Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Osmoregulation and survival of two mysid species of Tenagomysis in southern estuaries of New Zealand

Sourav Paul A D , Martin Krkosek A C , P. Keith Probert B and Gerard P. Closs A
+ Author Affiliations
- Author Affiliations

A Department of Zoology, University of Otago, PO Box 56, Dunedin, New Zealand.

B Department of Marine Science, University of Otago, New Zealand.

C Department of Ecology and Evolutionary Biology, University of Toronto, Canada.

D Corresponding author. Email: paul.sourav@otago.ac.nz

Marine and Freshwater Research 64(4) 340-347 https://doi.org/10.1071/MF12316
Submitted: 6 November 2012  Accepted: 6 February 2013   Published: 10 April 2013

Abstract

The mysid shrimps Tenagomysis chiltoni and T. novaezealandiae are abundant in southern New Zealand estuaries; however, little is known of their osmoregulatory capacity and survival. We investigated their osmoregulation and survival under salinities of 0, 5, 10, 15, 20, 25, 30 and 33 at 5°C and 20°C, to evaluate if the variation in salinity limits their distribution in estuaries. T. chiltoni and T. novaezealandiae maintained species-specific haemolymph concentrations across the salinities tested. According to AIC model selection statistics, for osmoregulatory capacity, the combined effects of salinity and temperature emerged as the most parsimonious. For survival, the non-linear effect of salinity was found as the most supported model given the data. Mortality of T. chiltoni and T. novaezealandiae increased towards the extremes of fresh and salt water but was lower in intermediate salinities (10–25). The ability of these species to osmoregulate and survive were limited at 5°C, but improved at 20°C. Life-history stage was found to be critical for explaining the variations in survival. We concluded that salinity could influence osmoregulation and survival of Tenagomysis spp., and when interacting with temperature and life-history stage, may partly explain why both shrimp species could be found in intermediate salinities and why T. chiltoni is more prevalent in the upper reaches of southern New Zealand estuaries.

Additional keywords: distribution, salinity, survival analysis, AIC.


References

Allen, D. M., Ogburn-Matthews, V., Buck, T., and Smith, E. M. (2008). Mesozooplankton responses to climate change and variability in a southeastern US estuary (1981–2003). Journal of Coastal Research SI(55), 95–110.
Mesozooplankton responses to climate change and variability in a southeastern US estuary (1981–2003).Crossref | GoogleScholarGoogle Scholar |

Burnham, K. P., and Anderson, D. R. (2002). ‘Model Selection and Multimodel Inference: a Practical Information-theoretic Approach.’ 2nd edn. (Springer-Verlag: New York.)

Carrasco, N. K., and Perissinotto, R. (2011). Temperature and salinity tolerance of Mesopodopsis africana O.Tattersall in the freshwater-deprived St Lucia Estuary, South Africa. Journal of Experimental Marine Biology and Ecology 399, 93–100.
Temperature and salinity tolerance of Mesopodopsis africana O.Tattersall in the freshwater-deprived St Lucia Estuary, South Africa.Crossref | GoogleScholarGoogle Scholar |

DeLisle, P. F., and Roberts, M. H. (1986). The effect of acclimatisation on salinity tolerance of the mysid, Mysidopsis bahia Molenock. Comparative Biochemistry and Physiology. A. Comparative Physiology 85, 383–387.
The effect of acclimatisation on salinity tolerance of the mysid, Mysidopsis bahia Molenock.Crossref | GoogleScholarGoogle Scholar |

DeLisle, P. F., and Roberts, M. H. (1987). Osmoregulation in the estuarine mysid, Mysidopsis bahia Molenock, comparison with other mysid species. Comparative Biochemistry and Physiology. A. Comparative Physiology 88, 369–372.
Osmoregulation in the estuarine mysid, Mysidopsis bahia Molenock, comparison with other mysid species.Crossref | GoogleScholarGoogle Scholar |

Edgar, G. J., Barrett, N. S., Graddon, D. J., and Last, P. R. (2000). The conservation significance of estuaries: a classification of Tasmanian estuaries using ecological, physical and demographic attributes as a case study. Biological Conservation 92, 383–397.
The conservation significance of estuaries: a classification of Tasmanian estuaries using ecological, physical and demographic attributes as a case study.Crossref | GoogleScholarGoogle Scholar |

Greenwood, M. F. D. (2007). Nekton community change along estuarine salinity gradients: can salinity zones be defined? Estuaries and Coasts 30, 537–542.
Nekton community change along estuarine salinity gradients: can salinity zones be defined?Crossref | GoogleScholarGoogle Scholar |

Hanamura, Y., Siow, R., Chee, P.-E., and Kassim, F. M. (2009). Seasonality and biological characteristics of the shallow-water mysid Mesopodopsis orientalis (Crustacea: Mysida) on a tropical sandy beach, Malaysia. Plankton & Benthos Research 4, 53–61.
Seasonality and biological characteristics of the shallow-water mysid Mesopodopsis orientalis (Crustacea: Mysida) on a tropical sandy beach, Malaysia.Crossref | GoogleScholarGoogle Scholar |

Jocque, M., and Blom, W. (2009). Mysidae (Mysida) of New Zealand; a checklist, identification key to species and an overview of material in New Zealand collections. Zootaxa 2304, 1–20.

