Multiple Parasite Introduction and Host Management Plan: Case Study of Lutjanid Fish in the Hawaiian Archipelago

Multiple Parasite Introduction and Host Management Plan: Case Study of Lutjanid Fish in the Hawaiian Archipelago

Vol. 85: 133–145, 2009 DISEASES OF AQUATIC ORGANISMS Published June 10 doi: 10.3354/dao02071 Dis Aquat Org Multiple parasite introduction and host management plan: case study of lutjanid fish in the Hawaiian Archipelago Matthias Vignon1, 2,*, Pierre Sasal1, 2, Mark C. Rigby3, 4, René Galzin1, 2 1Centre de Biologie et d’Ecologie Tropicale et Méditerranéenne, UMR 5244 CNRS-EPHE-UPVD, avenue Paul Alduy, 66860 Perpignan Cedex, France 2Centre de Recherche Insulaire et Observatoire de l’Environnement, UMS 2978 CNRS EPHE, BP 1013, 98729 Papetoai, Moorea, Polynésie Française 3Parsons, 2121 N California Boulevard, Suite 500, Walnut Creek, California 94596, USA 4Marine Science Institute, University of California, Santa Barbara, California 93106, USA ABSTRACT: The bluestriped snapper Lutjanus kasmira and the blacktail snapper L. fulvus were deliberately introduced in the Hawaiian Archipelago from French Polynesia in the late 1950s to enhance local fisheries. These species rapidly spread all over the Windward Islands, became extremely abundant and, therefore, caused controversial environmental concerns. A comparison of the whole metazoan parasite community of L. kasmira and L. fulvus was performed between their native ranges in French Polynesia (Moorea Island in the Society Archipelago and Ua Huka in the Marquesas Islands) and their introduced range in O’ahu, Hawaii, USA. We suggest that 8 mono- genean species have been introduced with L. kasmira and L. fulvus into the Hawaiian Archipelago from French Polynesia; 2 other species as well as one nematode should be referred to as cryptogenic. Moreover, experimental mortality conducted on monogeneans found in Polynesia emphasizes the inefficiency of anti-parasite treatment which was performed 50 yr ago, explaining possible parasite introduction. Finally, we discuss the potential threat of exotic parasites to the native fish community in the Hawaiian Archipelago and conclude that the absence of co-evolved hosts prevents parasite transfer from non-indigenous to native fishes as monogeneans are highly specific. KEY WORDS: Parasite community · Non-indigenous species · Lutjanus · Hawaii · Polynesia · Copper sulphate Resale or republication not permitted without written consent of the publisher INTRODUCTION 2001, Bax et al. 2003, Pimentel et al. 2005). Ecological studies of exotic species focus primarily on how Coastal estuarine and marine systems are currently invaders directly affect particular resident species. In among the most heavily invaded systems in the world contrast, little is known about the indirect effects of (Grosholz 2002) and the rate of biological invasions in introduced species on native communities in the wild, those ecosystems has substantially increased in recent including how pathogens may be spread by introduced years (Ruiz et al. 2000). The introduction of non- species. Among the less conspicuous effects of intro- indigenous animals and plants has been identified by duced species is the presence of accompanying para- scientists and policy makers as a major threat to biodi- sites and diseases (e.g. bacteria, viruses, fungi) that versity in marine ecosystems with each successive can strike local populations and communities (Thomas invasion having unpredictable negative consequences et al. 1999, Horwitz & Wilcox 2005, Hudson et al. 2006). on the environment, economy and society (McNeely The threat to native populations from the introduction *Email: [email protected] © Inter-Research 2009 · www.int-res.com 134 Dis Aquat Org 85: 133–145, 2009 of exotic parasites is well known (Dobson & Foufopou- entific and recreational community because of their los 2001, Grosholz 2002, Prenter et al. 2004, Bondad- possible effect on local marine communities. It has Reantaso et al. 2005). For example, introduced para- been suggested that the introduced snappers may sites have decimated naïve host populations in several adversely affect native fish species through competi- cases (Anderson & May 1986, Harvell et al. 1999, Hay tion for spatial and/or dietary resources (Parrish et al. et al. 2004, Prenter et al. 2004). The best known exam- 2000, Schumacher & Parrish 2005). For example, ple among fish is the decimation of the Aral Sea habitat use patterns of the native yellowtail goatfish sturgeon Acipenser nudiventris by the monogenean Mulloidichthys vanicolensis (Family: Mullidae) are Nitzchia sturionis. This parasite was accidentally very similar to those of introduced L. kasmira and introduced to the Aral Sea with the Caspian Sea stur- asymmetrical competition occurs for shelter (Schu- geon Huso huso in the 1930s (Dogiel & Lutta 1937). macher & Parrish 2005). In addition to the potential However, parasites remain an underestimated compo- direct threat to native reef fish communities in terms of nent of total biodiversity (Luque & Poulin 2007), competition and predation, the introduction of non- usually because of their small size and cryptic way of indigenous fishes could also lead to the introduction of life. Thus, the introduction of parasites in a new exotic