東沙環礁之造礁珊瑚共生藻多樣性研究

Kuo-Hsun Tang; 唐國薰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/41197

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	周宏農
dc.contributor.author	Kuo-Hsun Tang	en
dc.contributor.author	唐國薰	zh_TW
dc.date.accessioned	2021-06-14T17:23:16Z	-
dc.date.available	2011-08-17
dc.date.copyright	2011-08-17
dc.date.issued	2011
dc.date.submitted	2011-08-11
dc.identifier.citation	Baird AH, Bhagooli R, Ralph P, Takahashi S (2009) Coral bleaching: the role of the host. Trends Ecol Evol 24: 16-20 Baker AC, Rowan R, Knowlton N (1997) Symbiosis ecology of two Caribbean acroporid corals. Proc 8th Int Coral Reef Symp 2: 1295-1300 Baker AC (2001) Reef corals bleach to survive change. Nature 411: 765-766 Baker AC (2003) Flexibility and specificity in coral-algal symbiosis: diversity, ecology, and biogeography of Symbiodinium. Annu Rev Ecol Syst 34: 661–689 Baker AC, Romanski AM (2007) Multiple symbiotic partnership are common in scleractinian corals, but not in octocorals: Comment on Goulet (2006). Mar Ecol Prog Ser 335: 237-242 Bellwood DR, Hughes TP, Folke C, Nÿstrom M (2004) Confronting the coral reef crisis. Nature, 429: 827-833 Berkelmans R, De'ath G, Kininmonth S, Skirving WJ (2004) A comparison of the 1998 and 2002 coral bleaching events on the Great Barrier Reef: spatial correlation, patterns and predictions. Coral Reefs, 23: 74-83 Berkelmans R, van Oppen MJH (2006) The role of zooxanthellae in the thermal tolerance of corals: a ‘nugget of hope’ for coral reefs in an era of climate change. Proceedings of the Royal Society B, Biological Science 273: 2305-2312 Bhagooli R, Baird AH, Ralph PJ (2008) Does the coral host protect its algal symbionts from heat and light stresses? Proc 11th Int Coral Reef Symp 5: 113-117 Brown BE (1990) Coral Bleaching: Special Issue, Coral Reefs, vol. 8, pp. 153– 232 Brown BE (1997) Adaptations of reef corals to physical environmental stress. Adv Mar Biol 31: 221-298 Chen CA, Lam KK, Nakano Y, Tsai WS (2003) A stable association of a stress-tolerant zooxanthellae, Symbiodinium clade D, with the low-temperature tolerant coral, Oulastrea crispate (Scleractinia; Faviidae). Zool Stud 42: 540-550 Chen CA, Yang YW, Wei NV, Tsai WS, Fang LS (2005a) Symbiont diversity in scleractinian corals from tropical reeds and subtropical non-reed communities in Taiwan. Coral Reefs 23: 11-22 Chen CA, Wang JT, Fang LS, Yang YW (2005b) Fluctuating algal symbiont communities in Acropora palifera (Cnidaria; Scleractinia) from Taiwan. Mar Ecol Prog Ser, 295, 113-121. Chen YY, Wang YH, Lee CP (2008) Ocean current, depth of water and habitat of the reef atoll are investigated in Dongsha. Marine National Park Administration request report 1:1-6:69 (in Chinese with English inventory) Coffroth MA, Santos SR (2005) Genetic diversity of symbiotic dinoflagellates in the genus Symbiodinium. Protist 156: 19-34 Coles SL, Brown BE (2003) Coral bleaching- capacity for acclimatization and adaptation. Adv Mar Biol 46: 183-223 Coleman FC, Williams SL (2002) Overexploiting marine ecosystem engineers: potential consequences for biodiversity. Trends Ecol Evol 17: 40-44 Dai CF (1991) Reef environment and coral fauna of southern Taiwan. Atoll Res Bull 354: 1-24 Dai CF, Fan TY, Wu CS (1995) Coral fauna of Tungsha Tao (Pratas Island). Acta Oceanogr Taiwanica 34: 1-16 Dai CF (2005) The corals reefs ecological resources of sea area of Dongsha are investigated and monitored. Construction and Planning Administration Ministry of Interior request report Chapter 4: 4:1-31 (in Chinese with English inventory) Dai