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An Indo-Pacific coral spawning databaseBaird, Andrew H.Guest, James R.Edwards, Alasdair J.Bauman, Andrew G.Bouwmeester, JessicaMera, HanakaAbrego, DavidAlvarez-Noriega, MarianaBabcock, Russel C.Barbosa, Miguel B.Bonito, VictorBurt, JohnCabaitan, Patrick C.Chang, Ching-FongChavanich, SuchanaChen, Chaolun A.Chen, Chieh-JhenChen, Wei-JenChung, Fung-ChenConnolly, Sean R.Cumbo, Vivian R.Dornelas, MariaDoropoulos, ChristopherEyal, GalEyal-Shaham, LeeFadli, NurFigueiredo, JoanaFlot, Jean-FrancoisGan, Sze-HoonGomez, ElizabethGraham, Erin M.Grinblat, MilaGutierrez-Isaza, NatalyHarii, SakiHarrison, Peter L.Hatta, MasayukiHo, Nina Ann JinHoarau, GaetanHoogenboom, MiaHowells, Emily J.Iguchi, AkiraIsomura, NaokoJamodiong, Emmeline A.Jandang, SuppakarnKeyse, JudeKitanobo, SeiyaKongjandtre, NarinratanaKuo, Chao-YangLigson, CharlonLin, Che-HungLow, JeffreyLoya, YossiMaboloc, Elizaldy A.Madin, Joshua S.Mezaki, TakumaMin, ChooMorita, MasayaMoya, AurelieNeo, Su-HweiNitschke, Matthew R.Nojima, SatoshiNozawa, YokoPiromvaragorn, SrisakulPlathong, SakananPuill-Stephan, EneourQuigley, KateRamirez-Portilla, CatalinaRicardo, GerardSakai, KazuhikoSampayo, EugeniaShlesinger, TomSikim, LeonySimpson, ChrisSims, Carrie A.Sinniger, FredericSpiji, Davies A.Tabalanza, TracyTan, Chung-HongTerraneo, Tullia I.Torda, GergelyTrue, JamesTun, KarenneVicentuan, KareenViyakarn, VoranopWaheed, ZarinahWard, SelinaWillis, BetteWoods, Rachael M.Woolsey, Erika S.Yamamoto, Hiromi H.Yusuf, SyafyudinDOI: info:10.1038/s41597-020-00793-8v. 8No. 1
Baird, Andrew H., Guest, James R., Edwards, Alasdair J., Bauman, Andrew G., Bouwmeester, Jessica, Mera, Hanaka, Abrego, David, Alvarez-Noriega, Mariana, Babcock, Russel C., Barbosa, Miguel B., Bonito, Victor, Burt, John, Cabaitan, Patrick C., Chang, Ching-Fong, Chavanich, Suchana, Chen, Chaolun A., Chen, Chieh-Jhen, Chen, Wei-Jen, Chung, Fung-Chen, Connolly, Sean R., Cumbo, Vivian R., Dornelas, Maria, Doropoulos, Christopher, Eyal, Gal, Eyal-Shaham, Lee et al. 2021. "An Indo-Pacific coral spawning database." Scientific Data 8 (1):
ID: 158627
Type: article
Authors: Baird, Andrew H.; Guest, James R.; Edwards, Alasdair J.; Bauman, Andrew G.; Bouwmeester, Jessica; Mera, Hanaka; Abrego, David; Alvarez-Noriega, Mariana; Babcock, Russel C.; Barbosa, Miguel B.; Bonito, Victor; Burt, John; Cabaitan, Patrick C.; Chang, Ching-Fong; Chavanich, Suchana; Chen, Chaolun A.; Chen, Chieh-Jhen; Chen, Wei-Jen; Chung, Fung-Chen; Connolly, Sean R.; Cumbo, Vivian R.; Dornelas, Maria; Doropoulos, Christopher; Eyal, Gal; Eyal-Shaham, Lee; Fadli, Nur; Figueiredo, Joana; Flot, Jean-Francois; Gan, Sze-Hoon; Gomez, Elizabeth; Graham, Erin M.; Grinblat, Mila; Gutierrez-Isaza, Nataly; Harii, Saki; Harrison, Peter L.; Hatta, Masayuki; Ho, Nina Ann Jin; Hoarau, Gaetan; Hoogenboom, Mia; Howells, Emily J.; Iguchi, Akira; Isomura, Naoko; Jamodiong, Emmeline A.; Jandang, Suppakarn; Keyse, Jude; Kitanobo, Seiya; Kongjandtre, Narinratana; Kuo, Chao-Yang; Ligson, Charlon; Lin, Che-Hung; Low, Jeffrey; Loya, Yossi; Maboloc, Elizaldy A.; Madin, Joshua S.; Mezaki, Takuma; Min, Choo; Morita, Masaya; Moya, Aurelie; Neo, Su-Hwei; Nitschke, Matthew