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PERSPECTIVES ON ANIMAL BIOSCIENCES (Open Access)

Livestock preference and feeding value as key determinants for forage improvement – why not ask the consumers?

Hayley C. Norman https://orcid.org/0000-0002-2660-9573 A * and David G. Masters https://orcid.org/0000-0002-1343-2457 A
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A CSIRO Agriculture and Food, 147 Underwood Avenue, Floreat, WA 6014, Australia.

* Correspondence to: Hayley.Norman@csiro.au

Handling Editor: Ed Charmley

Animal Production Science 63(12) 1161-1176 https://doi.org/10.1071/AN23140
Submitted: 14 April 2023  Accepted: 6 June 2023   Published: 4 July 2023

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

This review presents a new model for a multidisciplinary approach to development of modern forage cultivars to enable high-value meat and wool production in the mixed farming zones of Australia. Many pasture improvement activities focus on biomass production, filling novel agro-ecological niches, fixing nitrogen and phenotypic markers. Key traits that drive profitability of livestock, such as feeding value (FV), and nutritive value (NV), are rarely considered in a timely manner. Farmers are often not seriously engaged until late in the development pipeline. Of the nearly 10 000 publications that reference forage improvement or breeding and Australia, less than 5% also reference ruminant production factors such as FV, metabolisable energy, digestibility, methane or toxicity in the abstract, title or keywords. We make the case that the late engagement of livestock science and farmers results in early discarding of potentially valuable genetic material. This in turn may contribute to market and nutritional limitations that contribute to the high failure rate of new pasture cultivars. Four case studies demonstrated the within and among species variation in FV and NV. The first showed the variability in dry matter digestibility and crude protein of 20 species of herbaceous perennials at different stages of maturity. A second study with annual legumes, grasses and brassicas indicated highly significant differences in the rate of decline of NV over time and across species. The third case study focused on commercial and experimental accessions of lucerne and demonstrated highly significant differences among accessions in NV, with a doubling of livestock growth expected with the lowest and highest NV accessions. These case studies demonstrated the potential risks associated with evaluation of FV and NV after most of the germplasm has been excluded. The final case study described a different model that was used in the identification and commercialisation of a woody perennial species. This process incorporated a multidisciplinary team, farmers and livestock-relevant characteristics from the start. In 9 years, Anameka™ oldman saltbush was selected for higher palatability, 20% higher organic-matter digestibility and eight times more biomass than the average of the original genetic material.

Keywords: cattle, economic value, ley farming, plant breeding, plant quality, production system, silvopastrolism, voluntary feed intake.


References

Al Daini H, Norman HC, Young P, Barrett Lennard EG (2013) The source of nitrogen (NH4+ or NO3) affects the concentration of oxalate in the shoots and the growth of Atriplex nummularia (oldman saltbush). Functional Plant Biology 40, 1057–1064.
The source of nitrogen (NH4+ or NO3) affects the concentration of oxalate in the shoots and the growth of Atriplex nummularia (oldman saltbush).Crossref | GoogleScholarGoogle Scholar |

Badgery W, Li G, Simmons A, Wood J, Smith R, Peck D, Ingram L, Durmic Z, Annette Cowie A, Humphries A, Hutton P, Winslow E, Vercoe P, Eckard R (2023) Reducing enteric methane of ruminants in Australian grazing systems – a review of the role for temperate legumes and herbs. Crop & Pasture Science
Reducing enteric methane of ruminants in Australian grazing systems – a review of the role for temperate legumes and herbs.Crossref | GoogleScholarGoogle Scholar |

Barrett-Lennard EG, George RJ, Hamilton G, Norman HC, Masters DG (2005) Multi-disciplinary approaches suggest profitable and sustainable farming systems for valley floors at risk of salinity. Australian Journal of Experimental Agriculture 45, 1415–1424.
Multi-disciplinary approaches suggest profitable and sustainable farming systems for valley floors at risk of salinity.Crossref | GoogleScholarGoogle Scholar |

Bathgate A, Pannell DJ (2002) Economics of deep-rooted perennials in Western Australia. Agricultural Water Management 53, 117–132.
Economics of deep-rooted perennials in Western Australia.Crossref | GoogleScholarGoogle Scholar |

Bathgate A, Revell C, Kingwell R (2009) Identifying the value of pasture improvement using wholefarm modelling. Agricultural Systems 102, 48–57.
Identifying the value of pasture improvement using wholefarm modelling.Crossref | GoogleScholarGoogle Scholar |

Bell LW, Moore AD (2012) Integrated crop–livestock systems in Australian agriculture: trends, drivers and implications. Agricultural Systems 111, 1–12.
Integrated crop–livestock systems in Australian agriculture: trends, drivers and implications.Crossref | GoogleScholarGoogle Scholar |

Bell LW, Moore GA, Ewing MA, Ryan MH (2006) Production, survival and nutritive value of the perennial legumes Dorycnium hirsutum and D. rectum subjected to different cutting heights. Grass & Forage Science 61, 60–70.
Production, survival and nutritive value of the perennial legumes Dorycnium hirsutum and D. rectum subjected to different cutting heights.Crossref | GoogleScholarGoogle Scholar |

Bell L, McCormick J, Hackney B (2019) Crop–livestock integration in Australia’s mixed farming zone. In ‘Australian Agriculture in 2020: from Conservation to Automation’. (Eds J Pratley, J Kirkegaard) pp. 329–344. (Agronomy Australia and Charles Sturt University: Wagga Wagga, NSW, Australia)

Ben Salem H, Norman HC, Nefzaoui A, Mayberry DE, Pearce KL, Revell DK (2010) Potential use of oldman saltbush (Atriplex nummularia Lindl.) in sheep and goat feeding. Small Ruminant Research 91, 13–28.
Potential use of oldman saltbush (Atriplex nummularia Lindl.) in sheep and goat feeding.Crossref | GoogleScholarGoogle Scholar |

Bennett DL, George RJ, Silberstein R (2012) Changes in run-off and groundwater under saltbush grazing systems: preliminary results of a paired catchment study. Resource Management Technical Report No. 381, Perth, WA, Australia.

