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REVIEW

Pasture and grazing land: assessment of sustainability using invertebrate bioindicators

K. L. King A B and K. J. Hutchinson A
+ Author Affiliations
- Author Affiliations

A School of Rural Science and Agriculture, University of New England, Armidale, NSW 2351, Australia.

B Corresponding author. Email: kking8@une.edu.au

Australian Journal of Experimental Agriculture 47(4) 392-403 https://doi.org/10.1071/EA05270
Submitted: 11 October 2005  Accepted: 18 September 2006   Published: 9 March 2007

Abstract

Impacts of practices frequently used to manage Australian pastures are reviewed with the aim of determining which groups are responsive to changes in grazing regime, fertiliser use, pasture types, tree clearing, pesticide use, liming and irrigation. Invertebrate groups sensitive to pasture management regimes may be potential candidates for use as bioindicators of ecological sustainability of these pasture types. This review concentrates on the more intensively utilised temperate pastures of southern Australia, as very little work has been done on the impact of the grazing animal and pasture management on invertebrate fauna on the extensive rangelands of the arid and semiarid zones. Background to the relative importance of invertebrates in the functioning of the pasture ecosystem is given. This has culminated in the construction of food webs for two temperate perennial pastures (an unfertilised, native and a fertilised, sown pasture) at Armidale, NSW, for which there is comprehensive data available. Invertebrate bioindicators of pasture sustainability emerged from the consideration of grazing lands and invertebrate responses. Currently, only four groups would seem to be likely candidates as bioindicators of sustainability of pastures. These are soil nematodes, earthworms, protozoa and Collembola. The main difficulty in monitoring these groups is that it requires specialist expertise, and services provided by commercial laboratories for routine biological soil tests are still in their infancy. There are gaps in our knowledge of how invertebrate fauna react to the pressing issues of soil acidity and salinity.


References


Anderson JR (1978) Some methods for assessing pesticide effects on non-target soil microorganisms and their activities. In ‘Pesticide microbiology. Microbial aspects of pesticide behaviour in the environment’. (Eds IR Hill, SJL Wright) pp. 247–312. (Academic Press: London)

Baker G (1992) Optimising earthworm activity in soils. In ‘Proceedings of the 33rd annual conference of the Grassland Society of Victoria’. (Ed. G James) pp. 59–66. (Grassland Society of Victoria: Parkville)

Baker GH (1998) The ecology, management and benefits of earthworms in agricultural soils, with particular reference to southern Australia. In ‘Earthworm ecology’. (Ed. CA Edwards) pp. 229–257. (St Lucie Press: Boca Raton, FL)

Baker G, Chan KY (2002) Response of earthworms to top-dressed lime in pastures. In ‘Acid soil action. Research report 2002.’ (Ed. G Fenton) pp. 21–23. (NSW Agriculture: Wagga Wagga, NSW)

Baker G, Kilpin G (1992) ‘Earthworms downunder.’ (CSIRO Division of Entomology and CRC for Soil and Land Management: Canberra)

Baker G, Buckerfield J, Grey-Gardner R, Merry R, Doube B (1992) The abundance and diversity of the earthworms in pasture soils in the Fleurieu Peninsula, South Australia. Soil Biology & Biochemistry 24, 1389–1395.
Crossref | GoogleScholarGoogle Scholar | open url image1

Baker GH, Barrett VJ, Williams PML, Carter PJ, Buckerfield JC (1993) Distribution and abundance of earthworms in south-eastern Australia and their influence on the burial of lime. In ‘Pest control and sustainable agriculture’. (Eds SA Corey, DJ Dall, WM Milne) pp. 345–348. (CSIRO Publishing: Melbourne)

Baker GH, Carter PJ, Barrett VJ, Kilpin GP, Buckerfield JC, Dalby PR (1994) The introduction and management of earthworms to improve soil structure and fertility in south-eastern Australia. In ‘Soil biota. Management in sustainable farming systems’. (Eds CE Pankhurst, BM Doube, VVSR Gupta, PR Grace) pp. 42–49. (CSIRO Publishing: Melbourne)

Baker GH, Barrett VJ, Carter PJ, Buckerfield JC, Williams PML, Kilpin GP (1995) Abundance of earthworms in soils for cereal production in south-eastern Australia and their role in reducing soil acidity. In ‘Plant soil interactions at low pH: principles and management’. (Eds RA Date, NJ Grundon, GE Rayment, ME Probert) pp. 213–218. (Kluwer Academic Publishers: Dordrecht, The Netherlands)

