Abstract
The success of marine protected areas (MPAs) as a tool for conservation and fisheries management has been well documented. However, these results have typically been seen in shallow water systems and questions remain whether this management strategy could be successfully applied to deepwater ecosystems. Our objectives were to determine the efficacy of four deepwater MPAs called bottomfish restricted fishing areas (BRFAs), with various time spans of protection, monitored at depths between 90 and 310 m from 2007 to 2011 for six species of deepwater snapper and one grouper harvested in the Main Hawaiian Islands. Our results suggested that the duration of protection influenced reserve effects, particularly for target species. Mean fish length, and in some cases abundance, increased for one or more of the most economically important target species inside nearly all tested BRFAs. In addition, more mature fish were seen inside the BRFA with the longest duration of protection (~14 years); species richness increased outside this area while inside it remained the same. Here, we provide the first evidence that deepwater MPAs can have positive effects on deepwater species and that many protection effects were consistent with results found in shallow water ecosystems. While these findings are novel, additional data over greater temporal scales will be necessary to determine whether these trends will continue and if others will become important over time.
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References
Abesamis RA, Russ GR (2005) Density-dependent spillover from a marine reserve: long-term evidence. Ecol Appl 15:1798–1812
Andrews AH, Humphreys RL, DeMartini EE, Nichols RS, Brodziak J (2011) Bomb radiocarbon and lead-radium dating of opakapaka (Pristipomoides filamentosus). Pacific Islands Fish Sci Cent Natl Mar Fish Serv, NOAA, Honolulu, HI 96822-2396. Pacific Islands Fish Sci Cent Admin Rep H-11-07, 58p
Andrews AH, DeMartini EE, Brodziak J, Nichols RS, Humphreys RL (2012) A long-lived life history for tropical, deepwater snapper (Pristipomoides filamentosus): bomb radiocarbon and lead-radium dating as extensions of daily increment analyses in otoliths. Can J Fish Aquat Sci 69:1850–1869. doi:10.1139/f2012-109
Babcock RC, Shears NT, Alcala AC, Barrett NS, Edgar GJ, Lafferty KD, McClanahan TR, Russ GR (2010) Decadal trends in marine reserves reveal differential rates of change in direct and indirect effects. PNAS 107:18256–18261. doi:10.1073/pnas.0908012107
Baker KD, Devine JA, Haedrich RL (2009) Deep-sea fishes in Canada’s Atlantic: population declines and predicted recovery times. Environ Biol Fish 85:79–88. doi:10.1007/s10641-009-9465-8
Bohnsack JA (1994) How marine fishery reserves can improve reef fisheries. Proc Gulf Carib Fish Inst 43:217–241
Bohnsack JA (2011) Impacts of Florida coastal protected areas on recreational world records for spotted seatrout, red drum, black drum, and common snook. Bull Mar Sci 87:939–970. doi:10.5343/bms2010.1072
Burnham KP, Anderson DR (1998) Model selection and multimodel inference: a practical information-theoretic approach, 2nd edn. New York, New York
Cappo M, Harvey ES, Malcolm H, Speare P (2003) Advantages and applications of novel “video-fishing” techniques to design and monitor Marine Protected Areas. In: Beumer JP, Grant A, Smith DC (eds) Aquatic protected areas—what works best and how do we know? Proceedings of the world congress on aquatic protected areas, Cairns, Australia, August, 2002, pp 455–464
Cheung WWL, Pitcher TJ, Pauly D (2005) A fuzzy logic expert system to estimate intrinsic extinction vulnerabilities of marine fishes to fishing. Biol Conserv 124:97–111
Dalzell P, Preston GL (1992) Deep reef slope fishery resources of the south Pacific: a summary and analysis of the dropline fishing survey data generated by the activities of the SPC Fisheries Programme between 1974 and 1988. Tech Doc South Pac Comm, Inshore Fish Res Project 2
DeMartini EE, Lau BB (1999) Morphometric criteria for estimating sexual maturity in two snappers, Etelis carbunculus and Pristipomoides sieboldii. Fish Bull 97:449–458
