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Journal articles on the topic 'Acropora tenuis'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

HATTA, Masayuki, and Kanae MATSUSHIMA. "Presumed natural hybrids between Acropora donei and Acropora tenuis." Galaxea, Journal of Coral Reef Studies 10, no. 2 (2008): 91. http://dx.doi.org/10.3755/galaxea.10.91.

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2

FUJIWARA, Eiji, Kanae MATSUSHIMA, and Masayuki HATTA. "Live autofluorescence in planulae of Acropora tenuis." Galaxea, Journal of Coral Reef Studies 14, no. 1 (2012): 61–62. http://dx.doi.org/10.3755/galaxea.14.61.

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3

M. Ibrahim et al., Remon. "Gametogenic development and synchronous spawning of the acroporid corals Acropora cytherea and Acropora tenuis in the Red Sea." Egyptian Journal of Aquatic Biology and Fisheries 25, no. 2 (March 1, 2021): 419–36. http://dx.doi.org/10.21608/ejabf.2021.164595.

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4

Ricardo, Gerard F., Ross J. Jones, Peta L. Clode, Adriana Humanes, Natalie Giofre, and Andrew P. Negri. "Sediment characteristics influence the fertilisation success of the corals Acropora tenuis and Acropora millepora." Marine Pollution Bulletin 135 (October 2018): 941–53. http://dx.doi.org/10.1016/j.marpolbul.2018.08.001.

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5

Takeuchi, Ryota, Mitsuru Jimbo, Fumika Tanimoto, Mariko Iijima, Hiroshi Yamashita, Go Suzuki, Saki Harii, Yoshikatsu Nakano, Ko Yasumoto, and Shugo Watabe. "N-Acetyl-d-Glucosamine-Binding Lectin in Acropora tenuis Attracts Specific Symbiodiniaceae Cell Culture Strains." Marine Drugs 19, no. 3 (March 11, 2021): 146. http://dx.doi.org/10.3390/md19030146.

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Many corals establish symbiosis with Symbiodiniaceae cells from surrounding environments, but very few Symbiodiniaceae cells exist in the water column. Given that the N-acetyl-d-glucosamine-binding lectin ActL attracts Symbiodiniaceae cells, we hypothesized that corals must attract Symbiodiniaceae cells using ActL to acquire them. Anti-ActL antibody inhibited acquisition of Symbiodiniaceae cells, and rearing seawater for juvenile Acropora tenuis contained ActL, suggesting that juvenile A. tenuis discharge ActL to attract these cells. Among eight Symbiodiniaceae cultured strains, ActL attracted NBRC102920 (Symbiodinium tridacnidorum) most strongly followed by CS-161 (Symbiodinium tridacnidorum), CCMP2556 (Durusdinium trenchii), and CCMP1633 (Breviolum sp.); however, it did not attract GTP-A6-Sy (Symbiodinium natans), CCMP421 (Effrenium voratum), FKM0207 (Fugacium sp.), and CS-156 (Fugacium sp.). Juvenile polyps of A. tenuis acquired limited Symbiodiniaceae cell strains, and the number of acquired Symbiodiniaceae cells in a polyp also differed from each other. The number of Symbiodiniaceae cells acquired by juvenile polyps of A. tenuis was correlated with the ActL chemotactic activity. Thus, ActL could be used to attract select Symbiodiniaceae cells and help Symbiodiniaceae cell acquisition in juvenile polyps of A. tenuis, facilitating establishment of symbiosis between A. tenuis and Symbiodiniaceae cells.
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6

Omori, M., K. Iwao, and M. Tamura. "Growth of transplanted Acropora tenuis 2 years after egg culture." Coral Reefs 27, no. 1 (October 3, 2007): 165. http://dx.doi.org/10.1007/s00338-007-0312-0.

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7

Yorifuji, Makiko, Saki Harii, Ryota Nakamura, and Masayuki Fudo. "Shift of symbiont communities in Acropora tenuis juveniles under heat stress." PeerJ 5 (December 13, 2017): e4055. http://dx.doi.org/10.7717/peerj.4055.

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Ocean warming is a major threat to coral reefs, leading to an increasing frequency and amplitude of coral bleaching events, where the coral and its algal symbiont associations breakdown. Long-term change and resilience of a symbiont community in coral juveniles is thought to be one of the most important aspects for determining thermal tolerance of the coral holobionts; however, despite its importance, they are not well documented in both under elevated temperature and even under natural condition. Here we investigated changes in symbiont communities in juveniles of the coral Acropora tenuis under controlled heat stress conditions (30 °C, 31/32 °C) and natural variations in seawater temperatures (19–30 °C) for up to four months. Compared with the ambient temperature conditions, coral survival rates were higher when exposed to 30 °C, but survival rates decreased when exposed to 31/32 °C. Symbiodinium types A3, C1, and D1-4 were detected in the juveniles under all thermal conditions; however, in higher water temperatures (31/32 °C), both the prevalence of D1-4 Symbiodinium and the number of juveniles harboring only this type of symbiont increased after two to four months later. In contrast, colonies at lower temperatures (30 °C and ambient) harbored multiple clades of symbionts over the same experimental period. These results highlight the flexibility of the coral–Symbiodinium symbiosis for juvenile A. tenuis under variable thermal conditions. In particular, the benefit of the preferential association with type D1-4 can be considered as a response when under heat-stress conditions, and that could help corals to cope with ocean warming.
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8