R.; Nojima, Satoshi; Nozawa, Yoko; Piromvaragorn, Srisakul; Plathong, Sakanan; Puill-Stephan, Eneour; Quigley, Kate; Ramirez-Portilla, Catalina; Ricardo, Gerard; Sakai, Kazuhiko; Sampayo, Eugenia; Shlesinger, Tom; Sikim, Leony; Simpson, Chris; Sims, Carrie A.; Sinniger, Frederic; Spiji, Davies A.; Tabalanza, Tracy; Tan, Chung-Hong; Terraneo, Tullia I.; Torda, Gergely; True, James; Tun, Karenne; Vicentuan, Kareen; Viyakarn, Voranop; Waheed, Zarinah; Ward, Selina; Willis, Bette; Woods, Rachael M.; Woolsey, Erika S.; Yamamoto, Hiromi H.; Yusuf, Syafyudin
Abstract: The discovery of multi-species synchronous spawning of scleractinian corals on the Great Barrier Reef in the 1980s stimulated an extraordinary effort to document spawning times in other parts of the globe. Unfortunately, most of these data remain unpublished which limits our understanding of regional and global reproductive patterns. The Coral Spawning Database (CSD) collates much of these disparate data into a single place. The CSD includes 6178 observations (3085 of which were unpublished) of the time or day of spawning for over 300 scleractinian species in 61 genera from 101 sites in the Indo-Pacific. The goal of the CSD is to provide open access to coral spawning data to accelerate our understanding of coral reproductive biology and to provide a baseline against which to evaluate any future changes in reproductive phenology.
First Frozen Repository For The Great Barrier Reef Coral CreatedHagedorn, Mary M.van Oppen, Madeleine J. H.Carter, Virginia L.Henley, MikeAbrego, DavidPuill-Stephan, EneourNegri, AndrewHeyward, AndrewMacFarlane, DougSpindler, Rebecca E.DOI: info:10.1016/j.cryobiol.2012.05.008v. 65No. 2157–158
Hagedorn, Mary M., van Oppen, Madeleine J. H., Carter, Virginia L., Henley, Mike, Abrego, David, Puill-Stephan, Eneour, Negri, Andrew, Heyward, Andrew, MacFarlane, Doug, and Spindler, Rebecca E. 2012. "First Frozen Repository For The Great Barrier Reef Coral Created." Cryobiology 65 (2):157– 158.
ID: 111654
Type: article
Authors: Hagedorn, Mary M.; van Oppen, Madeleine J. H.; Carter, Virginia L.; Henley, Mike; Abrego, David; Puill-Stephan, Eneour; Negri, Andrew; Heyward, Andrew; MacFarlane, Doug; Spindler, Rebecca E.
Abstract: To build new tools for the continued protection and propagation of coral from the Great Barrier Reef (GBR), an international group of coral and cryopreservation scientists known as the Reef Recovery Initiative joined forces during the November 2011 mass-spawning event. The outcome was the creation of the first frozen bank for Australian coral from two important GBR reef-building species, Acropora tenuis and Acropora millepora. Approximately 190 frozen samples each with billions of cells were placed into long-term storage. Sperm cells were successfully cryopreserved, and after thawing, samples were used to fertilize eggs, resulting in functioning larvae. Additionally, developing larvae were dissociated, and these pluripotent cells were cryopreserved and viable after thawing. Now, we are in a unique position to move our work from the laboratory to the reefs to develop collaborative, practical conservation management tools to help secure Australia's coral biodiversity.