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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 戴昌鳳(Chang-feng Dai) | |
dc.contributor.author | Hernyi Justin Hsieh | en |
dc.contributor.author | 謝恆毅 | zh_TW |
dc.date.accessioned | 2021-06-15T00:52:31Z | - |
dc.date.available | 2008-09-02 | |
dc.date.copyright | 2008-09-02 | |
dc.date.issued | 2008 | |
dc.date.submitted | 2008-08-08 | |
dc.identifier.citation | Adjeroud M, Augustin D, Galzin R, Salvat B (2002) Natural disturbances and interannual variability of coral reef communities on the outer slope of Tiahura (Moorea, French Polynesia): 1991 to 1997. Mar Ecol Prog Ser 237:121-131
Agardy T, Bridgewater P, Crosby MP, Day J, Dayton PK, Kenchinton R, Laffoley D, McConney P, Murray PA, Parks JE, Peau L (2003) Dangerous targets: differing perspectives, unresolved issues, and ideological clashes regarding marine protected areas. Aquat Conserv Mar Freshw Ecosyst 13:1–15 Alder J, Zeller D, Pitcher T (2002) A method for evaluating marine protected area management. Coast Manage 30: 121-131 Anthony, K. R. N. 2000. Enhanced particle-feeding capacity of corals on turbid reefs (Great Barrier Reef, Austrialia). Coral Reefs 19: 59-67 Baird AH, Hughes TP (2000) Competitive dominance by tabular corals: an experimental analysis of recruitment and survival of understorey assemblages. J Exp Mar Biol Ecol 251:117-132 Bak RPM, Termaat RM, Dekker R (1982) Complexity of coral interactions: influence of time, location of interaction and epifauna. Mar Biol 69: 215-222 Bak RPM, van Eys G (1975) Predation of the sea urchin Diadema antillarum Philippi on living coral. Oecologia 20: 111- 115 Ballantine WJ (1997) ‘No-take’ marine reserve networks support fisheries. In Developing and sustaining world fisheries resources: the state and management. 2nd World Fisheries Congress Proceedings, Hancock DA, Smith DC, Grant A, Beumer JP (eds). CISRO Publishing, Collingwood, Australia; 702-706 Banks SA, Harriott VJ (1995) Coral communities of the Gneering Shoals and Mudjimba Island, south-eastern Queensland. Mar Freshw Res 46:1137-1144 Beck MW, Odaya M (2001) Ecoregional planning in marine environments: identifying priority sites for conservation in the northern Gulf of Mexico. Aquat Conserv Mar Freshw Ecosyst 11: 235-242 Bellwood DR, Hughes TP, Folke C, Nystrom M (2004) Confronting the coral reef crisis. Nature 429:827-833 Bellwood DR, Hughes TP, Hoey AS (2006) Sleeping functional group drives coral-reef recovery. Curr Biol 16:2434-2439 Bohnsack JA, Causey B, Crosby MP, Griffis RB, Hixon MA, Hourigan TF, Koltes KH, Maragos JE, Simons A, Tilmant JT (2000) A rationale for minimum 20–30% no-take protection. In Proceedings of the 9th International Coral Reef Symposium, Kasim Moosa MK, Soemodihardjo S, Nontji A, Soegiarto A, Romimohtarto K, Sukarno, Suharsono (eds). Bali, Indonesia, Vol 2: 615-619 Bongiorni L, Shafir S, Angel D, Rinkevich B (2003) Survival, growth and reproduction of two hermatypic corals subjected to in situ fish-farm nutrient enrichment. Mar Ecol Prog Ser 253:137–144 Bradbury RH, Young PC (1981) The effects of a major forcing function, wave energy, on a coral-reef ecosystem. Mar Ecol Prog Ser 5:229-241 Brown BE (1997) Coral bleaching: causes and consequences. Coral Reefs 16: S129-138 Brown BE, Bythell JC (2005) Perspectives on mucus secretion in reef corals. Mar Ecol Prog Ser 296:291-309 Buddemeier RW, Hopley D (1988) Turn-ons and turn-offs: Causes and mechanisms of the initiation and termination of coral reef growth. Proc. 6th Int. Coral Reef Symp. 2:485-490 Buddemeier RW, Smith SV (1999) Coral adaptation and acclimatization: A most ingenious paradox. Am Zool 39:1-9 Burns TP (1985) Hard-coral distribution and cold-water disturbances in South Florida- variation with depth and location. Coral Reefs 4: 117-124 Buss LW, Jackson JBC (1979) Competitive networks: nontransitive competitive relationships in cryptic coral reef environments. Am Nat 113: 223-234 Bythell JC, Gladfelter EH, Bythell M (1993) Chronic and catastrophic natural mortality of three common Caribbean corals. Coral Reefs 12: 143-152 Chang KS, Chiang YM, Chen CH, Jen RQ, Dai CF, Jeng MS (1992) The surveys of marine biological resources in northern Penghu water. Preparatory office of Penghu National Scenic Area Administration, Tourism Bureau, MOTC, pp 68-88 (In Chinese) Chang KS, Yang HN, Chen CH, Jen RQ, Dai CF, Jeng MS (1993) The surveys of marine biological resources in inner Penghu water. Preparatory office of Penghu National Scenic Area Administration, Tourism Bureau, MOTC, pp 120-148 (In Chinese) Chen CA (1999) Analysis of scleractinian distribution in Taiwan indicating a pattern congruent with sea surface temperatures and currents: Examples from Acropora and Faviidae corals. Zool Stud 38:119-129 Chen CA, Lam KK, Nakano Y, Tsai WS (2003) A stable association of the stress-tolerant zooxanthellae, Symbiodinium clade D, with the low-temperature-tolerant coral, Oulastrea crispata (Scleractinia : Faviidae) in subtropical non-reefal coral communities. Zool Stud 42:540-550 Chen CT, Shao KT, Lewis JE, Yo SP, Huang CS (1992) The surveys of marine biological resources in eastern Penghu water. Preparatory office of Penghu National Scenic Area Administration, Tourism Bureau, MOTC, pp 97-119 (In Chinese) Clarke KR, Gorley RN (2006) Primer v6: User Manual/ Tutorial. Primer-E Ltd., Plymouth, UK Coles SL, Fadlallah YH (1991) Reef coral survival and mortality at low temperature in the Arabian Gulf- new species specific lower temperature limits. Coral Reefs 9: 231-237 Connell JH (1978) Diversity in rain forests and coral reefs. Science 199: 1302-1310 Connell JH (1997) Disturbance