Abstract
Waterfowl can cause substantial reductions in plant standing crop, which may have ecological and economic consequences. However, what determines the magnitude of these reductions is not well understood. Using data from published studies, we derived the relationship between waterfowl density and reduction in plant standing crop. When waterfowl density was estimated as individuals ha−1 no significant relationship with reduction in plant standing crop was detected. However, when waterfowl density was estimated as kg ha−1 a significant, positive, linear relationship with reduction in plant standing crop was found. Whilst many previous studies have considered waterfowl species as homologous, despite large differences in body mass, our results suggest that species body mass is a key determinant of waterfowl impact on plant standing crop. To examine relative impacts of waterfowl groups based on species body mass, a measure of plant biomass reduction (R s) per bird per hectare was calculated for each group. Comparison of R s values indicated some differences in impact between different waterfowl groups, with swans having a greater per capita impact than smaller-bodied waterfowl groups. We present evidence that this difference is linked to disparities in individual body size and associated differences in intake rates, diet composition and energy requirements. Future research priorities are proposed, particularly the need for experiments that quantify the importance of factors that determine the magnitude of waterfowl impacts on plant standing crop.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allin, C. C. & T. P. Husband, 2003. Mute swan (Cygnus olor) impact on submerged aquatic vegetation and macroinvertebrates in a Rhode Island coastal pond. Northeastern Naturalist 10: 305–318.
Allison, A. & I. Newton, 1974. Waterfowl at Loch Leven, Kinross. Proceedings of the Royal Society of Edinburgh Section B (Biology) 74: 365–381.
Ankney, C. D., 1996. An embarrassment of riches: too many geese. Journal of Wildlife Management 60: 217–223.
Badzinski, S. S., C. D. Ankney & S. A. Petrie, 2006. Influence of migrant tundra swans (Cygnus columbianus) and Canada geese (Branta canadensis) on aquatic vegetation at Long Point, Lake Erie, Ontario. Hydrobiologia 567: 195–211.
Baldassarre, G. A. & E. G. Bolen, 2006. Waterfowl Ecology and Management, 2nd ed. Krieger, Malabar, FL.
Bornette, G. & S. Puijalon, 2011. Response of aquatic plants to abiotic factors: a review. Aquatic Sciences 73: 1–14.
Bortolus, A., O. O. Iribarne & M. M. Martinez, 1998. Relationship between waterfowl and the seagrass Ruppia maritima in a southwestern Atlantic coastal lagoon. Estuaries 21: 710–717.
Bruinzeel, L. W., M. R. van Eerden, R. H. Drent & J. T. Vulink, 1997. Scaling metabolisable energy intake and daily energy expenditure in relation to the size of herbivorous waterfowl: limits set by available foraging time and digestive performance. In van Eerden, M. R. (ed.), Patchwork, Van Zee tot land 65. Directie IJsselmeergebied, Rijkswaterstaat, Lelystad: 111–132.
Cargill, S. M. & R. L. Jefferies, 1984. The effects of grazing by lesser snow geese on the vegetation of a sub-Arctic salt marsh. Journal of Applied Ecology 21: 669–686.
Corti, P. & R. P. Schlatter, 2002. Feeding ecology of the black-necked swan Cygnus melancoryphus in two wetlands of southern Chile. Studies on Neotropical Fauna and Environment 37: 9–14.
Demment, M. W. & P. J. van Soest, 1985. A nutritional explanation for body-size patterns of ruminant and nonruminant herbivores. American Naturalist 125: 641–672.
Dixon, H. D. J., 2009. Effect of black swan foraging on seagrass and benthic invertebrates in western Golden Bay. Unpublished M.Sc. thesis, Massey University, New Zealand.
Durant, D., H. Fritz, S. Blais & P. Duncan, 2003. The functional response in three species of herbivorous Anatidae: effects of sward height, body mass and bill size. Journal of Animal Ecology 72: 220–231.
