Sadovy de Mitcheson Y, Erisman B (2012) Fishery and biological implications of fishing <strong>spawning</strong> aggregations, andthe social and economic importance of aggegating fishes. pp. 225-284. In: Sadovy de Mitcheson Y, Colin PL (eds.)Reef Fish Spawning Aggregations: Biology, Research and Management. Fish & Fisheries Series Volume 35.Sadovy Y, Colin PL, Domeier M (1994a) Aggregation and <strong>spawning</strong> in the tiger grouper, Mycteroperca tigris (Pisces:Serranidae). Copeia 1994:511-516Sadovy Y, Rosario A, Roman A (1994b) Reproduction in an aggregating grouper, the red hind, Epinephelus guttatus.Environ Biol Fish 41:269-286Sadovy YJ, Donaldson TJ, Graham TR, McGilvray F, Muldoon GJ, Phillips MJ, Rimmer MA, Smith A, Yeeting B(2003) The live reef food fish trade while stocks last. Manila: Asian Development Bank, p 147Sadovy de Mitcheson Y, Cornish A, Domeier M, Colin PL, Russell M, Lindeman KC (2008) A global baseline for<strong>spawning</strong> aggregations of reef fishes. Conserv Biol 22:1233-1244Sadovy de Mitcheson Y, Colin PL (Eds.) (2012) Reef Fish Spawning Aggregations: Biology, Research and Management.Fish & Fisheries Series Volume 35, 621 p + appendicesSadovy de Mitcheson Y, Craig MT, Bertoncini AA, Carpenter KE, Cheung WWL, Choat JH, Cornish AS, FennessyST, Ferreira BP, Heemstra PC, Liu M1, Myers RF, Pollard DA, Rhodes KL, Rocha LA, Russell BC, Samoilys MAand Sanciango J (2012). Fishing groupers towards extinction: A global assessment of threats and extinction risk in abillion dollar fishery. Fish and Fisheries. DOI: <strong>10</strong>.1111/j.1467-2979.2011.00455.xSala E, Ballesteros E, Starr RM (2001) Rapid decline of Nassau grouper <strong>spawning</strong> aggregations in Belize: fisherymanagement and conservation needs. Fisheries 26:23–30Sale PF, Cowen RK, Danilowicz BS, Jones GP, Kritzer JP, Lindeman KC, Planes S, Polunin NVC, Russ GR, Sadovy YJ,Steneck RS (2005) Critical science gaps impede use of no-take fishery reserves. Trends Ecol Evol 20:74-80Salomon AK, Gaichas SK, Jensen OP, Agostini VN, Sloan NA, Rice J, McClanahan TR, Ruckelshaus MH, Levin PS,Dulvy NK, Babcock EA (2011) Bridging the divide between fisheries and marine conservation science. Bull MarSci 87(2): 251-274Samoilys MA (1997a) Underwater visual census surveys. pp. 16-29. In: Samoilys MA (Ed.) Manual for Assessing FishStocks on Pacific Coral Reefs. Queensland Department of Primary Industries, BrisbaneSamoilys MA (1997b) Periodicity of <strong>spawning</strong> aggregations of coral trout Plectropomus leopardus (Pisces: Serranidae) onthe northern Great Barrier Reef. Mar Ecol Prog Ser 160:149-159Samoilys MA (2000) Reproductive dynamics of an exploited serranid on the Great Barrier Reef. PhD thesis, James CookUniversity. <strong>10</strong>6 pp + Appendix.Samoilys MA (2011) Exploration of a Payment for Ecosystem Services (PES) approach to conservation in the Mnazi Bay– Ruvuma Estuary Marine Park, Tanzania. <strong>10</strong>pp. In: Obura DO & Samoilys MA (Eds). <strong>CORDIO</strong> Status Report2011. <strong>CORDIO</strong> East Africa.Samoilys MA (2012) Case study 12.9 Leopard Coral grouper – Plectropomus leopardus. pp 449-458 In:Sadovy deMitcheson Y, Colin PL (eds.) Reef Fish Spawning Aggregations: Biology, Research and Management. Fish & FisheriesSeries Volume 35Samoilys MA, Squire LC (1994) Preliminary observations on the <strong>spawning</strong> behaviour of