and recovery of coral assemblages. Coral Reefs 16:S101-S113 Connell JH, Hughes TE, Wallace CC, Tanner JE, Harms KE, Kerr AM (2004) A long-term study of competition and diversity of corals. Ecol Monogr 74:179-210 Connell JH, Hughes TP, Wallace CC (1997) A 30-year study of coral abundance, recruitment, and disturbance at several scales in space and time. Ecol Monogr 67:461-488 Costa Jr. OS, Leao Z, Nimmo M, Attrill MJ (2000) Nutrification impacts on coral reefs from northern Bahia, Brazil. Hydrobiologia 440:307-315 Costanza R, Andrade F, Antunes P, van den Belt M, Boersma D, Boesch DF, Catarino F, Hanna S, Limburg K, Low B, Molitor M, Pereira JG, Rayner S, Santos R, Wilson J, Young M (1998) Principles for sustainable governance of the oceans. Science 281: 198-199 Crossland CJ, Hatcher BG, Atkinson MJ, Smith SV (1984) Dissolved nutrients of a high-latitude coral reef, Houtman Abrolhos Islands, Western Australia. Mar Ecol Prog Ser 14: 159-163 Cumming RL (1999) Predation on reef-building corals: multiscale variation in the density of three corallivorous gastropods, Drupella spp. Coral Reefs 18:147-157 Cumming RL, McCorry D (1998) Corallivorous gastropods in Hong Kong. Coral Reefs 18:147-157 Dai CF (1990) Interspecific competition in Taiwaness corals with special reference to interactions between Alcyonaceans and Scleractinians. Mar Ecol Prog Ser 60: 291-297 Dai CF (1993) Patterns of coral distribution and benthic space partitioning on the fringing reefs of southern Taiwan. Mar Ecol 14:185-204 Dai CF (1997) Assessment of the present health of coral reefs in Taiwan. In Status of Coral Reefs in the Pacific, Grigg RW, Birkeland C (eds), Sea Grant Program, University of Hawaii: 123-131 Dai CF, Soong K, Chen CA, Hwang JS, Fan TY, Hsieh HY, Chang JS (2002) The status of coral reefs in Taiwan and the conservation problems. In Proceedings of IUCN/WCPA-EA4 Taipei Conference, Tsai HM (ed.), Taiwan Organizing Committee for IUCN/WCPA-EA4, Taipei: 265-276 Dallmeyer DG, Porter JW, Smith GJ (1982) Effects of particulate peat on the behavior and physiology of the Jamaican reef-building coral Montastrea annularis. Mar Biol 68:229-233 Dana JD (1843) On the temperature limiting the distribution of corals. Am J Sci 45: 130-131 Davis GE (1977) Anchor damage to a coral reef on the coast of Florida. Biol Conserv 11: 29–34 De'ath G, Moran PJ (1998) Factors affecting the behavior of crown-of-thorns starfish (Acanthaster planci L.) on the Great Barrier Reef: 2: Feeding preferences. J Exp Mar Biol and Ecol 220:107-126 Dinsdale EA, Harriott VJ (2004) Assessing anchor damage on coral reefs: a case study in selection of environmental indicators. Environ Manage 33: 126-139 Dodge RE, Aller RC, Thomson J (1974) Coral growth related to resuspension of bottom sediments. Nature 247:574-577 Done TJ (1992a) Phase-shift in coral-reef communities and their ecological significance. Hydrobiologia 247:121-132 Done TJ (1992b) Effects of tropical cyclone waves on ecological and geomorphological structures on the Great Barrier Reef. Cont Shelf Res 12: 859-872 Done TJ, Potts DC (1992) Influences of habitat and natural disturbances on contributions of massive Porites corals to reef communities. Mar Biol 114:479-493 Dong JT (2003) Environmental quality survey and monitoring project in Penghu in 2003. Penghu Environmental Protection Bureau report Dong JT (2004) Environmental quality surveys and monitoring project in Penghu, Kingmen and Matzu in 2004. Penghu Environmental Protection Bureau report Dong JT (2006) Environmental quality surveys and monitoring project in Penghu, Kingmen and Matzu in 2006. Penghu Environmental Protection Bureau report Donner SD, Knutson TR, Oppenheimer M (2007) Model-based assessment of the role of human-induced climate change in the 2005 Caribbean coral bleaching event. Proc Nat Acad Sci 104: 5483-5488 Edinger EN, Risk MJ (2000) Reef classification by coral morphology predicts coral reef conservation value. Biol Conserv 92: 1-13. Edmondson CH (1928) The ecology of a Hawaiian coral reef. Bull Bernice P Bishop Mus 45:1-64 English S, Wilkinson C, Baker V (eds) (1997) Survey manual for tropical marine resources, 2nd edition. Australian Institute of Marine Science, Townsville Evans SM, Birchenough AC (2001) Community-based management of the environment: lessons from the past and options for the future. Aquat Conserv Mar Freshw Ecosyst 11: 137-147 Fabricius KE (2005) Effects of terrestrial runoff on the ecology of corals and coral reefs: review and synthesis Mar Pollut Bull 50: 125-146 Fabricius KE, Metzner J (2004) Scleractinian walls of mouths: Predation on coral larvae by corals. Coral Reefs 23:245-248 Fagerstrom JA (1987) The evolution of reef communities. Wiley, New York. Fong SC, Mok HK, Chen HY, Soong KY, Liu LL (1993) The surveys of marine biological resources in southern Penghu water. Preparatory office of Penghu National Scenic Area Administration, Tourism Bureau, MOTC, pp 72-95 (In Chinese) Garzon-Ferreira J, Gil-Agudelo DL, Barrios LM, Zea S (2001) Stony coral diseases observed in southwester Caribbean reefs. Hydrobiologia 460: 65–69. Glynn PW (1976) Some physical and biological determinants of coral community structure in the eastern Pacific. Ecol Monogr 46: 431-456. Glynn PW (1984) Widespread coral mortality and the 1982/83 El Nino warming event. Environ Conserv 11: 133-146 Glynn PW (1993) Coral reef bleaching ecological perspectives. Coral Reefs 12:1-17 Glynn PW, Colgan MW (1992) Sporadic disturbances in fluctuating coral reef environments: El Nino and coral reef development in the eastern Pacific. Am Zool 32: 707-718. Gochfeld DJ, Aeby GS (1997) Control of populations of