parasites. The compositions of parasite commu- ecosystem is of concern in a conservational context and nities are generally influenced by host ecology and remains poorly studied in the wild. phylogeny. Sympatric and phylogenetically related The Hawaiian Islands are among the most geograph- hosts with similar ecologies should have similar para- ically and hydrographically isolated in the world and, site communities (Muñoz et al. 2006). Therefore, trans- thus, exhibit a unique reef fish assemblage. This isola- fer of parasites between native and introduced hosts tion has resulted in some major reef fish taxa being to- usually concerns hosts that are closely related phylo- tally absent or poorly represented. Further, unlike other genetically or ecologically. In the Hawaiian waters, islands in the Indo-Pacific, the Hawaiian Islands lack parasite transfers may occur between introduced reef fish species that support valuable commercial and snappers and native Lutjanidae (phylogenetically recreational fisheries such as shallow-water groupers related species) as well as native Mullidae (ecologi- and snappers (Oda & Parrish 1981, Coleman et al. 2000). cally related species), such as the native syntopic Thus, in the late 1950s, the Hawaiian government intro- M. vanicolensis. Despite the potential threat from duced various reef fishes to the Hawaiian Islands from the spread of exotic parasites, there is limited infor- French Polynesia to enhance local fisheries. mation on the parasites of introduced snappers in the Among the 11 species intentionally introduced from Hawaiian Islands with the exception of protozoan French Polynesia to the Hawaiian Islands (Randall (Work et al. 2003) and nematode parasites (Font & 1987), only 5 became established (Murphy 1960, Oda & Rigby 2000). Parrish 1981, Randall & Kanayama 1982, Randall 1987, Before their release in the Hawaiian Islands, these Randall et al. 1993a): the Marquesan sardine Sar- snappers were bathed in copper sulphate (concentra- dinella marquesensis, 3 lutjanid species (blacktail tion of 0.4 to 0.8 ppm) to remove their parasites (Fuji- snapper Lutjanus fulvus, humpback snapper L. gibbus mura 1957–1958, Randall & Kanayama 1982). In the and bluestriped snapper L. kasmira) and the bluespot- 1950s, copper sulphate was assumed to be an effective ted grouper Cephalopholis argus. Between 1955 and anti-parasite treatment, but unfortunately, subsequent 1961, 3200 small (<25 cm) L. kasmira were transported studies have shown that it is has a relatively poor abil- from the Society Islands (Moorea, 728 individuals) and ity to control infections. In addition, such treatment the Marquesas Islands (Nuku Hiva, 2472 individuals) remains ineffective against internal parasites. Thus, it to Hawaii (O’ahu only) and 2204 small L. fulvus were is suspected that parasites were released in the Hawai- transported from the Society Islands (2021 individuals), ian Islands with the massive introduction of 5404 lut- the Marquesas Islands (35 individuals), and the Canton janids from Polynesia. Here, we compared the parasite Islands (Kiribati, 148 individuals) to Hawaii (O’ahu communities of Lutjanus kasmira and L. fulvus in their only). The distinct aspect of this case study compared native range (i.e. the Society and Marquesas islands) to with others is that the qualitative and quantitative pro- the parasites on these fishes in O’ahu, Hawaii, where tocol of introduction is known, whereas for most bio- these 2 snappers were introduced 50 yr ago. Then we logical invasions, which are usually unintentional and investigated the potential introduction of parasites into undesired, such information is lacking. the Hawaiian Archipelago and experimentally evalu- Since their introduction to the Hawaiian Islands in ated the effectiveness of copper sulphate as a means of the 1950s, introduced snappers belonging to the gen- removing parasites to explain possible parasite intro- era Lutjanus became extremely abundant (Friedlander duction. Finally, we investigated the possible transfer et al. 2002, Schumacher & Parrish 2005) and have of introduced parasites to the abundant native syntopic become the focus of considerable attention in the sci- Mulloidichthys vanicolensis. Vignon et al.: Multiple parasite introductions in Hawaii 135 MATERIALS AND METHODS replaced with unfiltered water from Oponuhu Bay in Moorea (salinity 32‰). The aquaria were maintained Sites and host collection. A total of 446 fish were col- in a room at 23 to

View Full Text

Details

  • File Type
    pdf
  • Upload Time
    -
  • Content Languages
    English
  • Upload User
    Anonymous/Not logged-in
  • File Pages
    13 Page
  • File Size
    -

Download

Channel Download Status
Express Download Enable

Copyright

We respect the copyrights and intellectual property rights of all users. All uploaded documents are either original works of the uploader or authorized works of the rightful owners.

  • Not to be reproduced or distributed without explicit permission.
  • Not used for commercial purposes outside of approved use cases.
  • Not used to infringe on the rights of the original creators.
  • If you believe any content infringes your copyright, please contact us immediately.

Support

For help with questions, suggestions, or problems, please contact us