Ebbinge, B., K. Canters & R. H. Drent, 1975. Foraging routines and estimated daily food intake in barnacle geese wintering in the northern Netherlands. Wildfowl 26: 5–19.
Elmberg, J., 2009. Are dabbling ducks major players or merely noise in freshwater ecosystems? A European perspective, with reference to population limitation and density dependence. Wildfowl Special Issue 2: 9–23.
Esler, D., 1989. An assessment of American coot herbivory of Hydrilla. Journal of Wildlife Management 53: 1147–1149.
Esselink, P., G. J. F. Helder, B. A. Aerts & K. Gerdes, 1997. The impact of grubbing greylag geese (Anser anser) on the vegetation dynamics of a tidal marsh. Aquatic Botany 55: 261–279.
Fox, A. D., B. S. Ebbinge, C. Mitchell, T. Heinicke, T. Aarvak, K. Colhoun, P. Clausen, S. Dereliev, S. Faragó, K. Koffijberg, H. Kruckenberg, M. J. J. E. Loonen, J. Madsen, J. Mooij, P. Musil, L. Nilsson, S. Pihl & H. van der Jeugd, 2010. Current estimates of goose population sizes in western Europe, a gap analysis and an assessment of trends. Ornis Svecica 20: 115–127.
Gayet, G., C. Eraud, M. Benmergui, J. Broyer, F. Mesleard, H. Fritz & M. Guillemain, 2011a. Breeding mute swan habitat selection when accounting for detectability: a plastic behaviour consistent with rapidly expanding populations. European Journal of Wildlife Research 57: 1051–1056.
Gayet, G., M. Guillemain, H. Fritz, F. Mesleard, C. Begnis, A. Costiou, G. Body, L. Curtet & J. Broyer, 2011b. Do mute swan (Cygnus olor) grazing, swan residence and fishpond nutrient availability interactively control macrophyte communities? Aquatic Botany 95: 110–116.
Grime, J. P., 2002. Plant Strategies, Vegetative Processes, and Ecosystem Properties, 2nd ed. John Wiley & Sons, Chichester.
Gyimesi, A., P. P. de Vries, T. de Boer & B. A. Nolet, 2011. Reduced tuber banks of fennel pondweed due to summer grazing by waterfowl. Aquatic Botany 94: 24–28.
Haramis, G. M. & G. D. Kearns, 2007. Herbivory by resident geese: the loss and recovery of wild rice along the tidal Patuxent River. Journal of Wildlife Management 71: 788–794.
Hidding, B., B. A. Nolet, T. de Boer, P. P. de Vries & M. Klaassen, 2010. Above- and below-ground vertebrate herbivory may each favour a different subordinate species in an aquatic plant community. Oecologia 162: 199–208.
Hilt, S., 2006. Recovery of Potamogeton pectinatus L. stands in a shallow lake under extreme grazing pressure. Hydrobiologia 570: 95–99.
Jupp, B. P. & D. H. N. Spence, 1977. Limitations of macrophytes in a eutrophic lake, Loch Leven. II. Wave action, sediments, and waterfowl grazing. Journal of Ecology 65: 431–446.
Kear, J., 2005. Ducks, Geese and Swans. Oxford University Press, Oxford.
Klaassen, M. & B. A. Nolet, 2007. The role of herbivorous water birds in aquatic systems through interactions with aquatic macrophytes, with special reference to the Bewick’s Swan – Fennel Pondweed system. Hydrobiologia 584: 205–213.
Lauridsen, T. L., E. Jeppesen & F. O. Andersen, 1993. Colonisation of submerged macrophytes in shallow fish manipulated Lake Vaeng: impact of sediment composition and waterfowl grazing. Aquatic Botany 46: 1–15.
Lauridsen, T. L., H. Sandsten & P. H. Moller, 2003. The restoration of a shallow lake by introducing Potamogeton spp.: the impact of waterfowl grazing. Lakes & Reservoirs: Research & Management 8: 177–187.