Bardgett RD, Chan KF (1999) Experimental evidence that soil fauna enhance nutrient mineralisation and plant nutrient uptake in montane grassland ecosystems. Soil Biology & Biochemistry 31, 1007–1014.
Crossref | GoogleScholarGoogle Scholar | open url image1

Blume RR, Younger RL, Aga A, Myers AJ (1976) Effects of residues of certain anthelmintics in bovine manure on Onthophagus gazella, a non-target organism. The Southwestern Entomologist 2, 100–103. open url image1

Bromham L, Cardillo M, Bennett AF, Elgar MA (1999) Effects of stock grazing on the ground invertebrate fauna of woodland remnants. Australian Journal of Ecology 24, 199–207.
Crossref | GoogleScholarGoogle Scholar | open url image1

Buckerfield JC, Auhl LH (1994) Earthworms as indicators of sustainable production in intensive cereal cropping. In ‘Soil biota. Management in sustainable farming systems’. (Eds CE Pankhurst, BM Doube, VVSR Gupta, PR Grace) pp. 169–172. (CSIRO Publishing: Melbourne)

Bünemann EK, Schwenke GD, van Zwieten L (2006) Impact of agricultural inputs on soil organisms – a review. Australian Journal of Soil Research 44, 379–406.
Crossref | GoogleScholarGoogle Scholar | open url image1

Clarholm M (1985) Interactions of bacteria, protozoa and plants leading to mineralization of soil nitrogen. Soil Biology & Biochemistry 17, 181–187.
Crossref | GoogleScholarGoogle Scholar | open url image1

Chilcott C (2000) The initial impacts of reforestation and deforestation on herbaceous species, litter decomposition, soil biota and nutrients in native temperate pastures on the Northern Tablelands, NSW. PhD Thesis, University of New England, Armidale, Australia.

Cresswell H, English P (2003) What are the management strategies for preventing dryland salinity? Summary of the current state of the sciences. In ‘Proceedings of the first joint conference of the Grassland Society of Victoria and the Grassland Society of NSW, Albury, NSW’. (Ed. L Jacobsen) pp. 39–45. (Grasslands Society of Victoria: Mornington)

Curry JP, Momen FM (1988) The arthropod fauna of grassland on reclaimed cutaway peat in Central Ireland. Pedobiologia 32, 99–109. open url image1

Doherty WM, Stewart NP, Cobb RM, Keiran PJ (1994) In-vitro comparison of the larvicidal activity of moxidectin and abamectin against Onthophagus gazella (F.) (Coleoptera: Scarabaeidae) and Haematobia irritans exigua De Meijere (Diptera: Muscidae). Journal of the Australian Entomological Society 33, 71–74. open url image1

Dombos M (2001) Collembola of loess grassland: effects of grazing and landscape on community composition. Soil Biology & Biochemistry 33, 2037–2045.
Crossref | GoogleScholarGoogle Scholar | open url image1

Edwards CA, Lofty JR (1975) The invertebrate fauna of the Park Grass plots I. Soil fauna. In ‘Rothamsted Experimental Station Report for 1974 Part 2’. pp. 133–154.

Elliott ET (1994) The potential use of soil biotic activity as an indicator of productivity, sustainability and pollution. In ‘Soil biota. Management in sustainable farming systems’. (Eds CE Pankhurst, BM Doube, VVSR Gupta, PR Grace) pp. 250–256. (CSIRO Publishing: Melbourne)

Ettema CH, Lowrance R, Coleman DC (1999) Riparian soil response to surface nitrogen input: indicator potential of free-living soil nematode populations. Soil Biology & Biochemistry 31, 1625–1638.
Crossref | GoogleScholarGoogle Scholar | open url image1

Foissner W (1999) Soil protozoa as bioindicators: pros and cons, methods, diversity, representative examples. Agriculture Ecosystems & Environment 74, 95–112.
Crossref | GoogleScholarGoogle Scholar | open url image1

Greenslade P (1997) Are collembola useful as indicators of the conservation value of native grasslands? Pedobiologia 41, 215–220. open url image1

Greenslade P, Mott JJ (1982) Collembola and other soil and surface fauna of native and improved pastures at Katherine, Northern Territory. In ‘Proceedings 3rd Australasian conference on grassland invertebrate ecology, Adelaide’. (Ed. KE Lee) pp. 299–307. (SA Government Printer: Adelaide)

Greenwood KL, MacLeod DA, Hutchinson KJ (1997) Long-term stocking rate effects on soil physical properties. Australian Journal of Experimental Agriculture 37, 413–419.
Crossref | GoogleScholarGoogle Scholar | open url image1

Harlen RL (1999) Changes in the epigeic community following livestock removal from remnant woodland. PhD Thesis, University of New England, Armidale, Australia.

