<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html>
  <head>
    <title>UTas ePrints - Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae).</title>
    <script type="text/javascript" src="http://eprints.utas.edu.au/javascript/auto.js"><!-- padder --></script>
    <style type="text/css" media="screen">@import url(http://eprints.utas.edu.au/style/auto.css);</style>
    <style type="text/css" media="print">@import url(http://eprints.utas.edu.au/style/print.css);</style>
    <link rel="icon" href="/images/eprints/favicon.ico" type="image/x-icon" />
    <link rel="shortcut icon" href="/images/eprints/favicon.ico" type="image/x-icon" />
    <link rel="Top" href="http://eprints.utas.edu.au/" />
    <link rel="Search" href="http://eprints.utas.edu.au/cgi/search" />
    <meta content="Barrett, N.S." name="eprints.creators_name" />
<meta content="neville.barrett@utas.edu.au" name="eprints.creators_id" />
<meta content="thesis" name="eprints.type" />
<meta content="2007-09-10" name="eprints.datestamp" />
<meta content="2008-01-08 15:30:00" name="eprints.lastmod" />
<meta content="show" name="eprints.metadata_visibility" />
<meta content="Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae)." name="eprints.title" />
<meta content="unpub" name="eprints.ispublished" />
<meta content="270702" name="eprints.subjects" />
<meta content="public" name="eprints.full_text_status" />
<meta content="Labridae, Maonacanthidae, Tasmanian reef fish, reproductive biology, recruitment and movement, growth patterns" name="eprints.keywords" />
<meta content="The currently most accepted population theory for reef fish was developed on tropical reefs and suggests that populations of most reef fish species are limited primarily by recruitment, with little post-recruitment resource limitation. I tested the validity of this theory for temperate reef fishes by examining growth rates in six common species from a number of isolated populations for evidence of resource limitation. If resources are limiting, spatial and temporal variation in recruitment and mortality should lead to isolated populations experiencing differing levels of resource availability, particularly food availability, which will be reflected in growth rates. I worked with six of the most common reef fishes found in Tasmanian waters so that any findings would form the basis of a broadly applicable model. These were Notolabrus tetricus, Notolabrus fucicola, Pictilabrus laticlavius, Pseudolabrus psittaculus, Penicipelta vittiger, and Meuschenia australis. 

Before examining growth rates it was first necessary to define the scale at which populations could be considered to be isolated. The short and long-term movement patterns of each species were studied using visual observations to interpret short-term patterns, and recaptures of tagged fish to interpret the long-term patterns.

Methods of ageing each species were developed and validated, with growth rates of tagged fish being used to validate the use of otoliths for ageing. General growth curves are presented.

For most of the species, there was some uncertainty in current texts about the sexual system used and the relationship between sex and dichromatism and dimorphism. To clarify this situation the reproductive biology of each species was examined. The relationship between sex and growth rate was also examined.

For two species (N. tetricus and N. fucicola) annual growth data from tagged fish were obtained over a 3-4 year period, allowing inter-annual growth variability to be examined. As well as providing an insight into the variability of growth with time, these results also aid in the interpretation of growth curves determined from otolith ageing.

In all species investigated, no significant differences in growth rates were detected between populations occupying similar habitats and subject to similar environmental conditions. These results suggest that post-recruitment resource limitation in the form of food limitation may not be an important factor influencing the post recruitment growth and survival of many temperate reef fishes with pelagic larval stages. This agrees with the assumptions made, but rarely tested, in current theories concerning the regulation of populations of reef fish, particularly those on temperate reefs. 
" name="eprints.abstract" />
<meta content="1995-11" name="eprints.date" />
<meta content="published" name="eprints.date_type" />
<meta content="192" name="eprints.pages" />
<meta content="University of Tasmania" name="eprints.institution" />
<meta content="School of Zoology" name="eprints.department" />
<meta content="phd" name="eprints.thesis_type" />
<meta content="References

Backiel, T. (1986).  Masking effects of variability of growth on its estimation in juvenile tench, Tinca tinca (L.), reared at different temperatures.  Polskie Archiwum Hydrobiologii  33, 69-95.

Bardach, J.E. (1958).  On the movements of certain Bermuda reef fishes.  Ecology  39, 139-46.

Barlow, G.W. (1987).  Spawning, eggs and larvae of the longnose filefish Oxymonacanthus longirostris, a monogamous coralivore.  Environmental Biology of Fishes  20, 183-94.

Ballantine, B. (1991).  ‘Marine Reserves for New Zealand.’ Leigh Laboratory Bulletin Vol. 25 (University of Auckland: Auckland.)

Beamish, R.J. and Chilton, D.E. (1981).  Preliminary evaluation of a method to determine the age of sablefish (Anoploma fimbria).  Canadian Journal of Fisheries and Aquatic Sciences  39, 277-87.

Beamish, R.J. and McFarlane, G.A. (1987).  Current trends in age determination methodology.  In ‘The Age and Growth of Fish.’  (Ed. R.C. Summerfelt and G.E. Hall) pp. 15-41 (Iowa State University Press: Ames.)

Beckman, D.W., Stanley, A.L., Render, J.H. and Wilson, C.A. (1991).  Age and growth-rate estimation of sheepshead Arcosargus probatocephalus in Louisiana waters using otoliths.  Fisheries Bulletin  89, 1-8.

Begon, M. (1979).  ‘Investigating Animal Abundance: Capture-recapture for Biologists.’ (Edward Arnold: London.)

Bergman, M.J., van der-Veer, H. and Zijlstra, J. (1988).  Plaice nurseries: effects on recruitment.  Journal of Marine Biology  33, 201-18.

Boehlert, G.W., Yoklavich, M.M. and Chelton, D.B. (1989).  Time series of growth in the genus Sebastes from the Northeast Pacific Ocean.  Fisheries Bulletin  87, 791-806.

Bohnsack, J.A. (1990).  The potential of marine fishery reserves for reef fish management in the U.S. southern Atlantic. NOAA Technical Memorandum  261, 1-40.

Carr, M.H. (1989).  Effects of macroalgal assemblages on the recruitment of temperate zone fishes.  Journal of Experimental Marine Biology and Ecology  126, 59-76.

Carr, M.H. (1991).  Habitat selection and recruitment of an assemblage of temperate zone reef fishes.  Journal of Experimental Marine Biology and Ecology  146, 113-37.

Carr, M.H. (1994).  Effects of macroalgal dynamics on recruitment of a temperate reef fish.  Ecology  75, 1320-33.

Chevassus, B. (1982). Genetic and social factors affecting growth in fish.  In 'Some aspects of growth in sea organisms, Paris, France'. pp. 579-98 (Institut Oceanographique: Paris).  

Chiba, A., Yoshie, S. and Honma, Y. (1976).  Histological observations of some organs in the triggerfish, Canthidermis rotundatus, stranded on the coast of Niigata facing the Japan Sea.  Japanese Journal of Ichthyology  22, 212-20.


Chien, S. and Hu, Y. (1980).  A preliminary study on the age and growth of filefish (Navodon septehtrionalis).  Journal of Fisheries of China  4, 197-206.

Choat, J.H. (1982).  Fish feeding and the structure of benthic communities in temperate waters.  Annual Review of Ecology and Systematics  13, 423-49.

Choat, J.H. and Ayling, A.M. (1987).  The relationship between habitat structure and fish faunas on New Zealand reefs.  Journal of Experimental Marine Biology and Ecology  110, 257-84.