the coral-feeding nudibranch Phestilla sibogae by fish and crustacean predators. Mar Biol 130:63-69 Gomez ED, Alcala AC (1979) Status of Philippine coral reefs 1978. Proceedings of International Symposium on Southeast Asian Marine Biogeography and Evolution in the Southern Hemishpere Guinotte JM, Buddemeier RW, Kleypas JA (2003) Future coral reef habitat marginality: temporal and spatial effects of climate change in the Pacific basin. Coral Reefs 22:551-558 Gunderson L (2007) Ecology: A different route to recovery for coral reefs. Curr Biol 17:R27-R28 Halfar J, Godinez-Orta L, Riegl B, Valdez-Holguin JE, Borges JM (2005) Living on the edge: high-latitude Porites carbonate production under temperate eutrophic conditions. Coral Reefs 24:582-592 Hammer Ǿ, Harper DAT, Ryan PD (2001) PAST: Palaeontological Statistics software package for education and data analysis. Palaeontologia Electronica 4:1-9 Harriott VJ (1998) Growth of the staghorn coral Acropora formosa at Houtman Abrolhos, Western Australia. Mar Biol 132:319-325 Harriott VJ (1999a) Coral growth in subtropical eastern Australia. Coral Reefs 18:281-291 Harriott VJ (1999b) Coral recruitment at a high latitude Pacific site: A comparison with Atlantic reefs. Bull Mar Sci 65:881-891 Harriott VJ, Banks SA (2002) Latitudinal variation in coral communities in eastern Australia: a qualitative biophysical model of factors regulating coral reefs. Coral Reefs 21:83-94 Harriott VJ, Banks SA, Mau RL, Richardson D, Roberts LG (1999) Ecological and conservation significance of the subtidal rocky reef communities of northern New South Wales, Australia. Mar Freshw Res 50:299-306 Harriott VJ, Harrison PL, Banks SA (1995) The coral communities of Lord Howe island. Mar Freshw Res 46:457-465 Harriott VJ, Smith SDA, Harrison PL (1994) Patterns of coral community structure of subtropical reefs in the Solitary Islands marine reserve, eastern Australia. Mar Ecol Prog Ser 109: 67-76 Hayes RL, Goreau NI (1998) The significance of emerging diseases in the tropical coral reef ecosystem. Revista De Biologia Tropical 46: 173–185. Hodgson G (1990) Tetracycline reduced sedimentation damages to corals. Mar Biol 104: 493-496. Hodgson G (1999) A global assessment of human effects on coral reefs. Mar Pollut Bull 38: 345-355 Hoegh-Guldberg O (1999) Climate change, coral bleaching and the future of the world's coral reefs. Mar Freshw Res 50:839-866 Hoegh-Guldberg O, Fine M (2004) Low temperatures cause coral bleaching. Coral Reefs 23:444 Hoegh-Guldberg O, Fine M, Skirving W, Johnstone R, Dove S, Strong A (2005) Coral bleaching following wintry weather. Limnol Oceanogr 50:265-271 Holmes EK (2000) Effects of eutrophication on bioerosion sponge communities with the description of new West Indian sponges, Cliona spp. (Porifera: Hadromerida: Clionidae). Invertebr Biol 119:125 -138 Hsieh HJ, Hsieh YL, Jeng MS, Tsai WS, Su WC, Chen CA (2008) Tropical fishes killed by the cold. Coral Reefs DOI 10.1007/s00338-008-0378-3 Hsieh HJ, Wei NV, Lu YL, Jeng MS, Tsai WS, and Chen CA (2002) Unexpectly high coral coverage and genetic uniqueness of Euphyllia coral in Chinwan Inner Bay, Pescadores: a proposal site for a marine protection area. In Proceedings of the 4th Conference on the Protected Areas of East Area: Benefits beyond boundaries in East Asia, Tsai HM (ed.). Taipei: 303-310 Hsieh HJ, Wei NV, Lu YL, Jeng MS, Tsai WS, Chen CA (2001) Unexpectedly high coral coverage in Chinwan Inner Bay, Pescadores: a proposed site for a marine protection area. Coral Reefs 20: 316-217 Hsu S (eds) (1977) The record of Paisha township, Penghu. Paisha township office, Penghu, Taiwan (in Chinese) Hughes TP (1994) Catastrophes, phase-shift, and large-scale degradation of a Caribbean coral-reef. Science 265:1547-1551 Hughes TP, Baird AH, Bellwood DR, Card M, Connolly SR, Folke C, Grosberg R, Hoegh-Guldberg O, Jackson JBC, Kleypas J, Lough JM, Marshall P, Nystrom M, Palumbi SR, Pandolfi JM, Rosen B, Roughgarden J (2003) Climate change, human impacts, and the resilience of coral reefs. Science 301: 929-933 Hughes TP, Baird AH, Dinsdale EA, Moltschaniwskyj NA, Pratchett MS, Tanner JE, Willis BL (1999) Patterns of recruitment and abundance of corals along the Great Barrier Reef. Nature 397:59-63 Hughes TP, Baird AH, Dinsdale EA, Moltschaniwskyj NA, Pratchett MS, Tanner JE, Willis BL (2000) Supply-side ecology works both ways: The link between benthic adults, fecundity, and larval recruits. Ecology 81:2241-2249 Hughes TP, Jackson JBC (1985) Polulation-dynamics and life histories of foliaceous corals. Ecol Monogr 55:141-166 Hughes TP, Rodrigues MJ, Bellwood DR, Ceccarelli D, Hoegh-Guldberg O, McCook L, Moltschaniwskyj N, Pratchett MS, Steneck RS, Willis B (2007) Phase shifts, herbivory, and the resilience of coral reefs to climate change. Curr Biol 17:360-365 Hunte W, Wittenberg M (1992) Effects of eutrophication and sedimentation on juvenile corals. 