Lodge, D. M., 1991. Herbivory on freshwater macrophytes. Aquatic Botany 41: 195–224.
Lodge, D. M., G. Cronin, E. van Donk & A. J. Froelich, 1998. Impact of herbivory on plant standing crop: comparisons among biomes, between vascular and nonvascular plants, and among freshwater herbivore taxa. In Jeppesen, E., M. Søndergaard, M. Søndergaard & K. Christoffersen (eds), The Structuring Role of Submerged Macrophytes in Lakes. Springer-Verlag, New York: 149–174.
Marklund, O., H. Sandsten, L. A. Hansson & I. Blindow, 2002. Effects of waterfowl and fish on submerged vegetation and macroinvertebrates. Freshwater Biology 47: 2049–2059.
Maron, J. L. & S. N. Gardner, 2000. Consumer pressure, seed versus safe-site limitation, and plant population dynamics. Oecologia 124: 260–269.
Massé, H., L. Rochefort & G. Gauthier, 2001. Carrying capacity of wetland habitats used by breeding greater snow geese. Journal of Wildlife Management 65: 271–281.
Mitchell, S. F. & R. T. Wass, 1996. Quantifying herbivory: grazing consumption and interaction strength. Oikos 76: 573–576.
Musil, P. & R. Fuchs, 1994. Changes in the abundance of water birds species in southern Bohemia (Czech Republic) in the last 10 years. Hydrobiologia 279(280): 511–519.
Newman, R. M., 1991. Herbivory and detritivory on freshwater macrophytes by invertebrates: a review. Journal of the North American Benthological Society 10: 89–114.
Nummi, P. & L. Saari, 2003. Density-dependent decline of breeding success in an introduced, increasing mute swan Cygnus olor population. Journal of Avian Biology 34: 105–111.
O’Hare, M. T., R. A. Stillman, J. McDonnell & L. R. Wood, 2007. Effects of mute swan grazing on a keystone macrophyte. Freshwater Biology 52: 2463–2475.
Owen, M., 1972. Some factors affecting food intake and selection in white-fronted geese. Journal of Animal Ecology 41: 79–92.
Patton, D. L. H. & J. Frame, 1981. The effect of grazing in winter by wild geese on improved grassland in West Scotland. Journal of Applied Ecology 18: 311–325.
Perrow, M. R., J. H. Schutten, J. R. Howes, T. Holzer, F. J. Madgwick & A. J. D. Jowitt, 1997. Interactions between coot (Fulica atra) and submerged macrophytes: the role of birds in the restoration process. Hydrobiologia 342(343): 241–255.
Petrie, S. A. & C. M. Francis, 2003. Rapid increase in the lower Great Lakes population of feral mute swans: a review and a recommendation. Wildlife Society Bulletin 31: 407–416.
Prop, J., J. M. Black, P. Shimmings & M. Owen, 1998. The spring range of barnacle geese Branta leucopsis in relation to changes in land management and climate. Biological Conservation 86: 339–346.
Rodríguez-Pérez, H. & A. J. Green, 2006. Waterbird impacts on widgeongrass Ruppia maritima in a Mediterranean wetland: comparing bird groups and seasonal effects. Oikos 112: 525–534.
Rodríguez-Villafañe, C., E. Becares & M. Fernandez-Alaez, 2007. Waterfowl grazing effects on submerged macrophytes in a shallow Mediterranean lake. Aquatic Botany 86: 25–29.
Samelius, G. & R. T. Alisauskas, 2009. Habitat alteration by geese at a large Arctic goose colony: consequences for lemmings and voles. Canadian Journal of Zoology 87: 95–101.
Sammler, J. E., D. E. Andersen & S. K. Skagen, 2008. Population trends of tundra-nesting birds at Cape Churchill, Manitoba, in relation to increasing goose populations. Condor 110: 325–334.
