Herbivores can have a wide range of effects on terrestrial ecosystems. Some of these effects are direct, such as the removal and consumption of herbage—which can vary some 100-fold across terrestrial ecosystems from less than 1% to greater than 60% (McNaughton et al. 1989)—treading on soil and vegetation, and the return of excreta (Floate 1981). Herbivores also have important indirect effects on ecosystems, altering rates of nutrient cycling and changing nutrient availability to plants (Bardgett and Wardle 2003; Bardgett 2005). These indirect effects of herbivores on ecosystems are mediated by feedbacks that occur between plants and below-ground decomposer communities, and especially soil microbes, which play a central role regulating nutrient availability to plants.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Augustine DJ, Frank DA (2001) Effects of migratory ungulates on spatial heterogeneity of soil nitrogen properties in a grassland ecosystem. Ecology 82:3149–3162.
Augustine DJ, McNaughton SJ (1998) Ungulate effects on the functional species composition of plant communities: Herbivore selectivity and plant tolerance. J Wildl Manage 52:1165–1183.
Ayres E, Heath J, Possell M, Black HIJ, Kerstiens G, Bardgett RD (2004) Tree physiological responses to above-ground herbivory directly modify below-ground processes of soil carbon and nitrogen cycling. Ecol Lett 7:469–479.
Bardgett RD (2005) The biology of soil: a community and ecosystem approach. Oxford University Press. Oxford, UK, pp 242.
Bardgett RD, Leemans DK, Cook R, Hobbs P (1997) Seasonality of the soil biota of grazed and ungrazed hill grasslands. Soil Biol Biochem 29:1285–1294.
Bardgett RD, Wardle DA (2003) Herbivore mediated linkages between above-ground and below-ground communities. Ecology 84:2258–2268.
Bardgett RD, Wardle DA, Yeates GW (1998) Linking above-ground and below-ground interactions: How plant responses to foliar herbivory influence soil organisms. Soil Biol Biochem 30:1867–1878.
Bardgett RD, Jones AC, Jones DL, Kemmitt SJ, Cook R, Hobbs P (2001) Soil microbial community patterns related to the history and intensity of grazing in sub-montane ecosystems. Soil Biol Biochem 33:1653–1664.
Bokhari UG, Singh JS (1974) Effects of temperature and clipping on growth, carbohydrate reserves and root exudation of western wheatgrass in hydroponic culture. Crop Sci 14:790–794.
Brooker R, Van der Wal R (2003) Can soil temperature direct the composition of high Arctic plant communities? J Veg Sci 14:535–542.
Chaneton EJ, Lemcoff JH, Lavado RS (1996) Nitrogen and phosphorus cycling in grazed and ungrazed plots in a temperate subhumid grassland in Argentina. JAppl Ecol 33:291–302.
Chesson A (1997) Plant degradation by ruminants: parallels with litter decomposition in soils. In: Cadisch G, Giller KE (eds) Driven by nature: plant litter quality and decomposition. CAB International, Wallingford, UK, pp 47–66.
Collins SL, Knapp AK, Briggs JM, Blair JM, Steinauer EM (1998) Modulation of diversity by grazing and mowing in native tallgrass prairie. Science 280:745–747.
Coughenour MB (1991) Biomass and N responses to grazing of upland steppe on Yellowstone’s northern winter range. J Appl Ecol 28:71–82.
Dyer MI, Bokhari UG (1976) Plant–animal interactions: Studies of the effects of grasshopper grazing on blue grama grass. Ecology 57:762–772.
Dyer MI, Turner CL, Seastedt TR (1993) Herbivory and its consequences. Ecol Appl 3:10–16.
Findlay S, Carreiro M, Krischik V, Jones CG (1996) Effects of damage to living plants on leaf litter quality. Ecol Appl 6:269–275.
Floate MJS (1970a) Mineralization of nitrogen and phosphorus from organic materials of plant and animal origin and its significance in the nutrient cycle in grazed upland hills and soils. J Brit Grassland Soc 25:295–302.
Floate MJS (1970b) Decomposition of organic materials from hill soils and pastures II. Comparative studies on the mineralization of carbon, nitrogen and phosphorus from plant materials and sheep faeces. Soil Biol Biochem 2:173–185.
Floate MJS (1981) Effects of grazing by large herbivores on N cycling in agricultural ecosystems. In: Clark FE, Rosswall T (eds) Terrestrial nitrogen cycles–processes, ecosystem strategies and management impacts. Ecol Bull Swedish Nature Science Research Council, Stockholm, pp 585–597.