2. Settlement. Mar Biol 114: 625–631. Huston M (1985) Variation in coral growth rates with depth at Discovery Bay, Jamaica. Coral Reefs 4: 19-25 Jan S, Wang J, Chern CS, Chao SY (2002) Seasonal variation of the circulation in the Taiwan Strait. J Mar Syst 35: 249-268 Jeng WL, Dai CF, Fan KL (1999) Taiwan Strait. In Seas at the Millennium: an Environmental Evaluation Vol. II, Sheppard CRC (ed.), Elsevier, Amsterdam: 499-512. Jokiel PL, Coles SL (1977) Effects of temperature on the mortality and growth of Hawaiian reef corals. Mar Biol 43:201-208 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 R Soc Lond, Ser B: Biol Sci 275:1359-1365 Jones GP, McCormick MI, Srinivasan M, Eagle JV (2004) Coral decline threatens fish biodiversity in marine reserves. Proc Nat Acad Sci 104: 5483-5488 Juang WS, Chen JC (1992) Geochronology and geomorphology of Penghu basalts, Taiwan Strait and their tectonic significance. J Southeast Asian Earth Sci 7: 185-193 Kaiser MJ (2004) Marine protected areas: the importance of being earnest. Aquat Conserv Mar Freshw Ecosyst 14: 635-638 Kamukuru AT, Mgaya YD, Öhman MC (2004) Evaluating a marine protected area in a developing country: Mafia Island Marine Park, Tanzania. Ocean Coast Manage 47: 321-337 Kimura T, Dai CF, Pae S, Huang H, Ang PO, Jong GJ, Choyce C (2004) Status of coral reefs in east and north Asia: China, Hong Kong, Taiwan, Korea and Japan. In Status of Coral Reefs of the World: 2004, Wilkinson C (ed.), Australian Institute of Marine Science, Townsville, Australia: 277-301 Kleypas JA (1996) Coral reef development under naturally turbid conditions: Fringing reefs near Broad Sound, Australia. Coral Reefs 15:153-167 Kleypas JA, Buddemeier RW, Gattuso JP (2001) The future of coral reefs in an age of global change. Int J Earth Sci 90:426-437 Kleypas JA, McManus JW, Menez LAB (1999) Environmental limits to coral reef development: where do we draw the line? Am Zool 39: 146-159 Knowlton N (1992). Thresholds and multiple stable states in coral reef community dynamics. Am Zool 32: 674-682 Knowlton N (2001) The future of coral reefs. Proc Nat Aca Sci 98: 5419-5425 Kohler KE, Gill SM (2006) Coral Point Count with Excel extensions (CPCe): A Visual Basic program for the determination of coral and substrate coverage using random point count methodology. Computers and Geosciences 32: 1259-1269, Koop K, Booth D, Broadbent A, Brodie J, Bucher D, Capone DG, Coll J, Dennison W, Erdmann M, Harrison PJ, Hoegh-Guldberg O, Hutchings P, Jones GB, Larkum AWD, O’Neil J, Steven A, Tentori E, Ward S, Williamson J, Yellowlees D (2001) ENCORE: the effect of nutrient enrichment on coral reefs. Synthesis of results and conclusions. Mar Pollut Bull 42: 91– 120 Kushmaro A, Loya Y, Fine M, Rosenberg E (1996) Bacterial infection and coral bleaching. Nature 380:396-396 Laboy-Nieves EN, Klein E, Conde JE, Losada F, Cruz JJ, Bone D (2001) Mass mortality of tropical marine communities in Morrocoy, Venezuela. Bull Mar Sci 68: 163-179 Lauck T, Clark CW, Mangel M, Munro GR (1998) Implementing the precautionary principle in fisheries management through marine reserves. Ecol Appl 8: S72-S78. Lin H (1893) Penghu records. Taiwan province government bibliography committee, Taiwan province government publishing, Taichung, Taiwan (reprint in 1993) (In Chinese). Loya Y (1976) Effects of water turbidity and sedimentation on the community structure of Puerto Rican corals. Bull Mar Sci 26:450-466 Loya Y, Sakai K, Yamazato K, Nakano Y, Sambali H, van Woesik R (2001) Coral bleaching: the winners and the losers. Ecol lett 4: 122-131 Loya, Y, Kramarsky-Winter E (2003) In situ eutrophication caused by fish farms in the northern Gulf of Eilat (Aqaba) is beneficial for its coral reefs: a critique. Mar Ecol Prog Ser 261: 299-303. Macdonald IA, Perry CT (2003) Biological degradation of coral framework in a turbid lagoon environment, Discovery Bay, north Jamaica. Coral Reefs 22: 523-535 Mayer AG (1914) The effects of temperature on tropical marine animals. Carnegie Inst Washington Publ 183:1-25 McClanahan TR (1989) Predation and the distribution and abundance of tropical sea urchin populations. J Exp Mar Biol Ecol 221: 231-255 McClanahan TR, Kaunda-Arara B (1996) Fishery recovery in a coral reef marine park and its effects on the adjacent fishery. Conserv Biol 10: 1187-1199 McClanahan TR, Mangi S (2000) Spillover of exploitable fishes from a marine park and its effects on the adjacent fishery. Ecol Appl 10: 1792-1805 McClanahan TR, Muthiga NA (1989) Patterns of predation on a sea-urchin, Echinometra mathaei (Deblainville), on Kenyan coral reefs. J Exp Mar Biol Ecol 126:77-94 McClanahan TR, Obura D (1997) Sedimentation effects on shallow coral communities in Kenya. J Exp Mar Biol Ecol 209:103-122 McClanahan TR, Polunin N, Done T (2002) Ecological states and the resilience of coral reefs. Conserv Ecol 6: 18 McCook LJ (1999) Macroalgae, nutrient and phase shifts on coral reefs: scientific issues and management consequences for the Great Barrier Reef. Coral Reefs 18: 357-367 McCook LJ, Jompa J, Diaz-Pulido G (2001) Competition between corals and algae on coral reefs: a review of evidence and mechanisms. Coral Reefs 19:400-417 Middlebrook R, Hoegh-Guldberg O, Leggat W (2008) The effect of thermal history on the susceptibility of reef-building corals to the thermal stress. J Exp Biol 211: 1050-1056 Moran PJ (1986) The Acanthaster phenomenon. Oceanogr Mar Biol 24:379-480 Moran PJ, Bradbury RH, Reichelt RE (1988) Distribution of recent outbreaks of the crown-of-thorns starfish (Acanthaster planci) along the Great Barrier Reef: 1985-1986. Coral Reefs 7: 125-137 Morton B, Blackmore G, Kwok CT (2002) Corallivory and prey choice by Drupella rugosa (Gastropoda : Muricidae) in Hong Kong. J Molluscan Stud 68:217-223 Murray SN, Ambrose RF, Bohnsack JA, Botsford W, Carr MH, Davis GE, Dayton PK, Gotshall D, Gunderson DR, Hixon MA, Lubchenco J, Mangel M, MacCall A, McCardle DA, Ogden JC, Roughgarden J, Starr RM, Tegner MJ, Yoklavich MM (1999) No-take reserve networks: sustainable fishery populations and marine ecosystems. Fisheries Management Perspectives. Fisheries 24: 11–25 Muscatine L (1990) The role of symbiotic algae in carbon and energy flux in reef corals. In: Dubinsky Z (ed.) Ecosystems of the world, Vol. 25, Coral reefs. Elsevier, Amsterdam, p. 75-87 Muscatine L, Grossman D, Doino J (1991) Release of symbiotic algae by tropical