Kono, Tokihiro, Ryota Nakamura, and Makoto Omori. "Experimental measurements of the sinking speed of sperm of an acroporid coral, Acropora tenuis, in static seawater." Journal of Oceanography 76, no. 2 (October 21, 2019): 109–20. http://dx.doi.org/10.1007/s10872-019-00529-2.

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9

Johan, Ofri, Wartono Hadie, Adang Saputra, Joni Hariyadi, and Nurbakti Listyanto. "BUDI DAYA KARANG HIAS MENDUKUNG PERDAGANGAN KARANG HIAS YANG BERKESINAMBUNGAN." Jurnal Riset Akuakultur 2, no. 3 (December 30, 2007): 415. http://dx.doi.org/10.15578/jra.2.3.2007.415-424.

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Kegiatan budi daya karang hias di Indonesia perlu dilakukan untuk menjamin perdagangannya agar berjalan tanpa merusak keanekaragaman dan kondisi terumbu karang. Budi daya karang hias menggunakan rak berupa meja yang terbuat dari paralon PVC yang dinilai sangat ekonomis dan mudah diaplikasikan masyarakat lokal. Pengamatan pertumbuhan hanya dilakukan pada 1 rak masing-masing jenis karang yang dibudidayakan yaitu Acropora sp., Acropora formosa, Acropora humilis, Acropora millepora, Acropora nobilis, dan Seriatopora hystrix. Kegiatan dilakukan pada dua lokasi yaitu Pulau Simakakang-Mentawai, Sumatera Barat dan Gondol, Bali. Pengamatan dilakukan setiap dua bulan dan penelitian dilaksanakan selama 6 bulan. Hasil pengamatan diperoleh tingkat mortalitas pada lokasi Pulau Simakakang diperoleh 5,56% dari 36 sampel yang diukur dari 6 jenis karang dan 6 ulangan, pertambahan panjang jenis A. formosa 0,64 cm/bulan, lebih cepat dibandingkan dengan jenis A. millepora 0,58 cm/bulan dan jenis lain. Karang A. humilis memiliki laju perambatan pada substrat semen dan batang pengikat yang lebih cepat dari jenis lain. Pada lokasi Gondol, Bali memiliki laju pertambahan panjang karang A. millepora lebih cepat (0,50 cm/bulan) dibandingkan dengan jenis A. tenuis (0,43 cm/bulan) dan jenis lain berkisar antara 0,21—0,39 cm/bulan.Tingkat kematian 3 koloni (7,1%) dari total 42 koloni yang disampling.The culture of ornamental coral is important to be conducted to guarantee the coral trade can be run well without giving impact to coral reef biodiversities and coral reef condition in Indonesia. This cultured using table using nets as a place which is made from PVC pipe. This method can minimize cost comparing with others materials as well as applicable for coastal community. One table can be placed 12 (3x4) substrate with a distance among others of 25 cm, then fragmented coral were tied to that substrates. This activity was carried out in two locations that were Simakakang Island, Mentawai, West Sumatera, and Gondol, Bali. The observation of mortality found that the one in Simakakang Island had 5.56% of 36 fragments of 6 species and of 6 replications, length growth of A. formosa was 0.64 cm/month, more rapid than the one of A. millepora (0,58 cm/month) and others species. A. humilis had encrusted to cement substrate, it was more rapid than the one in others species. Length growth rate of A. millepora in Gondol, Bali was more rapid (0.50 cm/month) than A. tenuis (0.43 cm/month), and others (0.21—0.39 cm/month). The mortality rate was 7.1% (3 colonies) from 42 colonies.
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10

Glasl, Bettina, Caitlin E. Smith, David G. Bourne, and Nicole S. Webster. "Disentangling the effect of host-genotype and environment on the microbiome of the coral Acropora tenuis." PeerJ 7 (February 5, 2019): e6377. http://dx.doi.org/10.7717/peerj.6377.