DeMartini EE, Everson AR, Nichols RS (2011) Estimates of body sizes at maturation and at sex change, and the spawning seasonality and sex ratio of the endemic Hawaiian grouper (Hyporthodus quernus, F. Epinephelidae). Fish Bull 109:123–134
Denny CM, Babcock RC (2004) Do partial marine reserves protect reef fish assemblages? Biol Conserv 116:119–129. doi:10.1016/S0006-3207(03)00183-6
Drazen JC, Haedrich RL (2012) A continuum of life histories in deep-sea demersal fishes. Deep-Sea Res I 61:34–42
Everson AR, Williams HA, Ito BM (1989) Maturation and reproduction in two Hawaiian eteline snappers, uku, Aprion virescens, and onaga, Etelis coruscans. Fish Bull 87:877–888
Friedlander AM, Brown EK, Jokiel PL, Smith WR, Rodgers KS (2003) Effects of habitat, wave exposure, and marine protected area status on coral reef fish assemblages in the Hawaiian archipelago. Coral Reefs 22:291–305. doi:10.1007/s00338-003-0317-2
Gaines SD, Lester SE, Grorud-Colvert K, Costello C, Pollnac R (2010) Evolving science of marine reserves: new developments and emerging research frontiers. PNAS 107:18251–18255. doi:10.1073/pnas.1002098107
Greenstreet SPR, Fraser HM, Piet GJ (2009) Using MPAs to address regional-scale ecological objectives in the North Sea: modeling the effects of fishing effort displacement. ICES J Mar Sci 66:90–100. doi:10.1093/icesjms/fsn214
Grigg RW (2001) Black coral: history of a sustainable fishery in Hawai`i. Pac Sci 55:291–299
Haedrich RL, Merrett NR, O’Dea NR (2001) Can ecological knowledge catch up with deep-water fishing? A North Atlantic perspective. Fish Res 51:113–122
Haight WR, Parrish JD, Hayes TA (1993) Feeding ecology of deepwater Lutjanid snappers at Penguin Bank, Hawaii. TAFS 122:328–347
Halpern BS, Warner RR (2003) Matching marine reserve design to reserve objectives. Proc R Soc Lond B 270:1871–1878. doi:10.1098/rspb 2003.2405
Halpern BS, Gaines SD, Warner RR (2004) Confounding effects of the export of production and the displacement of fishing effort from marine reserves. Ecol Appl 14:1248–1256
Harmelin-Vivien M, Le Direach L, Bayle-Sempere J, Charbonnel E, Garcia-Charton JA, Ody D, Perez-Ruzafa A, Renones O, Sanchez-Jerez P, Valle C (2008) Gradients of abundance and biomass across reserve boundaries in six Mediterranean marine protected areas: evidence of fish spillover? Biol Conserv 141:1829–1839. doi:10.1016/j.biocon.2008.04.029
Harter SL, Ribera MM, Shepard AN, Reed JK (2009) Assessment of fish populations and habitat on Oculina Bank, a deep-sea coral marine protected area off eastern Florida. Fish Bull 107:195–206
Harvey E, Cappo M (2001) Direct sensing of the size frequency and abundance of target and non-target fauna in Australian fisheries. 4–7 September 2000, Rottnest Island, Western Australia. Fisheries Research and Development Corporation
Harvey E, Shortis M (1995) A system for stereo-video measurement of subtidal organisms. Mar Technol Soc J 29:10–22
Hawaii State Data Center (2011) Island population and housing units, state of Hawaii: 2010. Hawaii Dept of Business, Economic Development and Tourism, Research and Economic Analysis Division, Statistics and Data Support Branch, Hawaii State data Center Rep 2010-3
Hospital J, Beavers C (2011) Management of the Main Hawaiian Islands bottomfish fishery: fishers’ attitudes, perceptions, and comments. Pacific Islands Fish Sci Cent, Natl Mar Fish Serv, NOAA, Honolulu, HI 96822-2396. Pacific Islands Fish Sci Cent Admin Rep H-11-06, 46 p
Hospital J, Beavers C (2012) Economic and social characteristics of bottomfish fishing in the Main Hawaiian Islands. Pacific Islands Fish Sci Cent, Natl Mar Fish Serv, NOAA, Honolulu, HI 96822-2396. Pacific Islands Fish Sci Cent Admin Rep H-12-01, 44 p
Kelley CD, Moriwake VN (2012) Appendix 3: essential fish habitat descriptions, Part 1: bottomfish. In: WPRFMC (ed) Final fishery management plan for coral reef ecosystems of the western 596 Pacific region, volume III, Essential Fish Habitat for Management Unit Species, p 597
