Abstract
Recently, Australian interest in farm dams has focused on rates of harvest of surface waters (runoff), and the impact this has on nearby natural systems. Little research has been directed towards the role of these artificial water bodies in sustaining biological reserves within the wider ecosystem. Macroinvertebrate communities in three farm dams in the Central Tablelands of New South Wales were surveyed, and water quality variables were correlated with species richness and abundance. Community responses to habitat factors including sediment depth, stock use, vegetation and debris were also examined. Communities were described at several taxonomic levels in addition to allocation to trophic groups and primary functional feeding groups.
Species richness and abundance of communities were found to vary between dams and between habitat types within dams. The extent of these differences was decreased when communities were described by either trophic status or functional feeding mechanisms. Habitats were influenced by water quality and by physical features of the habitat, with the two factors interacting to define equilibrium conditions. Localised conditions resulted in different macroinvertebrate communities. Physicochemical parameters that correlated most closely with communities included light penetration, chlorophyll-a and conductivity. Habitat factors that were most frequently linked with communities were sediment depth and canopy cover, with localised disturbances related to stock use affecting feeding groups rather than specific taxa.
One of the major problems associated with increasing modification of landscapes by agriculture or urbanisation is the fragmentation of undisturbed habitats. Creation of joint aquatic and woodland habitats enhances biodiversity corridors. The recognition of the potential for farm dams as reservoirs of biodiversity and development of management practices that optimise this neglected biodiversity reserve may have much wider benefits biologically, aesthetically and productively.
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References
Barlow, C. G. and Bock, K.: 1981, Fish for Farm Dams: Final Report, NSW Fisheries, Sydney.
Bennison, G. L., Hillman, T. J. and Suter, P. J.: 1989, Macroinvertebrates of the River Murray (Survey and Monitoring: 1980–1985), Murray Darling Basin Commission, Water Quality Report No. 3.
Blanchard, P. E. and Lerch, R. N.: 2000, ‘Watershed vulnerability to losses of agricultural chemicals: Interactions of chemistry, hydrology and land-use’, Envir. Sci. Tech. 34, 3315–3322.
Boulton, A. J.: 2003, ‘Parallels and contrasts in the effects of drought on stream macroinvertebrate assemblages’, Freshwat. Biol. 48, 1173–1185.
Brainwood, M. A.: 2002, An Exploration of Ecosystem Processes in Three Sympatrically Located Farm Dams near Raglan, New South Wales, M.Sc.(hons) thesis, University of Western Sydney, Richmond.
Brainwood, M. A., Burgin, S. and Maheshwari, B.: 2004, ‘Temporal variations in water quality of farm dams: Impacts of land use and water sources’, Ag. Wat. Man. 70, 151–175.
Cairns, J. Jr, (ed): 1982, Artificial Substrates, Ann Arbor, Michigan.
Chessman, B. C.: 1995, ‘Rapid assessment of rivers using macroinvertebrates: A procedure based on habitat specific sampling, family level identification and a biotic index’, Aust. J. Ecol. 20, 122–129.
Chessman, B. C.: 1999, ‘Predicting the macroinvertebrate faunas of rivers by multiple regression of biological and environmental differences’, Freshwat. Biol. 41, 747–757.
Clarke, K. R. and Gorley, R. N.: 2001, PRIMER v5: User Manual/Tutorial, PRIMER-E, Plymouth, UK.
Clarke, K. R. and Warwick, R. M.: 2001, Change in Marine Communities: An Approach to Statistical Analysis and Interpretation, 2nd ed., PRIMER-E, Plymouth, UK.
Coler, R. A. and Rockwood, J. P.: 1989, Water Pollution Biology: A Laboratory/Field Handbook, Technomic Publishing, Pennsylvania.
Collier, K. J., Wilcock, R. J. and Meredith, A. S.: 1998, ‘Influence of substrate type and physicochemical conditions on macroinvertebrate faunas and biotic indices of some lowland Waikato, New Zealand, streams’, N. Z. J. Mar. Freshwat. Res. 32, 1–19.
Cover, E. C. and Harrel, R. C.: 1978, ‘Sequences of colonisation, diversity, biomass and productivity of macroinvertebrates on artificial substrates in a freshwater canal’, Hydrobiologia. 59, 81–95.