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Genotype-specific contributions to the environmental tolerance and disease susceptibility of corals are widely accepted. Yet our understanding of how host genotype influences the composition and stability of the coral microbiome subjected to environmental fluctuations is limited. To gain insight into the community dynamics and environmental stability of microbiomes associated with distinct coral genotypes, we assessed the microbial community associated with Acropora tenuis under single and cumulative pressure experiments. Experimental treatments comprised either a single pulse of reduced salinity (minimum of 28 psu) or exposure to the cumulative pressures of reduced salinity (minimum of 28 psu), elevated seawater temperature (+2 °C), elevated pCO2 (900 ppm), and the presence of macroalgae. Analysis of 16S rRNA gene amplicon sequence data revealed that A. tenuis microbiomes were highly host-genotype specific and maintained high compositional stability irrespective of experimental treatment. On average, 48% of the A. tenuis microbiome was dominated by Endozoicomonas. Amplicon sequence variants (ASVs) belonging to this genus were significantly different between host individuals. Although no signs of stress were evident in the coral holobiont and the vast majority of ASVs remained stable across treatments, a microbial indicator approach identified 26 ASVs belonging to Vibrionaceae, Rhodobacteraceae, Hahellaceae, Planctomycetes, Phylobacteriaceae, Flavobacteriaceae, and Cryomorphaceae that were significantly enriched in corals exposed to single and cumulative stressors. While several recent studies have highlighted the efficacy of microbial indicators as sensitive markers for environmental disturbance, the high host-genotype specificity of coral microbiomes may limit their utility and we therefore recommend meticulous control of host-genotype effects in coral microbiome research.
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11

Yusuf, S., N. P. Zamani, J. Jompa, and M. Z. Junior. "Larvae of the Coral Acropora tenuis (Dana 1846) Settle Under Controlled Light Intensity." IOP Conference Series: Earth and Environmental Science 253 (April 9, 2019): 012023. http://dx.doi.org/10.1088/1755-1315/253/1/012023.

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12

HATTA, Masayuki. "Unidirectional circulation in each coelenteron compartment in a primary polyp of Acropora tenuis." Galaxea, Journal of Coral Reef Studies 12, no. 1 (2010): 45. http://dx.doi.org/10.3755/galaxea.12.45.

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13

Baria, Maria Vanessa B., James R. Guest, Alasdair J. Edwards, Porfirio M. Aliño, Andrew J. Heyward, and Edgardo D. Gomez. "Caging enhances post-settlement survival of juveniles of the scleractinian coral Acropora tenuis." Journal of Experimental Marine Biology and Ecology 394, no. 1-2 (October 2010): 149–53. http://dx.doi.org/10.1016/j.jembe.2010.08.003.

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14

Cooke, Ira, Hua Ying, Sylvain Forêt, Pim Bongaerts, Jan M. Strugnell, Oleg Simakov, Jia Zhang, et al. "Genomic signatures in the coral holobiont reveal host adaptations driven by Holocene climate change and reef specific symbionts." Science Advances 6, no. 48 (November 2020): eabc6318. http://dx.doi.org/10.1126/sciadv.abc6318.

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Genetic signatures caused by demographic and adaptive processes during past climatic shifts can inform predictions of species’ responses to anthropogenic climate change. To identify these signatures in Acropora tenuis, a reef-building coral threatened by global warming, we first assembled the genome from long reads and then used shallow whole-genome resequencing of 150 colonies from the central inshore Great Barrier Reef to inform population genomic analyses. We identify population structure in the host that reflects a Pleistocene split, whereas photosymbiont differences between reefs most likely reflect contemporary (Holocene) conditions. Signatures of selection in the host were associated with genes linked to diverse processes including osmotic regulation, skeletal development, and the establishment and maintenance of symbiosis. Our results suggest that adaptation to post-glacial climate change in A. tenuis has involved selection on many genes, while differences in symbiont specificity between reefs appear to be unrelated to host population structure.
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15

Flores, Florita, Sarit Kaserzon, Gabriele Elisei, Gerard Ricardo, and Andrew P. Negri. "Toxicity thresholds of three insecticides and two fungicides to larvae of the coral Acropora tenuis." PeerJ 8 (July 28, 2020): e9615. http://dx.doi.org/10.7717/peerj.9615.

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Tropical marine ecosystems, such as coral reefs, face several threats to their health and resilience, including poor water quality. Previous studies on the risks posed by pesticides have focused on five priority herbicides; however, as the number of pesticides applied in coastal agriculture increases, a suite of ‘alternative’ pesticides is being detected in tropical nearshore waters. To improve our understanding of the risks posed by alternative pesticides to tropical marine organisms, the effects of three insecticides (diazinon, fipronil, imidacloprid) and two fungicides (chlorothalonil, propiconazole) were tested on larval metamorphosis of the coral Acropora tenuis. A. tenuis larvae were affected by all five pesticides and the reference toxicant copper. The no effect concentration (NEC) and the 10% and 50% effect concentrations (EC10 and EC50, respectively) for larval metamorphosis were estimated from concentration-response curves after 48 h exposure. The NEC, EC10 and EC50 (in µg L−1), respectively, of each pesticide were as follows: chlorothalonil (2.4, 2.8, 6.0); fipronil (12.3, 13.9, 29.1); diazinon (38.0, 40.8, 54.7); imidacloprid (263, 273, 347); and propiconazole (269, 330, 1008). These toxicity thresholds are higher than reported concentrations in monitoring programs; however, these data will contribute to improving water quality guideline values, which inform the total risk assessments posed by complex contaminant mixtures to which these pesticides contribute.
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16