Kelley C, Moffitt R, Smith JR (2006) Mega- to micro-scale classification and description of bottomfish essential fish habitat on four banks in the Northwestern Hawaiian Islands. Atoll Res Bull 543:319–332
Lauck T, Clark CW, Mangel M, Munro GR (1998) Implementing the precautionary principle in fisheries management through marine reserves. Ecol Appl 8:S72–S78
Lester SE, Halpern BS, Grorud-Colvert K, Lubchenco J, Ruttenberg BI, Gaines SD, Airame S, Warner RR (2009) Biological effects within no-take marine reserves: a global synthesis. Mar Ecol Prog Ser 384:33–46. doi:10.3354/meps08029
Martinez I, Jones EG, Davie SL, Neat FC, Wigham BD, Priede IG (2011) Variability in behaviour of four fish species attracted to baited underwater cameras in the North Sea. Hydrobiol 670:23–34. doi:10.1007/s10750-011-0672-x
Merritt D, Donovan MK, Kelley C, Waterhouse L, Parke M, Wong K, Drazen JC (2011) BotCam: a baited camera system developed for non-extractive monitoring of bottomfish species. Fish Bull 109:56–67
Misa WFXE, Drazen JC, Kelley CCD, Moriwake VN (2013) Establishing species-–habitat associations for 4 eteline snappers with the use of a baited stereo-video camera system. Fish Bull 111:293–308. doi:10.7755/FB.111.4.1
Moffitt RB, Parrish FA (1996) Habitat and life history of juvenile Hawaiian pink snapper, Pristipomoides filamentosus. Pac Sci 50:371–381
Moffitt R, Kobayashi D, Dinardo G (2006) Status of the Hawaiian bottomfish stocks, 2004 Admin Rep H-06-01, Pacific Islands Fish Sci Cent, Natl Mar Fish Serv, NOAA, Honolulu, HI
Molloy PP, McLean IB, Cote IM (2009) Effects of marine reserve age on fish populations: a global meta-analysis. J Appl Ecol 46:743–751. doi:10.1111/j.1365-2664.2009.01662.x
Moore CH, Drazen JC, Kelley CD, Misa WFXE (2013) Deepwater marine protected areas of the main Hawaiian Islands: establishing baselines for commercially valuable bottomfish populations. Mar Ecol Prog Ser 476:167–183. doi:10.3354/meps10132
Morato T, Watson R, Pitcher TJ, Pauly D (2006) Fishing down the deep. Fish Fish 7:24–34
Mosqueira I, Cote I, Jennings S, Reynolds JD (2000) Conservation benefits of marine reserves for fish populations. Animal Conserv 4:321–332
Parke M (2007) Linking Hawaii fisherman reported commercial bottomfish catch data to potential bottomfish habitat and proposed restricted fishing areas using GIS and spatial analysis. US Dep Commer, NOAA Tech Memo, NOAA-TM-NMFS-PIFSC-11, 38 p
Parrish FA (1989) Identification of habitat of juvenile snappers in Hawaii. Fish Bull 87:1001–1005
Parrish FA, DeMartini EE, Ellis DM (1997) Nursery habitat in relation to production of juvenile pink snapper, Pristipomoides filamentosus, in the Hawaiian Archipelago. Fish Bull 95:137–148
Pelc RA, Warner RR, Gaines SD, Paris CB (2010) Detecting larval export from marine reserves. PNAS 107:18266–18271. doi:10.1073/pnas.0907368107
Priede IG, Bagley PM, Smith A, Creasey S, Merrett NR (1994) Scavenging deep demersal fishes of the Porcupine Seabight, north-east Atlantic: observations by baited camera, trap and trawl. J Mar Biol Assoc UK 74:481–498
Ralston S, Miyamoto GT (1983) Analyzing the width of daily otolith increments to age the Hawaiian snapper, Pristipomoides filamentosus. Fish Bull 81:523–535
Ralston S, Gooding RM, Ludwig GM (1986) An ecological survey and comparison of bottom fish resource assessments (submersible versus handline fishing) at Johnston Atoll. Fish Bull 84:141–155
Roberts CM, Polunin NVC (1991) Are marine reserves effective in management of reef fisheries? Rev Fish Biol Fish 1:65–91
Rosenberg A, Bigford TE, Leathery S, Hill RL, Bickers K (2000) Ecosystem approaches to fishery management through essential fish habitat. Bull Mar Sci 66:535–542
Rudershausen PJ, Mitchell WA, Buckel JA, Williams EH, Hazen E (2010) Developing a two-step fishery-independent design to estimate the relative abundance of deepwater reef fish: application to a marine protected area off the southeastern United States coast. Fish Res 105:254–260