Choat, J.H., Ayling, A.M. and Schiel, D.R. (1988).  Temporal and spatial variation in an island fish fauna.  Journal of Experimental Marine Biology and Ecology  121, 91-111.

Clarke, E. (1950).  Notes on the behavior and morphology of some West Indian plectognath fishes.  Zoologica, N.Y.  35, 159-68.

Clarke, T.A. (1970).  Territorial behavior and population dynamics of a territorial reef fish, the garribaldi, Hypsypops rubicunda.  Ecological Monographs  40, 189-212.

Connell, J.H. (1978).  Diversity in tropical rain forests and coral reefs.  Science  199, 1302-10.

Connnell, J.H. (1980).  Diversity and coevolution of competitors, or the ghost of competition past.  Oikos  35, 131-38.

Costello, M.J. (1991).  Review of the biology of wrasse (Labridae: Pisces) in northern Europe.  Progress in Underwater Science  16, 29-51.

Cowen, R.K. (1985).  Large scale pattern of recruitment by the labrid, Semicossyphus pulcher: causes and implications.  Journal of Marine Research  43, 719-42.

Cushing, D.H. (1975).  ‘Marine Ecology and Fisheries.’ (Cambridge University Press: London.)

Dale, G. (1978).  Money-in-the-bank: a model for coral reef fish coexistence.  Environmental Biology of Fishes  3, 103-08.

Davis, G.E. and Anderson, T.W. (1989).  Population estimates of four kelp forest fishes and an evaluation of three in situ assessment techniques.  Bulletin of Marine Science  44, 1138-51.

DeMartini, E. and Roberts, D. (1990).  Effects of giant kelp (Macrocystis) on the density and abundance of fishes in a cobble-bottom kelp forest.  Bulletin of Marine Science  46, 287-300.

Diener, D.R. (1976).  'Hermaphrodism in fish. A comparitive study of the reproductive biology and endocrinology of the Californian Labridae.' Ph.D. Thesis (University of California: San Diego.)

Dipper, F.A. and Pullin, R.S. (1979).  Gonochorism and sex-inversion in the British Labridae (Pisces).  Journal of Zoology, London.  187, 97-111.

Doak, W. (1972).  ‘Fishes of the New Zealand Region.’ (Hodder and Stoughton: Auckland.)

Doherty, P.J. (1982).  Some effects of density on the juveniles of two species of tropical, territorial damselfishes.  Journal of Experimental Marine Biology and Ecology  65, 249-61.

Doherty, P.J. (1983).  Tropical territorial damselfishes: is density limited by aggression or recruitment?  Ecology 64  64, 176-90.

Doherty, P.J. (1987).  The replenishment of populations of coral reef fishes, recruitment surveys, and the problems of variability manifest on multiple scales.  Bulletin of Marine Science  41, 411-22.

Doherty, P.J. and Fowler, T. (1994).  An empirical test of recruitment limitation in a coral reef fish.  Science  263, 935-39.

Doherty, P.J. and Williams, D.McB. (1988a).  The replenishment of coral reef fish populations.  Oceanography and Marine Biology: An Annual Review  26, 487-551.

Doherty, P.J. and Williams, D.McB. (1988b).  Are local populations of coral reef fishes equilibrial assemblages? The empirical data base.  Proceedings of the 6th International Coral Reef Symposium, Australia, 1988  1, 131-39.

Ebeling, A.W. and Hixon, M.A. (1991).  Tropical and temperate reef fishes: comparison of community structures  In ‘The Ecology of Fishes on Coral Reefs.’  (Ed. P.F. Sale) pp. 509-63 (Academic Press: San Diego.)

Ebeling, A.W., Larson, R.J. and Alevison, W.S. (1980).  Habitat groups and island-mainland distribution of kelp-bed fishes off Santa Barbara, California  In ‘The Californian Islands: Proceedings of a Multidisciplinary Symposium.’  (Ed. D.M. Power) pp. 403-31 (Santa Barbera Museum of Natural History: Santa Barbera.)

Eckert, G.J. (1985).  'Population studies of labrid fishes on the southern Great Barrier Reef.' Ph.D. Thesis (University of Sydney, Sydney.)

Edgar, G.J., Last, P.R. and Wells, M.W. (1982).  ‘Coastal Fishes of Tasmania and Bass Strait.’ (Cat and Fiddle Press: Hobart.)

Edmunds, M. (1990).  'Ecology of fishes on Tasmanian rocky reefs.' BSc. Hons Thesis (University of Tasmania, Hobart.)

Ehrlich, P.R. (1975).  The population biology of coral reef fishes.  Annual Review of Ecology and Systematics  6, 211-47.

Fabens, A.J. (1965).  Properties and fitting of the von Bertalanffy growth curve.  Growth  29, 265-89.

Forrester, G.E. (1990).  Factors influencing the juvenile demography of a coral reef fish population.  Ecology  71, 1666-81.

Francis, M.P. (1994).  Growth of juvenile snapper, Pagrus auratus.  New Zealand Journal of Marine and Freshwater Research  28, 201-18.

Francis, R.I.C.C. (1988a).  Are growth paramaters estimated from tagging and age-length data comparable.  Canadian Journal of Fisheries and Aquatic Science  45, 936-42.

Francis, R.I.C.C. (1988b).  Recalculated growth rates for sand flounder, Rhombosolea plebeia, from tagging experiments in Canterbury, New Zealand, 1964-66.  New Zealand Journal of Marine and Freshwater Research  22, 53-56.
Francis, R.I.C.C., Paul, L.J. and Mulligan, K.P. (1992).  Ageing of adult snapper (Pargus auratus) from otolith annual ring counts: validation by tagging and oxytetracycline injection.  Australian Journal of Marine and Freshwater Research.  43, 1069-89.

Fricke, H.W. (1980).  Mating systems, maternal and biparental care in triggerfish (Balistidae).  Zeitschrift für Tierpsychologie  53, 105-22.

Gomon, M.F., Glover, J. C. and Kuiter, R.H. (1994).  ‘The Fishes of Australia's South Coast.’ (State Print: Adelaide.)

Gunn, J.S. and Thresher, R.E. (1991).  Viviparity and the reproductive ecology of clinid fishes (Clinidae) from temperate Australian waters.  Environmental Biology of Fishes  31, 323-44.

Hales, L.S. (1989).  Age and grow!  Environmental Biology of Fishes  26, 153-58.

Harris, G.P., Griffiths, F.B., Clementson, L.A., Lyne, V. and Van der Doe, H. (1991).  Seasonal and interannual variability in physical processes, nutrient cycling and the structure of the food chain in Tasmanian shelf waters.  Journal of Plankton Research  13, 109-13.

Harris, G.P., Nilsson, C., Clementson, L. and Thomas, D. (1987).  The water masses of the east coast of Tasmania; seasonal and interannual variability and the influence of phytoplankton biomass and productivity.  Australian Journal of Marine and Freshwater Research  38, 569-90.

Haskard, K.A. (1992)  Simple and robust comparison of growth in different populations, using ANOVA. In 'The measurement of age and growth in fish and shellfish, Australian Society for Fish Biology Workshop, Lorne, Victoria, Australia'. (Ed. D.A. Hancock)  pp. 174-81 (Bureau of Rural Resources: Canberra.)