CF (2006) The corals reefs ecological resources of sea area of Dongsha are investigated and monitored. Construction and Planning Administration Ministry of Interior request report Chapter 4: 67-137 (in Chinese with English inventory) Dai CF (2008) The corals reefs ecological resources of sea area of Dongsha are investigated and monitored. Construction and Planning Administration Ministry of Interior request report Chapter 4: 51-108 (in Chinese with English inventory) Dong ZJ, Huang H, Huang LM, Li YC, Li XB (2008a) PCR-RFLP analysis of large subunit rDNA of symbiotic dinoflagellates in scleractinian corals from Luhuitou fringing reef of Sanya, Hainan. Biodiversity Science 16: 498-502 (in Chinese with English inventory) Dong ZJ, Huang H, Huang LM, Li YC, Zhou GW (2008b) Molecular taxonomy and diversity of symbiotic dinoflagellates in scleractinian corals near the sea off the Dongshan Island in Fujian Province. Journal of Oceanography in Taiwan Strait 27: 135-140 (in Chinese with English inventory) Dong ZJ, Huang H, Huang LM, Li YC (2009) Diversity of symbiotic algae of the genus Symbiodinium in scleractinian corals of the Xisha Island in the South China Sea. Journal of Systematics and Evolution 47: 321-326 Drew EA (1972) The biology and physiology of algal-invertebrate symbiosis. II. The density of algal cells in a number of hermatypic hard corals and alcyonarians from various depths. J Exp Mar Biol Ecol 9: 71-75 Fabricius KE, Mieog JC, Colin PL, Idip D, van Oppen MJH (2004) Identity and diversity of coral endosymbionts (zooxanthellae) from three Palauan reefs with contrasting bleaching, temperature and shading histories. Mol Ecol 13: 2445-2458 Fan TY, Fang LS, Wu BJ, Kuo FW, Liu PJ, Lin KH (2007) The assessment of coral reefs restoration and reliability of Dong-Sha Atoll. Marine National Park Administration request report : 1-52 (in Chinese with English inventory) Fang LS, Shao KT, Liu L, Li JJ (1990) A survey of the marine ecological resources of Dong-Sha Atoll. Fishery Management Department, Kaohsiung City government, Taiwan, 61pp (in Chinese with English inventory) Fang LS (1998) The status of marine ecology in Dong-Sha Atoll. European-Asian workshop on Investigation and Management of Mediterranean and South China Sea Coastal Zone. Nov 9-11 1998 Hong Kong Ferrara GB, B Murgia, AM Parodi, L Valisano, C Cerrano, G Palmisano, G Bavestrello, and M Sara (2006) The assessment of DNA from marine organisms via a modifi ed salting-out protocol. Cellular and Molecular Biology Letters 11:155-160 Gattuso JP, Allemand D, Frankignoulle M (1999) Photosynthesis and calcification at cellular, organismal and community levels in coral reefs: A review on interactions and control by carbonate chemistry. Am Zool 39: 160-183 Glynn PW, Mate JL, Baker AC, Calderon MO (2001) Coral bleaching and mortality in Panama and Ecuador during the 1997–1998 El Nino-Southern oscillation event: spatial/temporal patterns and comparisons with the 1982–1983 event. Bull Mar Sci 69:79–109 Goulet TL (2006) Most corals may not change their symbionts. Marine Ecology Progress Series 321: 1-7 Harvell D, Aronson R, Baron N, Connell J, Dobson A, Ellner S, Gerber L, Kim K, Kuris A, McCallum H, Lafferty K, McKay B, Porter J, Pascual M, Smith G, Sutherland K, Ward J (2004) The rising tide of ocean disease: unsolved problems and research priorities. Frontiers Eco Environm 2: 375-382 Hoegh-Guldberg O, Smith J (1989a) The effect of sudden changes in temperature, light and salinity on the population density and export of zooxanthellae from the