Managing for rainfall variability: impacts of grazing strategies on perennial grass dynamics in a dry tropical savanna
D. M. Orr A C and P. J. O’Reagain BA Department of Employment, Economic Development and Innovation, PO Box 6014, Red Hill, Rockhampton, Qld 4702, Australia.
B Department of Employment, Economic Development and Innovation, PO Box 976, Charters Towers, Qld 4820, Australia.
C Corresponding author. Email: david.orr@deedi.qld.gov.au
The Rangeland Journal 33(2) 209-220 https://doi.org/10.1071/RJ11032
Submitted: 23 November 2010 Accepted: 18 May 2011 Published: 22 June 2011
Abstract
Rainfall variability remains a major challenge to sustainable grazing management in northern Australia with perennial grasses the key to the stability of the resources that maintain a sustainable grazing industry. This paper describes the dynamics of five perennial grasses – Bothriochloa ewartiana (Domin) C.E. Hubb., Chrysopogon fallax S.T. Blake, Aristida spp., Panicum effusum R. Br. and Heteropogon contortus (L.) P. Beauv. ex Roem. & Schult. in relation to three grazing strategies – moderate stocking at long-term carrying capacity, heavy stocking and rotational wet season spelling. The research was conducted in permanent quadrats on the predominant land type in an extensive grazing study in an Aristida-Bothriochloa pasture in north Australia between 1998 and 2010. Summer rainfall was above average for two periods – 1998 – 2001 and 2008 – 2010 with drought and below-average rainfall from 2002 to 2007. Low rainfall affected the dynamics of all grasses by reducing survival and basal area through its effect on plant size; this impact was most noticeable for the shorter-lived Aristida spp., P. effusum and H. contortus. The impact of grazing was greatest on the long-lived B. ewartiana and C. fallax; this effect was accentuated by the 2002–07 drought. Heavy grazing during this period further reduced the survival and size of B. ewartiana in comparison with the moderate stocking and rotational spell treatments. In contrast, the survival of C. fallax was reduced in the moderate stocking and rotational spelling treatment during drought, relative to that under heavy grazing. The density of B. ewartiana declined even under moderate grazing and despite two sequences of above-average rainfall because seedling recruitment failed to offset mature plant death. Results from this study emphasised the importance of maintaining the existing populations of key long-lived species such as B. ewartiana through good management. These results also supported the overall findings from the grazing study indicating that stocking at the long-term carrying capacity is sustainable in managing for climate variability.
Additional keywords: Bothriochloa ewartiana, Chrysopogon fallax, grass dynamics, rainfall variability, stocking rate.
References
Ash, A. J., McIvor, J. G., Corfield, J. P., and Ksiksi, T. (2011). Grazing management in tropical savannas: utilisation and rest strategies to manipulate rangeland condition. Rangeland Ecology and Management 64, 223–239.| Grazing management in tropical savannas: utilisation and rest strategies to manipulate rangeland condition.Crossref | GoogleScholarGoogle Scholar |
Burrows, W. H., Orr, D. M., Hendricksen, R. E., Rutherford, M. T., Myles, D. J., Back, P. V., and Gowen, R. (2010). Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 4. Animal production. Animal Production Science 50, 284–292.
| Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 4. Animal production.Crossref | GoogleScholarGoogle Scholar |
Clewett, J. F., Clarkson, N. M., George, D. A., Ooi, S. H., Partridge, I. J., and Simpson, G. B. (2003). Rainman Streamflow Version 4.3: a Comprehensive Climate and Streamflow Analysis Package on CD to Assess Seasonal Forecasts and Manage Climate Risk. QI03040, Department of Primary Industries, Toowoomba.
Cox, D. R. (1972). Regression and life tables. Journal of the Royal Statistical Society. Series B. Methodological 34, 187–220.
Eyles, A. G., Cameron, D. G., and Hacker, J. B. (1985). ‘Pasture Research in Northern Australia – its History, Achievements and Future Emphasis.’ (Courier Mail Printing Service: Brisbane.)
Fair, J. L., Peters, D. P., and Lauenroth, W. K. (2001). Response of individual Bouteloua gracilis (Gramineae) plants and tillers to small disturbances. American Midland Naturalist 145, 147–158.
| Response of individual Bouteloua gracilis (Gramineae) plants and tillers to small disturbances.Crossref | GoogleScholarGoogle Scholar |
Furnas, M. (2003). ‘Catchments and Corals: Terrestrial Runoff to the Great Barrier Reef.’ (Australian Institute of Marine Science: Townsville.)
Genstat (2002). ‘Genstat for Windows. Release 6.1.’ (VSN International: Oxford.)
Gibb, K. S., Beard, J., O’Reagain, P. J., Christian, K., Torov, V., and Ophel-Keller, K. (2008). Assessing the relationship between patch type and soil mites: a molecular approach. Pedobiologia 51, 445–461.
| Assessing the relationship between patch type and soil mites: a molecular approach.Crossref | GoogleScholarGoogle Scholar |
Hendricksen, R. E., Myles, D. J., Reid, D. J., and Orr, D. M. (2010). Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 3. Diet composition in autumn. Animal Production Science 50, 276–283.
| Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 3. Diet composition in autumn.Crossref | GoogleScholarGoogle Scholar |
Isbell, R. F. (1996). ‘The Australian Soil Classification.’ (CSIRO Publishing: Melbourne.)