Hildebrand, S.F. and Cable, L.F. (1930).  Development and life history of fourteen teleostan fishes at Beaufort, North Carolina.  Bulletin of the Bureau of Fisheries, U.S.  46, 383-488.

Hixon, M.A. (1991).  Predation as a process structuring coral reef fish communities  In ‘The Ecology of Fishes on Coral Reefs.’  (Ed. P.F. Sale) pp. 475-500 (Academic Press: San Diego.)

Hobson, E.S. (1972).  Activity of Hawaiian reef fishes during the evening and morning transitions between daylight and darkness.  Fisheries Bulletin  70, 715-40.

Holbrook, S.J., Carr, M.H., Schmitt, R.J. and Coyer, J.A. (1990).  Effect of giant kelp on local abundance of reef fishes; the importance of ontogenetic resource requirements.  Bulletin of Marine Science  47, 104-14.

Holbrook, S.J., Kingsford, M.J., Schmitt, R.J. and Stephens, J.S. (1994).  Spatial and temporal patterns in assemblages of temperate reef fish.  American Zoologist  34, 463-75.

Holbrook, S.J. and Schmitt, R.J. (1986).  Food aquisition by competing surfperch on a patchy environmental gradient.  Environmental Biology of Fishes  16, 135-46.

Holbrook, S.J. and Schmitt, R.J. (1988a).  The combined effects of predation risk and food reward on patch selection.  Ecology  69, 125-34.

Holbrook, S.J. and Schmitt, R.J. (1988b).  Effects of predation risk on foraging behavior: mechanisms altering patch choice.  Journal of Experimental Marine Biology and Ecology  121, 151-63.

Holbrook, S.J. and Schmitt, R.J. (1989).  Resource overlap, prey dynamics, and the strength of competition.  Ecology  70, 1943-53.

Holbrook, S.J. and Schmitt, R.J. (1995).  Compensation in resource use by foragers released from interspecific competition.  Journal of Experimental Marine Biology and Ecology  185, 219-33.

Houde, E.D. (1987).  Fish early life dynamics and recruitment variability.  In '10th Annual Larval Fish Conference'  (Ed. R.D. Hoyt) pp 17-29 (American Fisheries Society: Bethesda.)  

Jearld, A. (1983).  Age determination  In ‘Fisheries Techniques.’  (Ed. L.A. Neilsen and D.C. Johnson) pp. 301-24 (American Fisheries Society: Bethesda.)

Joergensen, T. (1992).  Long-term changes in growth of north-east Arctic cod (Gadus morhau) and some environmental influence.  ICES Journal of Marine Science  49, 263-77.

Johannes, R.E. (1978).  Reproductive strategies of coastal marine fishes in the tropics.  Evironmental Biology of Fishes  3, 65-84.

Jones, G.P. (1980a).  Contribution to the biology of the half-banded sea perch, Ellerkeldia huntii (Hector), with a discussion on hermaphroditism.  Journal of Fish Biology  17, 197-207.

Jones, G.P. (1980b).  Growth and reproduction in the protogynous hermaphrodite Pseudolabrus celidotus (Pisces: Labridae) in New Zealand.  Copeia  1980, 660-75.

Jones, G.P. (1984).  The influence of habitat and behavioural interactions on the local distribution of the wrasse, Pseudolabrus celidotus.  Environmental Biology of Fishes  10, 43-58.

Jones, G.P. (1984a).  Population ecology of the temperate reef fish Pseudolabrus celidotus Block and Schneider (Pisces : Labridae). I. Factors influencing recruitment.  Journal of Experimental Marine Biology and Ecology  75, 257-76.

Jones, G.P. (1984b).  Population ecology of the temperate reef fish Pseudolabrus celidotus Block and Schneider (Pisces : Labridae). II. Factors influencing adult density.  Journal of Experimental Marine Biology and Ecology  75, 277-303.

Jones, G.P. (1986).  Food availability affects growth in a coral reef fish.  Oecologia  70, 136-39.

Jones, G.P. (1987a).  Competitive interactions among adults and juveniles in a coral reef fish.  Ecology  68, 1534-47.

Jones, G.P. (1987b).  Some interactions between residents and recruits in two coral reef fishes.  Journal of Experimental Marine Biology and Ecology  114, 169-82.

Jones, G.P. (1988).  Ecology of rocky reef fish of north-eastern New Zealand.  New Zealand Journal of Marine and Freshwater Research  22, 445-62.

Jones, G.P. (1988a).  Experimental evaluation of the effects of habitat structure and competitive interactions on the juveniles of two coral reef fishes.  Journal of Experimental Marine Biology and Ecology  123, 115-26.

Jones, G.P. (1990).  The importance of recruitment to the dynamics of a coral reef fish population.  Ecology  71, 1691-98.

Jones, G.P. (1991).  Postrecruitment processes in the ecology of coral reef fish populations: a multifactorial perspective  In ‘The Ecology of Fishes on Coral Reefs.’  (Ed. P.F. Sale) pp. 294-330 (Academic Press: San Diego.)

Kingsford, M.J. (1980).  'Interrelationships between spawning and recruitment of Chromis dispilus (Pisces: Pomacentridae).' M.Sc. Thesis (University of Auckland: Auckland.)

Kreuz, K.F., Tyler, A.V., Kruse, G.H., and Demory, R.L. (1982).  Variation in growth of Dover soles and English soles as related to upwelling.  Transactions of the American Fisheries Society  111, 180-92.

Larson, R.J. (1980).  Competition, habitat selection, and the bathymetric segregation of two rockfish (Sebastes) species.  Ecological Monographs  50, 221-39.

Last, P.R., Scott, E.O. and Talbot, F.H. (1983).  ‘Fishes of Tasmania.’ (Tasmanian Fisheries Development Authority: Hobart.)

Last, P. (1983).  Notes on the feeding ecology of four sympatric leatherjackets (Pisces: Monacanthidae) from Tasmania.  Tasmanian Fisheries Research  25, 17-25.

Leis, J.M. (1991).  The pelagic stage of reef fishes: the larval biology of coral reef fishes  In ‘The Ecology of Coral Reef Fishes.’  (Ed. P.F. Sale) pp. 183-230 (Academic Press: San Diego.)

Leum, L. and Choat, J.H. (1980).  Density and distribution patterns of the temperate marine fish Cheilodactylus spectabalis in a reef environment.  Marine Biology  57, 327-33.

Lincoln-Smith, M.P. and Jones, G.P. (1995).  Fishes of shallow coastal habitats  In ‘Coastal Marine Ecology of Temperate Australia.’  (Ed. A.J. Underwood and M.G. Chapman) pp. 240-53 (University of New South Wales Press: Sydney.)

Low, R.A. and Waltz, C.W. (1991).  Seasonal utilisation and movement of Black Sea Bass on a South Carolina artificial reef.  North American Journal of Fisheries Management  11, 131-38.

Low, R.M. (1971).  Interspecific territoriality in a pomacentrid reef fish, Pomacentris flavicaudata  Whitley.  Ecology  52, 648-54.

Maller, R.A. and DeBoer, E.S. (1988).  An analysis of two methods of fitting the von Bertalanffy curve to capture-recapture data.  Australian Journal of Marine and Freshwater Research  39, 459-66.

Marchand, J. (1991).  The influence of environmental conditions on settlement, distribution and growth of 0-group sole (Solea solea (L.)) in a macrotidal estuary (Vilaine, France).  Netherlands Journal of Sea Research  27, 307-16.