Hendrix PF, Parmelee RW, Crossley DA, Coleman DC, Odum EP, Groffman PM (1986) Detritus food webs in conventional and no-tillage agroecosystems. Bioscience 36, 374–380.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hilder EJ (1964) The distribution of plant nutrients by sheep at pasture. In ‘Proceedings of the 5th Australian Society for Animal Production’. pp. 241–248. (Australian Society of Animal Production: Sydney)

Holt JA, McIvor JG (1994) Effects of grazing pressure on soil microbial biomass and enzyme activity in semiarid north-eastern Australia. In ‘Soil biota. Management in sustainable farming systems’. (Eds CE Pankhurst, BM Doube, VVSR Gupta, PR Grace) pp. 161–162. (CSIRO Publishing: Melbourne)

Hunt HW, Coleman DC, Ingham ER, Ingham RE, Elliott ET, Moore JC, Ross SL, Reid CPP, Morley CR (1987) The detrital food-web in a short-grass prairie. Biology and Fertility of Soils 3, 57–68.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hutchinson KJ, King KL (1980) The effects of sheep stocking level on invertebrate abundance, biomass and energy utilization in a temperate, sown grassland. Journal of Applied Ecology 17, 369–387.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hutchinson KJ, King KL (1982) Microbial respiration in a temperate sown grassland grazed by sheep. Journal of Applied Ecology 19, 821–833.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hutchinson KJ, King KL (1989) Volume and activity of micro-organisms in litter from native and sown temperate pasture species. Australian Journal of Ecology 14, 157–167.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hutchinson KJ, King KL, Hilder J, Duncan M (2002) Management, biological processes and soil profile acidification in northern temperate pastures. In ‘Acid soil action research report 2002’. (Ed. G Fenton) pp. 66–74. (NSW Agriculture: Wagga Wagga, NSW)

James CD, Landsberg J, Morton SR (1999) Provision of watering points in the Australian arid zone: a review of effects on biota. Journal of Arid Environments 41, 87–121.
Crossref | GoogleScholarGoogle Scholar | open url image1

King KL (1989) The role of microarthropods in decomposition and nutrient cycling in temperate pastures. PhD Thesis, University of New England, Armidale, Australia.

King KL (1993) The potential for avermectins to affect the nutrient economy of grazed pastures. Veterinary Parasitology 48, 261–271.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

King KL (1996) Grassland soil biology and soil health. In ‘Proceedings of the 37th annual conference of the Grassland Society of Victoria’. (Ed. L Warne) pp. 18–25. (Grassland Society of Victoria: Mornington)

King KL (1998) Impact of ivermectin on nutrient cycling in pastures. In ‘XX World buiatrics congress, Sydney’. (Eds IW Caple, KL Macmillan, J Malmo, GE Niethe, JJ Vermunt, J Winterbottom) pp. 457–461. (The Australian Association of Cattle Veterinarians: Indooroopilly, Qld)

King KL, Hutchinson KJ (1976) The effects of sheep stocking intensity on the abundance and distribution of mesofauna in pastures. Journal of Applied Ecology 13, 41–55.
Crossref | GoogleScholarGoogle Scholar | open url image1

King KL, Hutchinson KJ (1983) The effects of sheep grazing on invertebrate numbers and biomass in unfertilised natural pastures of the New England Tablelands (NSW). Australian Journal of Ecology 8, 245–255. open url image1

King KL, Hutchinson KJ (1989) Soil acidity and microarthropods. In ‘Biological processes and the fertility of temperate and mediterranean pastures. Proceedings of a workshop at ‘Chiswick’, CSIRO Division of Animal Production, Armidale, NSW’. (Ed. KJ Hutchinson) p. 107. (Australian Wool Corporation: Melbourne)