sea-anemone and corals after cold shock. Mar Ecol Prog Ser 77:233-243 NRC (National Research Center) (2001) Marine Protected Areas: Tools for Sustaining Ocean Ecosystems. National Academy Press, Washington, DC, USA. Pastorok RA, Bilyard GR (1985) Effects of sewage pollution on coral-reef communities. Mar Ecol Prog Ser 21: 175-189 Perry CT (2003) Coral reefs in a high-latitude, siliciclastic barrier island setting: reef framework and sediment production at Inhaca Island, southern Mozambique. Coral Reefs 22:485-497 Perry CT, Larcombe P (2003) Marginal and non-reef-building coral environments. Coral Reefs 22:427-432 Polunin NVC, Roberts CM (1993) Greater biomass and value of target coral reef fishes in two small Caribbean marine reserves. Mar Ecol Prog Ser 100: 167-176 Porter JW, Battey JF, Smith GJ (1982) Perturbation and change in coral reef communities. Proc Nat Acad Sci 79: 1678-1681 Reaser JK, Pomerance R, Thomas PO (2000) Coral bleaching and global climate change: Scientitic findings and policy recommendations. Conserv Biol 14:1500-1511 Reyes-Bonilla H, Calderon-Aguilera LE (1999) Population density, distribution and consumption rates of three corallivores at Cabo Pulmo reef, Gulf of California, Mexico. Mar Ecol 20:347-357 Riegl B, Heine C, Branch GM (1996) Function of funnel shaped coral growth in a high-sedimentation environment. Mar Ecol Prog Ser 145:87-93 Rinkevich B, Angel D, Shafir S, Bongiorni L (2003) 'Fair is foul and foul is fair': response to a critique. Mar Ecol Prog Ser 261: 305-309 Rinkevich B, Loya Y (1984) Does light enhance calcification in Hernatypic corals? Mar Biol 80: 1-6 Roberts CM, Bohnsack JA, Gell F, Hawkins JP, Goodridge R (2001) Effects of marine reserves on adjacent fisheries. Science 294: 1920–1923 Roberts CM, Hawkins JP (1997) How small can a marine reserve be and still be effective? Coral Reefs 16: 150 Roberts CM, McClean CJ, Veron JEN, Hawkins JP, Allen GR, McAllister DE, Mittermeiler CG, Schueler FW, Spalding M, Wells F, Vynne C, Werner TB (2002) Marine biodiversity hotspots and conservation priorities for tropical reefs. Science 295: 1280-1284 Rodolfo-Metalpa R, Peirano A, Houlbreque F, Abbate M, Ferrier-Pages C (2008) Effects of temperature, light and heterotrophy on the growth rate and budding of the temperate coral Cladocora caespitosa. Coral Reefs 27:17-25 Roff JC, Evans SMJ (2002) Framework for marine conservation- non-hierarchical approaches and distinctive habitats. Aquat Conserv Mar Freshw Ecosyst 12: 635-648 Rogers CS (1983) Sublethal and lethal effects of sediments applied to common Caribbean reef corals in the field. Mar Pollut Bull 14: 378-382 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 Rowley RJ (1994) Marine reserves in fisheries management. Aquat Conserv Mar Freshw Ecosyst 4: 233-254 Rubin M (2004) Apple training series: iLife’ 04. Peachpit Press, Berkeley, CA. Sammarco PW (1983) Efeects of fish grazing and damselfish territoriality on coral-reef algae 1. algal community structure. Mar Ecol Prog Ser 13: 1-14 Sanders D, Baron-Szabo RC (2005) Scleractinian assemblages under sediment input: their characteristics and relation to the nutrient input concept. Palaeogeogr Palaeoclimatol Palaeoecol 216:139-181 SAS Institute Inc. (1999) StatView 5.0 Using statview. Cary, NC, USA SAS Institute Inc. (2002) SAS 9 Help and Documentation. Cary, NC, USA Sawyer SJ, Muscatine L (2001) Cellular mechanisms underlying temperature-induced bleaching in the tropical sea anemone Aiptasia pulchella. J Exp Biol 204:3443-3456 Saxby T, Dennison WC, Hoegh-Guldberg O (2003) Photosynthetic responses of the coral Montipora digitata to cold temperature stress. Mar Ecol Prog Ser 248:85-97 Sheppard CRC (1980) Coral cover, zonation and diversity on reef slopes of Chagos atolls, and population structures of the major species. Mar Ecol Prog Ser 2: 193-205 Sheppard CRC (1982) Coral populations on reef slopes and their major controls. Mar Ecol Prog Ser 7:83-115 Sousa WP (1984) The role of disturbance in natural communities. Annu Rev Ecol Syst 15:353-391 Stafford-Smith MG (1993) Sediment-rejection efficiency of 22 species of Australian scleractinian corals. Mar Biol 115:229-243 Stafford-Smith MG, Ormond RFG (1992) Sediment-rejection mechanisms of 42 species of Australian scleractinian corals. Aust J Mar Freshw Res 43:683-705 Steen RG, Muscatine L (1987) Low-temperature evokes rapid exocytosis of symbiotic algae by a sea-anemone. Biol Bull 172:246-263 Stevens T (2002) Rigor and representativeness in marine protected area design. Coast Manage 30: 237-248 Storlazzi CD, Ogston AS, Bothner MH, Field ME, Presto MK (2004) Wave- and tidally-driven flow and sediment flux across a fringing coral reef: southern Molokai, Hawaii. Cont Shelf Res 24:1397-1419 Sumaila UR (1998) Protected marine reserves as fisheries management tolls: a bioeconomic analysis. Fish Res 37: 287-296 Sutherland KP, Porter JW, Torres C (2004) Disease and immunity in Caribbean and Indo-Pacific zooxanthellate corals. Mar Ecol Prog Ser 266: 273-302 Szmant-Froelich A, Johnson V, Hoehn T, Battey J, Smith GJ, Fleischmann E, Porter J, Dallmeyer D (1981) The physiological effects of oil-drilling muds on the Caribbean coral Montastrea annularis. Proc. 4th int. coral Reef Symp. 1: 163-168 Tang HG (1978)The situation and reviews of the mass mortalities due to freeze during winter time in Pescadores. China Fishery Monthly 302: 24-26 (In Chinese) Tomascik T (1991) Settlement-patterns of Caribbean scleractinian corals on artificial substrata along an eutrophication gradient, Barbados, West Indies. Mar Ecol Prog Ser 77: 261-269 Tomascik T, Sander F (1987a) Effects of eutrophication on reef-building corals. 