Jones, P., Filet, P., and Orr, D. M. (2009). Demography of three perennial grasses in a central Queensland Eucalypt woodland. The Rangeland Journal 31, 427–437.
| Demography of three perennial grasses in a central Queensland Eucalypt woodland.Crossref | GoogleScholarGoogle Scholar |
Lauenroth, W. K., and Adler, P. B. (2008). Demography of perennial grasslands plants: survival, life expectancy and life span. Journal of Ecology 96, 1023–1032.
| Demography of perennial grasslands plants: survival, life expectancy and life span.Crossref | GoogleScholarGoogle Scholar |
Mann, T. H. (1993). Flexibility – the key to managing a northern beef property. In: ‘Proceedings XVIIth International Grasslands Congress’. (Eds M. J. Baker, J. R. Crush and L. R. Humphries.) pp. 1961–1964. (New Zealand Grassland Association: Palmerston North.)
McIvor, J. G. (2004). Pasture management in semi-arid tropical woodlands: levels of germinable seeds in soil and faeces of cattle grazing Stylosanthes pastures. Tropical Grasslands 38, 129–139.
McIvor, J. G. (2007). Pasture management in semi-arid tropical woodlands: dynamics of perennial grasses. The Rangeland Journal 29, 87–100.
| Pasture management in semi-arid tropical woodlands: dynamics of perennial grasses.Crossref | GoogleScholarGoogle Scholar |
McIvor, J. G., and Gardener, C. J. (1994). Germinable soil seed banks in native pastures in north-eastern Australia. Australian Journal of Experimental Agriculture 34, 1113–1119.
| Germinable soil seed banks in native pastures in north-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
McIvor, J. G., and Gardener, C. J. (1995). Pasture management in semi-arid tropical woodlands: effects on herbage yields and botanical composition. Australian Journal of Experimental Agriculture 35, 705–715.
| Pasture management in semi-arid tropical woodlands: effects on herbage yields and botanical composition.Crossref | GoogleScholarGoogle Scholar |
McKeon, G. M., Hall, W. B., Henry, B. K., Stone, G. S., and Watson, I. W. (2004). ‘Pasture Degradation and Recovery in Australia’s Rangelands: Learning from History.’ (Queensland Department of Natural Resources, Mines and Energy: Brisbane.)
Northup, B. K., Brown, J. R., and Ash, A. J. (2005). Grazing impacts on spatial distribution of soil and herbaceous characteristics in Australian tropical woodland. Agroforestry Systems 65, 137–150.
| Grazing impacts on spatial distribution of soil and herbaceous characteristics in Australian tropical woodland.Crossref | GoogleScholarGoogle Scholar |
O’Connor, T. G. (1991). Local extinction in perennial grasslands: a life history approach. American Naturalist 137, 753–773.
| Local extinction in perennial grasslands: a life history approach.Crossref | GoogleScholarGoogle Scholar |
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.
| Composition and population responses of an African savanna grassland to rainfall and grazing.Crossref | GoogleScholarGoogle Scholar |
O’Connor, T. G. (1995). Transformation of a savanna grassland by drought and grazing. African Journal of Range and Forage Science 12, 53–60.
| Transformation of a savanna grassland by drought and grazing.Crossref | GoogleScholarGoogle Scholar |
O’Reagain, P. J., and Bushell, J. J. (2008). Sustainable and profitable grazing management in a highly variable environment – evidence and insights from a long term grazing trial in northern Australia. In: ‘Multifunctional Grasslands in a Changing World. Proceedings of the XXI International Grassland Congress-VII International Rangeland Congress’. Hohhot, Inner Mongolia. pp. 14–19. (Guangdong People’s Publishing House: Beijing.)
O’Reagain, P. J., Bushell, J. J., Holloway, C., and Reid, A. (2009). Managing for rainfall variability: effect of grazing strategy on cattle production in a dry tropical savanna. Animal Production Science 49, 85–99.
| Managing for rainfall variability: effect of grazing strategy on cattle production in a dry tropical savanna.Crossref | GoogleScholarGoogle Scholar |
O’Reagain, P. J., Bushell, J. J., and Holmes, W. E. (2011). Managing for rainfall variability: long-term profitability of different grazing strategies in a northern Australian tropical savanna. Animal Production Science 51, 210–224.
| Managing for rainfall variability: long-term profitability of different grazing strategies in a northern Australian tropical savanna.Crossref | GoogleScholarGoogle Scholar |
Orchard, B. A., Cullis, B. R., Coombes, N. E., Virgona, J. M., and Klein, T. (2000). Grazing management studies within the Temperate Pasture Sustainability Key Program: experimental design and statistical analysis. Australian Journal of Experimental Agriculture 40, 143–154.
| Grazing management studies within the Temperate Pasture Sustainability Key Program: experimental design and statistical analysis.Crossref | GoogleScholarGoogle Scholar |
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. (1999). Effects of residual dormancy on the soil seed banks of tropical pastures. Tropical Grasslands 33, 18–21.
