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RESEARCH ARTICLE
Contents Vol 31(4)

Demography of three perennial grasses in a central Queensland eucalypt woodland

P. Jones A , P. Filet A and D. M. Orr B C
+ Author Affiliations
- Author Affiliations

A Department of Employment, Economic Development and Innovation, Locked Mail Bag 6, Emerald, Qld 4720, Australia.

B Department of Employment, Economic Development and Innovation, PO Box 6014 Rockhampton Mail Centre, Rockhampton, Qld 4702, Australia.

C Corresponding author. Email: david.orr@deedi.qld.gov.au

The Rangeland Journal 31(4) 427-437 https://doi.org/10.1071/RJ09035
Submitted: 16 June 2009  Accepted: 5 November 2009   Published: 27 November 2009

Abstract

The population dynamics of the palatable, perennial grasses Bothriochloa ewartiana (Domin) C.E.Hubb. (desert Mitchell grass), Chrysopogon fallax S.T.Blake (golden beard grass) and Heteropogon contortus (L.) P.Beauv. ex Roem. & Schult. (black speargrass), were studied in an extensive grazing study conducted in a eucalypt woodland within the Aristida–Bothriochloa pasture community in central Queensland between 1994 and 2000. Treatments were three grazing pressures based on light, medium and heavy utilisation of forage available at the end of summer and two timber treatments (trees intact and trees killed). Seasonal rainfall throughout this study was generally favourable for plant growth with no severe drought periods. Grazing pressure had a greater overall impact on plant dynamics than timber treatment, which had minimal impact. Grazing pressure had a large impact on H. contortus dynamics, an intermediate impact on B. ewartiana and no impact on C. fallax. Fluctuations in plant density of both B. ewartiana and C. fallax were small because both species were long lived with low levels of seedling recruitment and plant death, whereas fluctuations in H. contortus density were relatively high because of its relatively short life span and higher levels of both recruitment and death. Heavy grazing pressure increased the recruitment of B. ewartiana and H. contortus in some years but had no impact on that of C. fallax. Heavy grazing pressure reduced the survival of the original plants of both B. ewartiana and H. contortus but not of C. fallax. For H. contortus, the size of the original plants was larger where trees were killed than where trees were left intact and plants of the 1995 seedling cohort were larger in 1998 at heavy compared with those at light and medium grazing pressure. Grazing had a minor negative impact on the soil seed bank of H. contortus. Populations of all three species remained stable throughout this study, although the favourable seasonal rainfall experienced and the short duration of this study relative to the life span of these species may have masked longer term, deleterious impacts of heavy grazing pressure.

Additional keywords: Bothriochloa ewartiana, Chrysopogon fallax, Heteropogon contortus, plant, seedling recruitment.


Acknowledgements

We wish to acknowledge Charlie and Jacqui Hawkins and later Cameron and Jude Hicks, past and present owners of Keilembete for the use of land and for cattle management and for hosting field days throughout this study. David Osten, Melinda Cox, Stephen Ginns and Anne Shepherd provided valuable technical assistance, Christina Playford provided statistical analyses and Madonna Hoffman prepared the figures. Significant funding towards this project was provided by Meat and Livestock Australia.


References


Clark, R. A. , Bourne, A. W. D. , Cheffins, R. C. , Gillespie, R. L. , Lawrence, D. N. , Murphy, K. J. , and Esdale, C. R. (1992). Using local consensus data technique to develop, improve and enhance the adoption of sustainable grazing land management systems. In: ‘People Protecting their Land. Proceedings 7th International Soil Conservation Conference’. Sydney. (Eds P. G. Haskins and B. M. Murphy.) pp. 591–602. (NSW Dept. of Conservation and Land Management, Intl Soil Conservation Organisation)

Cox D. R. (1972) Regression and life tables. Journal of the Royal Statistical Society. Series B. Methodological 34, 187–220. open url image1

Gunn, R. H. , Galloway, R. W. , Pedley, L. , and Fitzpatrick, E. A. (1967). ‘Lands of the Nogoa-Belyando Area, Queensland. CSIRO Land Research Series No. 18.’ (CSIRO: Melbourne.)

Hodgkinson K. C., Muller W. J. (2005) Death model for tussock perennial grasses: a rainfall threshold for survival and evidence for landscape control of death in drought. The Rangeland Journal 27, 105–115.
Crossref | GoogleScholarGoogle Scholar | open url image1

McIvor J. G. (2007) Pasture management in semi-arid tropical woodlands: dynamics of perennial grasses. The Rangeland Journal 29, 87–100.
Crossref | GoogleScholarGoogle Scholar | open url image1

McIvor J. G., Gardener C. J. (1994) Germinable soil seed banks in native pastures in north-eastern Australia. Australian Journal of Experimental Agriculture 34, 1113–1119.
Crossref | GoogleScholarGoogle Scholar | open url image1

Northcote, K. H. , Hubble, G. D. , Isbell, R. F. , Thompson, C. H. , and Bettenay, E. (1975). ‘A Description of Australian Soils.’ (CSIRO: Melbourne.)