reed corals Stylophora pistillata Esper and Seriatopora hystrix. Dana. J Exp Mar Biol Ecol 129: 279-303 Hoegh-Guldberg O, Smith J (1989b) Influence of population density of zooxanthellae and supply of ammonium on the biomass and metabolic characteristics of the reef corals Seriatopora hystrix and Stylophora pistillata. Mar Ecol Prog Ser 57: 173-186 Hoegh-Guldberg O (1999) Climate change, coral bleaching and the future of the world’s coral reefs. Mar Freshwat Res 50: 839-866 Hoegh-Guldberg O (2004) Coral reefs in a century of rapid environmental change. Symbiosis 37: 1-31 Huang H, Dong ZJ, Huang LM, Zhang JB (2006) Restriction fragment length polymorphism analysis of large subunit rDNA of symbiotic dinoflagellates from scleractinian corals in the Zhubi Coral Reef of the Nansha Islands. Journal of Integrative Plant Biology 48: 148-152 Huang DY (2010) Study of coral distribution of Dongsha Atoll. Master thesis, Institute of Marine Biology, National Sun Yat-sen University Hughes TE, Baird AH, Bellwood DR, Card M, Connolly SR, Folke C, Grosberg R, Hoegh-Guldberg O, Jackson JB C, Kleypas J et al (2003) Climate change, human impacts, and the resilience of coral reefs. Science 301, 929- 933 Jackson JBC (2001) What was natural in the coastal oceans? PNAS 98: 5411-5418 Jones CG, Lawton JH, Shachak M (1994) Organisms as Ecosystem Engineers. Oikos 69: 373-386 Jones AM, Berkelmans R, van Oppen MJH, Mieog JC, Sinclair W (2008) A community change in the algal endosymbionts of a scleractinian coral following a natural bleaching event: field evidence of acclimatization. Proc Royal Soc London, B 275: 1359-1365 Jones AM, Berkelmans R (2010) Potential costs of acclimatization to a warmer climate: growth of a reef coral with heat tolerant vs. sensitive symbiont types. PLoS ONE 5: e10437 LaJeunesse TC, Trench RK (2000) The biogeography of two species of Symbiodinium (Freudenthal) inhabiting the intertidal anemone, Anthopleura elegantissima (Brandt). Biological Bulletin 199: 126-134 LaJeunesse TC (2001) Investigating the biodiversity, ecology, and phylogeny of endosymbiotic dinoflagellates in the genus Symbiodinium using the internal transcribed spacer region: in search of a “species” level marker. J Phycol 37: 866-880 LaJeunesse TC (2002) Diversity and community structure of symbiotic dinoflagellates from Caribbean coral reefs. Marine Biology 141: 387-400 LaJeunesse TC, Loh WKW, van Woesik R, Hoegh-Guldberg O, Schmidt GW, Fitt WK (2003) Low symbiont diversity in southern Great Barrier Reef corals relative to those of the Caribbean. Limnol Oceanogr 48:2046–2054 LaJeunesse TC, Bhagooli R, Hidaka M, deVantier L, Done T, Schmit GW, Fitt WK, Hoegh-Guldberg O (2004a) Closely related Symbiodinium spp. differ in relative dominance in coral reef host communities across environmental, latitudinal and biogeographic gradients. Marine Ecology Progress Series 284: 147-161 LaJeunesse TC, Thornhill DJ, Cox EF, Stanton FG, Fitt WK, Schmidt GW (2004b) High diversity and host specificity observed among symbiotic dinoflagellates in reef coral communities from Hawaii. Coral Reefs 23: 596-603 Li JJ, Lee TF, Tew KS, Fang LS (2000) Changes in the Coral Community at Dong-Sha Atoll, South China Sea from 1975 to 1998. Acta Zool Taiwanica 11 (1): 1-15 Li JJ, Fang LS (2002) The management of Dong-Sha Atoll as an effective marine protected area. Proceedings of the 4th Conference on the Protected Areas of East Asia (IUCN/WCPA/EA-4) p 403-415 Taipei Lien YT, Nakano Y, Plathong S, Fukami H, Wang JT, Chen CA (2007) Occurrence of the putatively