Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

The systematic collection and characterisation of herbaceous forage species for recharge and discharge environments in southern Australia

S. J. Hughes A E F , R. Snowball B E , K. F. M. Reed C D E , B. Cohen B , K. Gajda B , A. R. Williams A and S. L. Groeneweg A
+ Author Affiliations
- Author Affiliations

A South Australian Research and Development Institute, Plant Research Centre, Waite Campus, Adelaide, SA 5001, Australia.

B Department of Agriculture and Food, Western Australia, 3 Baron-Hay Court, South Perth, WA 6151, Australia.

C Department of Primary Industries, Hamilton, Vic. 3300, Australia.

D Present address: Reed Pasture Science, 430 Beveridge Road, Hamilton, Vic. 3300, Australia.

E Cooperative Research Centre for Plant-based Management of Dryland Salinity, 35 Stirling Highway, Crawley, WA 6009, Australia.

F Corresponding author. Email: hughes.steve@saugov.sa.gov.au

Australian Journal of Experimental Agriculture 48(4) 397-408 https://doi.org/10.1071/EA07106
Submitted: 23 April 2007  Accepted: 24 December 2007   Published: 7 March 2008

Abstract

Australian temperate pasture Genetic Resource Centres (GRCs) co-ordinated a major program to introduce and screen herbaceous forage species. This program aims to expand the environments where such species could reduce recharge and manage discharge for the control of dryland salinity in southern Australia. The sustainability of agriculture, in Australia especially, depends on continued access to new germplasm to enable plant breeders to continue crop and forage improvement. The GRCs supported the selection and identification of promising new legume, grass and herb species as part of a national pasture evaluation program. In total, 671 species and 21 non-species-specific genera were identified as having potential to increase water use profitability of recharge lands and to improve the productivity of saline lands across a diverse range of agricultural environments in southern Australia. Through a series of activities, 201 of these species, representing legumes, herbs and grasses were identified as promising. These were then disseminated for evaluation in a range of environments across southern Australia. The progress of selected species was monitored and germplasm of the most promising 11 species and three leguminous genera was targeted for intensive acquisition and characterisation as the basis for selection and breeding. In addition to the identification and dissemination of promising species of immediate potential, a comprehensive collection of 544 native and exotic, wild and cultivated pasture species was conserved and is now available to service future plant improvement programs.

Additional keywords: conservation, genetic resources, perennials.


Acknowledgements

The GRCs acknowledge the contribution of the many countries from which the germplasm was obtained. The efforts of officials, curators, researchers and farmers in these countries have enabled access and conservation of plant material – be it through direct collecting or through collaborative exchange. The GRCs are grateful for the contribution from collaborating researchers, especially those within CRC Salinity SP5 Field Evaluation Program. Special thanks to Brian Dear, Andrew Craig, Daniel Real, Geoff Moore, Alan Humphries, Dean Revell and Graeme Sandral for their assistance in the interpretation, collection and analysis of data. The GRCs also thank Ross Ballard and Ron Yates for rhizobial support. Finally, we acknowledge the financial support for this work, which was provided by the Grains Research and Development Corporation, the CRC for Plant-based Management of Dryland Salinity and State governments.


References


Anderson MW, Cunningham PJ, Reed KFM, Byron A (1999) Perennial grasses of Mediterranean origin offer advantages for Central Western Victorian sheep pasture. Australian Journal of Experimental Agriculture 39, 275–284.
Crossref | GoogleScholarGoogle Scholar | open url image1

Angus JF, Gault RR, Peoples MB, Stapper M, van Herwaarden AF (2001) Soil water extraction by dryland crops, annual pastures, and lucerne in south-eastern Australia. Australian Journal of Agricultural Research 52, 183–192.
Crossref | GoogleScholarGoogle Scholar | open url image1

ANZECC (2001) ‘Review of the National Strategy for the Conservation of Australia’s Biological Diversity.’ (Australian and New Zealand Environment and Conservation Council: Canberra)

