D
David Yellowlees
Researcher at James Cook University
Publications - 69
Citations - 5433
David Yellowlees is an academic researcher from James Cook University. The author has contributed to research in topics: Zooxanthellae & Symbiodinium. The author has an hindex of 32, co-authored 69 publications receiving 5066 citations. Previous affiliations of David Yellowlees include Australian Institute of Marine Science.
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Journal ArticleDOI
The diversity and coevolution of rubisco, plastids, pyrenoids, and chloroplast-based co2-concentrating mechanisms in algae
Murray R. Badger,T. John Andrews,Spencer M. Whitney,Martha Ludwig,David Yellowlees,William Leggat,G. Dean Price +6 more
TL;DR: This review examines the potential diversity of both Rubisco and chloroplast-based CCMs across algal divisions, including both green and nongreen algae, and seeks to highlight recent advances in the understanding of the area and future areas for research.
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Cadaver decomposition in terrestrial ecosystems
TL;DR: It is shown that cadaver decomposition can have a greater, albeit localised, effect on belowground ecology than plant and faecal resources.
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Metabolic interactions between algal symbionts and invertebrate hosts
TL;DR: The loss of the algal symbiont and its metabolic contribution to the host has the potential to result in the transition from a coral-dominated to an algal-dominated ecosystem.
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ENCORE: the effect of nutrient enrichment on coral reefs. Synthesis of results and conclusions.
K. Koop,David J. Booth,Andrew D Broadbent,Jon Brodie,Daniel J Bucher,Douglas G. Capone,J. Coll,William C. Dennison,M. Erdmann,Peter Harrison,Ove Hoegh-Guldberg,Pat Hutchings,Graham B Jones,Anthony W. D. Larkum,Judith M. O’Neil,Andrew D. L. Steven,E. Tentori,Selina Ward,Jane E. Williamson,David Yellowlees +19 more
TL;DR: The ENCORE experiment investigated responses of coral reef organisms and processes to controlled additions of dissolved inorganic nitrogen and phosphorus on an offshore reef at the southern end of the Great Barrier Reef, Australia, and showed that reef organism and processes investigated in situ were impacted by elevated nutrients.
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Rubisco in marine symbiotic dinoflagellates: form II enzymes in eukaryotic oxygenic phototrophs encoded by a nuclear multigene family.
TL;DR: A previously unrecognized branch of Rubisco's evolution is confirmed: a eukaryotic form II enzyme that participates in oxygenic photosynthesis and is encoded by a diverse, nuclear multigene family.