Russ GR, Alcala AC (1996) Do marine reserves export adult fish biomass? Evidence from Apo Island, Central Philippines. Mar Ecol Prog Ser 132:1–9
Russ GR, Alcala AC (2010) Decadal-scale rebuilding of predator biomass in Philippine marine reserves. Oecologia 163:1103–1106. doi:10.1007/s00442-010-1692-3
SAFMC (2013) Deepwater MPAs. South Atlantic Fishery Management Council online: http://www.safmc.net/MPAInformationPage/tabid/469/Default.aspx. Assessed 18 July 2013
Sanchez Lizaso JL, Goni R, Renones O, Garcia Charton JA, Galzin R, Bayle JT, Sanchez Jerez P, Perez Ruzafa A, Ramos AA (2000) Density dependence in marine protected populations: a review. Environ Conserv 27:144–158
Shears NT, Grace RV, Usmar NR, Kerr V, Babcock RC (2006) Long-term trends in lobster populations in a partially protected vs. no-take Marine Park. Biol Conserv 132:222–231. doi:10.1016/j.biocon.2006.04.001
Shortis MR, Seager JW, Williams A, Barker BA, Sherlock M (2008) Using stereo-video for deep water benthic habitat surveys. Mar Technol Soc J 42:28–37
Smith MK, Kostlan E (1991) Estimates of age and growth of ehu Etelis carbunculus in four regions of the Pacific from density of daily increments in otoliths. Fish Bull 89:461–472
Smith ANH, Anderson MJ, Millar RB (2012) Incorporating the intraspecific occupancy-abundance relationship into zero-inflated models. Ecology 93:2526–2532
Stobart B, Warwick R, Gonzalez C, Mallol S, Diaz D, Renones O, Goni R (2009) Long-term and spillover effects of a marine protected area on an exploited fish community. Mar Ecol Prog Ser 384:47–60. doi:10.3354/meps08007
Tetreault I, Ambrose RF (2007) Temperate marine reserves enhance targeted but not untargeted fishes in multiple no-take MPAs. Ecol Appl 17:2251–2267
Watson DL, Harvey ES, Fitzpatrick BM, Langlois TJ, Shedrawi G (2010) Assessing reef fish assemblage structure: how do different stereo-video techniques compare? Mar Biol 157:1237–1250
White C, Kendall BE (2007) A reassessment of equivalence in yield from marine reserves and traditional fisheries management. Oikos 116:2039–2043. doi:10.1111/j.2007.0030-1299.16167.x
White C, Kendall BE, Gaines S, Siegel DA, Costello C (2008) Marine reserve effects on fishery profit. Ecol Lett 11:370–379. doi:10.1111/j.1461-0248.2007.01151.x
Williams HA, Lowe MK (1997) Growth rates of four Hawaiian deep slope fishes: a comparison of methods for estimating age and growth from otolith microincrement widths. Can J Fish Aquat Sci 54:126–136
Williams AJ, Nicol SJ, Bentley N, Starr PJ, Newman SJ, McCoy MA, Kinch J, Williams PG, Magron F, Pilling GM, Bertram I, Batty M (2012) International workshop on developing strategies for monitoring data-limited deepwater demersal line fisheries in the Pacific Ocean. Rev Fish Biol Fish 22:527–531. doi:10.1007/s11160-011-9234-6
Williams AJ, Loeun K, Nicol SJ, Chavance P, Ducrocq M, Harley SJ, Pilling GM, Allain V, Mellin C, Bradshaw CJA (2013) Population biology and vulnerability to fishing of deep-water Eteline snappers. J Appl Ichthyol 29:395–403. doi:10.1111/jai.12123
Acknowledgments
We thank the State of Hawai’i Division of Aquatic Resources for providing funding via the Federal Aid in Sport Fish Restoration program (F17R35-study IX). Special thanks goes to the BotCam crew, Chris Demarke, Bo Alexander, John Yeh, Jason Friedman, Matt Waterhouse, Aharon Fleury and Clif Nunnally for their tireless field efforts, video analysis and advice. We also thank Audrey Rollo from the National Oceanic and Atmospheric Administration for valuable help and advice. Thanks to D. D. Aday for editorial comments. Thanks also to the Sea Engineering crew for ship support on RV Huki Pono.
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Communicated by K. D. Clements.
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Sackett, D.K., Drazen, J.C., Moriwake, V.N. et al. Marine protected areas for deepwater fish populations: an evaluation of their effects in Hawai’i. Mar Biol 161, 411–425 (2014). https://doi.org/10.1007/s00227-013-2347-9
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DOI: https://doi.org/10.1007/s00227-013-2347-9