2. Structure of scleractinian coral communities on fringing reefs, Barbados, West Indies. Mar Biol 94: 53–75 Tomascik T, Sander F (1987b) Effects of eutrophication on reef-building corals. 3. Reproduction of the reef-building coral Porites porites. Mar Biol 94, 77–94 Tsang CH (2005) Recent discoveries at the Tapenkeng culture sits in Taiwan: implications for the problem of Austronesian origins, in The peopling of East Asia: putting together archaeology, linguistics and genetics, pp. 63-76; edited by Laurent Sagart, Roger Blench and Alicia Sanchez-Mazas. London, New York: Routledge Curzon. van Woesik R, DeVantier LM, Glazebrook JS (1995) Effects of cyclone 'Joy' on nearshore coral communities of the Great Barrier Reef. Mar Ecol Prog Ser 128:261-270 van Woesik R, Done TJ (1997) Coral communities and reef growth in the southern Great Barrier Reef. Coral Reefs 16:103-115 Veron JEN (1995) Corals In space and time: The biogeography and evolution of the scleractinia. Cornell University Press pp 321 Veron JEN (2000) Corals of the world. Australian Institute of Marine Science, Townsville Veron JEN, Done TJ (1979) Corals and coral communities of Lord Howe island. Aust J Mar Freshw Res 30:203-236 Veron JEN, Minchin PR (1992) Correlations between sea-surface temperature, circulation patterns and the distribution of hermatypic corals of Japan. Cont Shelf Res 12:835-857 Wakeford M, Done TJ, Johnson CR (2008) Decadal trends in a coral community and evidence of changed disturbance regime. Coral Reefs 27:1-13 Westneat MW, Resing JM (1988) Predation on coral spawn by planktivorous fish. Coral Reefs 7:89-92 Wilkinson CR (1999) Global and local threats to reef functioning and existence: reviews and predictions. Mar Freshw Res 50: 839-866 Wilkinson CR (2004) Status of coral reefs of the world: 2004. Townsville, Australia: Australia Institute of Marine Science. Witman JP (1992) Physical disturbance and community structure of exposed and protected reefs: a case study. Am Zool 32: 641-654 Wittenberg M, Hunte W (1992) Effects of eutrophication and sedimentation on juvenile corals. 1. Abundance, mortality and community structure. Mar Biol 112: 131-138 Yajima T, Osamie S, Okamoto T, Yoshohiro S, Thutomu S, Masahiro M (1986) Ecological distribution of the reef coral, Oulastrea crispate (Larmack) at the shore region in the vicinity of Tsukumo Bay. Bull Jpn Sea Res Inst Kanazawa Univ 18: 21-36 Yonge CM, Nicholls AG (1931) Studies on the physiology of corals. IV. The structure, distribution and physiology of the zooxanthellae. Sci Rep Gr Barrier Reef Exped 1928-29 1: 135-176 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/42202 | - |
dc.description.abstract | 位於北回歸線上的澎湖群島,極南至極北的距離約70公里,在此海域生長著許多底棲生物群聚,其中包括了亞熱帶及邊緣性的「珊瑚群聚」及「珊瑚礁」。許多物理及生物因子都會影響石珊瑚的生長與分佈,物理因子例如:溫度、沉積物、颱風、光照(濁度)、鹽度、營養鹽、潮流、海洋酸化導致珊瑚骨骼鈣化速率降低等等;生物因子例如:競爭、幼生入添、捕食者的劇增以及功能群或關鍵物種的消失等等因素。位於亞熱帶及邊緣區的石珊瑚群聚(珊瑚礁)可以作為研究石珊瑚面臨逆境時,群聚變遷、後續的回覆性及抵抗逆境能力等的極佳試驗場所。
為了解澎湖群島石珊瑚群聚的分布和特徵,吾人在2004-2005年間以佈放橫截線配合數位攝影機調查紀錄該群島不同海域(北部、東部、內海及南部)的石珊瑚群聚發育現況,再以「逢機灑點計數試算表」軟體(CPCE)將影像紀錄轉換成量化的資料。以類群分析(clustering)及多向度空間分析法(MDS)所得結果發現,東部及北部海域的石珊瑚群聚結構相似可劃歸為一群,內海及南部海域則各自獨立形成另外兩群。東部及北部海域的石珊瑚群聚主要以軸孔珊瑚小群體或是片段為主體,表示該海域可能面臨頻繁的環境擾動。內海的石珊瑚群聚以耐污濁的物種為主,顯示高沉積率及低光照度對此處珊瑚分布影響甚大。南部海域的石珊瑚群聚則具有較高的物種多樣性及覆蓋率,顯示此處是適合石珊瑚生長的良好環境,主要因子可能是較高的水溫及低沉積速率。另外,以相似度分析方法(SIMPER)所得結果也支持上述類群分群及多向度空間分析的結果。在物種組成方面,南部海域以分枝狀軸孔珊瑚為優勢種;內海海域以管孔珊瑚及分枝狀表孔珊瑚為優勢種;而東部與北部海域則以菊珊瑚科及片珊瑚科的種類為主。美麗軸孔珊瑚在所有調查地點的較淺區都是豐度最高的物種,每個調查地點或海域則是各自擁有獨特的物種組成,也造成了彼此之間的差異。 極端溫度向來被認為是影響珊瑚生長及分布最重要的因素。2007-2008年冬天澎湖群島發生寒害侵襲,造成各類珊瑚礁生物大量死亡的事件。現地水溫資料顯示,比過去三年冬季水溫平均值要低的水溫持續了三週,同時發生四年來最低的水溫紀錄。南部海域的最低水溫比最北的姑婆嶼高了約攝氏3-4度。2008年4~5月在姑婆嶼、澎澎灣、青灣內灣、嶼坪、七美等地點的調查結果,與2005年與的資料比較,所有調查地點的活體珊瑚覆蓋率都明顯下降,而「新近死亡珊瑚」的比例則明顯升高。分枝狀的軸孔珊瑚及細枝鹿角珊瑚是此次寒害受創最嚴重的物種。本論文提出「寒潮持續度週」(DCW)指數作為石珊瑚群聚遭受寒害影響的指標,初步結果顯示,當DCW>1.0 即有可能對珊瑚群聚造成重大傷害,此值是否可作為寒害預警指標,尚待進一步驗證。 為了推動海洋保護區的劃設,本論文也針對澎湖海域12調查地點保育價值做出評價,依據以往的監測結果發現,青灣內灣具有相當高的活體珊瑚覆蓋率、高物種及棲地多樣性,亦即具有高保育價值。因此,針對劃設海洋保護區的全面考量,進行青灣內灣的生態資源詳細調查及當地居民的社經現況普查。漁業現況調查結果發現,當地大多是休閒漁業及自給式漁業,具有低收益、低投資、高度天候依存等特性。社經調查結果發現保護區劃設對於鄰近村里沒有直接的利益衝突,而且大部分居民贊成保護區劃設,而海域棲地環境的破壞,例如:錨害以及結螺的啃食,都需要持續的管理介入改善及監測。當然社區的主動參予可使保護區發揮功能,持續的環境教育則對於促進大眾認知有幫助。本章提出澎湖地區劃設海洋保護區或禁漁區的標準作業規範,有助於漁業管理機關做為未來施政時的參考。 綜合而論,澎湖群島多樣的石珊瑚群聚與其特有的地理及海域環境條件有關,並且具有亞熱帶珊瑚群聚變動劇烈的特性,過低海溫或冷水入侵是重大干擾因子,對該海域珊瑚群聚造成重大傷害,然而,後續的群聚回復力及抗拒力,以及功能群改變對群聚變動的影響,甚至於這種亞熱帶珊瑚群聚在全球變遷衝擊之下的反應等,都是值得繼續研究的課題。 | zh_TW |
dc.description.abstract | To reveal the distributional pattern of scleractinian communities, a video-transect method together with CPCe (Coral Point Count with Excel) analysis were applied to study the coral communities in four sectors: North, East, South, and Inner sea in Penghu Archipelago in 2004-05. The results of cluster analysis showed that coral communities in East and North sectors were grouped together, while those in Inner and South sectors remained as independent groups. Coral communities in North and East sectors were dominated by small colonies and fragments of Acropora spp. indicating that these areas possibly suffering frequent disturbances. Coral communities in Inner sector were dominated by turbidity-tolerant species suggesting that high sedimentation and low light-intensity were possibly the major factors structuring the coral community. Coral communities in South sector were characterized by high species diversity and coral cover, indicating a favorable environment for coral growth and reef development. Results of SIMPER analysis showed that Acropora spp. dominated the South sector, Goniopora sp. and branching Montipora sp. were abundant in Inner sector, while faviids and pectiniids were common in North and East sectors. A. muricata is the most widely distributed species in shallow zone.