coral trout, Plectropomusleopardus (Pisces: Serranidae), on the Great Barrier Reef. Bull Mar Sci 54:332-342Samoilys MA, Roelofs A (2000) Defining the reproductive biology of a large serranid Plectropomus leopardus. CRC ReefResearch Centre Technical Manual No. 31, CRC Research Centre, Townsville, Australia 36ppSamoilys MA, Obura DO (2011) Conservation successes in the Western Indian Ocean. In: Obura DO & SamoilysMA (Eds). <strong>CORDIO</strong> Status Report 2011. <strong>CORDIO</strong> East AfricaSamoilys MA, Church J, Kaunda-Arara B, Kamukuru A, Jiddawi N (2006) Preliminary findings on <strong>spawning</strong> aggregationsof reef fishes in East Africa. Proc <strong>10</strong>th Int Coral Reef Symp, Okinawa: 404-415Samoilys MA, Church J, Waweru G, Agembe S, Alidina H (2007) Verifying fishers’ knowledge of reef fish <strong>spawning</strong>aggregations in southern Kenya. IUCN Report to NOAA/NORADSamoilys MA, Maina GW, Osuka KE (2011a) Artisanal fishing gears of the Kenyan coast. Mombasa <strong>CORDIO</strong>/USAID.36ppSamoilys MA, Osuka KE, Maina GW, Obura DO (2011b) Long-term effects of artisanal fishing on the Kenyan coast.Mombasa: <strong>CORDIO</strong>/USAID/PACT Kenya Project Report. 43 ppSamoilys MA, Maina GW, Ater S, Osuka KE (2011c) Policy Brief – October 2011: Recommendations for sustainableand responsible fishing in Kenya’s coastal artisanal fisheries. 5pp138
Sancho G, Petersen CW, Lobel PS (2000) Predator-prey relations at a <strong>spawning</strong> aggregation site of coral reef fishes.Marine Ecology Progress Series 203:275-288Sattar SA, Adam MS (2005) Review of grouper fishery of the Maldives with additional notes on the Faafu Atoll fishery.Msrine Research Centre, Malé, Republic of Maldives. 55ppSchwassmann HO, Hasler AD (1964) The role of the sun’s altitude in sun orientation of fish. Physiological Zoology37:163-178SCRFA Global Database, 20<strong>10</strong>. Spawning aggregation database of the Society for the Conservation of Reef FishAggregations. Available from: http://www.scrfa.orgSchubert R, Schellnhuber H-J, Buchmann, Epiney A, Grießhammer, Kulessa M, Messner D, Rahmstorf Schmid J(2006) The future oceans – warming up, rising high, turning sour. German Advisory Council on Global Change:Special Report.Berlin. pp. 1<strong>10</strong>Seixas SS, Begossi A (2001) Ethnozoology of fishing communities from Ilha Grande (Atlantic Forest Coast, Brazil)Journal of Ethnobiology, 21(1): <strong>10</strong>7-135.Semmens JM, Buxton CD, Forbes E, Phelan MJ (20<strong>10</strong>) Spatial and temporal use of <strong>spawning</strong> aggregation sites by thetropical sciaenid Protonibea diacanthus. Mar Ecol Prog Ser 403: 193−203Shapiro DY (1987) Reproduction in groupers, in: Tropical Snappers and Groupers: Biology and Fisheries Management.JJ Polovina, S Ralston (Eds). Westview Press, Boulder, ColoradoShapiro DY, Hensley DA, Appeldoorn RS (1988) Pelagic <strong>spawning</strong> and egg transport in coral-reef fishes: a skepticaloverview. Environ Biol Fish 22:3–14Shapiro DY, Sadovy Y, McGehee MA (1993) Size, composition, and spatial structure of the annual <strong>spawning</strong> aggregationof the red hind, Epinephelus striatus (Pisces: Serranidae). Copeia 1993:399–406Smith JLB, Heemstra PC (1998) Smiths Sea Fishes, (fourth ed.) Valiant Publishing Santom, South Africa. 