Abstract
Macroinvertebrates were sampled from forty-seven sites on upland soft water streams in eastern Ireland. Classification generated four recognisable faunal communities or site groups which differed in biological, physical and chemical character; these patterns were supported by ordination analyses. The environmental gradients which probably influenced water quality were broadly categorised into geology, distance from source or elevation and forestry. Faunal diversity and abundance were reduced in both high altitude and extensively afforested sites compared to moorland sites. Whereas, Plecoptera dominated the fauna at most sites, many taxonomic groups such as the Ephemeroptera and members of the family Elmidae were absent from high altitude and forested areas. The impact of afforestation was most evident at those sites which were located in forest plantations or were on catchments with extensive (>25%) closed canopy (>12 yr) afforestation. Low levels (<25%) of forestry in the absence of acid waters did not lead to impoverishment. This work reveals how plantation forestry in areas receiving only moderately polluted rain can be linked with acid waters and impoverished invertebrate communities.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adamson, J. K., M. Hornung, V. H. Kennedy, D. A. Norris, I. S. Paterson & P. A. Stevens, 1993. Soil solution chemistry and throughfall under adjacent stands of Japanese larch and Sitka spruce at three contrasting locations in Britain. Forestry 66 (1): 51–68.
Allard, M. & G. Moreau, 1987. Effects of experimental acidification on a lotic macroinvertebrate community. Hydrobiologia 144: 37– 49.
Benecke, P. 1988. Processes of acidification in soil and groundwater. In Effects of Land Use in Catchments on the Acidity and Ecology of Natural Surface Waters. Air Poll. Res. Rep. 13: 39–55.
Bretschko, G., 1991. The limnology of a low order alpine gravel stream Ritrodat — Lunz study area, Austria. Vehr. int. Ver. Limnol. 24: 1908–1912.
Brooker, M. P. & D. L. Morris, 1980. A survey of the macroinvertebrate riffle fauna of the river Wye. Freshwat. Biol. 10: 437–458.
Burns, J. C., J. S. Coy, D. J. Tervet, R. Harriman, B. R. S. Morrison & C. P. Quine, 1984. The Loch Dee project: A study of the ecological effects of acid precipitation and forest management on an upland catchment in south-west Scotland. 1. Preliminary investigations. Fish. Manage. 15: 145–167.
Chappell, N. A., J. L. Ternan, A. G. Williams & B. Reynolds, 1990. Preliminary analysis of water and solute movement beneath a coniferous hillslope inmid-Wales, UK. J. Hydrol. 116: 201–215.
Clesceri, N. L. & C. Vasudevan, 1980. Acid precipitation, throughfall chemistry and canopy processes. In Proceedings of the International Conference on the Ecological Impact of Acid Precipitation SNSF Project, Oslo, Norway: 258–259.
Corkum, L. D., 1989. Patterns of benthic invertebrate assemblages in rivers of northwestern North America. Freshwat. Biol. 21: 191–205.
Cronan, C. S. & C. L. Schofield, 1979. Aluminium leaching response to acid precipitation: Effects on high-elevation watersheds in the Northeast. Science 204: 304–305.
Diamond, M., D. H. Crawshaw, R. F. Prigg & D. Cragg-Hine, 1987. Streamwater chemistry and its influence on the distribution and abundance of aquatic invertebrates and fish in upland streams in North West England. In R. Perry, R. M. Harrison, J. N. B. Bell & J. N. Lester (eds), Acid Rain: Scientific and Technical Advances. Selper Ltd, London: 481–486.
Driscoll, C. T., 1980. Aqueous speciation of aluminium in the Adirondack region of New York State, USA. In Proceedings of the International Conference on the Ecological Impact of Acid Percipitation SNSF Project, Oslo, Norway: 214–215.
Driscoll Jr, C. T., J. P. Baker, J. J. Bisogni & C. L. Schofield, 1980. Effects of aluminium speciation on fish in dilute acidified waters. Nature 284: 161–164.
Engblom, E. & P. Lingdell, 1984. The mapping of short-term acidification with the help of biological pH indicators. Institute of Freshwater Research, Drottingholm Report 61: 60–68.
Fiance, S. B., 1978. Effects of pH on the biology and distribution of Ephemerella funeralis Ephemeroptera. Oikos 31: 332–339.
Friberg, F., C. Otto & B. S. Svensson, 1980. Effects of acidification on the dynamics of allochthonous leaf material and benthic invertebrate communities in running water. In Proceedings of the International Conference on the Ecological Impact of Acid Precipitation SNSF Project, Oslo, Norway: 304–305.
Gauch Jr, H. G., 1982. Multivariate Analysis in Community Ecology. Cambridge Unversity Press, Cambridge, 294 pp.
Gledhill, T., 1959. The life history of Ameletus inopinatus Siphlonuridae, Ephemeroptera. Hydrobiologia 14: 85–90.
Grieve, I. C., 1990. Effects of catchment liming and afforestation on the concentration and fractional composition of aluminium in the Loch Fleet catchment, SW Scotland. J. Hydrobiol. 115: 1–4, 385–396.