King KL, Hutchinson KJ (1992) Microarthropods and nutrient transfer from pasture litter. In ‘Proceedings of the 6th Australian agronomy conference’. (Eds KJ Hutchinson, PJ Vickery) pp. 362–365. (The Australian Society of Agronomy: Parkville)

King KL, Hutchinson KJ, Greenslade P (1976) The effects of sheep numbers on associations of Collembola in sown pastures. Journal of Applied Ecology 13, 731–739.
Crossref | GoogleScholarGoogle Scholar | open url image1

King KL, Greenslade P, Hutchinson KJ (1985) Collembolan associations in natural versus improved pastures of the New England Tableland, NSW: distribution of native and introduced species. Australian Journal of Ecology 10, 421–427.
Crossref | GoogleScholarGoogle Scholar | open url image1

King W, Michalk D, Dowling P, Kemp D, Sanford P (2003) Sustainable grazing systems: experimental results and the implications for temperate-zone grazing enterprises. In ‘Proceedings of the joint conference of the Grassland Society of Victoria and the Grassland Society of NSW’. (Ed. L Jacobsen) pp. 27–30. (Grassland Society of Victoria: Mornington)

Larsen T, Schjønning P, Axelsen J (2004) The impact of soil compaction on euedaphic Collembola. Applied Soil Ecology 26, 273–281.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lee KE (1985) ‘Earthworms. Their ecology and relationships with soils and land use.’ (Academic Press Australia: Sydney)

Lobry de Bruyn LA, Kingston TJ (1997) Effects of summer irrigation and trampling in diary pastures on soil physical properties and earthworm number and species composition. Australian Journal of Agricultural Research 48, 1059–1079.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lockwood PV, Wilson BR, Daniel H, Jones MJ (2003) Soil acidification and natural resource management. Directions for the future. Report for the Acid Soil Action Program. NSW Agriculture.

Lumaret J-P (1986) Toxicité de certains helminthicides vis-à-vis des insectes coprophages et conséquences sur la disparition des excréments de la surface du sol. Acta Oecologica/Oecologia Applicata 7, 313–324. open url image1

Madsen M, Gronvold J, Nansen P, Holter P (1988) Effects of treatment of cattle with some anthelmintics on the subsequent degradation of their dung. Acta Veterinaria Scandinavica 29, 515–517.
PubMed |
open url image1

Madsen M, Overgaard Nielsen B, Holter P, Pedersen J, Brochner Jespersen J, Vagn Jensen K-M, Nansen P, Gronvold J (1990) Treating cattle with ivermectin: effects on the fauna and decomposition of their dung pats. Journal of Applied Ecology 27, 1–15.
Crossref | GoogleScholarGoogle Scholar | open url image1

Mahon RJ, Wardhaugh KG, van Gerwen ACM, Whitby WA (1993) Reproductive development and survival of Lucilia cuprina Wiedemann when fed sheep dung containing ivermectin. Veterinary Parasitology 48, 193–204.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

McKenzie NL, Burbidge AH, Rolfe JK (2003) Effect of salinity on small, ground-dwelling animals in the Western Australian wheatbelt. Australian Journal of Botany 51, 725–740.
Crossref | GoogleScholarGoogle Scholar | open url image1

Moore RM (1970) South-eastern temperate woodlands and grasslands. In ‘Australian grasslands’. (Ed. RM Moore) pp. 169–190. (Australian National University Press: Canberra)

Neher DA (2001) Role of nematodes in soil health and their use as indicators. Journal of Nematology 33, 161–168. open url image1

Nkem JN (2002) Evaluation of soil health indicators under a land use intensification gradient on vertosols in the Liverpool Plains catchment, NSW, Australia. PhD Thesis, University of New England, Armidale, Australia.

Nombela G, Navas A, Bello A (1999) Nematodes as bioindicators of dry pasture recovery after temporary rye cultivation. Soil Biology & Biochemistry 31, 535–541.
Crossref | GoogleScholarGoogle Scholar | open url image1

Oliver I, Haller B, Garden D, Rodgers D, Greenslade P, Johnston B (2003) ‘Biodiversity conservation in grasslands under variable nutrient input.’ (NSW Government: Sydney)

Onishi JC, Miller TW (1985) The lack of antifungal activity by Avermectin B 1a. Journal of Antibiotics 38, 1568–1572.
PubMed |
open url image1

Paoletti MG (1999) The role of earthworms for assessment of sustainability and as bioindicators. Agriculture Ecosystems & Environment 74, 137–155.
Crossref | GoogleScholarGoogle Scholar | open url image1