Marulanda-Gómez, Ángela, Mateo López-Victoria, and Sven Zea. "Colonización a largo plazo de corales por una esponja excavadora del Caribe." Boletín de Investigaciones Marinas y Costeras 49, no. 1 (July 15, 2020): 101–12. http://dx.doi.org/10.25268/bimc.invemar.2020.49.1.776.

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Las ramas muertas de Acropora palmata colonizadas por la esponja excavadora Cliona tenuis son propensas al desplazamiento, la rotura y la translocación durante fuerte oleaje o mar de fondo de tormentas o huracanes, lo que favorece la dispersión de esta esponja. En las islas del Rosario (Colombia, Caribe), los adultos de C. tenuis transportados por fragmentos de A. palmata que cayeron sobre corales masivos vivos colonizaron el nuevo coral y mataron posteriormente el tejido vivo del coral recién invadido. Los corales que reclutaron sobre las ramas caídas de A. palmata cubiertas de C. tenuis también fueron invadidos una vez que la esponja llegó a su base. Para determinar si la incidencia de este fenómeno aumentó desde 2002, cuando se documentó por primera vez, la prevalencia y el modo de colonización de corales por C. tenuis se cuantificó nuevamente en 2014, en el mismo arrecife. Aunque es difícil inferir una tendencia a partir de dos muestreos puntuales, el número de colonias de coral colonizadas por C. tenuis se duplicó en 2014 y se encontraron nuevos casos de colonización desde ramas de A. palmata portadoras de esponjas. Sin embargo, la frecuencia de colonización por esponjas adultas desde las ramas de A. palmata en 2014 fue entre la mitad y un quinto menor que en 2002, lo que sugiere que otras formas de colonización en corales masivos pueden estar aumentando o que las tormentas borran la evidencia de adultos colonizadores por la translocación de las ramas de coral que han servido de vectores, como se observó en un caso monitoreado. A medida que pasa el tiempo y aumenta la fragmentación y la erosión del arrecife, la evidencia de colonización de corales pétreos por C. tenuis a través de las ramas de A. palmata se desvanece.
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17

Taufik Ali, Andi Muhammad, and Muhammad Bakri. "Pertumbuhan Karang Jenis Acropora Tenuis yang Ditanam Pada Kedalaman Berbeda dengan Menggunakan Metode Transplantasi." UNM Environmental Journals 1, no. 1 (December 22, 2017): 01. http://dx.doi.org/10.26858/uej.v1i1.5398.

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Penelitian ini bertujuan untuk mengetahui tingkat pertumbuhan karang jenis Acroporatenuis yang ditanam dengan menggunakan metode transplantasi. Penelitian inidilaksanakan pada Bulan Juni – November 2016, di perairan Desa Bahari KecamatanTowea Kabupaten Muna Provinsi Sulawesi Tenggara. Penelitian ini menggunakanRancangan Acak Lengkap (RAL) dengan 3 perlakuan dan 3 ulangan yaitu perlakuan A(Kedalaman 4 meter); perlakuan B (Kedalaman 7 meter); dan perlakuan C (Kedalaman10 meter). Hasil pertumbuhan mutlak perlakuan A; 2,30 cm, perlakuan B; 4,67 cm danperlakuan C; 3,75 cm. Analisis Sidik Ragam pada taraf kepercayaan 95 %, menunjukkanbahwa perlakuan penelitian ini berpengaruh nyata (F hitung > F Tabel). Dimana setelah Uji Beda Nyata Terkecil, ditemukan bahwa perlakuan A berbeda nyata terhadap perlakuanB dan C, sedangkan perlakua B tidak berbeda nyata terhadap perlakuan C.
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18

Takeuchi, Ichiro, Daisuke Takaichi, Masakazu Katsumata, and Hiroshi Ishibashi. "Succession of delayed fluorescence correlated with coral bleaching in the hermatypic coral Acropora tenuis." Marine Pollution Bulletin 154 (May 2020): 111008. http://dx.doi.org/10.1016/j.marpolbul.2020.111008.

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19

Da-Anoy, Jeric P., Patrick C. Cabaitan, and Cecilia Conaco. "Warm temperature alters the chemical cue preference of Acropora tenuis and Heliopora coerulea larvae." Marine Pollution Bulletin 161 (December 2020): 111755. http://dx.doi.org/10.1016/j.marpolbul.2020.111755.

