Abstract
The recent irruption of Pacific red lionfish (Pterois volitans) on Caribbean and Atlantic coral reefs could prove to be one of the most damaging marine invasions to date. Invasive lionfish are reaching densities much higher than those reported from their native range, and they have a strong negative effect on the recruitment and abundance of a broad diversity of native coral-reef fishes. Otherwise, little is known about how lionfish affect native coral-reef communities, especially compared to ecologically similar native predators. A controlled field experiment conducted on small patch-reefs in the Bahamas over an 8-week-period demonstrated that (1) lionfish caused a reduction in the abundance of small native coral-reef fishes that was 2.5 ± 0.5 times (mean ± SEM) greater than that caused by a similarly sized native piscivore, the coney grouper Cephalopholis fulva (93.7 vs. 36.3 % reduction); (2) lionfish caused a reduction in the species richness of small coral-reef fishes (loss of 4.6 ± 1.6 species), whereas the native piscivore did not have a significant effect on prey richness; (3) the greatest effects on the reef-fish community, in terms of both abundance and richness, occurred when both native and invasive predators were present; and (4) lionfish grew significantly faster (>6 times) than the native predator under the same field conditions. These results suggest that invasive lionfish have stronger ecological effects than similarly sized native piscivores, and may pose a substantial threat to native coral-reef fish communities.
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References
Albins MA, Hixon MA (2008) Invasive Indo-Pacific lionfish Pterois volitans reduce recruitment of Atlantic coral-reef fishes. Mar Ecol Prog Ser 367:233–238
Albins MA, Hixon MA (2011) Worst case scenario: potential long-term effects of invasive predatory lionfish (Pterois volitans) on Atlantic and Caribbean coral-reef communities. Environ Biol Fish. doi:10.1007/s10641-011-9795-1
Albins MA, Lyons PJ (2012) Invasive red lionfish Pterois volitans blow directed jets of water at prey fish. Mar Ecol Prog Ser 448:1–5
Allen GR, Eschmeyer WN (1973) Turkeyfishes at Eniwetok. Pac Discov 26:3–11
Almany GR (2003) Priority effects in coral reef fish communities. Ecology 84:1920–1935
Almany GR (2004a) Differential effects of habitat complexity, predators and competitors on abundance of juvenile and adult coral reef fishes. Oecologia 141:105–113
Almany GR (2004b) Does increased habitat complexity reduce predation and competition in coral reef fish assemblages? Oikos 106:275–284
Almany GR, Webster MS (2004) Odd species out as predators reduce diversity of coral-reef fishes. Ecology 85:2933–2937
Almany GR, Webster MS (2006) The predation gauntlet: early post-settlement mortality in reef fishes. Coral Reefs 25:19–22
Baber MJ, Babbitt KJ (2003) The relative impacts of native and introduced predatory fish on a temporary wetland tadpole assemblage. Oecologia 136:289–295
Baltz DM (1991) Introduced fishes in marine systems and inland seas. Biol Conserv 56:151–177
Bariche M, Letourneur Y, Harmelin-Vivien M (2004) Temporal fluctuations and settlement patterns of native and Lessepsian herbivorous fishes on the Lebanese coast (Eastern Mediterranean). Environ Biol Fish 70:81–90
Bray JR, Curtis JT (1957) An ordination of the upland forest communities in southern Wisconsin. Ecol Monogr 27:325–349
Carr MH, Hixon MA (1995) Predation effects on early post-settlement survivorship of coral-reef fishes. Mar Ecol Prog Ser 124:31–42
Christie WJ (1974) Changes in the fish species composition of the Great Lakes. J Fish Res Board Can 31:827–854
Connell JH (1971) On the role of natural enemies in preventing competitive exclusion in some marine animals and in rain forest trees. In: den Boer PJ, Gradwell GR (eds) Dynamics of populations. PUDOC, Wageningen, pp 298–312
Côté IM (2000) Evolution and ecology of cleaning sybioses in the sea. Ocean Mar Biol Annu Rev 38:311–355
Dierking J, Williams ID, Walsh WJ (2009) Diet composition and prey selection of the introduced grouper species peacock hind (Cephalopholis argus) in Hawaii. Fish Bull 107:464–476
Friedlander AM, Parrish JD, DeFelice RC (2002) Ecology of the introduced snapper Lutjanus kasmira (Forsskal) in the reef fish assemblage of a Hawaiian bay. J Fish Biol 60:28–48