Temperature extremes have traditionally been regarded as the most important factor that affects the distribution and development of reefs. A chill event occurred in winter 2007-2008 and resulted in severe mass mortalities of reef organisms in Penghu Archipelago. The in situ seawater temperature profiles showed that, unusually low SSTs persisted for three weeks and low temperature extremes (LTE) in past three winters were also recorded. The LTEs in South sector (Yupin and Chimei) were about 3-4℃ higher than that of Gupo in North sector. Comparisons of live coral cover (LCC) between 2005 and 2008 showed that significant reduction in LCC and increase of recently dead corals were observed. Branching Acopora spp. and Pocillopora damicornis were the most vulnerable species in the chill event. An index, degree chilling weeks (DCW), was proposed for predicting the impacts of cold sea temperatures. The preliminary data showed that DCW = 1.0 was possibly the threshold of forecasting a chill event. In order to promote the establishment of the first marine protected area (MPA) in Taiwan, the conservation values of 12 reef sites in Penghu Archipelago were evaluated. The results together with a surveillance programme revealed that the Chinwan Inner Bay (CIB) possesses the best coral community in Penghu Archipelago with the highest coral cover, high species diversity and habitat types, as well as a high conservation value. Utilization of biological resources and socio-economic factors of CIB were investigated by intensive field surveys and a complete visit-and-poll survey respectively. Most of the fishing at CIB is for recreational purposes and is characterized by low investment, low harvest rates, high dependence on weather conditions, and self-consumption. The socio-economic data showed that there was basically no direct conflict of interests with local communities at two neighbouring villages, and most local residents indicated that they would support the MPA proposal. A blueprint for a CIB MPA based on the results of these biological and socio-economic investigations is proposed. The involvement of local communities is key to the success of this MPA and environmental education is recommended to promote public awareness. In conclusion, diverse coral communities exist in Penghu Archipelago and the patterns of community structure are closely related to the unique oceanographic and geographic settings. These subtropical coral communities are characterized by catastrophic changes and the intrusion of cold water or the persistence of unusually low temperature is one of the major disturbance factors. The community dynamics following the disturbance such as resilience and resistance as well as the influences of functional groups and the impacts of climate change on these subtropical communities remain to be studied. | en |
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dc.description.tableofcontents | Committee verified document i
Acknowledgements ii Abstract in Chinese iv Abstract in English vi Table of Contents ix List of Tables xiii List of Figures xvi Chapter 1 General Introduction 1 Coral reefs and coral communities 1 Marginality 2 Factors responsible for the development of coral reefs 3 1 Physical Factors 3 1.1 Temperature 3 1.2 Sedimentation 5 1.3 Light and turbidity 6 1.4 Nutrients 7 2 Biological Factors 8 2.1 Competition 8 2.2 Predation 9 Atmospheric and oceanographic settings in Penghu Archipelago 9 1. Climatology 9 2. Winds and storms 10 3. Sea surface temperature, salinity, and other water quality index 10 4. Sedimentation rate 11 5. Organic content 11 6. Tides and currents 12 Why study subtropical and marginal coral communities in Penghu? 12 Chapter 2 Subtropical scleractinian coral communities in Penghu Archipelago 29 Introductions 29 Materials and Methods 31 Results 32 Hierarchical differences of live coral cover 32 Community structures 33 Multivariate analysis of coral communities 33 Discussion 34 Hierarchical differences in spatial scales 34 Community structures 35 Multivariate analysis of coral communities 37 Chapter 3 The Impacts of the chill event in 2007-08 on coral communities in Penghu Archipelago 60 Introductions 60 Materials and Methods 63 Results 65 SST fluctuations 65 Changes of coral communities 66 Temperature stress and DCWs during the chill event in 2007-08 67 Discussion 68 The effects of cold temperature on coral communities 68 Differential mortality of corals and the shift of community structure 69 Chill events as a force shaping coral community structures 70 The applications of DCW 71 Chapter 4 From the drawing board to the field: An example for establishing an MPA in Penghu Archipelago 82 Introductions 82 Materials and Methods 85 Location 85 Conservation values 86 Live coral cover, zonation and biota of CIB 87 Status of resource utilization 88 Threats to CIB 88 Socioeconomic factors 89 Results 89 Conservation values 90 Live coral cover, zonation and biota of CIB 90 Status of resource utilization 91 Threats to CIB 92 Anchor damage 92 Drupella snails 93 Community awareness and attitudes towards the MPA 93 Discussion 95 CIB as the priority site of MPA 95 Blueprint for the MPA at CIB 96 Chapter 5 General Discussion 113 References 118 Appendix 144 List of Tables Table 1.1 Characteristics of typhoons that hit or passed near Penghu Archipelago during 1969-2008 15 Table 1.2 In-situ field measurements of seawater surface temperatures and salinities at 10 m depth at four quadrants in different seasons near Penghu waters since 1985 16 Table 1.3 In-situ measurements of seawater quality indices at five sites in Penghu coastal water in 2003, 2004 and 2006 17 Table 1.4 In-situ measurements of sedimentation rates and organic contents at 12 sites near Penghu waters in 2006 18 Table 2.1 Major categories for CPCe (Coral Point Count with