M
Martial Depczynski
Researcher at Australian Institute of Marine Science
Publications - 61
Citations - 3776
Martial Depczynski is an academic researcher from Australian Institute of Marine Science. The author has contributed to research in topics: Coral reef & Reef. The author has an hindex of 28, co-authored 59 publications receiving 3030 citations. Previous affiliations of Martial Depczynski include Australian Research Council & University of Western Australia.
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Journal ArticleDOI
Climate-driven regime shift of a temperate marine ecosystem
Thomas Wernberg,Scott Bennett,Scott Bennett,Russell C. Babcock,Russell C. Babcock,Thibaut de Bettignies,Katherine Cure,Katherine Cure,Martial Depczynski,Francois Dufois,Jane Fromont,Christopher J. Fulton,Renae Hovey,Euan S. Harvey,Thomas H. Holmes,Gary A. Kendrick,Ben Radford,Ben Radford,Julia Santana-Garcon,Julia Santana-Garcon,Benjamin J. Saunders,Dan A. Smale,Dan A. Smale,Mads S. Thomsen,Mads S. Thomsen,Chenae A. Tuckett,Fernando Tuya,Mathew A. Vanderklift,Shaun K. Wilson +28 more
TL;DR: It is shown that extreme warming of a temperate kelp forest off Australia resulted not only in its collapse, but also in a shift in community composition that brought about an increase in herbivorous tropical fishes that prevent the reestablishment of kelp.
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Coral bleaching, reef fish community phase shifts and the resilience of coral reefs
TL;DR: This article found that the 1998 global coral bleaching event had no detectable effect on the abundance, diversity or species richness of a local cryptobenthic reef fish community and there is no evidence of regeneration even after 5-35 generations of these short-lived species.
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Experience teaches plants to learn faster and forget slower in environments where it matters.
TL;DR: It is shown that leaf-folding habituation is more pronounced and persistent for plants growing in energetically costly environments, and matches the persistence of habituation effects observed in many animals.
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The role of cryptobenthic reef fishes in coral reef trophodynamics
TL;DR: The trophic composition and numerical strength of the cryptobenthic fish fauna suggests that cryptOBenthic reef fishes have the potential to make a significant contribution to reef trophodynamics along a number of trophics pathways, prompting a re-evaluation of the roles of reef fishes in the functioning of coral reefs.
Journal ArticleDOI
Learning by Association in Plants.
Monica Gagliano,Vladyslav V. Vyazovskiy,Alexander A. Borbély,Mavra Grimonprez,Martial Depczynski +4 more
TL;DR: The results show that associative learning is an essential component of plant behaviour and conclude that Associative learning represents a universal adaptive mechanism shared by both animals and plants.