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Plant sciences, sustainable farming systems and food quality
SUMMARY

Australian Legume Research – synthesis and future directions

J. M. Virgona A F , C. Harris B , S. Kemp C , J. Evans D and R. Salmon E
+ Author Affiliations
- Author Affiliations

A EH Graham Centre for Agricultural Innovation (NSW Department of Primary Industries and Charles Sturt University), Wagga Wagga Agricultural Institute, PMB, Wagga Wagga, NSW 2650, Australia.

B NSW Department of Primary Industries, 444 Strathbogie Road, Glen Innes, NSW 2370, Australia.

C PastureWise Pty Ltd, 1485 Bamganie Road, Cargerie, Vic. 3334, Australia.

D Dairy Australia, Level 5, IBM Centre, 60 City Road, Southbank, Vic. 3006, Australia.

E PGG Wrightson Seeds (Australia), 7–9 Distribution Drive, Truganina, Vic. 3029, Australia.

F Corresponding author. Email: jvirgona@csu.edu.au

Crop and Pasture Science 63(9) 918-926 https://doi.org/10.1071/CP12191
Submitted: 4 May 2012  Accepted: 30 October 2012   Published: 10 December 2012

Abstract

The Australian Legumes Symposium was the first in a planned series of regular technical symposia organised by the Australian Grasslands Association. The aim was to provide researchers with the opportunity to interact, present up-to-date reviews on topics related to pasture legume science, present results of current research and participate in planning of future research and development relevant to pasture legumes. This paper is intended to be the key output of the forum – a summary of findings and highlights from review and contributed research papers as well as identifying key research priorities for the future. In terms of the former, reviews presented at the symposium provided an overview of the development and role of pasture legumes in temperate farming systems. Closely related topics – nitrogen (N) fixation, N balance of farming systems and management of legume inoculation provided a focus on the importance of legumes in terms of N input and overall productivity. International perspectives on lucerne – its improvement and adoption provided a noticeable contrast to the apparent paucity of research into this species in Australia – despite its widespread use in temperate farming systems. In terms of content, there were many other papers delivered dealing with a wide diversity of relevant issues. On one hand the diversity of work in pasture legume research and development may stem from the wide array of expertise available in Australia and New Zealand, while on the other it might suggest that research and development inputs are being thinly spread over a large number of species.

With respect to determining research priorities, it was surprising that participants were most concerned with how research is funded and conducted and the need to address this by reconsidering current arrangements. A greater role for economic analysis in determining research priorities was foreshadowed. The identification and management of acid-tolerant perennial legumes for higher rainfall zone permanent pastures was nominated as a major research priority, as was the need to address problems related to pre-inoculation of legume seed. The clear message from the symposium was that there needs to be a reorganisation of pasture legume improvement in order for gains to be effectively realised, and to maintain research and development capacity.


References

Angus JF (2001) Nitrogen supply and demand in Australian agriculture. Australian Journal of Experimental Agriculture 41, 277–288.
Nitrogen supply and demand in Australian agriculture.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXkt1CrsbY%3D&md5=6bc2f63475c9af917c6e06b78f8e746dCAS |

Angus JF, Peoples MB (2012) Nitrogen from Australian dryland pastures. Crop & Pasture Science 63, 746–758.

Bouton JH (2012a) An overview of the role of lucerne (Medicago sativa L.) in pastoral agriculture. Crop & Pasture Science 63, 734–738.

Bouton J (2012b) Persistence in lucerne. Crop & Pasture Science 63, 95–106.
Persistence in lucerne.Crossref | GoogleScholarGoogle Scholar |

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.
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.Crossref | GoogleScholarGoogle Scholar |

Collins WJ (1993) Workshop Overview. In ‘Alternative Pasture Legumes 1993’. Primary Industries of South Australia, Technical Report 219. (Eds DL Michalk, AD Craig, WJ Collins) pp. 94–96. (SARDI: Adelaide)

de Lucas Arbiza A, Rochfort S, Panter S, Smith KF, Mouradov A, Spangenberg GC (2012) Biosafety studies for the release of alfalfa mosaic virus resistant transgenic white clover (Trifolium repens L.). In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 27. (Australian Grasslands Association: Tooboorac, Vic.)

