Abstract
Poor recruitment in Atriplex vesicaria Hewd exBenth (bladder saltbush) under sheep grazing in the chenopodshrublands of southern Australia contributes to a decline in the shrub'spopulation growth rate. This may lead to local extinction of the species overlarge areas around watering points. This study investigated whether low seedavailability may contribute to poor recruitment. It examined the incidence offlowering and seed bank size at sites distributed across a large grazedpaddock,and examined the longevity of seed in the soil. Grazing by sheep reduced theincidence of flowering and input to the seed bank. The proportion of shrubswithflowers increased with distance from water, showing the characteristicpiosphereresponse. Shrubs on grazed sites closer to water experienced extended periodswhen they failed to flower or flowered poorly. The seed bank was negligible atthree of the sites within 1650 m of water for all three years ofsampling. In contrast, the seed bank at the most distant site sampled (2800m from water) was small in 1990 (37 ± 5.1seeds/m2) but in 1991 and 1992 seed numberswere substantial (626 ± 315.2 seeds/m2and 318 ± 169.0, respectively). Soil seed was short-lived inthis study, with only 34% and 17% of the original seed remainingas viable ungerminated seed after 12 months for the under-canopy andexposed treatments respectively. Whilst recruitment may also be limited byaltered soil conditions due to grazing and trampling and the availability ofsafe sites, the results of this study suggest that low seed availability may bean important factor contributing to poor recruitment and may limit the abilityof the population to recover from the loss of established plants. Management ofgrazing must take into account the need for A. vesicariapopulations to flower and set seed on a regular basis.
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References
Andersen A.N. 1989. How important is seed predation to recruitment in stable populations of long-lived perennials? Oecologia 81: 310–315.
Andrew M.H. and Lange R.T. 1986a. Development of a new piosphere in arid chenopod shrubland grazed by sheep. 2. Changes to the vegetation. Australian Journal of Ecology 11: 411–424.
Andrew M.H. and Lange R.T. 1986b. Development of a new piosphere in arid chenopod shrubland grazed by sheep. 1. Changes to the soil surface. Australian Journal of Ecology 11: 395–409.
Bastrenta B. 1991. Effect of sheep grazing on the demography of Anthyllis vulneraria in southern France. Journal of Ecology 79: 275–284.
Beadle N.C.W. 1952. Studies in halophytes. I. The germination of the seed and establishment of the seedlings of five species of Atriplex in Australia. Ecology 33: 49–62.
Begon M., Harper J.L. and Townsend C.R. 1990. Ecology: Individuals, Populations and Communities. 2nd edn. Blackwell Scientific Publications, Cambridge, Mass.
Bergstrom R. and Danell K. 1987. Effects of simulated winter browsing by moose on morphology and biomass of two birch species. Journal of Ecology 75: 533–544.
Bilbrough C.J. and Richards J.H. 1993. Growth of sagebrush and bitterbrush following simulated winter browsing: mechanisms of tolerance. Ecology 74: 481–492.
Bosch O.J.H. and Dudzinski M.L. 1984. Defoliation and its effects on Enneapogon avenaceus and Cenchrus ciliaris populations during two summer growth periods in central Australian rangelands. Australian Rangeland Journal 6: 17–25.
Briese D.T. 1982. Relationship between the seed-harvesting ants and the plant community in a semi-arid environment. In: Buckley R.C. (ed.), Ant-plant Interactions in Australia. Dr W. Junk Publishers, The Hague, The Netherlands, pp. 11–24.
Burbidge N.T. 1945. Germination studies of Australian Chenopodiaceae with special reference to the conditions necessary for regeneration. I. Atriplex vesicarium Heward. Transactions of the Royal Society of South Australia 69: 73–84.
Charlesworth B. 1980. Evolution in Age-structured Populations. Cambridge University Press, Cambridge, UK.
Coffin D.P. and Lauenroth W.K. 1989. Spatial and temporal variation in the seed bank of a semiarid grassland. American Journal of Botany 76: 53–58.
Coffin D.P. and Lauenroth W.K. 1992. Spatial variability in seed production of the perennial bunchgrass Bouteloua gracilis (Gramineae). American Journal of Botany 79: 347–353.
Crawley M.J. 1985. Reduction of oak fecundity by low-density herbivore populations. Nature 314: 163–164.