Northup B. K., Brown J. R., Holt J. A. (1999) Grazing impacts on the spatial distribution of soil microbial biomass around tussock grass in tropical grassland. Applied Soil Ecology 13, 259–270.
Crossref | GoogleScholarGoogle Scholar | open url image1

O’Connor T. G. (1994) Composition and population responses of an African savanna grassland to rainfall and grazing. Journal of Applied Ecology 31, 155–171.
Crossref | GoogleScholarGoogle Scholar | open url image1

Orr, D. M. (1998). A life cycle approach to population ecology of two tropical grasses in Queensland, Australia. In: ‘Population Biology of Grasses’. (Ed. G. Cheplick.) pp. 366–389. (Cambridge University Press: New York.)

Orr, D. M. , Hall, T. J. , and Jones, P. A. (2004b). Black speargrass (Heteropogon contortus) persistence varies across its geographical range. In: ‘Living in the Outback. Proceedings of the 13th Biennial Conference of the Australian Rangeland Society’. (Eds G. Bastin, D. Walsh and S. Nicholson.) pp. 271–272. (Australian Rangeland Society: Northam, WA.)

Orr, D. M. , and O’Reagain, P. J. (2005). Rainfall and grazing impacts on the population dynamics of Bothriochloa ewartiana in tropical Australia. In: ‘XX International Grasslands Congress: Offered papers’. (Eds F. P. O’Mara, R. J. Wilkins, L.’t Mannetje, D. K. Lovett, P. A. M. Rogers and T. M. Boland.) p. 526. (Wageningen Academic Publishers: Wageningen, The Netherlands.)

Orr, D. M. , and O’Reagain, P. J. (2008). Grazing impacts on the dynamics of two long lived perennial grasses in tropical Australia. In: ‘Multifunctional Grasslands in a Changing World, Vol. 1. Proceedings of the XXI International Grasslands – VIII International Rangeland Conference’. p. 472. (Guangdong People’s Publishing House: Beijing.)

Orr D. M., Paton C. J. (1997) Using fire to manage species composition in Heteropogon contortus (black speargrass) pastures. 2. Enhancing the effects of fire with grazing management. Australian Journal of Agricultural Research 48, 803–810.
Crossref | GoogleScholarGoogle Scholar | open url image1

Orr D. M., Paton C. J., Blight G. W. (1996) An improved method for measuring the germinable soil seed banks of tropical pastures. Tropical Grasslands 30, 201–205. open url image1

Orr D. M., Paton C. J., Reid D. J. (2004a) Dynamics of plant populations in Heteropogon contortus (black speargrass) pastures on a granite landscape in southern Queensland. 1. Dynamics of H. contortus populations. Tropical Grasslands 38, 17–30. open url image1

Orr D. M., Yee M. C., Rutherford M. T., Paton C. J. (2010) Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 2. Population dynamics of Heteropogon contortus and Stylosanthes scabra cv. Seca. Crop & Pasture Science (in press). 61, open url image1

Sarukhan J., Harper J. L. (1973) Studies on plant demography: Ranunculus repens L., R. bulbosus L. and R. acris. 1. Population flux and survivorship. Journal of Ecology 61, 675–716.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sattler, P. S. , and Williams, R. D. (1999). ‘The Conservation Status of Queensland’s Bioregional Ecosystems.’ (Environmental Protection Agency: Brisbane.)

Scanlan J. C., Burrows W. H. (1990) Woody overstorey impact on herbaceous understorey in Eucalyptus spp. communities in central Queensland. Australian Journal of Ecology 15, 191–197.
Crossref | GoogleScholarGoogle Scholar | open url image1

Silcock, R. G. (1999). Chrysopogon fallax (goldenbeard grass) regeneration potential from seed and detached rhizomes. In: ‘People and Rangelands: Building the Future. Proceedings of the VIth International Rangeland Congress’. (Eds D. Eldridge and D. Freudenberger.) pp. 934–935. (VI International Rangeland Congress Inc.: Aitkenvale, Qld.)

Silcock, R. G. , Jones, P. , Hall, T. J. , and Waters, D. K. (2005). Enhancing pasture stability and profitability for producers in poplar box and silver-leaved ironbark woodlands. Meat and Livestock Australia Project NAP3.208, Final Report. Meat and Livestock Australia, Sydney.

Tothill, J. C. , and Gillies, C. (1992). ‘The Pasture Lands of Northern Australia: Their Condition, Productivity and Sustainability.’ Occasional Publication No. 5. (Tropical Grasslands Society of Australia: Brisbane.)

Walker, B. (1997). Review of ‘Improving Resource Management’ projects. Meat Research Corporation, Northern Australian Program, NAP Occasional Paper No. 2. Meat and Livestock Australia, Sydney.

Weston, E. J. , Harbison, J. , Leslie, J. K. , Rosenthall, K. M. , and Mayer, R. J. (1981). Assessment of the agricultural and pastoral potential of Queensland. Technical Report No. 27. Queensland Department of Primary Industries, Agriculture Branch, Brisbane.