Excel extensions) analysis of coral communities in Penghu Archipelago 41 Table 2.2 Results of nested ANOVA on live coral cover of coral communities at three hierarchical spatial scales surveyed in Penghu Archipelago 42 Table 2.3 A list of scleractinian genera recorded at both depths of surveyed sites in Penghu Archipelago 43 Table 2.4 Diversity indices of coral communities at surveyed sites in Penghu Archipelago 44 Table 2.5 Results of ANOSIM of scleractinian coral abundance and distribution between sectors at two zones 45 Table 2.6 Common scleractinian species contributing >80% of similarities of coral communities at surveyed sites within sectors in (a) shallow and (b) deep zones 46 Table 2.7 Common scleractinian species contributing >60% of dissimilarities for coral communities at surveyed sites within sectors in (a) shallow and (b) deep zones 47 Table 2.8. Statistics of Bio-Env analysis (Primer) to show the best combinations of possible environmental factors responsible for the patterns of coral communities at different depths in Penghu Archipelago 49 Table 3.1 Relative abundance (% cover) of the top six species at (a) shallow zone and (b) deep zone at five sites in 2005 and 2008 73 Table 3.2 The low temperature extremes (LTE), accumulated cold stress, duration of cold stress (in weeks), and degree chilling weeks (DCW) of five sites based on in situ sea temeperature records in January- February, 2008 75 Table 4.1 Questionnaire and statistical results of utilization of marine resources in CIB 99 Table 4.2 Questionnaire and statistical results concerning the present status of CIB 100 Table 4.3 Questionnaire and statistical results concerning resource and habitat conservation of CIB 101 Table 4.4 Percentages of families at Shili and Fenguei that belong to five categories of annual disposable income in New Taiwan dollars in 2002 102 List of Figures Fig. 1.1 Seasonal variation of mean monthly air temperatures and mean annual precipitations from 1971-2000 in Penghu Archipelago 19 Fig. 1.2 The mean monthly wind speed in (a) Makung and (b) Tongee 20 Fig. 1.3 The paths of typhoons directly hit Penghu Archipelago from 1969-2008 21 Fig. 1.4 Major paths of typhoons that hit Taiwan from 1897 to 2007 22 Fig. 1.5 Temperature-salinity diagrams in four seasons at (a) northeast quadrant; (b) northwest quadrant; (c) southeast quadrant; (d) southwest quadrant around Pegnhu waters based on field measurements since 1985 26 Fig. 1.6 Current velocities and directions at (a) northeast ; (b) northwest; (c) southeast; (d) southwest around Pegnhu waters based on field measurements since 1985 28 Fig. 2.1 Location of the Penghu Archipelago and the 12 sampling sites 50 Fig. 2.2 Live covers at 12 surveyed sites in both depths around Penghu water 51 Fig. 2.3 The nMDS plot of coral abundances and distributions between shallow and deep zones of surveyed sites 52 Fig. 2.4 Dendrograms of (a) shallow and (b) deep zones based on cluster analyses of coral species abundances of all transects surveyed at 12 sites in 4 sectors (indicated with color) of Penghu Archipelago 54 Fig. 2.5 The nMDS plots of coral abundances and distributions between 12 surveyed sites in (a) shallow zone, and (b) deep zone 55 Fig. 2.6 (a) Morphology of Porites lutea was seriously distorted by heavy sedimentation, (b) coral colony of Favites halicora showed partial mortality, (c) large quantities of smashed coral debris were found in Gipei 57 Fig. 2.7 Coral colonies suffered from parasitism or overgrowth of other Invertebrates 59 Fig. 3.1 Fluctuations of sea temperatures recorded at five sites in Penghu Archipelago from December 1st, 2007 to February 16th, 2008 76 Fig. 3.2 Comparisons of the trends of SST variations from December 1st, 2007 to February 20th, 2008 with the historical data of SSTs (mean +- S.D.) in 2004-2007 79 Fig. 3.3 Vertical profiles of sea water temperatures at (a) Dachan; (b)Tonpitou; (c) Huginn around Penghu Archipelago recorded on February 18th, 2008 80 Fig. 3.4 Comparisons of live coral cover and recently dead coral percentages between 2005 and 2008 at (a) shallow zone; (b) deep zone 81 Fig. 4.1 Location of Penghu Archipelago and the current systems around it 103 Fig. 4.2 Location of the Penghu Archipelago and the 12 sampling sites 104 Fig. 4.3 (a) Idealized r-K-S ternary diagram for coral reef conservation class (b) r-K-s ternary diagram of the 12 reef sites in the Penghu Archipelago 106 Fig. 4.4 Map of CIB and neighbouring villages, navy base, and boundary of the proposed MPA 108 Fig. 4.5 Annual variations of live coral coverage at (a) 3 m deep, and (b) 6 m deep at four sites in the Penghu Archipelago from1999 to 2004 109 Fig. 4.6 Habitats zonations of CIB 110 Fig. 4.7 Distribution of all fishing events at CIB from October to December 2002 111 Fig. 4.8 The frequency of anchor damages in the monitoring site of CIB from Reef Check 1999-2004 112 Fig. 4.9 Recommended zoning plan for the MPA in CIB. Black triangles are proposed sites for anchor buoys 113 | |
dc.language.iso | en | |
dc.title | 澎湖海域亞熱帶石珊瑚群聚之研究 | zh_TW |
dc.title | Studies on Subtropical Scleractinian Coral Communities in Penghu Archipelago | en |
dc.type | Thesis | |
dc.date.schoolyear | 96-2 | |
dc.description.degree | 博士 | |
dc.contributor.coadvisor | 陳昭倫(Chaolun Allen Chen) | |
dc.contributor.oralexamcommittee | 邵廣昭(Kwang-Tsao Shao),宋克義(Ker-yea Soong),鄭明修(Ming-shiou Jeng) | |
dc.subject.keyword | 亞熱帶,石珊瑚,珊瑚群聚,寒潮,寒潮持續度週,海洋保護區, | zh_TW |
dc.subject.keyword | Subtropical,Scleractinian,coral communities,chill event,degree chilling weeks,marine protected area (MPA), | en |
dc.relation.page | 216 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2008-08-08 | |
dc.contributor.author-college | 理學院 | zh_TW |
dc.contributor.author-dept | 海洋研究所 | zh_TW |
顯示於系所單位: | 海洋研究所 |
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