Crisp M.D. 1978. Demography and survival under grazing of three Australian semi-desert shrubs. Oikos 30: 520–528.
Dean W.R.J. and Milton S.J. 1991. Disturbances in semi-arid shrubland and arid grassland in the Karoo, South Africa: mammal diggings as germination sites. African Journal of Ecology 29: 11–16.
Eldridge D.J., Westoby M. and Stanley R.J. 1990. Population dynamics of the perennial rangeland shrubs Atriplex vesicaria, Maireana astrotricha and M. pyramidata under grazing, 1980–87. Journal of Applied Ecology 27: 502–512.
Eriksson O. and Ehrlén J. 1992. Seed and microsite limitation of recruitment in plant populations. Oecologia 91: 360–364.
Fienberg S.E. 1980. The Analysis of Cross-Classified Categorical Data. 2nd edn. MIT Press, Cambridge, Mass, USA.
Graetz R.D. 1978. The influence of grazing by sheep on the structure of a saltbush (Atriplex vesicaria Hew. ex Benth.) population. Australian Rangeland Journal 1: 117–125.
Graetz R.D. 1980. The influence of grazing by cattle and sheep on the population dynamics of bladder saltbush (Atriplex vesicaria) and white top (Danthonia caespitosa). Australian Rangeland Journal 2: 208–213.
Graetz R.D. 1986. A comparative study of sheep grazing a semiarid saltbush pasture in two condition classes. Australian Rangeland Journal 8: 46–56.
Graetz R.D. and Tongway D.J. 1986. Influence of grazing management on vegetation, soil structure and nutrient distribution and the infiltration of applied rainfall in a semi-arid chenopod shrubland. Australian Journal of Ecology 11: 347–360.
Graetz R.D. and Wilson A.D. 1984. Saltbush and Bluebush. In: Harrington G.N., Wilson A.D. and Young M.D. (eds), Management of Australia's Rangelands. CSIRO, Melbourne, pp. 209–222.
Gross K.L. 1990. A comparison of methods for estimating seed numbers in the soil. Journal of Ecology 78: 1079–1093.
Hall E.A.A., Specht R.L. and Eardley C.M. 1964. Regeneration of the vegetation on Koonamore Vegetation Reserve, 1926–1962. Australian Journal of Botany 12: 205–264.
Hendrix S.D. and Trapp E.J. 1992. Population demography of Pastinaca sativa (Apiaceae): Effects of seed mass on emergence, survival and recruitment. American Journal of Botany 79: 365–375.
Hodgkinson K.C., Harrington G.N. and Miles G.E. 1980. Composition, spatial and temporal variability of the soil seed pool in a Eucalyptus populnea shrub woodland in central New South Wales. Australian Journal of Ecology 5: 23–29.
Hunt L.P. 1995. Spatial variation in the population dynamics of Atriplex vesicaria under sheep grazing., PhD Thesis, University of Adelaide.
Hunt L.P. 2001. Heterogeneous grazing causes local extinction of edible perennial shrubs: a matrix analysis. Journal of Applied Ecology 38: 238–252.
James C.D., Landsberg J. and Morton S.R. 1996. Maintaining biodiversity in Australian rangelands. In: Hunt L.P. and Sinclair R. (eds), Proceedings 9th Biennial Australian Rangeland Conference. Australian Rangeland Society, Adelaide, pp. 52–55.
Jameson D.A. 1963. Responses of individual plants to harvesting. Botanical Review 29: 532–594.
Kemp P.R. 1989. Seed Banks and Vegetation Processes in Deserts. In: Leck M.A., Parker V.T. and Simpson R.L. (eds), Ecology of Soil Seed Banks. Academic Press, San Diego, USA, pp. 257–281.
Kinucan R.J. and Smeins F.E. 1992. Soil seed bank of a semiarid Texas grassland under three long-term (36-years) grazing regimes. American Midland Naturalist 128: 11–21.
Knowles G.H. and Condon R.W. 1951. The perennial saltbush: Atriplex vesicarium Heward. Journal of the Soil Conservation Service of New South Wales 7: 123–131.
Lange R.T., Coleman D. and Cowley K.R. 1992. Survival of saltbush (Atriplex vesicaria) seedlings in heavily grazed experimental plots. Australian Journal of Ecology 17: 99–101.