Covich, A. P., Crowl, T. A. and Scatena, F. N.: 2003, ‘Effects of extreme low flows on freshwater shrimps in a perennial tropical stream’, Freshwat. Biol. 48, 1199–1206.
CSIRO Division of Entomology: 1991, The Insects of Australia, 2nd ed., Melbourne University Press.
De Szalay, F. A. and Resh, V. H.: 2000, ‘Factors influencing macroinvertebrate colonisation of seasonal wetlands: Responses to emergent plant cover’, Freshwat. Biol. 45, 295–308.
Ferrier, R. C., Edwards, A. C., Hirst, D., Littlewood, I. G., Watts, C. D. and Morris, R.: 2001, ‘Water quality of Scottish rivers: Spatial and temporal trends’, Sci. Tot. Envir. 265, 327–342.
Gayraud, S., Statzner, B., Bady, P., Haybachp, A., Scholl, F., Usseglio-Polatera, P. and Bacchi, M.: 2003, ‘Invertebrate traits for the biomonitoring of large European rivers: An initial assessment of alternative metrics’, Freshwat. Biol. 48, 2045–2064.
Goss, M. J., Unc, A. and Chen, S.: 2000, ‘Transport of nitrogen, phosphorus and microorganisms from manure into surface- and groundwater’, in: E. Balazs, E. Galante, J. M. Lynch, J. S. Schepers, J. P. Toutant, D. Werner and P. A. T. Werry (eds.), Biological Resource Management: Connecting Science and Policy, Springer, Berlin, pp. 31–55.
Halse, S. A., Shiel, R. J. and Williams, W. D.: 1998, ‘Aquatic invertebrates of Lake Gregory, northwestern Australia, in relation to salinity and ionic composition’, Hydrobiologia. 381, 15–29.
Hancock, M. A., Timms, B. V., Morton, J. K., Renshaw, B. A.: 2000, ‘The structure of the littoral invertebrate communities of the Kosciuszko Region lakes’, Proc. Linn. Soc. N.S.W. 122, 69-77.
Hart, B. T.: 1974, ‘A Compilation of Australian Water Quality Criteria’, Australian Water Resources Council Technical Paper No. 7, Australian Government Publishing Services, Canberra.
Hawking, J. H. and Smith, F. J.: 1997, Colour Guide to Invertebrates of Australian Inland Waters, Cooperative Research Centre for Freshwater Ecology, Identification Guide No. 8, Albury, Australia.
Hazell, D., Cunningham, R., Lindenmayer, D., Mackey, B. and Osborne, W.: 2001, ‘Use of farm dams as a frog habitat in an Australian agricultural landscape: Factors affecting species richness and distribution’, Biol. Cons. 102, 155–169.
Heino, J.: 2000, ‘Lentic macroinvertebrate assemblage structure along gradients in spatial heterogeneity, habitat size and water chemistry’, Hydrobiologia. 418, 229–242.
Hogg, I. D. and Norris, R. H.: 1991, ‘Effects of runoff from land clearing and urban development on the distribution and abundance of macroinvertebrates in pool areas of a river’, Aust. J. mar. Freshwat. Res. 42, 507–518.
Hosomi, M. and Sudo, R.: 1986, ‘Simultaneous determination of total nitrogen and total phosphorus in freshwater samples using Persulfate digestion’, Int. J. Envir. Stud. 27, 267–275.
James, M. R., Weatherhead, M., Stanger, C. and Graynoth, E.: 1998, ‘Macroinvertebrate distribution in the littoral zone of Lake Coleridge, South Island, New Zealand – effects of habitat stability, wind exposure, and macrophytes’, N. Z. J. Mar. Freshw. Res. 32, 287–305.
Kovac, M. and Lawrie, J. W.: 1990, ‘Soil Landscapes of the Bathurst, 1:250 000 Sheet’, Soil Conservation Service of NSW, Sydney.
Lake, P. S.: 2003, ‘Ecological effects of perturbation by drought in flowing waters’, Freshwat. Biol. 48, 1161–1172.
Lampert, W. and Sommers, U.: 1997, Limnoecology: The Ecology of Lakes and Streams, Oxford University Press, UK.
Letcher, R. A., Schreider, S. Y., Jakeman, T., Neal, B. P. and Nathan, R. J.: 2002, ‘Methods for the analysis of trends in streamflow response due to changes in catchment condition’, Envrionmetrics 12, 613–630.