Goren M, Galil BS (2005) A review of changes in the fish assemblages of Levantine inland and marine ecosystems following the introduction of non-native fishes. J Appl Ichthyol 21:364–370
Green SJ, Côté IM (2009) Record densities of Indo-Pacific lionfish on Bahamian coral reefs. Coral Reefs 28:107
Green SJ, Akins JL, Maljković A, Côté IM (2012) Invasive lionfish drive Atlantic coral reef fish declines. PLoS One 7(3):e32596
He X, Kitchell JF (1990) Direct and indirect effects of predation on a fish community: a whole-lake experiment. Trans Am Fish Soc 119:825–835
Helfman GS (2007) Fish conservation: a guide to understanding and restoring global aquatic biodiversity and fishery resources. Island Press, Washington, DC
Hixon MA (1986) Fish predation and local prey diversity. In: Simenstad CA, Cailliet GM (eds) Contemporary studies on fish feeding. Developments in Env Biol Fish 7. Junk Publishers, Dordrecht, Netherlands, pp 235–257
Hixon MA, Beets JP (1989) Shelter characteristics and Caribbean fish assemblages: experiments with artificial reefs. Bull Mar Sci 44:666–680
Hixon MA, Beets JP (1993) Predation, prey refuges, and the structure of coral-reef fish assemblages. Ecol Monogr 63:77–101
Hixon MA, Carr MH (1997) Synergistic predation, density dependence, and population regulation in marine fish. Science 277:946–949
Hixon MA, Jones GP (2005) Competition, predation, and density-dependent mortality in demersal marine fishes. Ecology 86:2847–2859
Jackson DA (2002) Ecological effects of Micropterus introductions: the dark side of black bass. In: Phillip DP, Ridgway MS (eds) Black bass: ecology, conservation, and management. American Fisheries Society Symposium 31. Bethesda, pp 221–232
Jones GP (1991) Postrecruitment processes in the ecology of coral reef fish populations: a multifactorial perspective. In: Sale PF (ed) The ecology of fishes on coral reefs. Academic Press Inc., San Diego, pp 294–328
Kruskal JB, Wish M (1978) Multidimensional scaling. Sage Publications, Beverly Hills
Kulbicki M, Beets J, Chabanet P, Cure K, Darling E, Floeter SR, Galzin R, Green A, Harmelin-Vivien M, Hixon M, Letourneur Y, Lison de Loma T, McClanahan T, McIlwain J, MouTham G, Myers R, O’Leary JK, Planes S, Vigliola L, Wantiez L (2012) Distributions of Indo-Pacific lionfishes Pterois spp. in their native ranges: implications for the Atlantic invasion. Mar Ecol Prog Ser 446:189–205
Levin SA (1992) The problem of pattern and scale in ecology: the Robert H. MacArthur award lecture. Ecology 73:1943–1967
Losey GS, Grutter A, Rosenquist G, Mahon JL, Zamzow J (1999) Cleaning symbiosis: a review. In: Almada VC, Oliveira RF, Goncalves EJ (eds) Behaviour and conservation of littoral fishes. ISPA, Lisbon, Portugal, pp 379–395
McArdle BH, Anderson MJ (2001) Fitting multivariate models to community data: a comment on distance-based redundancy analysis. Ecology 82:290–297
McCune B, Grace JB (2002) Analysis of ecological communities. MjM Software Design, Gleneden Beach
Mills MD, Rader RB, Belk MC (2004) Complex interactions between native and invasive fish: the simultaneous effects of multiple negative interactions. Oecologia 141:713–721
Mora C (2008) A clear human footprint in the coral reefs of the Caribbean. Proc R Soc B 275:767–773
Morris JA Jr, Akins JL (2009) Feeding ecology of invasive lionfish (Pterois volitans) in the Bahamian archipelago. Environ Biol Fish 86:389–398
Morris JA Jr, Whitfield PE (2009) Biology, ecology, control and management of the invasive Indo-Pacific lionfish: an updated integrated assessment. NOAA Tech Memo NOS NCCOS 99:1–57
Mumby PJ, Dahlgren CP, Harborne AR, Kappel CV, Micheli F, Brumbaugh DR, Holmes KE, Mendes JM, Broad K, Sanchirico JN, Buch K, Box S, Stoffle RW, Gill AB (2006) Fishing, trophic cascades, and the process of grazing on coral reefs. Science 311:98–101
Murdoch WW (1969) Switching in general predators: experiments on predator specificity and stability of prey populations. Ecol Monogr 39:335–354
Ogutu-Ohwayo R (1990) The decline of the native fishes of lakes Victoria and Kyoga (East Africa) and the impact of introduced species, especially the Nile perch, Lates niloticus and the Nile tilapia, Oreochromis niloticus. Environ Biol Fish 27:81–96
Oksanen J, Blanchet FG, Kindt R, Legendre P, O’Hara RB, Simpson GL, Solymos P, Henry M, Stevens H, Wagner H (2011) vegan: Community Ecology Package. R package version 1.17-10. http://CRAN.R-project.org/package=vegan
Paine RT (1966) Food web complexity and species diversity. Am Nat 100:65–75