heat-tolerant Symbiodinium phylotype D in high-latitudinal outlying coral communities. Coral Reefs 26: 35-44 Loh WKW, Loi T, Carter D and Hoegh-Guldberg O (2001) Genetic variability of the symbiotic dinoflagellates from the wide ranging coral species Seriatopora hystrix and Acropora longicyathus in the Indo-West Pacific. Mar Ecol Prog Ser, 222, 97-107 Ma TYH (1937) On the growth of reef corals and its relation to the sea water temperature. Mem Nat Inst Acad Sinica Zool 1: 1-226 Magalon H, Flot JF, Baudry E (2007) Molecular identification of symbiotic dinoflagellates in Pacific corals in the genus Pocillopora. Coral Reefs 26: 551-558 Meesters EH, Nieuwland G, Duineveld GCA, Kok A, Bak RPM (2002) RNA/DNA ratios of scleractinian corals suggest acclimatization/adaptation in relation to light gradients and turbidity regimes. Mar Ecol Prog Ser 227: 233-239 Mieog JC, van Oppen MJH, Cantin NE, Stam WT, Olson JL (2007) Real-time PCR reveals a high incidence of Symbiodinium clade D at low levels in four scleractinian corals across the Great Barrier Reef: implications for symbiont shuffling. Coral Reefs 26: 449-457 Moberg F, Folke C (1999) Ecological goods and services of coral reef ecosystems. Ecol Economics 29: 215-233 Muller-Parker G, D'Elia CF (1997) Interactions between corals and their symbiotic algae. In: Birkeland C (ed) Life and Death of Coral Reefs. Chapman and Hall, NY, 96-113 Muscatine L, Porter JW (1977) Reef corals mutualistic symbiosises adapted to nutrient-poor environments. Bioscience, vol. 27, 454-460 Muscatine L, Falkowski PG, Porter JW, Dubinsky Z (1984) Fate of photosynthetic carbon in light- and shade-adapted colonies of the symbiotic coral Stylophora pistillata. Proc Royal Soc London, B 222: 181-202 Muscatine L (1990) The role of symbiotic algae in carbon and energy flux in reef corals. Coral Reefs, 25, 75-87 Pandolfi JM, Bradbury RH, Sala E, Hughes TP, Bjorndal KA, Cooke RG, McArdle D, McClenachan L, Newman MJH, Paredes G, Warner RR, Jackson JBC (2003) Global trajectories of the long-term decline of coral reef ecosystems. Science 301: 955-958 Pearse VB, Muscatine L (1971) Role of symbiotic algae (zooxanthellae) in coral calcification. Biol Bull 141: 350-363 Pochon X, Pawloski J, Zaninetti L and Rowan R (2001) High genetic diversity and relative specificity among Symbiodinium –like endosymbiotic dinoflagellates in soritid foraminiferans. Mar Biol 139: 1067-1078 Pochon X, Montoya-Burgos JI, Stadelmann B, Pawloski J (2006) Molecular phylogeny, evolutionary rates, and divergence timing of the symbiotic dinoflagellates genus Symbiodinium. Phylogenetics and Evolution 38: 20-30 Pochon X, Gates RD (2010) A new Symbiodinium clade (Dinophyceae) from soritid foraminifera in Hawaii. Mol Phylogenet Evol 56: 492-497 Porter JW, Muscatine L, Dubinsky Z and Falkowski PG (1984) Primary production and photo-adaptation in light and- and shade-adapted colonies of the symbiotic coral, Stylophora pistillata. Proc R Soc London Ser B 222: 161-180 Rodriguez-Lanetty M, Loh W, Carter D, Hoegh-Guldberg O (2001) Latitudinal variability in symbiont specificity within the widespread scleractinian coral Plesiastrea versipora. Marine Biology 138: 1175-1181 Rodriguez-Lanetty M, Cha HR, Song JI (2002) Genetic diversity of symbiotic dinoflagellates associated with anthozoans from Korean waters. Proc Int Coral Reefs Symp 9th Bali 1: 163-166 Rowan R, Powers DA (1991a) Molecular genetic identification of symbiotic dinoflagellates (zooxanthellae). Mar Ecol Prog Ser 71: 65-73 Rowan R, Knowlton N, Baker A, Jara J (1997) Landscape ecology of algal symbionts creates variation in episodes of coral bleaching. Nature 388: 265-269 Rowan R (2004) Thermal adaptation in reef coral symbionts. Nature 430:742 Stat M, Loh W, Hoegh-Guldberg O, Carter DA (2009) Stability of coral-endosymbiont associations during and after a thermal stress event in the southern Great Barrier Reef. Coral Reefs 28: 709-713 Sokal RR, Rohlf FJ (1995) Biometry: the principles and practice of statistics in biological research, 3rd ed. Freeman: San Francisco. 