Frank DA, Evans RD (1997) Effects of native grazers on grassland N cycling in Yellowstone National Park. Ecology 78:2238–2248.
Frank DA, Groffman PM (1998) Ungulate vs. landscape control of soil carbon and nitrogen processes in grasslands of Yellowstone National Park. Ecology 79:2229–2241.
Frank DA, McNaughton SJ (1992) The ecology of plants, large mammalian herbivores, and drought in Yellowstone National Park. Ecology 73:2043–2058.
Guitian R, Bardgett RD (2000) Plant and soil microbial response to defoliation in temperate semi-natural grassland. Plant Soil 220:271–277.
Hamilton EW, Frank DA (2001) Can plants stimulate soil microbes and their own nutrient supply? Evidence from a grazing tolerant grass. Ecology 82:2397–2402.
Hamilton EW, Giovannini EW, Moses, MS, Coleman JS, McNaughton SJ (1998) Biomass and mineral element responses of a Serengeti short-grass species to nitrogen supply and defoliation: Compensation requires a critical [N]. Oecologia 116:407–418.
Harrison KA, Bardgett RD (2003) How browsing by red deer impacts on litter decomposition in a native regenerating woodland in the Highlands of Scotland. Biol Fert Soils 38:393–399.
Harrison KA, Bardgett RD (2004) Browsing by red deer negatively impacts on soil nitrogen availability in regenerating native forest. Soil Biol Biochem 36:115–126.
Hättenschwiler S, Vitousek PM (2000) The role of polyphenols in terrestrial ecosystem nutrient cycling. TREE 15:238–243.
Haukioja E, Ruohomaki K, Senn J, Soumela J, Walls M (1990) Consequences of herbivory in the mountain birch (Betula pubescens spp tortuosa): Importance of the functional organisation of the tree. Oecologia 82:238–247.
Holland JN, Cheng W, Crossley Jr DA (1996) Herbivore-induced changes in plant carbon allocation: Assessment of below-ground carbon fluxes using C-14. Oecologia 107:87–94.
Holland EA, Detling JK (1990) Plant response to herbivory and below-ground nitrogen cycling. Ecology 71:1040–1049.
Kielland K, Bryant JP (1998) Moose herbivory in Taiga: Effects on biochemistry and vegetation dynamics in primary succession. Oikos 82:377–383.
King LK, Hutchinson KJ (1976) The effects of sheep stocking intensity on the abundance and distribution of mesofauna in pastures. J Appl Ecol 13:41–55.
King LK, Hutchinson KJ Greenslade P (1976) The effects of sheep numbers on associations of Collembola in sown pastures. J Appl Ecol 13:731–739.
Lehtilä K, Haukioja E, Kaitaniemei P, Laine RA (2000) Allocation of resources within mountain birch canopy after simulated winter browsing. Oikos 90:160–170.
Mawdsley JL, Bardgett RD (1997) Continuous defoliation of perennial ryegrass (Lolium perenne) and white clover (Trifolium repens) and associated changes in the composition and activity of the microbial population of an upland grassland soil. Biol Fert Soils 24:52–58.
McIntosh PD, Allen RB, Scott N (1997) Effects of exclosure and management on biomass and soil nutrient pools in seasonally dry high county, New Zealand. J Environ Manage 51:169–186.
McNaughton SJ (1984) Grazing lawns: animals in herds, plant form and co-evolution. Am Nat 124:863–886.
McNaughton SJ, Banyikwa FF, McNaughton MM (1997) Promotion of the cycling of diet-enhancing nutrients by African grazers. Science 278:1798–1800.
McNaughton SJ, Banyikwa FF, McNaughton MM (1998) Root biomass and productivity in a grazing ecosystem: the Serengeti. Ecology 79:587–592.
McNaughton SJ, Oesterheld M, Frank DA, Williams KJ (1989) Ecosystem-level patterns of primary productivity and herbivory in terrestrial habitats. Nature 341:142–144.
McNaughton SJ, Ruess RW, Seagle SW (1988) Large mammals and process dynamics in African ecosystems. Herbivorous mammals affect primary productivity and regulate recycling balances. BioSci 38:794–800.
Mikola J, Yeates GW, Barker GM, Wardle DA, Bonner KI (2001a) Effects of defoliation intensity on soil food-web properties in an experimental grassland community. Oikos 92:333–343.