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20

Zayasu, Yuna, Noriyuki Satoh, and Chuya Shinzato. "Genetic diversity of farmed and wild populations of the reef-building coral, Acropora tenuis." Restoration Ecology 26, no. 6 (March 1, 2018): 1195–202. http://dx.doi.org/10.1111/rec.12687.

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21

Morita, Masaya, Seiya Kitanobo, Ryo Nozu, Kenji Iwao, Hironobu Fukami, and Naoko Isomura. "Reproductive strategies in the intercrossing corals Acropora donei and A. tenuis to prevent hybridization." Coral Reefs 38, no. 6 (July 3, 2019): 1211–23. http://dx.doi.org/10.1007/s00338-019-01839-z.

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22

Yamashita, Hiroshi, Kazuhiko Koike, Chuya Shinzato, Mitsuru Jimbo, and Go Suzuki. "Can Acropora tenuis larvae attract native Symbiodiniaceae cells by green fluorescence at the initial establishment of symbiosis?" PLOS ONE 16, no. 6 (June 1, 2021): e0252514. http://dx.doi.org/10.1371/journal.pone.0252514.

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Most corals acquire symbiodiniacean symbionts from the surrounding environment to initiate symbiosis. The cell densities of Symbiodiniaceae in the environment are usually low, and mechanisms may exist by which new coral generations attract suitable endosymbionts. Phototaxis of suitable symbiodiniacean cells toward green fluorescence in corals has been proposed as one such mechanism. In the present study, we observed the phototaxis action wavelength of various strains of Symbiodiniaceae and the fluorescence spectra of aposymbiotic Acropora tenuis larvae at the time of endosymbiont uptake. The phototaxis patterns varied among the Symbiodiniaceae species and “native” endosymbionts—commonly found in Acropora juveniles present in natural environments; that is, Symbiodinium microadriaticum was attracted to blue light rather than to green light. Another native endosymbiont, Durusdinium trenchii, showed no phototaxis specific to any wavelength. Although the larvae exhibited green and broad orange fluorescence under blue-violet excitation light, the maximum green fluorescence peak did not coincide with that of the phototaxis action spectrum of S. microadriaticum. Rather, around the peak wavelength of larval green fluorescence, this native endosymbiont showed slightly negative phototaxis, suggesting that the green fluorescence of A. tenuis larvae may not play a role in the initial attraction of native endosymbionts. Conversely, broad blue larval fluorescence under UV-A excitation covered the maximum phototaxis action wavelength of S. microadriaticum. We also conducted infection tests using native endosymbionts and aposymbiotic larvae under red LED light that does not excite visible larval fluorescence. Almost all larvae failed to acquire S. microadriaticum cells, whereas D. trenchii cells were acquired by larvae even under red illumination. Thus, attraction mechanisms other than visible fluorescence might exist, at least in the case of D. trenchii. Our results suggest that further investigation and discussion, not limited to green fluorescence, would be required to elucidate the initial attraction mechanisms.
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23

Cumbo, Vivian R., Andrew H. Baird, Robert B. Moore, Andrew P. Negri, Brett A. Neilan, Anya Salih, Madeleine J. H. van Oppen, Yan Wang, and Christopher P. Marquis. "Chromera velia is Endosymbiotic in Larvae of the Reef Corals Acropora digitifera and A. tenuis." Protist 164, no. 2 (March 2013): 237–44. http://dx.doi.org/10.1016/j.protis.2012.08.003.

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IWAO, Kenji, Makoto OMORI, Hiroki TANIGUCHI, and Minoru TAMURA. "Transplanted Acropora tenuis (Dana) spawned first in their life 4 years after culture from eggs." Galaxea, Journal of Coral Reef Studies 12, no. 1 (2010): 47. http://dx.doi.org/10.3755/galaxea.12.47.

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MATSUSHIMA, Kanae, Masato KIYOMOTO, and Masayuki HATTA. "Aboral localization of responsiveness to a metamorphic neuropeptide in the planula larva of Acropora tenuis." Galaxea, Journal of Coral Reef Studies 12, no. 2 (2010): 77–81. http://dx.doi.org/10.3755/galaxea.12.77.

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Watanabe, Toshiki, Ikuko Yuyama, and Shigeki Yasumura. "Toxicological effects of biocides on symbiotic and aposymbiotic juveniles of the hermatypic coral Acropora tenuis." Journal of Experimental Marine Biology and Ecology 339, no. 2 (December 2006): 177–88. http://dx.doi.org/10.1016/j.jembe.2006.07.020.

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27

Rocker, Melissa M., and Simon J. Brandl. "Transplantation of corals into a new environment results in substantial skeletal loss in Acropora tenuis." Marine Biodiversity 45, no. 2 (May 20, 2014): 321–26. http://dx.doi.org/10.1007/s12526-014-0239-y.