Auricht GC, Prosperi JM, Snowball R, Hughes SJ (1999) The characterisation and preliminary evaluation of Medicago and Trifolium germplasm. In ‘Genetic resources of Mediterranean pasture and forage legumes’. (Eds SJ Bennett, PS Cocks) pp. 141–149. (Kluwer Academic Publishers: Dordecht, The Netherlands)

Bennett SJ, Virtue JG (2004) Salinity mitigation versus weed risks – can conflicts of interest in introducing new plants be resolved? Australian Journal of Experimental Agriculture 44, 1141–1156.
Crossref | GoogleScholarGoogle Scholar | open url image1

Bennett SJ, Ayres J, Dear BS, Ewing M, Harris C, et al(2002) ‘Perennial pastures for the recharge areas of southern Australia.’ (CRC for Plant Based Management of Dryland Salinity: Crawley, WA)

Blood K (2001) ‘Environmental weeds: a field guide for SE Australia.’ (C.H. Jerram and Associates Science Publishers: Mt Waverley, Vic.)

Bowman DT (1989) Statistical procedures to measure population variation. In ‘IBGR training courses: lecture series. 2. Scientific management of germplasm: characterisation, evaluation and enhancement’. (Eds H Stalker, C Chapman) pp. 65–75. (Board for Plant Genetic Resources: Rome)

Cocks PS (2001) Ecology of herbaceous perennial legumes: a review of characteristics that may provide management options for the control of salinity and waterlogging in dryland cropping systems. Australian Journal of Agricultural Research 52, 137–151.
Crossref | GoogleScholarGoogle Scholar | open url image1

Crawford E (1983) Selecting cultivars from natural occurring genotypes: evaluating annual Medicago species. In ‘Genetic resources of forage plants’. (Eds JG McIvor, RA Bray) pp. 203–215. (CSIRO Publishing: Melbourne)

Cunningham PJ, Graves WL, Chakroun M, Mezni MY, Saidi S, Bounejmate M, Porqueddu C, Reed KFM (1997) Novel perennial grass germplasm from North Africa and Sardinia. Australian Plant Introduction Review 28, 15–46. open url image1

Dear BS, Ewing MA (2008) The search for new pasture plants to achieve more sustainable production systems in southern Australia. Australian Journal of Experimental Agriculture 48, 387–396. open url image1

Dear BS, Moore GA, Hughes SJ (2003) Adaptation and potential contribution of temperate perennial legumes to the southern Australian wheatbelt: a review. Australian Journal of Experimental Agriculture 43, 1–18.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hamilton R, Hughes SJ, Maxted N (2001) Current ex-situ conservation of forage legumes. In ‘Genetic diversity of legumes species in the Mediterranean’. (Eds N Maxted, SJ Bennett) pp. 263–291. (Kluwer Academic Publishers: Dordecht, The Netherlands)

Humphries AW, Hughes SJ (2006) Preliminary evaluation of diverse lucerne (Medicago sativa sspp.) germplasm to identify new material for livestock and cropping based farming systems in Australia. Australian Journal of Agricultural Research 57, 1297–1306.
Crossref | GoogleScholarGoogle Scholar | open url image1

Li GD, Lodge GM, Moore GA, Craig AD, Dear BS , et al. (2008) Evaluation of perennial pasture legumes and herbs to identify species with high herbage production and persistence in mixed farming zones in southern Australia. Australian Journal of Experimental Agriculture 48, 449–466. open url image1

McKnight TL, Hess D (2000) Climate zones and types: the Köppen System. In ‘Physical geography: a landscape appreciation’. pp. 200–201. (Prentice Hall: Upper Saddle River, NJ)