578 pp.Spalding, MD, Ravilious C, Green EP (2001) World Atlas of coral reefs. UNEP-WCMC/University of California Press,Berkeley, Los AngelesStarr RM, Sala E, Ballasteros E, Zabala M (2007) Spatial dynamics of the Nassau grouper Epinephelus striatus in aCaribbean atoll. Mar Ecol Prog Ser 343:239–249Stobutzki I, Miller M, Brewer D (2001) Sustainability of fishery bycatch: a process for assessing highly diverse andnumerous bycatch. Environ Conserv 28:167-181Takemura A, Rahman MS, Nakamura S, Park YJ, Takano K (2004) Lunar cycles and reproductive activity in reef fisheswith particular attention to rabbitfishes. Fish and Fisheries 5: 317-328Tamelander J, Sattar S, Campbell S, Hoon V, Arthur R, Patterson Edward JK, Satapoomin U, Chandi M, Rajasuriya A,Samoilys M (2008) Reef fish <strong>spawning</strong> aggregations in the Bay of Bengal: Awareness and occurrence. Proc. 11th Int.Coral Reef Symp. Florida, 7-11 July 2008The Nature Conservancy and Partners (TNC) (2004) R 2 – Reef resilience: building reef resilience into conservation:additional tools for managers. CD ROM Toolkit. TNC Honolulu, Hawaii.Thresher RE (1991) Geographic variability in the ecology of coral reef fishes: evidence, evolution and possible implications.In: Sale PF (ed) The Ecology of Fishes on Coral Reefs. Academic Press, San Diego, 401-436ppTupper M, Sheriff N ( 2008) Capture-based aquaculture of groupers. In: Lovatelli A, Holthus PF (eds) Capture-basedaquaculture Global overview FAO Fisheries Technical Paper. FAO, Rome,217-253 ppTurnbull CT, Samoilys MA (1997) Effectiveness of <strong>spawning</strong> closures in managing the line fishery on the Great BarrierReef. Report to the Reef Fish Management Advisory Committee of QFMA. 24ppTurner BL, Kasperson RE, Matsone PA, McCarthy JJ, Corell RW, Christensen L, Eckley N, Kasperson JX, Luers A,Matello ML, Polsky C, Pulsipher A, Schiller A (2003) A framework for vulnerability analysis in sustainabilityscience. Proceedings Of the National Academy Of Sciences Of the United States Of America <strong>10</strong>0:8074–8079Tyler EHM, Speight MR, Henderson P, Manica A (2009) Evidence for a depth refuge effect in artisanal coral reeffisheries. Biological Conservation 142: 652-667UNEP (2009) Transboundary Diagnostic-Analysis of land-based sources and activities affecting the Western IndianOcean coastal and marine environment. UNEP/Nairobi Convention, Nairobi 378ppValcic B (2009) Spatial policy and the behaviour of fishermen. Marine Policy 33:215-222Van der Elst RP, Groeneveld JC, Baloi AP, Marsac F, Katonda KI, Ruwa RK, Lane WL (2009) Nine nations, one ocean:A benchmark appraisal of the South Western Indian Ocean Fisheries Project (2007–2011). Ocean Coast Manage52:258–267139
- Page 4:
The designation of geographical ent
- Page 9:
Chapter 1: IntroductionJan Robinson
- Page 12 and 13:
limited, subsistence levels of expl
- Page 14:
NTRs for spawning aggregations usin
- Page 17 and 18:
al. 2003). Verification may include
- Page 19 and 20:
a fraction of spawning sites are pr
- Page 21 and 22:
Chapter 3: Targeted fishing of the
- Page 23 and 24:
verifying spawning aggregations, we
- Page 25 and 26:
ecorded from inshore close to the c
- Page 27 and 28:
(a)(b)Fig. 3. Spatial patterns ofca
- Page 30 and 31:
pooled sizes of the three spawning
- Page 32 and 33:
found S. sutor contributed up to 44
- Page 34 and 35:
2011b). However, observations of fi
- Page 36 and 37:
MethodsTo identify seasonal and lun
- Page 38 and 39:
n=199Females GSI (mean ± SE)2.521.