Matsuura, K. (1976).  Sexual dimorphism in a triggerfish, Balistipus undulatus.  Japanese Journal of Ichthyology  23, 171-74.

Matthews, K.R. (1990).  An experimental study of the habitat preferences and movement patterns of copper, quillback, and brown rockfishes (Sebastes spp.).  Environmental Biology of Fishes  29, 161-78.

McFarlane, G.A. and Beamish, R.J. (1990).  Effect of an external tag on growth of sablefish (Anoplopoma fimbria), and consequences to mortality and age at maturity.  Canadian Journal of Fisheries and Aquatic Science  47, 1551-57.

Meekan, M.G.,  Milicich, M. J. and J., Doherty, P. (1993).  Larval production drives temporal patterns of larval supply and recruitment of a coral reef damselfish.  Marine Ecology Progress Series  93, 217-25.

Meyer, K.A. (1977).  Reproductive behaviour and patterns of sexuality in the Japanese labrid fish Thalassoma cupido.  Japanese Journal of Icthyology  24, 101-12.

Milinski, M. and Heller, R. (1978).  Influence of a predator on the optimal foraging behaviour of sticklebacks (Gasterosteus aculeatus L.).  Nature  275, 642-44.

Mohr, C.O. (1947).  Table of equivalent populations of North American small mammals.  American Midland Naturalist  37, 223-49.

Moran, M.J. and Sale, P.F. (1977).  Seasonal variation in territorial response, and other aspects of the ecology of the Australian temperate pomacentrid fish Parma microlepis.  Marine Biology  39, 121-28.

Moulton, L.L. (1977).  'An ecological analysis of fish inhabiting the rocky nearshore regions of Puget Sound, Washington.' Ph.D. Thesis (University of Washington: Seattle)

Nakazono, A. and Kawase, H. (1993).  Spawning and biparental egg-care in a temperate filefish, Paramonacanthus japonicus (Monacanthidae).  Environmental Biology of Fishes  37, 245-56.

Norman, M.D. and Jones, G.P. (1984).  Determinants of territory size in the pomacentrid reef fish, Parma victoriae.  Oecologia  61, 60-69.

Ogden, J.C. and Buckman, N.S. (1973).  Movements, foraging groups, and diurnal migrations in the striped parrotfish Scarus croicensis  Bloch (Scaridae).  Ecology  54, 589-96.

Olla, B.L., Bejda, A.J. and Martin, A.D. (1979).  Seasonal dispersal and habitat selection of cunner, Tautogolabrus adspersus, and young tautog Tautoga onitis, in Fire Island Inlet, Long Island, New York.  Fisheries Bulletin  77, 255-61.

Parker, R.O. (1990).  Tagging studies and diver observations of fish populations on live-bottom reefs of the U.S. southeastern coast.  Bulletin of Marine Science  46, 749-60.

Peterman, R.M. and Bradford, M.J. (1987).  Density-dependant growth of age 1 English sole (Parophrys vetulus) in Oregon and Washington coastal waters.  Canadian Journal of Fisheries and Aquatic Sciences  44, 48-53.

Pitcher, C. (1992).  Growth of juvenile coral reef damselfish: spatial and temporal variability, and the effect of population density.  Australian Journal of Marine and Freshwater Research  43, 1129-49.

Planes, S., Levefre, A., Legendre, P. and Galzin, R. (1993).  Spatio-temporal variability in fish recruitment to a coral reef (Moorea, French Polynesia).  Coral Reefs  12, 105-13.
Polunin, N.V. and Roberts, C. (1995). 'Management of Reef Fisheries' (Chapman and Hall: London.)

Randall, J.E. (1962).  Tagging reef fishes in the Virgin islands.  Proceedings of the Annual Session - Gulf and Carribbean Fisheries Institute  14, 201-41.

Randall, J.E., Allen, G.R. and Steene, R.C. (1990).  ‘Fishes of the Great Barrier Reef and Coral Sea.’ (Crawford House Press: Bathurst, Australia.)

Reckseik, C.W., Appeldoorn, R.S. and Turingan, R.G. (1991).  Studies of fish traps as stock assessment devices on a snallow reef in south-western Puerto Rico.  Fisheries Research  10, 177-97.

Reese, E.S. (1973).  Duration of residence by coral reef fishes on &quot;home&quot; reefs.  Copeia  1973, 145-49.

Richardson, J. (1839).  Account of a collection of fishes from Port Arthur, Van Diemens Land.  Proceedings of the Zoological Society of London  7, 95-100.

Richardson, J. (1840).  On some new species of fishes from Australia.  Proceedings of the Zoological Society of London  8, 25-30.

Reinboth, R. (1980).  Can sex inversion be environmentally induced?  Biology of Reproduction  22, 49-59.

Ricker, W.E. (1975).  Computation and interpretation of biological statistics of fish populations.  Bulletin of the Fisheries Research Board of Canada  191, 1-382.

Rijnsdorp, A.D., Daan, H., van-Beek, F.A. and Heesen, H. (1991).  Reproductive variability in North Sea plaice, sole, and cod.  Journal du Conseil International pour l'Exploration de la Mer  47, 352-75.

Roberts, C.M. and Polunin, N.V. (1991).  Are marine reserves effective in management of reef fisheries?  Reviews in Fish Biology and Fisheries  1, 65-91.

Robertson, D.R. (1972).  Social control of sex reversal in a coral-reef fish.  Science  177, 1007-9.

Robertson, D.R. and Choat, J.H. (1974).  Protogynous hermaphrodism and social systems in labrid fishes.  Second International Conference on Coral Reefs  1, 217-25.

Robertson, D.R. and Sheldon, J.M. (1979).  Competative interactions and the availability of sleeping sites for a diurnal coral reef fish.  Journal of Experimental Marine Biology and Ecology  40, 285-98.

Ross, M.R. and Nelson, G.A. (1992).  Influences of stock abundance and bottom-water temperature on growth dynamics of haddock and yellowtail flounder on Georges Bank.  Transactions of the American Fisheries Society  121, 578-87.

Russ, G.R. (1991).  Coral reef fisheries: effects and yields  In ‘The Ecology of Fishes on Coral Reefs.’  (Ed. P.F. Sale) pp. 601-35 (Academic Press: San Diego.)

Russell, B.C. (1988).  Revision of the labrid fish genus Pseudolabrus and allied genera.  Records of the Australian Museum  9, 1-76.

Sainsbury, K.J. (1980).  Effect of individual variability on the von Bertalanffy growth equation.  Canadian Journal of Fisheries and Aquatic Science  37, 241-47.

Sale, P.F. (1971).  Extremely limited home range in a coral reef fish, Dascyllus auranus (Pisces: Pomacentridae).  Copeia  1971, 324-27.

Sale, P.F. (1974).  Mechanisms of co-existence in a guild of territorial fishes at Heron Island.  Proceedings of the Second International Coral Reef Symposium  1, 193-206.

Sale, P.F. (1975).  Patterns of use of space in a guild of territorial reef fishes.  Marine Biology  29, 89-97.

Sale, P.F. (1977).  Maintenance of high diversity in coral reef fish communities.  American Naturalist  111, 337-59.