Nair RM, Whittall A, Revell DK, Dowling K, Hughes SJ, Craig AD, Auricht GC (2006) Effect of defoliation stress on 2-hydroxy cinnamic acid content at different growth stages in Melilotus albus. Australian Journal of Experimental Agriculture 46, 1601–1603.
Crossref | GoogleScholarGoogle Scholar | CAS | open url image1

Nichols PGH, Craig AD, Rogers ME, Albertsen TO, Miller SM, McClements DR, Hughes SJ, D’Antuono MF, Dear BS (2008a) Production and persistence of annual pasture legumes at five saline sites in southern Australia. Australian Journal of Experimental Agriculture 48, 518–535. open url image1

Nichols PGH, Craig , Rogers ME, Craig AD, Albertsen TO, Miller SM, McClements DR, Hughes SJ, D’Antuono MF, Dear BS (2008b) Production and persistence of temperate perennial grasses and legumes at five saline sites in southern Australia. Australian Journal of Experimental Agriculture 48, 536–552. open url image1

Nutt BJ, Loi A (1999) Harvestability of annual Mediterranean pasture legumes using conventional crop machinery. In ‘Herbage seed as a key factor for improving production and environmental quality. Proceedings of the Fourth International Herbage Seed Conference’. (Eds M Falcinelli, D Rosellini) pp. 78–82. (University of Perugia: Perugia, Italy)

Pheloung PC (1995) Determining the weed potential of new plant introduction to Australia. Draft report to the Australian Weeds Committee and the Plant Industries Committee, Agriculture Protection Board, WA.

Pheloung PC (2001) Weed risk assessment for plant introductions. In ‘Weed risk assessment’. (Eds RH Groves, FD Panetta, JG Virtue) pp. 83–92. (CSIRO Publishing: Melbourne)

Real D, Sandral GA, Warden J, Nutt L, Bennett R, Kidd D (2005) Breeding Lotus australis Andrews for low cyanide content. In ‘20th international grasslands congress: offered papers’. (Eds FP O’Mara, RJ Wilkins, L ‘t Mannetje, DK Lovett, PAM Rogers, TM Boland) p. 85. (Wageningen Academic Publishers: Wageningen, The Netherlands)

Reed KFM, Dear BD (1991) The Vavilov Institute and plant genetic resources from the USSR. Australian Plant Introduction Review 22, 1–18. open url image1

Reed KFM, Cunningham PJ, Barrie JT, Chin JF (1987) Productivity and persistence of cultivars and Algerian introductions of perennial ryegrass (Lolium perenne L.) in Victoria. Australian Journal of Experimental Agriculture 27, 267–274.
Crossref | GoogleScholarGoogle Scholar | open url image1

Rhodes I (1984) Herbage legume breeding at the Welsh Plant Breeding Station. In ‘Forage legumes: occasional symposium no. 16’. (Ed. DJ Thomson) pp. 61–65. (British Grassland Society: Hurley, UK)

Rogers ME, Craig AD, Bennett SJ, Malcolm CV, Brown AJ, et al. (2003) ‘Fodder plants for the salt-affected areas of southern Australia.’ (CRC for Plant Based Management of Dryland Salinity: Crawley, WA)

Rogers ME, Craig AD, Munns R, Colmer TD, Nichols PGH , et al. (2005) The potential for developing fodder plants for the salt-affected areas of southern and eastern Australia: an overview. Australian Journal of Experimental Agriculture 45, 301–329.
Crossref | GoogleScholarGoogle Scholar | open url image1

Stone LM, Byrne M, Virtue JG (2008) An environmental weed risk assessment model for Australian forage improvement programs. Australian Journal of Experimental Agriculture 48, 568–574. open url image1

Tyler BF, Chorlton KH, Thomas ID (1987) Collection and field-sampling techniques for forages. In ‘IBPGR training courses: lecture series. 1. Collection, characterisation and utilisation of genetic resources of temperate forage grass and clover’. (Ed. BF Tyler) pp. 3–10. (Board for Plant Genetic Resources: Rome)