- Page 40 and 41:
The estimate of size at maturity in
- Page 42 and 43:
This study was designed to verify S
- Page 44 and 45:
were selected. Fish selected for ta
- Page 46 and 47:
The number of traps increased on th
- Page 48 and 49:
Of the 9 tagged fish detected by re
- Page 50 and 51:
Fig. 7. Diel patterns ofdetection f
- Page 52 and 53:
Spawning aggregation site fidelity
- Page 54 and 55:
Chapter 6: Shoemaker spinefoot rabb
- Page 56 and 57:
anterior of the anus and below the
- Page 58 and 59:
A high percentage (80.8%) of depart
- Page 60 and 61:
arrivals and departures at these tw
- Page 62 and 63:
are typically applied for reef fish
- Page 64 and 65:
(a)(b)(c)Chapter 3, Figure 3. Spati
- Page 66 and 67:
(1)(2)(3)(4)(5)(6)Chapter 7, Table
- Page 68 and 69:
Chapter 12, Fig. 1 Fraction of fema
- Page 70 and 71:
Plates 8. Selected photographs from
- Page 72 and 73:
MethodsStudy sitesThe study area wa
- Page 74 and 75:
which shelved gently ( ca. 25 o ) t
- Page 76 and 77:
Fig. 4. Lunar periodicity in number
- Page 78 and 79:
Behaviour and appearanceDescription
- Page 80 and 81:
eported aggregations forming betwee
- Page 82 and 83:
The sizes of E. fuscoguttatus aggre
- Page 84 and 85:
Materials and methodsStudy area and
- Page 86 and 87:
TL. All fish tagged were considered
- Page 88 and 89:
Lunar timing of arrivals and depart
- Page 90 and 91:
Fig. 8. The presence and absence of
- Page 92 and 93:
aggregation fishing. This critical
- Page 94 and 95: Chapter 9: Persistence of grouper (
- Page 96 and 97: ResultsBetween 2003 and 2006, the c
- Page 98 and 99: Fig. 2. Mean (± standard error, SE
- Page 100 and 101: A few species (e.g. Epinephelus gut
- Page 102 and 103: (a)(b)Fig. 1. Map of (a) study site
- Page 104 and 105: Fig. 2. Number of E. lanceolatus ob
- Page 106 and 107: was having any impact on the popula
- Page 108 and 109: A spawning aggregation is said to o
- Page 110 and 111: Chapter 11: Evaluation of an indica
- Page 112 and 113: Table 1 Aggregation fisheries asses
- Page 114 and 115: the lists of Jennings et al. (1999)
- Page 116 and 117: with the more vulnerable labrids an
- Page 118 and 119: The remaining serranid populations
- Page 120 and 121: Spawning aggregation behaviour is c
- Page 122 and 123: tiger grouper, Mycteroperca tigris:
- Page 124 and 125: of protecting the normal residence
- Page 126 and 127: • Since grouper males are afforde
- Page 128 and 129: Fig. 2 Yield-per-recruit normalized
- Page 130 and 131: The approaches identified above are
- Page 132 and 133: during full moon periods. Siganus s
- Page 134 and 135: model, many parameter estimates are
- Page 136 and 137: ReferencesAbunge C (2011) Managing
- Page 138 and 139: Cox DR (1972) Regression models and
- Page 140 and 141: Grüss A, Kaplan DM, Hart DR (2011b
- Page 142 and 143: Kaunda-Arara B, Rose GA (2004a) Eff
- Page 144: Newcomer RT, Taylor DH, Guttman SI
- Page 149 and 150: Appendix 1. QuestionnaireMASMA SPAW
- Page 151 and 152: 8. Spawning aggregation knowledgeUs
- Page 153 and 154: Example items KSh Furthest site Clo
- Page 155 and 156: Appendix II. Experimental testing o
- Page 157 and 158: Clove oil concentrationAt a concent
- Page 159 and 160: Appendix III. Application of acoust
- Page 161 and 162: 153
Change language