Haines, T. A., 1981. Acidic precipitation and its consequences for aquatic ecosytems: A review. Trans. am. Fish. Soc. 110: 669– 707.
Hall, R. J., G. E. Likens, S. B. Fiance & G. R. Hendrey, 1980. Experimental acidification of a stream in the Hubbard Brook experimental forest, New Hampshire. Ecology 61: 976–989.
Harriman, R. & B. R. S. Morrison, 1980. Ecology of acid streams draining forested and non-forested catchments in Scotland. In Proceedings of the International Conference on the Ecological Impact of Acid Precipitation SNSF Project, Oslo, Norway: 312–313.
Harriman, R. & B. R. S. Morrison, 1982. Ecology of streams draining forested and non-forested in an area of central Scotland subject to acid precipitation. Hydrobiologia 88: 251–263.
Hill, M. O., 1979. TWINSPAN — A FORTRAN program for arranging multivariate data in an ordered two-way table by classification of the individuals and attributes. Section of Ecology and Systematics, Cornell University, Ithaca, New York 14850.
Hornung, M., P. A. Stevens & B. Reynolds, 1986. The effect of forestry on soils, soil water, and surface water chemistry. In J. E. Good (ed.) Environmental Aspects of Plantation Forestry in Wales: 25–37.
Hornung, M., S. Le-Grice, N. Brown & D. Norris, 1990. The role of geology and soils in controlling surface water acidity in Wales. In R. W. Edwards, A. S. Gee & J. H. Stoner (eds), Acid Waters in Wales. Kluwer Academic Publishers, Dordrecht: 55–66.
Kelly-Quinn, M., D. Tierney, C. Coyle & J. J. Bracken, 1996. Factors affecting the susceptibility of Irish soft-water streams to forested-mediated acidfication. Fish. mgmt. Ecol. 3: 287–301.
Kresier, A. M., P. G. Appleby, J. Natkanski, B. Rippey & R. W. Battarbee, 1990. Afforestation and lake acidification: A comparison of four sites in Scotland. Phil. Trans. r. Soc., Lond. B 327: 377–383.
Marchant, R., L. Metzeling, A. Graesser & P. Suter, 1985. The organisation of macroinvertebrate communities in the LaTrobe river, Victoria, Australia. Freshwat. Biol. 15: 315–331.
Mason, Sir J., 1990. The rationale, design and management of the surface water acidification programme. In B. J. Mason. (ed.), The Surface Water Acidification Programme. Cambridge University Press: 1–8.
Miller, J. D., H. A. Anderson, J. M. Cooper, R. C. Ferrier & M. Stewart, 1991. Evidence for enhanced atmospheric sulphate interception by Sitka spruce from evaluation of some Scottish catchment study data. Sci. tot. Environ. 103: 37–46.
Minshall, G. W., 1969. The Plecoptera of a headwater stream Gaitscale Gill, English Lake District. Arch. Hydrobiol. 65: 495–514.
Minshall, G. W. & R. A. Kuehne, 1969. An ecological study of the invertebrates of the Duddon, an English mountain stream. Arch. Hydrobiol. 66: 169–191.
Minshall, G. W. & J. N. Minshall, 1978. Further evidence on the role of chemical factors in determining the distribution of benthic invertebrates in the River Duddon. Arch. Hydrobiol. 83: 324– 355.
Neal, C., B. Reynolds, C. J. Smith, S. Hill, M. Neal, T. Conway, G. P. Ryland, H. Jeffrey, A. J. Robson & R. Fisher, 1992. The impact of conifer harvesting on stream water pH, alkalinity and aluminium concentrations for the British Uplands: An example for an acidic and acid sensitive catchment in mid-Wales. Sci. Tot. Environ. 26: 75–87.
Ormerod, S. J., P. Boole, C. P. McCahon, N. S., Weatherley, D. Pascoe & R. W. Edwards, 1987. Short-term experimental acidification of a Welsh stream: comparing the biological effects of hydrogen ions and aluminium. Freshwat. Biol. 17: 341–356.
Ormerod, S. J. & A. S. Gee, 1990. Chemical and ecological evidence on the acidification of Welsh lakes and rivers. In R. W. Edwards, A. S. Gee & J. H. Stoner (eds), Acid Waters in Wales. Kluwer Academic Publishers, Dordrecht: 11–25.
Ormerod, S. J. & K. R. Wade, 1990. The role of acidity in the ecology of Welsh lakes and streams. In R. W. Edwards, A. S. Gee & J. H. Stoner (eds), Acid Waters in Wales. Kluwer Academic Publishers, Dordrecht: 93–119.
Ormerod, S. J., S. D. Rundle & E. C. Lloyd, 1992. Assessing the effect of riparian management on the habitat structure and macroinvertebrates of forest streams. Aspects Appl. Biol. 29: 97–104.
Otto, C. & B. S. Svensson, 1983. Properties of acid brown water streams in South Sweden. Arch. Hydrobiol. 99: 15–36.
Otto, C., 1985. Prey site and predation as factors governing the distribution of lotic polycentropodid caddis fly larvae. Oikos 44: 439–447.