Jones, M. B., Greenwood, J. G., and Greenwood, J. (1989). Distribution, body size, and brood characteristics of 4 species of mysids (Crustacea, Peracardia) in the Avon Heathcote estuary, New Zealand. New Zealand Journal of Marine and Freshwater Research 23, 195–199.
Distribution, body size, and brood characteristics of 4 species of mysids (Crustacea, Peracardia) in the Avon Heathcote estuary, New Zealand.Crossref | GoogleScholarGoogle Scholar |

Kattel, G. R., and Closs, G. P. (2007). Spatial and temporal variation in the fish community of a South Island, New Zealand coastal lake. New Zealand Journal of Marine and Freshwater Research 41, 1–11.

Lill, A. W. T., Lal, A., and Closs, G. P. (2010). Life history and reproduction of two abundant mysids (Mysidacea: Mysidae) in an intermittently open New Zealand estuary. Marine and Freshwater Research 61, 633–641.
Life history and reproduction of two abundant mysids (Mysidacea: Mysidae) in an intermittently open New Zealand estuary.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXnvFKqtb0%3D&md5=bee003c951d5372bd64216f945260b36CAS |

Lill, A. W. T., Closs, G. P., and Schallenberg, M. (2011). Late summer hyperbenthic estuarine communities: comparing permanently open and intermittently closed systems along the Otago coastline. New Zealand Journal of Marine and Freshwater Research 45, 73–83.
Late summer hyperbenthic estuarine communities: comparing permanently open and intermittently closed systems along the Otago coastline.Crossref | GoogleScholarGoogle Scholar |

Lotze, H. K., Lenihan, H. S., Bourque, B. J., Bradbury, R. H., Cooke, R. G., Kay, M. C., Kidwell, S. M., Kirby, M. X., Peterson, C. H., and Jackson, J. B. C. (2006). Depletion, degradation, and recovery potential of estuaries and coastal seas. Science 312, 1806–1809.
Depletion, degradation, and recovery potential of estuaries and coastal seas.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XmtVSnt7Y%3D&md5=439b345db416a2468853f7e3b09f8be4CAS | 16794081PubMed |

McKenney, C. L. (1994). ‘Resistance Patterns to Salinity and Temperature in an Estuarine Mysid (Mysidopsis bahia) in Relation to its Life Cycle.’ (Environmental Protection Agency: Washington, DC.)

McKenney, C. L., and Celestial, D. M. (1995). Interactions among salinity, temperature, and growth of the estuarine mysid Mysidopsis bahia reared in the laboratory in the complete life cycle. 1. Body mass and age specific growth rate. Journal of Crustacean Biology 15, 169–178.
Interactions among salinity, temperature, and growth of the estuarine mysid Mysidopsis bahia reared in the laboratory in the complete life cycle. 1. Body mass and age specific growth rate.Crossref | GoogleScholarGoogle Scholar |

McKenney, C. L., Hamaker, T. L., and Matthews, E. (1988). Ontogeny of resistence and matabolic adaptation to salinity and temperature in an estuarine mysid. American Zoologist 28, A95–A95.

Muylaert, K., Sabbe, K., and Vyverman, W. (2009). Changes in phytoplankton diversity and community composition along the salinity gradient of the Schelde Estuary (Belgium/The Netherlands). Estuarine, Coastal and Shelf Science 82, 335–340.
Changes in phytoplankton diversity and community composition along the salinity gradient of the Schelde Estuary (Belgium/The Netherlands).Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXjtlOltLo%3D&md5=8327401aa89e2a4fece32f5f0b438e62CAS |

Primo, A. L., Azeiteiro, U. M., Marques, S. C., Martinho, F., and Pardal, M. A. (2009). Changes in zooplankton diversity and distribution pattern under varying precipitation regimes in a southern temperate estuary. Estuarine, Coastal and Shelf Science 82, 341–347.
Changes in zooplankton diversity and distribution pattern under varying precipitation regimes in a southern temperate estuary.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXjtlOltLs%3D&md5=20490d48f3e47857669dc0e1605d71ecCAS |

R Development Core Team (2012). ‘R: a Language and Environment for Statistical Computing.’ (R Foundation for Statistical Computing: Auckland.) Available at www.r-project.org [accessed November 2012].

Roast, S. D., Thompson, R. S., Widdows, J., and Jones, M. B. (1998). Mysids and environmental monitoring: a case for their use in estuaries. Marine and Freshwater Research 49, 827–832.
Mysids and environmental monitoring: a case for their use in estuaries.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK1MXhsV2nt78%3D&md5=c9ac8d6a06a30e50879de95c04d572c4CAS |

Therneau, T. (2012). http://cran.r-project.org/web/packages/coxme/index.html [accessed June, 2012].

Vilas, C., Drake, P., and Pascual, E. (2006). Oxygen consumption and osmoregulatory capacity in Neomysis integer reduce competition for resources among mysid shrimp in a temperate estuary. Physiological and Biochemical Zoology 79, 866–877.
Oxygen consumption and osmoregulatory capacity in Neomysis integer reduce competition for resources among mysid shrimp in a temperate estuary.Crossref | GoogleScholarGoogle Scholar | 16927233PubMed |

Vilas, C., Drake, P., and Pascual, E. (2009). Inter- and intra-specific differences in euryhalinity determine the spatial distribution of mysids in a temperate European estuary. Journal of Experimental Marine Biology and Ecology 369, 165–176.
Inter- and intra-specific differences in euryhalinity determine the spatial distribution of mysids in a temperate European estuary.Crossref | GoogleScholarGoogle Scholar |

Webb, P., Wooldridge, T., and Schlacher, T. (1997). Osmoregulation and spatial distribution in four species of mysid shrimps. Comparative Biochemistry and Physiology. A. Comparative Physiology 117, 427–431.
Osmoregulation and spatial distribution in four species of mysid shrimps.Crossref | GoogleScholarGoogle Scholar |