Sale, P.F. (1978).  Reef fishes and other vertebrates: a comparison of social structures  In ‘Contrasts in behavior. Adaptations in the aquatic and terrestrial environments.’  (Ed. E.S. Reese and F.J. Lighter) pp. 313-46 (Wiley (Interscience): New York.)

Sale, P.F. (1978a).  Coexistence of coral reef fishes- a lottery for living space.  Environmental Biology of Fishes  3, 85-102.

Sale, P.F. (1980).  The ecology of fishes on coral reefs.  Annual Review of Oceanography and Marine Biology  18, 367-421.

Sale, P.F. (1991).  Introduction  In ‘The Ecology of Fishes on Coral Reefs.’  (Ed. P.F. Sale) pp. 3-15 (Academic Press: London.)

Sale, P.F., Doherty, P.J. and Douglas, W.A. (1980).  Juvenile recruitment strategies and the coexistence of territorial pomacentrid fishes.  Bulletin of Marine Science  30, 147-58.

Sale, P.F., Doherty, P.J., Eckert, G.J., Douglas, W.A. and Ferrell, D.J. (1984).  Large scale spatial and temporal variation in recruitment to fish populations on coral reefs.  Oecologica  64, 191-98.

Sale, P., Guy, J. and Steel, W. (1994).  Ecological structure of assemblages of coral reef fishes on isolated patch reefs.  Oecologica  98, 83-99.

Schaap, A. and Green, R. (1988).  Fish communities on reefs subjected to different levels of fishing pressure.  Tasmanian Department of Sea Fisheries Technical Report  31, 1-44.

Schmitt, R.J. and Holbrook, S.J. (1990).  Population responses of surfperch released from competition.  Ecology  71, 1653-65.

Shepherd, S.A. and Hobbs, L.J. (1985).  Age and growth of the blue-throated wrasse Pseudolabrus tetricus.  Transactions of the Royal Society of South Australia  109, 177-78.

Shulman, M.J. (1984).  Resource limitation and recruitment patterns in a coral reef fish assemblage.  Journal of Experimental Marine Biology and Ecology  74, 85-109.

Shulman, M.J. (1985).  Variability in recruitment of coral reef fishes.  Journal of Experimental Marine Biology and Ecology  89, 205-19.

Smith, B.D., McFarlane, G.A. and Saunders, M.W. (1990).  Variation in Pacific hake (Merluccius productus) summer length-at-age near southern Vancouver Island and its relationship to fishing and oceanography.  Canadian Journal of Fisheries and Aquatic Sciences  47, 2195-2111.

Stephens, J.S., Morris, P.A., Zerba, K. and Love, M. (1994).  Factors affecting fish diversity on a temperate reef; the assemblage of Palos Verdes Point, 1974-1981.  Environmental Biology of Fishes  11, 259-75.

Stephens, J.S. and Zerba, K.E. (1981).  Factors affecting fish diversity on a temperate reef.  Environmental Biology of Fishes  6, 111-21.

Thompson, R. and Munro, J.L. (1983).  The biology, ecology and biodynamics of the hinds and groupers, Serranidae.  ICLARM Studies and Reviews  7, 59-81.

Thompson, S. (1981).  ‘Fish of the Marine Reserve- A Guide to the Identification and Biology of Common Coastal Fish of North-Eastern New Zealand.’ (University of Auckland: Auckland.)

Thompson, S.M. and Jones, G.P. (1983).  Interspecific territoriality and competition for food between the reef fishes Fosterygion varium and Pseudolabrus celidotus.  Marine Biology  76, 95-104.

Thresher, R.E. (1979).  Social behaviour and ecology of two sympatric wrasses (Labridae: Halichoeres spp.) off the coast of Florida.  Marine Biology  53, 161-172.

Thresher, R.E. (1983).  Habitat effects on reproductive success in the coral reef fish Acanthochromis polyacanthus (Pomacentridae).  Ecology  64, 1184-99.

Thresher, R.E. (1984).  ‘Reproduction in Reef Fishes.’ (T.F.H. Publications: Hong Kong.)

Thresher, R.E. (1985).  Distribution, abundance, and reproductive success in the coral reef fish Acanthochromis Polyacanthus.  Ecology  66, 1139-50.

Thresher, R.E., Harris, G.P., Gunn, J.S. and Clementson, L.A. (1989).  Phytoplankton production pulses and episodic settlement of a temperate marine fish.  Nature  341, 641-43.

Victor, B.C. (1983).  Recruitment and population dynamics of a coral reef fish.  Science  219, 419-420.

Victor, B.C. (1986).  Larval settlement and juvenile mortality in a recruitment-limited coral reef fish population.  Ecological Monographs  56, 145-60.

Victor, B.C. and Brothers, E.B. (1982).  Age and growth of the fallfish Semotilius corporalis with daily otolith incriments as a method of annulus verification.  Canadian Journal of Zoology  60, 2543-50.

Wallis, O.L. (1971).  Establishing underwater parks worldwide.  Transactions of the Notrh American Wildlife and Natural Resources Conference 36, 97-115.

Warner, R. and Hughes, T. (1988).  The population dynamics of reef fishes.  Proceedings of the 6th International Coral Reef Symposium, Australia, 1988  1, 149-54.

Warner, R.R. and Robertson, D.R. (1978).  Sexual patterns in the labroid fishes of the Western Caribbean, I: The wrasses (Labridae).  Smithsonian Contributions to Zoology  254, 1-27.

Webb, R.O. and Kingsford, M.J. (1992).  Protogynous hermaphroditism in the half-banded sea perch, Hypoplectrodes macculochi (Serranidae).  Journal of Fish Biology  40, 951-61.

Welch, D.W. and McFarlane, G.A. (1990).  Quantifying the growth of female Pacific hake (Merluccinus productus): an example of measuring uncertainty and bias in non-linear paramater estimation.  Canadian Journal of Fisheries and Aquatic Sciences  47, 672-81.

Werner, E., Gilliam, J.F., Hall, D.J. and Mittelbach, G.G. (1983).  An experimental test of the effects of predation risk on habitat use in fish.  Ecology  64, 1540-48.

Williams, D.McB. (1980).  Dynamics of a pomacentrid community on small patch reefs in One Tree Lagoon (Great Barrier Reef).  Bulletin of Marine Science  30, 159-70.

Williams, D.McB., English, S. and Milicich, M.J. (1994).  Annual recruitment surveys of coral reef fishes are good indicators of patterns of settlement.  Bulletin of Marine Science  54, 314-31.

Williams, T. and Bedford, B.C. (1974).  The use of otoliths for age determination  In ‘The ageing of fish.’  (Ed. T.B. Bagenal) pp. 114-23 (Unwin Brothers: Wocking, England.)

Woodbury, D. and Ralston, S. (1991).  Interannual variation in growth rates and back-calculated birthdate distributions of pelagic juvenile rockfishes (Sebastes spp.) off the central California coast.  Fishery Bulletin, U.S.  89, 523-33.