Dear BS, Reed KFM, Craig AD (2008) Outcomes of the search for new perennial and salt tolerant pasture plants for southern Australia. Australian Journal of Experimental Agriculture 48, 578–588.
Outcomes of the search for new perennial and salt tolerant pasture plants for southern Australia.Crossref | GoogleScholarGoogle Scholar |

Donald G (2012) Analysis of feedbase audit. Final Report, Meat and Livestock Australia, Sydney.

Gourley CJP, Weaver DM (2012) Nutrient surpluses in Australian grazing systems: management practices, policy approaches, and difficult choices to improve water quality. Crop & Pasture Science 63, 805–818.

Harris C (2012) ‘Proceeding of the Australian Legume Symposium.’ Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) (Australian Grasslands Association: Tooborac, Vic.)

Hartley EJ, Gemell LG, Deaker R (2012) Some factors that contribute to poor survival of rhizobia on preinoculated legume seed. Crop & Pasture Science 63, 858–865.

Hayes RC, Scott BJ, Dear BS, Li GD, Auricht GCl (2011) Seedling validation of acid soil tolerance of lucerne populations selected in solution culture high in aluminium. Crop & Pasture Science 62, 803–811.
Seedling validation of acid soil tolerance of lucerne populations selected in solution culture high in aluminium.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXhsVGktL3L&md5=fa04ebc8f7fab0bf0b080f8aacd13817CAS |

Hochman Z, Osborne GJ, Taylor PA, Cullis B (1990) Factors contributing to reduced productivity of subterranean clover (Trifolium subterraneum L.) pastures on acid soils. Australian Journal of Agricultural Research 41, 669–682.
Factors contributing to reduced productivity of subterranean clover (Trifolium subterraneum L.) pastures on acid soils.Crossref | GoogleScholarGoogle Scholar |

Humphries AW (2012) Future applications of lucerne for efficient livestock production in southern Australia. Crop & Pasture Science 63, 909–917.

Jahufer MZZ, Ford JL, Widdup KH, Harris C, Cousins G, Ayres JF, Lane LA, Hofmann RW, Ballizany WL, Mercer CF, Crush JR, Williams WM, Woodfield DR, Barrett BA (2012) Improving white clover for Australasia. Crop & Pasture Science 63, 739–745.

Khumalo Q, Moot DY, Wigley K (2012) Yield, final population and emergence of seed treated lucerne (Medica sativa L.) sown on five dates. In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 58. (Australian Grasslands Association: Tooboorac, Vic.)

Labandera M, Rosello F, Panter S, John U, Mouradov A, Spangenberg GC (2012) Transgenic white clover (Trifolium repens L.) plants with modified organic acid biosynthesis for aluminium tolerance. In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 24. (Australian Grasslands Association: Tooboorac, Vic.)

Lattimore M, Christie J, McCormick L (2010) ‘Pasture varieties used in NSW 2010–2011.’ NSW I&I and Grassland Society of NSW Inc. (Bookbound Publishing P/L: Goolma)

Lin YH, Ludlow E, Schrauf G, Rush P, Iannicelli M, Garcia A, Garcia J, Panter S, Mouradov A, Spangenberg GC (2012) LXR™ transgenic white clover plants (Trifolium repens L.) with delayed lead senescence, increased seed yield and improved stress tolerance. In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 26. (Australian Grasslands Association: Tooboorac, Vic.)

Moot DJ (2012) An overview of dryland legume research in New Zealand. Crop & Pasture Science 63, 726–733.

Nichols PGH, Revell CK, Humphries AW, Howie JH, Hall EJ, Sandral GA, Ghamkhar K, Harris CA (2012) Temperate pasture legumes in Australia — their history, current use and future prospects. Crop & Pasture Science 63, 691–725.

Nutt B, Loi A (2012) Challenges for annual pasture legumes in crop rotations. In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 8. (Australian Grasslands Association: Tooboorac, Vic.)

Peck DM, Howie JH (2012) Development of an early season barrel medic (Medicago truncatula Gaertn.) with tolerance to sulfonymurea herbicide residues. Crop & Pasture Science 63, 866–874.