Sandsten, H., M. Beklioglu & Ö. Ince, 2005. Effects of waterfowl, large fish and periphyton on the spring growth of Potamogeton pectinatus L. in Lake Mogan, Turkey. Hydrobiologia 537: 239–248.
Smith, A. N., 2010. Grazing by black swans Cygnus atratus on a seasonally-flooded wetland. International Symposium on Wetlands in a Flood Pulsing Environment, Maun, Botswana.
Søndergaard, M., L. Bruun, T. L. Lauridsen, E. Jeppesen & T. V. Madsen, 1996. The impact of grazing waterfowl on submerged macrophytes: in situ experiments in a shallow eutrophic lake. Aquatic Botany 53: 73–84.
Stillman, R. A. & J. D. Goss-Custard, 2010. Individual-based ecology of coastal birds. Biological Reviews 85: 413–434.
Summers, R. W. & A. Grieve, 1982. Diet, feeding behaviour and food intake of the upland goose (Chloëphaga picta) and ruddy-headed goose (C. rubidiceps) in the Falkland Islands. Journal of Applied Ecology 19: 783–804.
Taylor, B., 1998. Rails: A Guide to the Rails, Crakes, Gallinules and Coots of the World. Pica Press, Sussex, UK.
Therkildsen, O. R. & J. Madsen, 2000. Assessment of food intake rates in Pink-footed geese Anser brachyrhynchus based on examination of oesophagus contents. Wildlife Biology 6: 167–172.
van der Wal, R., J. van der Koppel & M. Sagel, 1998. On the relation between herbivore foraging efficiency and plant standing crop: an experiment with barnacle geese. Oikos 82: 123–130.
van Donk, E. & A. Otte, 1996. Effects of grazing by fish and waterfowl on the biomass and species composition of submerged macrophytes. Hydrobiologia 340: 285–290.
van Gils, J. A., A. Gyimesi & B. van Lith, 2007. Avian herbivory: an experiment, a field test, and an allometric comparison with mammals. Ecology 88: 2926–2935.
Verhoeven, J. T. A., 1980. The ecology of Ruppia-dominated communities in Western Europe. III. Aspects of production, consumption and decomposition. Aquatic Botany 8: 209–253.
Ward, R. M., P. A. Cranswick, M. Kershaw, G. E. Austin, A. W. Brown, L. M. Brown, J. C. Coleman, H. K. Chisholm & C. J. Spray, 2007. Numbers of mute swans Cygnus olor in Great Britain: results of the national census in 2002. Wildfowl 57: 3–20.
Wood, K. A., R. A. Stillman, F. Daunt & M. T. O’Hare, 2012. An individual-based model of swan-macrophyte conflicts on a chalk river. In Boon, P. J. & P. J. Raven (eds), River Conservation and Management. Wiley-Blackwell, Chichester, UK: 339–343.
Wright, R. M. & V. E. Phillips, 1991. Reducing the breeding success of Canada and greylag geese, Branta canadensis and Anser anser, on a gravel pit. Wildfowl 42: 42–44.
Ydenberg, R. C. & H. H. T. Prins, 1981. Spring grazing and the manipulation of food quality by barnacle geese. Journal of Applied Ecology 18: 443–453.
Acknowledgments
The authors thank Anthony Fox, Sidinei Thomaz and two anonymous referees for helpful comments on an earlier draft of this manuscript. Kevin Wood was supported by a Centre for Ecology & Hydrology Algorithm (Natural Environment Research Council) studentship.
Author information
Authors and Affiliations
Corresponding author
Additional information
Handling editor: Sidinei Magela Thomaz
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Wood, K.A., Stillman, R.A., Clarke, R.T. et al. The impact of waterfowl herbivory on plant standing crop: a meta-analysis. Hydrobiologia 686, 157–167 (2012). https://doi.org/10.1007/s10750-012-1007-2
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10750-012-1007-2