McMahon, T. A. and Finlayson, B. L.: 2003, ‘Droughts and anti-droughts: the low-flow hydrology of Australian rivers’, Freshwat. Biol. 48, 1147–1160.
Marchant, R.: 1986a, ‘Some quantitative aspects of the life history of aquatic insects in temperate Australian rivers’, in: P. De Deckker and W. D. Williams (eds), Limnology in Australia, CSIRO, Australia and W. Junk, The Netherlands, pp. 151–158.
Marchant, R.: 1986b, ‘A subsampler for samples of benthic invertebrates’, Bull. Aust. Soc. Limnol. 12, 49–52.
Marchant, R.: 1999, ‘How important are rare species in aquatic community ecology and bioassessment? A comment on the conclusions of Cao et al.’, Limnol. Oceanogr. 44, 1840–1841.
Palomaki, R.: 1994, ‘Response by macrozoobenthos biomass to water level regulation in some Finnish lake littoral zones’, Hydrobiologia 286, 17–26.
Specht, R. L.: 1970, ‘Vegetation’, in: G. W. Leper (ed), The Australian Environment, 4th ed., CSIRO and Melbourne University Press, Melbourne, pp. 44–67.
Sponseller, R. A., Benfield, E. F. and Valett, H. M.: 2001, ‘Relationships between land use, spatial scale and stream macroinvertebrate communities’, Freshwat. Biol. 46, 1409–1424.
Statzner, B., Bis, B., Doledec, S. and Usseglio-Polatera, P.: 2001, ‘Perspectives for biomonitoring at large spatial scales: A unified measure for the functional composition of invertebrate communities in European running waters’, Bas. Appl. Ecol. 2, 73–85.
Stevens, M. H. H. and Cummins, K. W.: 1999, ‘Effects of long-term disturbance on riparian vegetation and in-stream characteristics’, J. Freshwat. Ecol. 14, 1–17.
Timms, B. V.: 1980, ‘Farm dams’, in: W. D. Williams (ed), An Ecological Basis for Water Resource Management, A.N.U. Press, Canberra, Australlia.
Trueman, J. W. H., Lee, W., Bugledich, E. M., Reid, I. A., McKie, B. G. L. and Cranston, P. S.: 1996, Key to Australian Aquatic Invertebrates, CD-ROM, CSIRO Division of Entomology, CSIRO Australia.
US Environmental Protection Agency: 1976, Methods for Chemical Analysis of Water and Wastes, USEPA Technology Transfer, Washington.
Vollenweider, R. A. (ed): 1974, ‘A manual on methods for measuring primary production in aquatic environments’, IBP Handbook No. 12, Blackwell Scientific, London.
Walsh, C. J., Sharpe, A. K., Breen, P. F. and Sonneman, J. A.: 2001, ‘Effects of urbanisation on streams of the Melbourne region, Victoria, Australia. I. Benthic macroinvertebrate communities’, Freshwat. Biol. 46, 535–551.
Wetzel, R. G.: 1983, Limnology, 2nd ed., Saunders College Publishing, Philadelphia.
Wetzel, R. G.: 1999, ‘Plants and water in and adjacent to lakes’, in: A. J. Baird and R. L. Wilby (eds.), Eco-Hydrology: Plants and Water in Terrestrial and Aquatic Environments, Routledge, London, UK, pp. 269–299.
Wiederholm, T.: 1984, ‘Responses of aquatic insects to environmental pollution’, in: V. H. Resh and R. M. Rosenberg (eds.), Ecology of Aquatic Insects, Praeger, New York, pp. 508–557.
Williams, W. D.: 1980, Australian Freshwater Life – the Invertebrates of Australian Inland Waters, Macmillan, Melbourne.
Winterbourn, M. J.: 1981, ‘The use of aquatic invertebrates in studies of stream water quality’, ‘A review of some biological methods for the assessment of water quality with special reference to New Zealand, Part 2’. Water and Soil Technical Publication 22, 5–16.
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Brainwood, M., Burgin, S. An exploration of the relationships betweenmacroinvertebrate community composition and physical andchemical habitat characteristics in farm dams. Environ Monit Assess 119, 459–480 (2006). https://doi.org/10.1007/s10661-005-9037-0
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DOI: https://doi.org/10.1007/s10661-005-9037-0