Ponge JF, Gillet S, Dubs F, Fedoroff E, Haese L, Sousa JP, Lavelle P (2003) Collembola communities as bioindicators of land use intensification. Soil Biology & Biochemistry 35, 813–826.
Crossref | GoogleScholarGoogle Scholar | open url image1

Prasse J (1975) The effect of herbicides 2,4-D and simazin on the coenosis of Collembola and Acari in arable soil. In ‘Progress in soil zoology. Proceedings of the 5th international colloquium on soil zoology, Prague’. (Ed. J Vanek) pp. 469–480. (Dr W Junk: The Hague, The Netherlands)

Radford BJ, Wilson-Rummenie AC, Simpson GB, Bell KL, Ferguson MA (2001) Compacted soil affects soil macrofauna populations in a semiarid environment in central Queensland. Soil Biology & Biochemistry 33, 1869–1872.
Crossref | GoogleScholarGoogle Scholar | open url image1

Reid AM (2004) Effect of fertiliser and grazing on grassland invertebrates. PhD Thesis, The University of Sydney, Australia.

Sarathchandra SU, Ghani A, Yeates GW, Burch G, Cox NR (2001) Effect of nitrogen and phosphate fertilisers on microbial and nematode diversity in pasture soils. Soil Biology & Biochemistry 33, 953–964.
Crossref | GoogleScholarGoogle Scholar | open url image1

Schloter M, Dilly O, Munch JC (2003) Indicators for evaluating soil quality. Agriculture Ecosystems & Environment 98, 255–262.
Crossref | GoogleScholarGoogle Scholar | open url image1

Shah Z, Adams WA, Haven CD (1990) Composition and activity of the microbial population in an acidic upland soil and effects of liming. Soil Biology & Biochemistry 22, 257–263.
Crossref | GoogleScholarGoogle Scholar | open url image1

Stoneham G, Eigenraam M, Ridley A, Barr N (2003) The application of sustainability concepts to Australian agriculture: an overview. Australian Journal of Experimental Agriculture 43, 195–203.
Crossref | GoogleScholarGoogle Scholar | open url image1

Strong L (1992) Avermectins: a review of their impact on insects of cattle dung. Bulletin of Entomological Research 82, 265–274. open url image1

Urquhart RL (2003) The effects of three herbicides on soil microarthropods – a field study. BRuSc (Honours) Thesis, University of New England, Armidale, Australia.

van Vliet PCJ, Gupta VVSR, Abbott LK (2000) Soil biota and crop residue decomposition during summer and autumn in south-western Australia. Applied Soil Ecology 14, 111–124.
Crossref | GoogleScholarGoogle Scholar | open url image1

Wardhaugh KG, Mahon RJ, Axelsen A, Rowland MW, Wanjura W (1993) Effects of ivermectin residues in sheep dung on the development and survival of the bushfly, Musca vetustissima Walker and a scarabaeine dung beetle, Euoniticellus fulvus Goeze. Veterinary Parasitology 48, 139–157.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Whalley RDB, Robinson GG, Taylor JA (1976) General effects of management and grazing by domestic livestock on the rangelands of the northern tablelands of New South Wales. Australian Rangelands Journal 1, 174–190.
Crossref | GoogleScholarGoogle Scholar | open url image1

Williams CH (1980) Soil acidification under clover pasture. Australian Journal of Experimental Agriculture and Animal Husbandry 20, 561–567.
Crossref | GoogleScholarGoogle Scholar | open url image1

Yeates GW (2003) Nematodes as soil indicators: functional and biodiversity aspects. Biology and Fertility of Soils 37, 199–210. open url image1

Yeates GW, Bongers T (1999) Nematode diversity in agroecosystems. Agriculture Ecosystems & Environment 74, 113–135.
Crossref | GoogleScholarGoogle Scholar | open url image1

Yeates GW, King KL (1997) Soil nematodes as indicators of the effect of management on grasslands in the New England Tablelands (NSW): comparison of native and improved grasslands. Pedobiologia 41, 526–536. open url image1

Yeates GW, Wardle DA, Watson RN (1999) Responses of soil nematode populations, community structure and temporal variability to agricultural intensification over a seven-year period. Soil Biology & Biochemistry 31, 1721–1733.
Crossref | GoogleScholarGoogle Scholar | open url image1