%0 Journal Article
%9 ACL : Articles dans des revues avec comité de lecture répertoriées par l'AERES
%A Moritz, C.
%A Andréfouët, Serge
%A Azam, C. S.
%A Berthe, C.
%A Fourrière, M.
%A Goyaud, A.
%A Grouazel, M.
%A Siu, G.
%A Taiarui, M.
%A Trinh, A. M.
%A Liao, V.
%T Shining a light on daytime coral spawning synchrony across oceans
%D 2025
%L fdi:010094448
%G ENG
%J Global Ecology and Biogeography
%@ 1466-822X
%K biological rhythm ; coral spawning ; daylight ; lunar cycle ; Porites rus ; Scleractinia ; transoceanic synchrony
%K REUNION ; FIDJI ; POLYNESIE FRANCAISE ; OCEAN INDIEN ; PACIFIQUE
%M ISI:001544022600010
%N 7
%P e70072 [12 ]
%R 10.1111/geb.70072
%U https://www.documentation.ird.fr/hor/fdi:010094448
%> https://www.documentation.ird.fr/intranet/publi/2025-09/010094448.pdf
%V 34
%W Horizon (IRD)
%X Aim The variety of coral taxa and environmental cues triggering broadcast spawning gave rise to contrasting theories about coral reproduction synchrony. Here, we shine a new light on this synchrony across oceans by highlighting how environmental cues modulate spawning time at various spatial scales in an understudied yet abundant gonochoric species. Location South Indian and Pacific Oceans. Time Period 2014-2023. Major Taxa Studied Porites rus . Methods Porites rus daytime spawning was investigated using a non-invasive citizen science approach (> 300 voluntary observers) at colony, reef, island and ocean scales. Spawning time was recorded between 2014 and 2023 at a total of 104 reef locations from 15 islands in three countries and multiple depths across the Indian and Pacific Oceans. Statistical models were employed to assess the relationships between spawning time and depth, light and sea surface temperature at different spatial scales, and in both male and female colonies. Results Spawning occurred synchronously for colonies located a few meters to > 15,000 km apart, monthly 5 days after full moon over an extended, uninterrupted period from October to April. Strong linear relationships between depth, light, water temperature and spawning time after sunrise held at the different spatial scales for both males and females, which spawned ca. 20 min apart. Interestingly, single colonies spawned across consecutive days and months. Main Conclusions The largest data set for a daytime coral species compiled here allows extremely accurate predictions of P. rus spawning months, days and time (minute-level precision) at different locations and depths in the Southern Hemisphere, facilitating field observations and experiments. Previously underexplored, the highly effective reproductive strategy of P. rus may explain its broad distribution and persistence in stressed environments, positioning it as an invaluable model organism for studying the physiological and genetic processes driving behavioural synchrony and biological rhythms across interconnected biogeographical regions.
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