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28

Strahl, Julia, Melissa M. Rocker, and Katharina E. Fabricius. "Contrasting responses of the coral Acropora tenuis to moderate and strong light limitation in coastal waters." Marine Environmental Research 147 (May 2019): 80–89. http://dx.doi.org/10.1016/j.marenvres.2019.04.003.

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Kurihara, Haruko, Nao Ikeda, and Yu Umezawa. "Diurnal and seasonal variation of particle and dissolved organic matter release by the coral Acropora tenuis." PeerJ 6 (November 7, 2018): e5728. http://dx.doi.org/10.7717/peerj.5728.

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Release rates of particulate organic carbon and nitrogen (POC and PON) and dissolved organic carbon (DOC) from the scleractinian coral Acropora tenuis were measured during the day and night in summer and winter seasons. Physiological parameters including calcification, photosynthesis and respiration rates were also measured simultaneously. The release rate of both POC and DOC was significantly higher in summer compared to winter and higher during the day compared to the night. The daily release rate of total organic carbon (POC + DOC) was 1,094 and 219 μmol C cm−2 d−1 for summer and winter, respectively, being 4.9 times higher in summer. The POC:PON ratios of the particulate organic matter released during daytime in both seasons (summer: 12.8 ± 5.7, winter: 12.0 ± 4.1) were significantly higher than those during nighttime (summer: 6.1 ± 2.5, winter: 2.2 ± 1.8). The DOC:POC ratio was 0.5 ± 0.03 during summer and 0.32 ± 0.98 during winter, suggesting higher mucus release in particulate form. Daily net production was estimated to be 199 and 158 μg C cm−2d−1 for summer and winter, respectively, with the amount of carbon released as mucus accounting for 6.5% and 1.6% of the net carbon fixation, respectively. The study reveals diurnal and seasonal changes in the quantity and quality of mucus released from this coral species. Since coral mucus is used as a food source by reef macro-organisms, and can also serve as an energy source for micro-organisms, the observed changes in mucus release rates are expected to influence the seasonal dynamics of organic carbon and nitrogen cycling over coral reefs.
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Reichelt-Brushett, A. J., and P. L. Harrison. "The Effect of Copper on the Settlement Success of Larvae from the Scleractinian Coral Acropora tenuis." Marine Pollution Bulletin 41, no. 7-12 (January 2000): 385–91. http://dx.doi.org/10.1016/s0025-326x(00)00131-4.

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31

Berry, Kathryn L. E., Mia O. Hoogenboom, Diane L. Brinkman, Kathryn A. Burns, and Andrew P. Negri. "Effects of coal contamination on early life history processes of a reef-building coral, Acropora tenuis." Marine Pollution Bulletin 114, no. 1 (January 2017): 505–14. http://dx.doi.org/10.1016/j.marpolbul.2016.10.011.

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Kuniya, Nami, Mitsuru Jimbo, Fumika Tanimoto, Hiroshi Yamashita, Kazuhiko Koike, Saki Harii, Yoshikatsu Nakano, Kenji Iwao, Ko Yasumoto, and Shugo Watabe. "Possible involvement of Tachylectin-2-like lectin from Acropora tenuis in the process of Symbiodinium acquisition." Fisheries Science 81, no. 3 (March 18, 2015): 473–83. http://dx.doi.org/10.1007/s12562-015-0862-y.

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Takeuchi, Ryota, Mitsuru Jimbo, Fumika Tanimoto, Chiaki Tanaka, Saki Harii, Yoshikatsu Nakano, Ko Yasumoto, and Shugo Watabe. "Establishment of a model for chemoattraction of Symbiodinium and characterization of chemotactic compounds in Acropora tenuis." Fisheries Science 83, no. 3 (February 14, 2017): 479–87. http://dx.doi.org/10.1007/s12562-017-1069-1.

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Marchioro, Giulia M., Bettina Glasl, Aschwin H. Engelen, Ester A. Serrão, David G. Bourne, Nicole S. Webster, and Pedro R. Frade. "Microbiome dynamics in the tissue and mucus of acroporid corals differ in relation to host and environmental parameters." PeerJ 8 (August 17, 2020): e9644. http://dx.doi.org/10.7717/peerj.9644.

