching. Rapid gill development in damselfishes, when compared with that in most previously investigated fishes, may reflect preparations for a high-performance, challenging lifestyle on tropical reefs, but may also make reef fishes more vulnerable to anthropogenic stressors.

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Gills develop early in coral reef fishes: respiratory and ionoregulatory processes

Prescott¹

2019

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Long-term sustained swimming improves swimming performance in Chinook salmon, Oncorhynchus tshawytscha, with and without spinal scoliosis

et al. 2023

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