Wooton, R.J. (1990).  ‘Ecology of Teleost Fishes.’ (Chapman and Hall: London.)
" name="eprints.referencetext" />
<meta content="Barrett, N.S. (1995) Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae). PhD thesis, University of Tasmania." name="eprints.citation" />
<meta content="http://eprints.utas.edu.au/1635/1/front-matter.pdf" name="eprints.document_url" />
<meta content="http://eprints.utas.edu.au/1635/2/Nevs_Thesis.pdf" name="eprints.document_url" />
<link rel="schema.DC" href="http://purl.org/DC/elements/1.0/" />
<meta content="Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae)." name="DC.title" />
<meta content="Barrett, N.S." name="DC.creator" />
<meta content="270702 Marine and Estuarine Ecology (incl. Marine Ichthyology)" name="DC.subject" />
<meta content="The currently most accepted population theory for reef fish was developed on tropical reefs and suggests that populations of most reef fish species are limited primarily by recruitment, with little post-recruitment resource limitation. I tested the validity of this theory for temperate reef fishes by examining growth rates in six common species from a number of isolated populations for evidence of resource limitation. If resources are limiting, spatial and temporal variation in recruitment and mortality should lead to isolated populations experiencing differing levels of resource availability, particularly food availability, which will be reflected in growth rates. I worked with six of the most common reef fishes found in Tasmanian waters so that any findings would form the basis of a broadly applicable model. These were Notolabrus tetricus, Notolabrus fucicola, Pictilabrus laticlavius, Pseudolabrus psittaculus, Penicipelta vittiger, and Meuschenia australis. 

Before examining growth rates it was first necessary to define the scale at which populations could be considered to be isolated. The short and long-term movement patterns of each species were studied using visual observations to interpret short-term patterns, and recaptures of tagged fish to interpret the long-term patterns.

Methods of ageing each species were developed and validated, with growth rates of tagged fish being used to validate the use of otoliths for ageing. General growth curves are presented.

For most of the species, there was some uncertainty in current texts about the sexual system used and the relationship between sex and dichromatism and dimorphism. To clarify this situation the reproductive biology of each species was examined. The relationship between sex and growth rate was also examined.

For two species (N. tetricus and N. fucicola) annual growth data from tagged fish were obtained over a 3-4 year period, allowing inter-annual growth variability to be examined. As well as providing an insight into the variability of growth with time, these results also aid in the interpretation of growth curves determined from otolith ageing.

In all species investigated, no significant differences in growth rates were detected between populations occupying similar habitats and subject to similar environmental conditions. These results suggest that post-recruitment resource limitation in the form of food limitation may not be an important factor influencing the post recruitment growth and survival of many temperate reef fishes with pelagic larval stages. This agrees with the assumptions made, but rarely tested, in current theories concerning the regulation of populations of reef fish, particularly those on temperate reefs. 
" name="DC.description" />
<meta content="1995-11" name="DC.date" />
<meta content="Thesis" name="DC.type" />
<meta content="NonPeerReviewed" name="DC.type" />
<meta content="application/pdf" name="DC.format" />
<meta content="http://eprints.utas.edu.au/1635/1/front-matter.pdf" name="DC.identifier" />
<meta content="application/pdf" name="DC.format" />
<meta content="http://eprints.utas.edu.au/1635/2/Nevs_Thesis.pdf" name="DC.identifier" />
<meta content="Barrett, N.S. (1995) Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae). PhD thesis, University of Tasmania." name="DC.identifier" />
<meta content="http://eprints.utas.edu.au/1635/" name="DC.relation" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/BibTeX/epprod-eprint-1635.bib" title="BibTeX" type="text/plain" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/ContextObject/epprod-eprint-1635.xml" title="OpenURL ContextObject" type="text/xml" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/ContextObject::Dissertation/epprod-eprint-1635.xml" title="OpenURL Dissertation" type="text/xml" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/ContextObject::Journal/epprod-eprint-1635.xml" title="OpenURL Journal" type="text/xml" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/DC/epprod-eprint-1635.txt" title="Dublin Core" type="text/plain" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/DIDL/epprod-eprint-1635.xml" title="DIDL" type="text/xml" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/EndNote/epprod-eprint-1635.enw" title="EndNote" type="text/plain" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/HTML/epprod-eprint-1635.html" title="HTML Citation" type="text/html; charset=utf-8" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/METS/epprod-eprint-1635.xml" title="METS" type="text/xml" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/MODS/epprod-eprint-1635.xml" title="MODS" type="text/xml" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/RIS/epprod-eprint-1635.ris" title="Reference Manager" type="text/plain" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/Refer/epprod-eprint-1635.refer" title="Refer" type="text/plain" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/Simple/epprod-eprint-1635text" title="Simple Metadata" type="text/plain" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/Text/epprod-eprint-1635.txt" title="ASCII Citation" type="text/plain; charset=utf-8" />
<link rel="alternate" href="http://eprints.utas.edu.au/cgi/export/1635/XML/epprod-eprint-1635.xml" title="EP3 XML" type="text/xml" />

  </head>
  <body bgcolor="#ffffff" text="#000000" onLoad="loadRoutine(); MM_preloadImages('images/eprints/ePrints_banner_r5_c5_f2.gif','images/eprints/ePrints_banner_r5_c7_f2.gif','images/eprints/ePrints_banner_r5_c8_f2.gif','images/eprints/ePrints_banner_r5_c9_f2.gif','images/eprints/ePrints_banner_r5_c10_f2.gif','images/eprints/ePrints_banner_r5_c11_f2.gif','images/eprints/ePrints_banner_r6_c4_f2.gif')">
    
    <div class="ep_noprint"><noscript><style type="text/css">@import url(http://eprints.utas.edu.au/style/nojs.css);</style></noscript></div>