Orr, D. M. (2004). Dynamics of plant populations in Heteropogon contortus (black speargrass) pastures on a granite landscape in southern Queensland. 4. The effects of burning on H. contortus and Aristida spp. populations. Tropical Grasslands 38, 77–87.
Orr, D. M., and 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.
| Using fire to manage species composition in Heteropogon contortus (black speargrass) pastures. 2. Enhancing the effects of fire with grazing management.Crossref | GoogleScholarGoogle Scholar |
Orr, D. M., Burrows, W. H., Hendricksen, R. E., Clem, R. L., Back, P. V., Rutherford, M. T., Myles, D. J., and Conway, M. J. (2010b). Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 1. Pasture yield and composition. Crop & Pasture Science 61, 170–181.
| Impacts of grazing management options on pasture and animal productivity in a Heteropogon contortus (black speargrass) pasture in central Queensland. 1. Pasture yield and composition.Crossref | GoogleScholarGoogle Scholar |
Orr, D. M., Paton, C. J., and Blight, G. W. (1996). An improved method for measuring the germinable soil seed bank of tropical pastures. Tropical Grasslands 30, 201–205.
Orr, D. M., Paton, C. J., and Lisle, A. T. (1997). Using fire to manage species composition in Heteropogon contortus (black speargrass) pastures. 1. Burning regimes. Australian Journal of Agricultural Research 48, 795–802.
| Using fire to manage species composition in Heteropogon contortus (black speargrass) pastures. 1. Burning regimes.Crossref | GoogleScholarGoogle Scholar |
Orr, D. M., Paton, C. J., and 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.
Orr, D. M., Paton, C. J., and Playford, C. (2004b). Dynamics of plant populations in Heteropogon contortus (black speargrass) pastures on a granite landscape in southern Queensland. 3. Dynamics of Aristida spp. populations. Tropical Grasslands 38, 65–76.
Orr, D. M., Paton, C. J., and Playford, C. (2004c). Dynamics of plant populations in Heteropogon contortus (black speargrass) pastures on a granite landscape in southern Queensland. 2. Seed production and soil seed banks of H. contortus. Tropical Grasslands 38, 31–41.
Orr, D. M., Yee, M. C., Rutherford, M. T., and Paton, C. J. (2010a). 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 61, 255–267.
| 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.Crossref | GoogleScholarGoogle Scholar |
Rolfe, J., Golding, T., and Cowan, D. (1997). ‘Is Your Pasture Past It?’ Q197083. (Department of Primary Industries: Brisbane.)
Roth, C. H. (2004). A framework relating soil surface condition to infiltration and sediment and nutrient mobilization in grazed rangelands of northeastern Queensland, Australia. Earth Surface Processes and Landforms 29, 1093–1104.
| A framework relating soil surface condition to infiltration and sediment and nutrient mobilization in grazed rangelands of northeastern Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |
Sarukhan, J., and Harper, J. L. (1973). Studies on plant demography: Ranunculus repens, R. bulbosus and R. acris 1. Population flux and survivorship. Journal of Ecology 61, 675–716.
| Studies on plant demography: Ranunculus repens, R. bulbosus and R. acris 1. Population flux and survivorship.Crossref | GoogleScholarGoogle Scholar |
Scanlan, J. C., and McIvor, J. G. (2010). ‘Enhancing Adoption of Best Practice Grazing Management in Northern Australia: Phase One – Integration and Scenario Testing.’ Final Report: Caring for Our Country Project OG084273. (Meat and Livestock Australia: Sydney.)
Scanlan, J. C., MacLeod, N., Whish, G., Cowley, R., and Pahl, L. (2011). Modelling the impact of grazing rest on northern Australian rangelands. In: ‘Proceedings of the IX International Rangeland Conference Diverse Rangelands for a Sustainable Society’. (Eds S. R. Feldman, G. E. Oliva and M. B. Sacido.) p. 31. (Rosario: Argentina.)
Silcock, R. G. (1999). Chrysopogon fallax (golden beardgrass) 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.)
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.’ (Tropical Grassland Society of Australia: Brisbane.)
Tothill, J. C., McDonald, C. K., McHarg, G. W., and Hargreaves, J. N. G. (2008). Development options in Heteropogon contortus grassland in south-east Queensland: tree killing, legume oversowing and pasture replacement. 1. Pasture production and composition. Tropical Grasslands 42, 129–151.
Wright, G. W., and Van Dyne, G. M. (1976). Environmental factors influencing semidesert grassland perennial grass demography. The Southwestern Naturalist 21, 259–274.
| Environmental factors influencing semidesert grassland perennial grass demography.Crossref | GoogleScholarGoogle Scholar |