Mikola J Yeates GW, Wardle DA, Barker GM, Bonner KI (2001b) Response of soil food-web structure to defoliation of different plant species combinations in an experimental grassland community. Soil Biol Biochem 33:205–214.
Milchunas DG, Laurenroth WK (1993) Quantitative effects of grazing on vegetation and soil over a global range of environments. Ecol Monogr 63:327–366.
Neff JC, Reynolds, RL, Belnap, J, Lamothe, P (2005) Multi-decadal impacts of grazing on soil physical and biogeochemical properties in southeast Utah. Ecol Appl 15:87–95.
Pastor J Dewey B, Naiman RJ, McInnes PF, Cohen Y (1993) Moose browsing and soil fertility in the boreal forests of Isle Royale National Park. Ecology 74:467–480.
Rhoades DF (1985) Offensive–defensive interactions between herbivores and plants: their relevance in herbivore population dynamics and ecological theory. Am Nat 125:205–238.
Ritchie ME, Tilman D, Knops JMH (1998) Herbivore effects on plant and nitrogen dynamics in oak savanna. Ecology 79:165–177.
Ruess RW, Hendrick RL, Bryant JP (1998) Regulation of fine root dynamics by mammalian browsers in early successional Alaskan taiga forests. Ecology 79:2706–2720.
Ruess RW, Seagle SW (1994) Landscape patterns in soil microbial processes in the Serengeti National Park, Tanzania. Ecology 75:892–904.
Stark S, Tuomi J, Strömmer R, Helle T (2003) Non-parallel changes in soil microbial carbon and nitrogen dynamics due to reindeer grazing in northern boreal forests. Ecography 26:51–59.
Stark S, Wardle DA, Ohtonen R, Helle T, Yeates GW (2000) The effect of reindeer grazing on decomposition, mineralisation and soil biota in a dry oligotrophic Scots Pine forest. Oikos 90:301–310.
Tracy BF, Frank DA (1998) Herbivore influence on soil microbial biomass and N mineralisation in a northern grassland ecosystem: Yellowstone National Park. Oecologia 114:556–562.
Van der Wal R, Bardgett RD, Harrison KA, Stien A (2004) Vertebrate herbivores and ecosystem control: cascading effects of faeces on tundra ecosystems. Ecography 27:242–252.
Van der Wal R, Brooker R, Cooper E, Langvatn R (2001) Differential effects of reindeer on high Arctic lichens. J Veg Sci 12:705–710.
Van der Wal R, Pearce ISK, Brooker R, Scott D, Welch D, Woodin SJ (2003) Interplay between nitrogen deposition and grazing causes habitat degradation. Ecol Lett 6:141–146.
Van Wijnen HJ, Van der Wal R (1999) The impact of herbivores on nitrogen mineralisation rate: Consequences for salt-marsh succession. Oecologia 118:225–231.
Verchot LV, Groffman PM, Frank DA (2002) Landscape versus ungulate control of gross mineralisation and gross nitrification in semi-arid grassland of Yellowstone National Park. Soil Biol Biochem 34:1691–1699.
Vitousek PM, Howarth RW (1991) Nitrogen limitation on land and in the sea–how can it occur. Biogeochem 13:87–115.
Walsingham JM (1976) Effect of sheep grazing on the invertebrate population of agricultural grassland. Proc R Soc Dublin 11:297–304.
Wardle DA, Barker GM, Yeates GW, Bonner KI, Ghani A (2001) Introduced browsing mammals in New Zealand natural forests: above-ground and below-ground consequences. Ecol Monogr 71:587–614.
Wardle DA (2002) Communities and ecosystems: linking the aboveground and belowground components. Monogr Pop Biol 34. Princeton University Press, NJ.
Wardle DA, Bardget RD, Klironomos JN, Setälä H, van der Putten WH, Wall DH (2004) Ecological linkages between aboveground and belowground biota. Science 304:1629–1633.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2008 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Harrison, K.A., Bardgett, R.D. (2008). Impacts of Grazing and Browsing by Large Herbivores on Soils and Soil Biological Properties. In: Gordon, I.J., Prins, H.H.T. (eds) The Ecology of Browsing and Grazing. Ecological Studies, vol 195. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-72422-3_8
Download citation
DOI: https://doi.org/10.1007/978-3-540-72422-3_8
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-72421-6
Online ISBN: 978-3-540-72422-3
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)