<table width="795" border="0" cellspacing="0" cellpadding="0">
  <tr>
    <td><script language="JavaScript1.2">mmLoadMenus();</script>
      <table border="0" cellpadding="0" cellspacing="0" width="795">
        <!-- fwtable fwsrc="eprints_banner_final2.png" fwbase="ePrints_banner.gif" fwstyle="Dreamweaver" fwdocid = "1249563342" fwnested="0" -->
        <tr>
          <td><img src="/images/eprints/spacer.gif" width="32" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="104" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="44" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="105" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="41" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="16" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="68" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="68" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="68" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="82" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="69" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="98" height="1" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="1" border="0" alt="" /></td>
        </tr>
        <tr>
          <td colspan="12"><img name="ePrints_banner_r1_c1" src="/images/eprints/ePrints_banner_r1_c1.gif" width="795" height="10" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="10" border="0" alt="" /></td>
        </tr>
        <tr>
          <td rowspan="6"><img name="ePrints_banner_r2_c1" src="/images/eprints/ePrints_banner_r2_c1.gif" width="32" height="118" border="0" alt="" /></td>
          <td rowspan="5"><a href="http://www.utas.edu.au/"><img name="ePrints_banner_r2_c2" src="/images/eprints/ePrints_banner_r2_c2.gif" width="104" height="103" border="0" alt="" /></a></td>
          <td colspan="10"><img name="ePrints_banner_r2_c3" src="/images/eprints/ePrints_banner_r2_c3.gif" width="659" height="41" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="41" border="0" alt="" /></td>
        </tr>
        <tr>
          <td colspan="3"><a href="http://eprints.utas.edu.au/"><img name="ePrints_banner_r3_c3" src="/images/eprints/ePrints_banner_r3_c3.gif" width="190" height="31" border="0" alt="" /></a></td>
          <td rowspan="2" colspan="7"><img name="ePrints_banner_r3_c6" src="/images/eprints/ePrints_banner_r3_c6.gif" width="469" height="37" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="31" border="0" alt="" /></td>
        </tr>
        <tr>
          <td colspan="3"><img name="ePrints_banner_r4_c3" src="/images/eprints/ePrints_banner_r4_c3.gif" width="190" height="6" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="6" border="0" alt="" /></td>
        </tr>
        <tr>
          <td colspan="2"><img name="ePrints_banner_r5_c3" src="/images/eprints/ePrints_banner_r5_c3.gif" width="149" height="1" border="0" alt="" /></td>
          <td rowspan="2" colspan="2"><a href="/information.html" onMouseOut="MM_swapImgRestore();MM_startTimeout()" onMouseOver="MM_showMenu(window.mm_menu_0821132634_0,0,25,null,'ePrints_banner_r5_c5');MM_swapImage('ePrints_banner_r5_c5','','/images/eprints/ePrints_banner_r5_c5_f2.gif',1);"><img name="ePrints_banner_r5_c5" src="/images/eprints/ePrints_banner_r5_c5.gif" width="57" height="25" border="0" alt="About" /></a></td>
          <td rowspan="2"><a href="/view/" onMouseOut="MM_swapImgRestore();MM_startTimeout()" onMouseOver="MM_showMenu(window.mm_menu_0821133021_1,0,25,null,'ePrints_banner_r5_c7');MM_swapImage('ePrints_banner_r5_c7','','/images/eprints/ePrints_banner_r5_c7_f2.gif',1);"><img name="ePrints_banner_r5_c7" src="/images/eprints/ePrints_banner_r5_c7.gif" width="68" height="25" border="0" alt="Browse" /></a></td>
          <td rowspan="2"><a href="/perl/search/simple" onMouseOut="MM_swapImgRestore();MM_startTimeout()" onMouseOver="MM_showMenu(window.mm_menu_0821133201_2,0,25,null,'ePrints_banner_r5_c8');MM_swapImage('ePrints_banner_r5_c8','','/images/eprints/ePrints_banner_r5_c8_f2.gif',1);"><img name="ePrints_banner_r5_c8" src="/images/eprints/ePrints_banner_r5_c8.gif" width="68" height="25" border="0" alt="Search" /></a></td>
          <td rowspan="2"><a href="/perl/register" onMouseOut="MM_swapImgRestore();MM_startTimeout();" onMouseOver="MM_showMenu(window.mm_menu_1018171924_3,0,25,null,'ePrints_banner_r5_c9');MM_swapImage('ePrints_banner_r5_c9','','/images/eprints/ePrints_banner_r5_c9_f2.gif',1);"><img name="ePrints_banner_r5_c9" src="/images/eprints/ePrints_banner_r5_c9.gif" width="68" height="25" border="0" alt="register" /></a></td>
          <td rowspan="2"><a href="/perl/users/home" onMouseOut="MM_swapImgRestore();MM_startTimeout()" onMouseOver="MM_showMenu(window.mm_menu_0821133422_4,0,25,null,'ePrints_banner_r5_c10');MM_swapImage('ePrints_banner_r5_c10','','/images/eprints/ePrints_banner_r5_c10_f2.gif',1);"><img name="ePrints_banner_r5_c10" src="/images/eprints/ePrints_banner_r5_c10.gif" width="82" height="25" border="0" alt="user area" /></a></td>
          <td rowspan="2"><a href="/help/" onMouseOut="MM_swapImgRestore();MM_startTimeout()" onMouseOver="MM_showMenu(window.mm_menu_0821133514_5,0,25,null,'ePrints_banner_r5_c11');MM_swapImage('ePrints_banner_r5_c11','','/images/eprints/ePrints_banner_r5_c11_f2.gif',1);"><img name="ePrints_banner_r5_c11" src="/images/eprints/ePrints_banner_r5_c11.gif" width="69" height="25" border="0" alt="Help" /></a></td>
          <td rowspan="3" colspan="4"><img name="ePrints_banner_r5_c12" src="/images/eprints/ePrints_banner_r5_c12.gif" width="98" height="40" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="1" border="0" alt="" /></td>
        </tr>
        <tr>
          <td rowspan="2"><img name="ePrints_banner_r6_c3" src="/images/eprints/ePrints_banner_r6_c3.gif" width="44" height="39" border="0" alt="ePrints home" /></td>
          <td><a href="/" onMouseOut="MM_swapImgRestore()" onMouseOver="MM_swapImage('ePrints_banner_r6_c4','','/images/eprints/ePrints_banner_r6_c4_f2.gif',1);"><img name="ePrints_banner_r6_c4" src="/images/eprints/ePrints_banner_r6_c4.gif" width="105" height="24" border="0" alt="ePrints home" /></a></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="24" border="0" alt="" /></td>
        </tr>
        <tr>
          <td><img name="ePrints_banner_r7_c2" src="/images/eprints/ePrints_banner_r7_c2.gif" width="104" height="15" border="0" alt="" /></td>
          <td colspan="8"><img name="ePrints_banner_r7_c4" src="/images/eprints/ePrints_banner_r7_c4.gif" width="517" height="15" border="0" alt="" /></td>
          <td><img src="/images/eprints/spacer.gif" width="1" height="15" border="0" alt="" /></td>
        </tr>
      </table></td>
  </tr>
    <tr><td><table width="100%" style="font-size: 90%; border: solid 1px #ccc; padding: 3px"><tr>
      <td align="left"><a href="http://eprints.utas.edu.au/cgi/users/home">Login</a> | <a href="http://eprints.utas.edu.au/cgi/register">Create Account</a></td>
      <td align="right" style="white-space: nowrap">
        <form method="get" accept-charset="utf-8" action="http://eprints.utas.edu.au/cgi/search" style="display:inline">
          <input class="ep_tm_searchbarbox" size="20" type="text" name="q" />
          <input class="ep_tm_searchbarbutton" value="Search" type="submit" name="_action_search" />
          <input type="hidden" name="_order" value="bytitle" />
          <input type="hidden" name="basic_srchtype" value="ALL" />
          <input type="hidden" name="_satisfyall" value="ALL" />
        </form>
      </td>
    </tr></table></td></tr>
  <tr>
    <td class="toplinks"><!-- InstanceBeginEditable name="content" -->


