Document 
-
Articles citing this article
-
Same authors
- PubMed
-
Related articles
- Recommend this article
- Download citation
- Alert me when this article is cited
- Alert me when this article is corrected
BibSonomy
CiteUlike
Connotea
Del.icio.us
Digg
Facebook
|
Aquat. Living Resour. 17 (2004) 499-517
DOI: 10.1051/alr:2004056
A review of recent information on the Haplosporidia, with special reference to Haplosporidium nelsoni (MSX disease)
Eugene M. Burreson1 and Susan E. Ford21 Virginia Institute of Marine Science, College of William and Mary, Gloucester Point, Virginia 23062, USA
2 Haskin Shellfish Research Laboratory, Rutgers University, Port Norris, New Jersey 08349, USA
Abstract
The current status of the Haplosporidia is reviewed as well as recent
information on Haplosporidium nelsoni, the causative agent of MSX disease in oysters. Recent
molecular phylogenetic analyses with greatly increased taxon sampling
support monophyly of the Haplosporidia and hypothesize placement of the
group as sister taxon to the phylum Cercozoa. Oyster pathogens in the genus
Bonamia should be considered haplosporidians based on molecular sequence data.
Thus, the group contains 4 genera: Uropsoridium, Haplosporidium, Bonamia and Minchinia. Molecular phylogenetic analyses
support monophyly of Urosporidium, Bonamia and Minchinia, but Haplosporidium forms a paraphyletic clade. Reports of
haplosporidia worldwide are reviewed. Molecular detection assays have
greatly increased our ability to rapidly and specifically diagnose important
pathogens in the phylum and have also improved our understanding of the
distribution and biology of H. nelsoni and H. costale. Much of the data available for H. nelsoni has been
integrated into a mathematical model of host/parasite/environment
interactions. Model simulations support hypotheses that recent H. nelsoni outbreaks in
the NE United States are related to increased winter temperatures, and that
a host other than oysters is involved in the life cycle. Evidence is
presented that natural resistance to H. nelsoni has developed in oysters in Delaware
Bay, USA. However, in Chesapeake Bay, USA H. nelsoni has intensified in historically
low salinity areas where salinities have increased because of recent drought
conditions. Efforts to mitigate the impact of H. nelsoni involve selective breeding
programs for disease resistance and the evaluation of disease resistant
non-native oysters.
Key words: Phylogeny / Diagnostics / Numerical model / Haplosporidia / Haplosporidium nelsoni
Corresponding author: gene@vims.edu
© EDP Sciences, IFREMER, IRD 2004
| What is OpenURL? |