Pielou EC (1966) Shannon’s formula as a measure of specific diversity: its use and misuse. Am Nat 100:463–465
Pinheiro J, Bates D, DebRoy S, Sarkar D, R Development Core Team (2011) nlme: linear and nonlinear mixed effects models. R package version 3.1-100
Pyke GH (2008) Plague minnow or mosquitofish? A review of the biology and impacts of introduced Gambusia species. Annu Rev Ecol Evol Syst 39:171–191
Randall JE (1967) Food habits of reef fishes of the West Indies. Stud Trop Oceanogr 5:665–847
Randall JE (1987) Introduction of marine fishes to the Hawaiian Islands. Bull Mar Sci 41:490–502
Randall JE, Allen GR, Steene RC (1990) Fishes of the Great Barrier Reef and Coral Sea. University of Hawaii Press, Honolulu, Hawaii
Salo P, Korpimäki E, Banks PB, Nordström M, Dickman CR (2007) Alien predators are more dangerous than native predators to prey populations. Proc R Soc B 274:1237–1243
Schofield PJ (2009) Geographic extent and chronology of the invasion of non-native lionfish (Pterois volitans [Linnaeus 1758] and P. miles [Bennett 1828]) in the Western North Atlantic and Caribbean Sea. Aquat Invasions 4:473–479
Schofield PJ (2010) Update on geographic spread of invasive lionfishes (Pterois volitans [Linnaeus, 1758] and P. miles [Bennett, 1828]) in the Western North Atlantic Ocean, Caribbean Sea and Gulf of Mexico. Aquat Invasions 5:S117–S122
Schumacher BD, Parrish JD (2005) Spatial relationships between an introduced snapper and native goatfishes on Hawaiian reefs. Biol Invasions 7:925–933
Semmens BX, Buhle ER, Salomon AK, Pattengill-Semmens CV (2004) A hotspot of non-native marine fishes: evidence for the aquarium trade as an invasion pathway. Mar Ecol Prog Ser 266:239–244
Sih A, Bolnick DI, Luttbeg B et al (2010) Predator-prey naïveté, antipredator behavior, and the ecology of predator invasions. Oikos 119:610–621
Simon KS, Townsend CR (2003) Impacts of freshwater invaders at different levels of ecological organization, with emphasis on salmonids and ecosystem consequences. Freshwat Biol 48:982–994
Stallings CD (2008) Indirect effects of an exploited predator on recruitment of coral-reef fishes. Ecology 89:2090–2095
Stallings CD (2009) Fishery-independent data reveal negative effect of human population density on Caribbean predatory fish communities. PLoS One 4:e5333. doi:10.1371/journal.pone.0005333
Sutherland WJ, Clout M, Côté IM et al (2010) A horizon scan of global conservation issues for 2010. Trends Ecol Evol 25:1–7
R Development Core Team (2011) R: a language and environment for statistical computing. R foundation for statistical computing, Vienna, Austria. ISBN 3-900051-07-0, URL http://www.R-project.org/
Thomas ME (1993) Monitoring the effects of introduced flathead catfish on sport fish populations in the Altamaha River, Georgia. Proc Annu Conf Southeast Assoc Fish and Wildl Agencies 47:531–538
Venables WN, Ripley BD (2002) Modern Applied Statistics with S, 4th edn. Springer, New York. ISBN 0-387-95457-0
Verbeke G, Molenberghs G (2000) Linear mixed models for longitudinal data. Springer, New York
Whitfield PE, Hare JA, David AW, Harter SL, Muñoz RC, Addison CM (2007) Abundance estimates of the Indo-Pacific lionfish Pterois volitans/miles complex in the Western North Atlantic. Biol Invasions 9:53–64
Zuur AF, Ieno EN, Walker NJ, Saveliev AA, Smith GM (2009) Mixed effects models and extensions in ecology with R. Springer, New York
Acknowledgments
This work was supported by National Science Foundation (NSF) research grants to M. A. Hixon (05-50709 and 08-51162) and an NSF Graduate Research Fellowship to the author, and is a chapter from the author’s doctoral dissertation (committee: M. A. Hixon [advisor], G. W. Boehlert, S. S. Heppell, L. Madsen, and B. A. Menge). I am grateful to M. A. Hixon, K. Page-Albins and two anonymous reviewers for constructive reviews of the manuscript, and to L. Madsen for advice regarding the statistical analyses. I also thank T. J. Pusack, M. Cook, K. Page-Albins, B. Gadd, and the staff of the Perry Institute for Marine Science for their assistance in the field.
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Albins, M.A. Effects of invasive Pacific red lionfish Pterois volitans versus a native predator on Bahamian coral-reef fish communities. Biol Invasions 15, 29–43 (2013). https://doi.org/10.1007/s10530-012-0266-1
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DOI: https://doi.org/10.1007/s10530-012-0266-1