887 pp. Soong K, Dai CF, Lee CP (2002) Status of Pratas Atoll in South China Sea. Proceedings of the 4th Conference on the Protected Areas of East Asia (IUCN/WCPA/EA-4) p 739-742 Taipei Tchernov D, Gorbunov MY, de Vargas C, Yadav SW, Milligan AJ, Haggblom M, Falkowski PG (2004) Membrane lipids of symbiotic algae are diagnostic of sensitivity to thermal bleaching in corals. Proc Natl Acad Sci 101: 531-535 Trench RK (1993) Microalgal-invertebrate symbiosis: A review. Endocytobiosis Cell Res 9: 135-175 Thornhill D, LaJeunesse TC, Kemp DW, Fitt WK, Schmidt GW (2005) Multi-year, seasonal genotypic surveys of coral-algal symbioses reveal prevalent stability or post-bleaching reversion. Mar Biol 148: 711-722 van Oppen MJH, Palstra FP, Piqet AMT, Miller DJ (2001) Patterns of oral-dinoflagellate associations in Acropora: Significance of local availability and physiology of Symbiodinium strains and host-symbiont selectivity. Proc R Soc Lond B Biol Sci 268: 1759-1767 van Oppen MJH, Mahiny A, Done T (2005a) Geographic distribution of zooxanthellae types in three coral species on the Great Barrier Reef sampled after the 2002 bleaching event. Coral Reefs 24: 482-487 van Oppen MJH, Mieog JC, Sanchez CA, Fabricius KE (2005b) Diversity of algal endosymbionts (zooxanthellae) in tropical octocorals: the roles of geography and host relationships. Molecular Ecology 14: 2403-2417 Visram S, Douglas AE (2006) Molecular diversity of symbiotic algae (zooxanthellae) in scleractinian corals of Kenya. Coral Reefs 25: 172-176 Warner ME, Fitt Wk, Schmidt GW (1996) The effects of elevated temperature on the photosynthetic efficiency of zooxanthellae in hospite from four different species of reef coral: A novel approach. Plant Cell Environ 19: 291-299 Wilkinson C (1999) Global and local threats to coral reef functioning and existence: review and predictions. Mar Freshwater Res 50: 867-878 Wilkinson C (2004) Status of coral reefs of the world. Australian Institute of Marine Science, Townsville, Australia Yang RT, Huang CC, Lee CS, Tsai HJ, Sun CL (1975) Report on a survey at Dongsha Island and the adjacent area. Spec Publ 8, Institute of Oceanography, National Taiwan University, Taipei, 15 p
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/41197	-
dc.description.abstract	東沙環礁為南中國海中最北端且發育完整的環礁。一九九八年的聖嬰現象造成的海水升溫，使得東沙環礁內的造礁珊瑚大量白化接續死亡。欲瞭解東沙環礁造礁珊瑚與其體內共生藻(以下合稱珊瑚共生體)的生物種系多樣性與組合、不同深度的分佈、以及其與溫度變化的相關性，以為未來擬定保育策略，特別是收集面對未來氣候變遷下的持續升溫，東沙環礁珊瑚共生體與珊瑚礁抵抗力與恢復力探討的基礎資料。本實驗分別於2009與2010年在東沙環礁內的塊礁(Patch reef)之礁頂(Reef Top)和礁底(Reef Base)，採集了七科二十一屬，共九百零三株造礁珊瑚，利用聚合酶連鎖反應(PCR)放大共生藻的細胞核核糖體核酸大次單位(nlsrDNA)基因片段後，再利用限制性片段長度多態性(RFLP)分析來評估東沙環礁內造礁珊瑚體內共生藻的多樣性。結果顯示東沙環礁造礁珊瑚體內的共生藻主要為C系群與D系群。在2009年的771個樣本中，只與C系群共生的共生體為71.34%，只與D系群共生佔19.71%，同時與C和D系群共生為8.95%，此結果與印度太平洋其他珊瑚礁共生藻多樣性皆以C系群為主相似。進一步分析塊礁礁頂與礁底共生藻分佈，結果顯示礁頂共生藻D系群的比例24.48%顯著高於礁底共生藻D系群14.88% (chi-square, p=0.007)，這可能與礁頂年均溫較礁底年均溫高有關。在2010年因反聖嬰現象引發的白化事件中，白化珊瑚中，84.78%為C系群珊瑚共生體，D系群珊瑚共生體為10.87%，而未白化珊瑚其D系群珊瑚共生體比例為62.79%。顯示與D系群共生的珊瑚宿主可能可以抵抗因高溫引起的珊瑚白化。	zh_TW