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Corals are associated with diverse microbial assemblages; however, the spatial-temporal dynamics of intra-species microbial interactions are poorly understood. The coral-associated microbial community varies substantially between tissue and mucus microhabitats; however, the factors controlling the occurrence, abundance, and distribution of microbial taxa over time have rarely been explored for different coral compartments simultaneously. Here, we test (1) differentiation in microbiome diversity and composition between coral compartments (surface mucus and tissue) of two Acropora hosts (A. tenuis and A. millepora) common along inshore reefs of the Great Barrier Reef, as well as (2) the potential linkage between shifts in individual coral microbiome families and underlying host and environmental parameters. Amplicon based 16S ribosomal RNA gene sequencing of 136 samples collected over 14 months, revealed significant differences in bacterial richness, diversity and community structure among mucus, tissue and the surrounding seawater. Seawater samples were dominated by members of the Synechococcaceae and Pelagibacteraceae bacterial families. The mucus microbiome of Acropora spp. was dominated by members of Flavobacteriaceae, Synechococcaceae and Rhodobacteraceae and the tissue was dominated by Endozoicimonaceae. Mucus microbiome in both Acropora species was primarily correlated with seawater parameters including levels of chlorophyll a, ammonium, particulate organic carbon and the sum of nitrate and nitrite. In contrast, the correlation of the tissue microbiome to the measured environmental (i.e., seawater parameters) and host health physiological factors differed between host species, suggesting host-specific modulation of the tissue-associated microbiome to intrinsic and extrinsic factors. Furthermore, the correlation between individual coral microbiome members and environmental factors provides novel insights into coral microbiome-by-environment dynamics and hence has potential implications for current reef restoration and management efforts (e.g. microbial monitoring and observatory programs).
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Nishikawa, A., M. Katoh, and K. Sakai. "Larval settlement rates and gene flow of broadcast-spawning (Acropora tenuis) and planula-brooding (Stylophora pistillata) corals." Marine Ecology Progress Series 256 (2003): 87–97. http://dx.doi.org/10.3354/meps256087.

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Haryanti, Dwi, and Michio Hidaka. "Temperature Dependence of Respiration in Larvae and Adult Colonies of the Corals Acropora tenuis and Pocillopora damicornis." Journal of Marine Science and Engineering 3, no. 3 (June 29, 2015): 509–19. http://dx.doi.org/10.3390/jmse3030509.

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Yuyama, Ikuko, Saki Harii, and Michio Hidaka. "Algal symbiont type affects gene expression in juveniles of the coral Acropora tenuis exposed to thermal stress." Marine Environmental Research 76 (May 2012): 41–47. http://dx.doi.org/10.1016/j.marenvres.2011.09.004.

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Quigley, Kate M., Bette L. Willis, and Line K. Bay. "Maternal effects and Symbiodinium community composition drive differential patterns in juvenile survival in the coral Acropora tenuis." Royal Society Open Science 3, no. 10 (October 2016): 160471. http://dx.doi.org/10.1098/rsos.160471.

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Coral endosymbionts in the dinoflagellate genus Symbiodinium are known to impact host physiology and have led to the evolution of reef-building, but less is known about how symbiotic communities in early life-history stages and their interactions with host parental identity shape the structure of coral communities on reefs. Differentiating the roles of environmental and biological factors driving variation in population demographic processes, particularly larval settlement, early juvenile survival and the onset of symbiosis is key to understanding how coral communities are structured and to predicting how they are likely to respond to climate change. We show that maternal effects (that here include genetic and/or effects related to the maternal environment) can explain nearly 24% of variation in larval settlement success and 5–17% of variation in juvenile survival in an experimental study of the reef-building scleractinian coral, Acropora tenuis . After 25 days on the reef, Symbiodinium communities associated with juvenile corals differed significantly between high mortality and low mortality families based on estimates of taxonomic richness, composition and relative abundance of taxa. Our results highlight that maternal and familial effects significantly explain variation in juvenile survival and symbiont communities in a broadcast-spawning coral, with Symbiodinium type A3 possibly a critical symbiotic partner during this early life stage.
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van der Ven, Rosa M., Ludwig Triest, Dennis J. R. De Ryck, Jelvas M. Mwaura, Mohammed S. Mohammed, and Marc Kochzius. "Population genetic structure of the stony coral Acropora tenuis shows high but variable connectivity in East Africa." Journal of Biogeography 43, no. 3 (October 26, 2015): 510–19. http://dx.doi.org/10.1111/jbi.12643.

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Yuyama, Ikuko, Yoshihiko Ito, Toshiki Watanabe, Michio Hidaka, Yoshimi Suzuki, and Mutsumi Nishida. "Differential gene expression in juvenile polyps of the coral Acropora tenuis exposed to thermal and chemical stresses." Journal of Experimental Marine Biology and Ecology 430-431 (November 2012): 17–24. http://dx.doi.org/10.1016/j.jembe.2012.06.020.

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Yuyama, Ikuko, and Tomihiko Higuchi. "Comparing the Effects of Symbiotic Algae (Symbiodinium) Clades C1 and D on Early Growth Stages of Acropora tenuis." PLoS ONE 9, no. 6 (June 10, 2014): e98999. http://dx.doi.org/10.1371/journal.pone.0098999.

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T. KARIYAZONO, Shiho, and Masayuki HATTA. "Bail-out of the polyp from the skeleton of spats in the scleractinian coral Acropora tenuis." Galaxea, Journal of Coral Reef Studies 17, no. 1 (2015): 19–20. http://dx.doi.org/10.3755/galaxea.17.19.