Lange R.T., Nicolson A.D. and Nicolson D.A. 1984. Vegetation management of chenopod rangelands in South Australia. Australian Rangeland Journal 6: 46–54.
Leigh J.H. and Mulham W.E. 1971. The effect of defoliation on the persistence of Atriplex vesicaria. Australian Journal of Agricultural Research 22: 239–244.
Leopold A.C. and Kriedemann P.E. 1975. Plant Growth and Development. 2nd edn. Tata McGraw Hill, New Delhi, India.
Lovett-Doust J. 1989. Plant strategies and resource allocation. Trends in Ecology and Evolution 4: 230–234.
Marshall J.K. 1972. Principles of soil erosion and its prevention. In: The Use of Trees and Shrubs in the Dry Country of Australia. Australian Government Publishing Service, Canberra, Australia, pp. 90–107.
Maschinski J. and Whitham T.G. 1989. The continuum of plant responses to herbivory: the influence of plant association, nutrient availability and timing. American Naturalist 134: 1–19.
Milton S.J. 1994. Growth, flowering and recruitment of shrubs in grazed and in protected rangeland in the arid Karoo, South Africa. Vegetatio 111: 17–27.
Obeso J.R. 1993. Does defoliation affect reproductive output in herbaceous and woody plants in different ways? Functional Ecology 7: 150–155.
O'Connor T.G. 1991. Local extinction in perennial grasslands: a life-history approach. American Naturalist 137: 753–773.
O'Connor T.G. and Pickett G.A. 1992. The influence of grazing on seed production and seed banks of some African savanna grasslands. Journal of Applied Ecology 29: 247–260.
Parker V.T., Simpson R.L. and Leck M.A. 1989. Pattern and process in the dynamics of seed banks. In: Leck M.A., Parker V.T. and Simpson R.L. (eds), Ecology of Soil Seed Banks. Academic Press, San Diego, USA, pp. 367–385.
Parr-Smith G.A. 1982. Biogeography and evolution in the shrubby Australian species of Atriplex (Chenopodiaceae). In: Barker W.R. and Greenslade P.J.M. (eds), Evolution of the Flora and Fauna of Arid Australia. Peacock Publishers, Adelaide, Australia, pp. 291–299.
Reichman O.J. 1984. Spatial and temporal variation of seed distributions in Sonoran Desert soils. Journal of Biogeography 11: 1–11.
Rixon A.J. 1969. Cycling of nutrients in a grazed Atriplex vesicaria community. In: Jones R. (ed.), The Biology of Atriplex. CSIRO Division of Plant Industry, Canberra, pp. 87–95.
Silcock R.G. and Smith F.T. 1990. Viable seed retention under field conditions by western Queensland pasture species. Tropical Grasslands 24: 64–74.
Westoby M., Walker B. and Noy-Meir I. 1989. Opportunistic management for rangelands not at equilibrium. Journal of Range Management 42: 266–274.
Williams D.G. 1972. Ecological studies on shrub-steppe of the Western Riverina, New SouthWales. PhD Dissertation, (unpublished).
Williams D.G. 1979. The comparative ecology of two perennial chenopods. In: Graetz R.D. and Howes K.M.W. (eds), Studies of the Australian Arid Zone. IV. Chenopod Shrublands. CSIRO, Perth, Australia, pp. 29–40.
Williams D.G., Anderson D.J. and Slater K.R. 1978. The influence of sheep on pattern and process in Atriplex vesicaria populations from the Riverine Plain of New South Wales. Australian Journal of Botany 26: 381–392.
Wilson A.D., Leigh J.H. and Mulham W.E. 1969. A study of merino sheep grazing a bladder saltbush (Atriplex vesicaria) — cotton bush (Kochia aphylla) community on the Riverine Plain. Australian Journal of Agricultural Research 20: 1123–1136.
Wright M.J. 1985. Soils. In: Twidale C.R., Tyler M.J. and Davies M. (eds), Natural History of the Eyre Peninsula. Royal Society of South Australia, Adelaide, Australia, pp. 77–88.
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Hunt, L. Low seed availability may limit recruitment in grazed Atriplex vesicaria and contribute to its local extinction. Plant Ecology 157, 53–67 (2001). https://doi.org/10.1023/A:1014515122231
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DOI: https://doi.org/10.1023/A:1014515122231