dc.description.abstract	Dong-Sha Atoll is the northernmost and well developed atoll in the South China Sea. For further study on reef-building corals and zooxanthellae (symbionts) diversity in coral hosts and their correlation with temperature fluctuation within different depths is necessary, to enact the conservation strategy in Dong-Sha Atoll, and important basic data to understand coral reef resistance and resilience to the gradual elevated seawater temperature caused by climate change. Coral samples were collected in 2009 and 2010 period in patch reefs of Dong-Sha lagoon from 2 different depths (Reef Top 1-5 meters and Reef Base 10–15 meters). A total of 903 samples belong to 7 families and 21 genera of reef-building corals were collected. Symbiodinium diversity was assessed using restriction fragment length polymorphism (RFLP) of the nuclear large subunit ribosomal DNA (nlsrDNA) of Symbiodinium DNA. In the present study, the results showed that the reef-building corals in Dong-Sha were associated with only two Symbiodinium clades: clade C and clade D. From the analysis of 771 samples collected in 2009, the Symbiodinium clade C, D and C+D proportion was 71.34%, 19.71% and 8.95% respectively. The results were similar to the pattern observed in corals from the Indo-Pacific where the Symbiodinium diversity of coral reefs is dominated by Symbiodinium clade C. Symbiodinium distribution analysis between Reef Top and Reef Base showed that clade D proportion in Reef Top (24.48%) was higher than Reef Base (14.88%)(chi-square, p=0.007). This might be due to the higher annual average seawater temperature at the Reef Top compared to Reef Base. In 2010 bleaching event caused by La Niña, the clade C proportion in bleached corals was up to 84.78% compared to clade D proportion of 10.87%. However, 62.79% of the non-bleached corals that were associated with clade D. This may support that Symbiodinium clade D can cope with coral bleaching caused by high seawater temperature.	en
dc.description.provenance	Made available in DSpace on 2021-06-14T17:23:16Z (GMT). No. of bitstreams: 1 ntu-100-R98b45033-1.pdf: 2797662 bytes, checksum: 36d77e0c574e45216cb3c129bbb2410c (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	Chinese abstract i Abstract iii Contents v Table Content vi Figure Content viii Appendix xi Introduction 1 Materials and Methods 6 Study sites and samples collection 6 Phylotyping of Symbiodinium 7 a.DNA extraction 7 b.Molecular Phylotyping-restriction fragment length polymorphism (RFLP) 8 Statistical analysis 8 Results 10 Temperature regime 10 Symbiodinium clade PCR-RFLP analysis in Dong-Sha lagoon in 2009 11 Symbiodinium clade PCR-RFLP analysis in 2010 bleaching event 13 Discussion 14 Conclusion 20 References 21
dc.language.iso	en
dc.subject	耐熱	zh_TW
dc.subject	共生藻	zh_TW
dc.subject	東沙	zh_TW
dc.subject	限制性片段長度多態性	zh_TW
dc.subject	氣候變遷	zh_TW
dc.subject	Dong-Sha	en
dc.subject	RFLP	en
dc.subject	thermal tolerance	en
dc.subject	Symbiodinium	en
dc.subject	climate change	en
dc.title	東沙環礁之造礁珊瑚共生藻多樣性研究	zh_TW
dc.title	Study on Symbiodinium diversity in scleractinian corals of Dong-Sha Atoll	en
dc.type	Thesis
dc.date.schoolyear	99-2
dc.description.degree	碩士
dc.contributor.coadvisor	陳昭倫
dc.contributor.oralexamcommittee	戴昌鳳,宋克義,王志騰
dc.subject.keyword	共生藻,東沙,耐熱,限制性片段長度多態性,氣候變遷,	zh_TW
dc.subject.keyword	Symbiodinium,Dong-Sha,thermal tolerance,RFLP,climate change,	en
dc.relation.page	65
dc.rights.note	有償授權
dc.date.accepted	2011-08-11
dc.contributor.author-college	生命科學院	zh_TW
dc.contributor.author-dept	漁業科學研究所	zh_TW
顯示於系所單位：	漁業科學研究所

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