<div align="center">
  
  <table width="720" class="ep_tm_main"><tr><td align="left">
    <h1 class="ep_tm_pagetitle">Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae).</h1>
    <p style="margin-bottom: 1em" class="not_ep_block"><span class="person_name">Barrett, N.S.</span> (1995) <xhtml:em>Aspects of the biology and ecology of six temperate reef fishes (families: Labridae and Monacanthidae).</xhtml:em> PhD thesis, University of Tasmania.</p><p style="margin-bottom: 1em" class="not_ep_block"></p><table style="margin-bottom: 1em" class="not_ep_block"><tr><td valign="top" style="text-align:center"><a onmouseover="EPJS_ShowPreview( event, 'doc_preview_2109' );" href="http://eprints.utas.edu.au/1635/1/front-matter.pdf" onmouseout="EPJS_HidePreview( event, 'doc_preview_2109' );"><img alt="[img]" src="http://eprints.utas.edu.au/style/images/fileicons/application_pdf.png" class="ep_doc_icon" border="0" /></a><div class="ep_preview" id="doc_preview_2109"><table><tr><td><img alt="" src="http://eprints.utas.edu.au/1635/thumbnails/1/preview.png" class="ep_preview_image" border="0" /><div class="ep_preview_title">Preview</div></td></tr></table></div></td><td valign="top"><a href="http://eprints.utas.edu.au/1635/1/front-matter.pdf"><span class="ep_document_citation">PDF (Front Matter)</span></a> - Requires a PDF viewer<br />24Kb</td></tr><tr><td valign="top" style="text-align:center"><a onmouseover="EPJS_ShowPreview( event, 'doc_preview_2110' );" href="http://eprints.utas.edu.au/1635/2/Nevs_Thesis.pdf" onmouseout="EPJS_HidePreview( event, 'doc_preview_2110' );"><img alt="[img]" src="http://eprints.utas.edu.au/style/images/fileicons/application_pdf.png" class="ep_doc_icon" border="0" /></a><div class="ep_preview" id="doc_preview_2110"><table><tr><td><img alt="" src="http://eprints.utas.edu.au/1635/thumbnails/2/preview.png" class="ep_preview_image" border="0" /><div class="ep_preview_title">Preview</div></td></tr></table></div></td><td valign="top"><a href="http://eprints.utas.edu.au/1635/2/Nevs_Thesis.pdf"><span class="ep_document_citation">PDF (Whole Thesis)</span></a> - Requires a PDF viewer<br />2696Kb</td></tr></table><div class="not_ep_block"><h2>Abstract</h2><p style="padding-bottom: 16px; text-align: left; margin: 1em auto 0em auto">The currently most accepted population theory for reef fish was developed on tropical reefs and suggests that populations of most reef fish species are limited primarily by recruitment, with little post-recruitment resource limitation. I tested the validity of this theory for temperate reef fishes by examining growth rates in six common species from a number of isolated populations for evidence of resource limitation. If resources are limiting, spatial and temporal variation in recruitment and mortality should lead to isolated populations experiencing differing levels of resource availability, particularly food availability, which will be reflected in growth rates. I worked with six of the most common reef fishes found in Tasmanian waters so that any findings would form the basis of a broadly applicable model. These were Notolabrus tetricus, Notolabrus fucicola, Pictilabrus laticlavius, Pseudolabrus psittaculus, Penicipelta vittiger, and Meuschenia australis. 

Before examining growth rates it was first necessary to define the scale at which populations could be considered to be isolated. The short and long-term movement patterns of each species were studied using visual observations to interpret short-term patterns, and recaptures of tagged fish to interpret the long-term patterns.

Methods of ageing each species were developed and validated, with growth rates of tagged fish being used to validate the use of otoliths for ageing. General growth curves are presented.

For most of the species, there was some uncertainty in current texts about the sexual system used and the relationship between sex and dichromatism and dimorphism. To clarify this situation the reproductive biology of each species was examined. The relationship between sex and growth rate was also examined.

For two species (N. tetricus and N. fucicola) annual growth data from tagged fish were obtained over a 3-4 year period, allowing inter-annual growth variability to be examined. As well as providing an insight into the variability of growth with time, these results also aid in the interpretation of growth curves determined from otolith ageing.

In all species investigated, no significant differences in growth rates were detected between populations occupying similar habitats and subject to similar environmental conditions. These results suggest that post-recruitment resource limitation in the form of food limitation may not be an important factor influencing the post recruitment growth and survival of many temperate reef fishes with pelagic larval stages. This agrees with the assumptions made, but rarely tested, in current theories concerning the regulation of populations of reef fish, particularly those on temperate reefs. 
</p></div><table style="margin-bottom: 1em" cellpadding="3" class="not_ep_block" border="0"><tr><th valign="top" class="ep_row">Item Type:</th><td valign="top" class="ep_row">Thesis (PhD)</td></tr><tr><th valign="top" class="ep_row">Keywords:</th><td valign="top" class="ep_row">Labridae, Maonacanthidae, Tasmanian reef fish, reproductive biology, recruitment and movement, growth patterns</td></tr><tr><th valign="top" class="ep_row">Subjects:</th><td valign="top" class="ep_row"><a href="http://eprints.utas.edu.au/view/subjects/270702.html">270000 Biological Sciences &gt; 270700 Ecology and Evolution &gt; 270702 Marine and Estuarine Ecology (incl. Marine Ichthyology)</a></td></tr><tr><th valign="top" class="ep_row">ID Code:</th><td valign="top" class="ep_row">1635</td></tr><tr><th valign="top" class="ep_row">Deposited By:</th><td valign="top" class="ep_row"><span class="ep_name_citation"><span class="person_name">Miss Arianna Polacheck</span></span></td></tr><tr><th valign="top" class="ep_row">Deposited On:</th><td valign="top" class="ep_row">10 Sep 2007</td></tr><tr><th valign="top" class="ep_row">Last Modified:</th><td valign="top" class="ep_row">09 Jan 2008 02:30</td></tr><tr><th valign="top" class="ep_row">ePrint Statistics:</th><td valign="top" class="ep_row"><a target="ePrintStats" href="/es/index.php?action=show_detail_eprint;id=1635;">View statistics for this ePrint</a></td></tr></table><p align="right">Repository Staff Only: <a href="http://eprints.utas.edu.au/cgi/users/home?screen=EPrint::View&amp;eprintid=1635">item control page</a></p>
  </td></tr></table>
</div>



    <!-- InstanceEndEditable --></td>
  </tr>
  <tr>
    <td><!-- #BeginLibraryItem "/Library/footer_eprints.lbi" -->
    <table width="795" border="0" align="left" cellpadding="0" class="footer">
  <tr valign="top">
<td colspan="2"><div align="center"><a href="http://www.utas.edu.au">UTAS home</a> | <a href="http://www.utas.edu.au/library/">Library home</a> | <a href="/">ePrints home</a> | <a href="/contact.html">contact</a> | <a href="/information.html">about</a> | <a href="/view/">browse</a> | <a href="/perl/search/simple">search</a> | <a href="/perl/register">register</a> | <a href="/perl/users/home">user area</a> | <a href="/help/">help</a></div><br /></td>
</tr>
<tr><td colspan="2"><p><img src="/images/eprints/footerline.gif" width="100%" height="4" /></p></td></tr>
      <tr valign="top">
        <td width="68%" class="footer">Authorised by the University Librarian<br />
© University of Tasmania ABN 30 764 374 782<br />
      <a href="http://www.utas.edu.au/cricos/">CRICOS Provider Code 00586B</a> | <a href="http://www.utas.edu.au/copyright/copyright_disclaimers.html">Copyright &amp; Disclaimers</a> | <a href="http://www.utas.edu.au/accessibility/index.html">Accessibility</a> | <a href="http://eprints.utas.edu.au/feedback/">Site Feedback</a>  </td>
        <td width="32%"><div align="right">
            <p align="right" class="NoPrint"><a href="http://www.utas.edu.au/"><img src="http://www.utas.edu.au/shared/logos/unioftasstrip.gif" alt="University of Tasmania Home Page" width="260" height="16" border="0" align="right" /></a></p>
            <p align="right" class="NoPrint"><a href="http://www.utas.edu.au/"><br />
            </a></p>
        </div></td>
      </tr>
      <tr valign="top">
        <td><p>  </p></td>
        <td><div align="right"><span class="NoPrint"><a href="http://www.eprints.org/software/"><img src="/images/eprintslogo.gif" alt="ePrints logo" width="77" height="29" border="0" align="bottom" /></a></span></div></td>
      </tr>
    </table>
    <!-- #EndLibraryItem -->
    <div align="center"></div></td>
  </tr>
</table>

  </body>
</html>