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43

Harii, S., K. Nadaoka, M. Yamamoto, and K. Iwao. "Temporal changes in settlement, lipid content and lipid composition of larvae of the spawning hermatypic coral Acropora tenuis." Marine Ecology Progress Series 346 (September 27, 2007): 89–96. http://dx.doi.org/10.3354/meps07114.

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Ishibashi, Hiroshi, Daisuke Takaichi, and Ichiro Takeuchi. "Effects of the herbicide Irgarol 1051 on the transcriptome of hermatypic coral Acropora tenuis and its symbiotic dinoflagellates." Science of The Total Environment 780 (August 2021): 146542. http://dx.doi.org/10.1016/j.scitotenv.2021.146542.

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45

Howlett, Lorna, Emma F. Camp, John Edmondson, Nicola Henderson, and David J. Suggett. "Coral growth, survivorship and return-on-effort within nurseries at high-value sites on the Great Barrier Reef." PLOS ONE 16, no. 1 (January 11, 2021): e0244961. http://dx.doi.org/10.1371/journal.pone.0244961.

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Coral reefs are deteriorating worldwide prompting reef managers and stakeholders to increasingly explore new management tools. Following back-to-back bleaching in 2016/2017, multi-taxa coral nurseries were established in 2018 for the first time on the Great Barrier Reef (GBR) to aid reef maintenance and restoration at a “high-value” location–Opal Reef–frequented by the tourism industry. Various coral species (n = 11) were propagated within shallow water (ca. 4-7m) platforms installed across two sites characterised by differing environmental exposure–one adjacent to a deep-water channel (Blue Lagoon) and one that was relatively sheltered (RayBan). Growth rates of coral fragments placed onto nurseries were highly variable across taxa but generally higher at Blue Lagoon (2.1–10.8 cm2 month-1 over 12 months) compared to RayBan (0.6–6.6 cm2 month-1 over 9 months). Growth at Blue Lagoon was largely independent of season, except for Acropora tenuis and Acropora hyacinthus, where growth rates were 15–20% higher for December 2018-July 2019 (“warm season”) compared to August-December 2018 (“cool season”). Survivorship across all 2,536 nursery fragments was ca. 80–100%, with some species exhibiting higher survivorship at Blue Lagoon (Acropora loripes, Porites cylindrica) and others at RayBan (A. hyacinthus, Montipora hispida). Parallel measurements of growth and survivorship were used to determine relative return-on-effort (RRE) scores as an integrated metric of “success” accounting for life history trade-offs, complementing the mutually exclusive assessment of growth or survivorship. RRE scores within sites (across species) were largely driven by growth, whereas RRE scores between sites were largely driven by survivorship. The initial nursery phase of coral propagation therefore appears useful to supplement coral material naturally available for stewardship of frequently visited Great Barrier Reef tourism (high-value) sites, but further assessment is needed to evaluate how well the growth rates and survival for nursery grown corals translate once material is outplanted.
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Rosser, Natalie L. "Demographic history and asynchronous spawning shape genetic differentiation among populations of the hard coral Acropora tenuis in Western Australia." Molecular Phylogenetics and Evolution 98 (May 2016): 89–96. http://dx.doi.org/10.1016/j.ympev.2016.02.004.

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Humanes, Adriana, Sam H. C. Noonan, Bette L. Willis, Katharina E. Fabricius, and Andrew P. Negri. "Cumulative Effects of Nutrient Enrichment and Elevated Temperature Compromise the Early Life History Stages of the Coral Acropora tenuis." PLOS ONE 11, no. 8 (August 30, 2016): e0161616. http://dx.doi.org/10.1371/journal.pone.0161616.

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48

Morita, M., A. Nishikawa, A. Nakajima, A. Iguchi, K. Sakai, A. Takemura, and M. Okuno. "Eggs regulate sperm flagellar motility initiation, chemotaxis and inhibition in the coral Acropora digitifera, A. gemmifera and A. tenuis." Journal of Experimental Biology 209, no. 22 (November 15, 2006): 4574–79. http://dx.doi.org/10.1242/jeb.02500.

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van Oppen, Madeleine J. H., Julian Catmull, Brenda J. McDonald, Nikki R. Hislop, Paul J. Hagerman, and David J. Miller. "The Mitochondrial Genome of Acropora tenuis (Cnidaria; Scleractinia) Contains a Large Group I Intron and a Candidate Control Region." Journal of Molecular Evolution 55, no. 1 (July 1, 2002): 1–13. http://dx.doi.org/10.1007/s00239-001-0075-0.

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dela Cruz, Dexter W., and Peter L. Harrison. "Optimising conditions for in vitro fertilization success of Acropora tenuis, A. millepora and Favites colemani corals in northwestern Philippines." Journal of Experimental Marine Biology and Ecology 524 (March 2020): 151286. http://dx.doi.org/10.1016/j.jembe.2019.151286.

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