Overrein, L. N., 1976. General introduction and synthesis. In F. H. Braekke (ed.), Impact of Acid Precipitation on Forest and Freshwater Ecosystems in Norway: 9–12.
Palmer, M. W., 1993. Putting things in even better order: The advantages of Canonical Correspondence Analysis. Ecology 74: 2215–2230.
Peterson, R. H. & L. Van Eeckhaute, 1992. Distributions of Ephemeroptera, Plecoptera and Trichoptera of three maritime catchments differing in pH. Freshwat. Biol. 27: 65–78.
Rosemond, A. D., S. E. Reice, J. W. Elwood & P. J. Mulholland, 1992. The effects of stream acidity on benthic invertebrate communities in the south-eastern United States. Freshwat. Biol. 27: 193–209.
Rosenberg, D. M. & V. H. Resh, 1993. Freshwater biological monitoring and benthic macroinvertebrates. Chapman and Hall Publishers, New York, London, 488 pp.
Rutt, G. P., N. S. Weatherley & S. J. Ormerod, 1990. Relationships between the physicochemistry and macroinvertebrates of British upland streams: the development of modelling and indicator systems for predicting fauna and detecting acidity. Freshwat. Biol. 24: 463–480.
Schofield, K., C. R. Townsend & A. G. Hildrew, 1988. Predation and the prey community of a headwater stream. Freshwat. Biol. 20: 85–95.
Simpson, K.W., R.W. Bode & J. R. Colquhoun, 1985. Themacroinvertebrate fauna of an acid-stressed headwater stream system in the Adirondack Mountains, New York. Freshwat. Biol. 15: 671–680.
Smith, M. E., B. J. Wyskowski, C. M. Brook, C. T. Driscoll & C. C. Cosentini, 1990. Relationships between acidity and benthic invertebrates of low-order woodland streams in the Adirondack Mountains, New York. Can. J. Fish aquat. Sci. 47: 1318–1329.
Stoner, J. H., A. S. Gee & K. R. Wade, 1984. The effects of acidifi-cation on the ecology of streams in the upper Tywi catchment in west Wales. Envir. Pollut. series A 35: 125–157.
Sutcliffe, D.W. & T. R. Carrick, 1973. Studies on mountain streams in the English Lake District. I. pH, calcium and the distribution of invertebrates in the river Duddon. Freshwat. Biol. 3: 437–462.
Sutcliffe, D. W. & A. G. Hildrew, 1989. Invertebrate communities in acid streams. In R. Morris, E.W. Taylor, D. J. A. Brown and J. A. Brown (eds), Acid Toxicity and Aquatic Animals. Society for Experimental Biology Seminar Series 34, Cambridge University Press: 13–30.
Tamm, C. O. & L. Hallbäcken, 1988. Changes in soil acidity in two forest areas with different acid deposition: 1920s to 1980s. Ambio 17: 56–61.
Ter Braak, C. J. F., 1986. Canonical correspondence analysis: A new eigenvector technique for mulitvariate direct gradient analysis. Ecology 67: 1167–1179.
Ter Braak, C. J. F., 1987. The analysis of vegetation-environmental relationships by canonical correspondence analysis. Vegetatio 69: 69–77.
Ter Braak, C. J. F., 1991. Program CANOCO Version 3.12, April 1991. Copyright (C) 1988—1991 Agricultural Mathematics Group, DLO Box 100, 6700 AC Wageningen, the Netherlands. CANOCO is an extension of Cornell Ecology program DECORANA Hill, 1979.
Townsend, C. R., A. G. Hildrew & J. Francis, 1983. Community structure in some southern English streams: the influence of physicochemical factors. Freshwat. Biol. 13: 521–544.
Turnpenny, A. W. H., K. Sadler, R. J. Aston, A. G. R. Milner & S. Lynam, 1987. The fish populations of some streams inWales and Northern England in relation to acidity and associated factors. J. Fish Biol. 31: 415–453.
Weatherley, N. S. & S. J. Ormerod, 1989. Modelling ecological impacts of the acidification of Welsh streams: temporal changes in the occurrence of macroflora and macroinvertebrates. Hydrobiologia 185: 163–174.
Weatherley, N. S., S. J. Ormerod, S. P. Thomas & R. W. Edwards, 1988. The response of macroinvertebrates to experimental episodes of low pH with different forms of aluminium, during a natural spate. Hydrobiologia 169: 225–232.
Wells, D. E. & R. Harriman, 1987. Acidification studies in Scottish catchments: The effects of deposition, catchment type and runoff. In R. Perry, R. M. Harrison, J. N. B. Bell & J. N. Lester (eds), Acid Rain: Scientific and Technical Advances. Selper Ltd, London: 293–300.
Willoughby, L. G. & R. G. Mappin, 1988. The distribution of Ephemerella ignita Ephemeroptera in streams: The role of pH and food resource. Freshwat. Biol. 19: 145–155.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Tierney, D., Kelly-Quinn, M. & Bracken, J. The faunal communities of upland streams in the eastern region of Ireland with reference to afforestation impacts. Hydrobiologia 389, 115–130 (1998). https://doi.org/10.1023/A:1003510016292
Issue Date:
DOI: https://doi.org/10.1023/A:1003510016292