Peoples MB, Baldock JA (2001) Nitrogen dynamic of pastures: nitrogen fixation inputs, the impact of legumes on soil nitrogen fertility, and the contributions of fixed nitrogen to Australian farming systems. Australian Journal of Experimental Agriculture 41, 327–346.
Nitrogen dynamic of pastures: nitrogen fixation inputs, the impact of legumes on soil nitrogen fertility, and the contributions of fixed nitrogen to Australian farming systems.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXkt1Crtrw%3D&md5=0ff51c42b388da7654025c9d4c32eea8CAS |

Peoples MB, Gault RR, Scammell GJ, Dear BS, Virgona J, Sandral GA, Paul J, Wolfe EC, Angus JF (1998) The effect of pasture management on the contributions of fixed N to the N-economy of ley-farming systems. Australian Journal of Agricultural Research 49, 459–474.
The effect of pasture management on the contributions of fixed N to the N-economy of ley-farming systems.Crossref | GoogleScholarGoogle Scholar |

Peoples MB, Brockwell J, Hunt JR, Swan AD, Watson L, Hayes RC, Li GD, Hackney B, Nuttall JG, Davies SL, Fillery IRP (2012) Factors affecting the potential contributions of N2 fixation by legumes in Australian pasture systems. Crop & Pasture Science 63, 759–786.

Real D, Sandral GA, Rebuffo M, Hughes SJ, Kelman WM, Mieres JM, Dods K, Crossa J (2012) Breeding of an early-flowering and drought-tolerant Lotus corniculatus variety for the high-rainfall zone of southern Australia. Crop & Pasture Science 63, 848–857.

Revell CK, Ewing MA, Nutt BJ (2012) Breeding and farming system opportunities for pasture legumes facing increasing climate variability in the south-west of Western Australia. Crop & Pasture Science 63, 840–847.

Salmon RW (2012) Introduction. In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 1. (Australian Grasslands Association: Tooboorac, Vic.)

Sandral GA (2012) Challenges for legumes in permanent pastures of the high rainfall zone. In ‘Proceedings of the Australian Legume Symposium’. Australian Grasslands Association Research Series No. 1, Melbourne 2012. (Ed. C Harris) p. 12. (Australian Grasslands Association: Tooboorac, Vic.)

Scott BJ, Ewing MA, Williams R, Humphries AW, Coombes NE (2008) Tolerance of aluminium toxicity in annual Medicago species and lucerne. Australian Journal of Experimental Agriculture 48, 499–511.
Tolerance of aluminium toxicity in annual Medicago species and lucerne.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXivFGqu7g%3D&md5=bb29e88a36d0ed180bc4eb9e9156bfc1CAS |

Scott JF, Lodge GM, McCormick LH (2000) Economics of increasing the persistence of sown pastures: costs, stocking rate and cash flow. Australian Journal of Experimental Agriculture 40, 313–323.
Economics of increasing the persistence of sown pastures: costs, stocking rate and cash flow.Crossref | GoogleScholarGoogle Scholar |

Virgona J, Hildebrand S (2007) Biodiversity of sown pastures: what you sow is not what you get. In ‘From the ground up. Proceedings of the 48th Annual Conference of the Grassland Society of Southern Australia’. Murray Bridge, S. Aust. pp. 33–39. (Grassland Society of Southern Australia Inc.: Echuca, Vic.)

Wilson AD, Simpson RJ (1993) The pasture resource base: status and issues. In ‘Pasture management: technology for the 21st century’. (Eds DR Kemp, DL Michalk) pp. 1–25. (CSIRO Publishing: Melbourne)

Wolfe EC, Dear BS (2001) The population dynamics of pastures with particular reference to southern Australia. In ‘Competition and succession in pastures’. (Eds PG Tow, A Lazenby) pp. 119–148. (CAB International: Wallingford, UK)

Wolfe EC, FitzGerald RD, Hall DG, Southwood OR (1980) Beef production from lucerne and subterranean clover pastures. 1. The effects of pasture, stocking rate and supplementary feeding. Australian Journal of Experimental Agriculture and Animal Husbandry 20, 678–687.
Beef production from lucerne and subterranean clover pastures. 1. The effects of pasture, stocking rate and supplementary feeding.Crossref | GoogleScholarGoogle Scholar |