Carpenter JA, Casler MD (1990) Divergent phenotypic selection response in smooth bromegrass for forage yield and nutritive-value. Crop Science 30, 17–22.
Divergent phenotypic selection response in smooth bromegrass for forage yield and nutritive-value.Crossref | GoogleScholarGoogle Scholar |

Chen C, Fletcher A, Ota N, Oliver Y, Lawes R (2023) Integrating long fallow into wheat-based cropping systems in Western Australia: spatial pattern of yield and economic responses. Agricultural Systems 204, 103561
Integrating long fallow into wheat-based cropping systems in Western Australia: spatial pattern of yield and economic responses.Crossref | GoogleScholarGoogle Scholar |

Cherney JH, Volenec JJ (1992) Forage evaluation as influenced by environmental replication: a review. Crop Science 32, 841–846.
Forage evaluation as influenced by environmental replication: a review.Crossref | GoogleScholarGoogle Scholar |

Clarivate (2022) Web of ScienceTM. Available at https://www.webofscience.com/wos/woscc/basic-search

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 |

Davies SR, Lane PA (2003) Seasonal changes in feed quality of Dorycnium spp. In ‘The 11th Australian Agronomy Conference’, Geelong, Victoria. (Eds M Unkovich, GJ O’Leary) (Australian Society of Agronomy: Horsham, Vic., Australia). Available at http://www.regional.org.au/au/asa/2003

Edwards T, Howieson J, Nutt B, Yates R, O’Hara G, Van Wyk BE (2019) A ley-farming system for marginal lands based upon a self-regenerating perennial pasture legume. Agronomy for Sustainable Development 39, 13
A ley-farming system for marginal lands based upon a self-regenerating perennial pasture legume.Crossref | GoogleScholarGoogle Scholar |

Elgersma A, Søegaard K (2018) Changes in nutritive value and herbage yield during extended growth intervals in grass–legume mixtures: effects of species, maturity at harvest, and relationships between productivity and components of feed quality. Grass and Forage Science 73, 78–93.
Changes in nutritive value and herbage yield during extended growth intervals in grass–legume mixtures: effects of species, maturity at harvest, and relationships between productivity and components of feed quality.Crossref | GoogleScholarGoogle Scholar |

Ewing EA (2017) Domestication of pasture and forage legumes for Australian farming systems; a personal perspective. In ‘Proceedings of the 18th Australian Agronomy Conference’, 24–28 September 2017, Ballarat, Vic., Australia. (Australian Society of Agronomy Inc.)

Fancote CR, Vercoe PE, Pearce KL, Williams IH, Norman HC (2013) Backgrounding lambs on saltbush provides an effective source of Vitamin E that can prevent Vitamin E deficiency and reduce the incidence of subclinical nutritional myopathy during summer and autumn. Animal Production Science 53, 247–255.
Backgrounding lambs on saltbush provides an effective source of Vitamin E that can prevent Vitamin E deficiency and reduce the incidence of subclinical nutritional myopathy during summer and autumn.Crossref | GoogleScholarGoogle Scholar |

Fortune JA, Cocks PS, McFarlane CK, Smith FP (1995) Distribution and abundance of annual legume seeds in the wheatbelt of Western Australia. Australian Journal of Experimental Agriculture 35, 189–197.
Distribution and abundance of annual legume seeds in the wheatbelt of Western Australia.Crossref | GoogleScholarGoogle Scholar |

Freer M, Moore AD, Donnelly JR (1997) GRAZPLAN: Decision support systems for Australian grazing enterprises: II. The animal biology model for feed intake, production and reproduction and the GrazFeed DSS. Agricultural Systems 54, 77–126.
GRAZPLAN: Decision support systems for Australian grazing enterprises: II. The animal biology model for feed intake, production and reproduction and the GrazFeed DSS.Crossref | GoogleScholarGoogle Scholar |

Friend M, Robertson S, Kennedy A, Thomas D (2018) Developing a mixed farming systems RD&A program. Final report to Meat and Livestock Australia. Appendix 2. p. 1117. Available at https://www.mla.com.au/download/finalreports?itemId=3650

Gildersleeve RR, Smith GR, Pemberton IJ, Gilbert CL (1991) Detection of isoflavones in seedling subterranean clover. Crop Science 31, 889–892.
Detection of isoflavones in seedling subterranean clover.Crossref | GoogleScholarGoogle Scholar |

Hackney B, Edward C, Piltz J, Friend M, Howieson J (2017) Producer perceptions of feedbase limitations to livestock production and requirements for amelioration. In ‘Proceedings of the 18th Australian Society of Agronomy Conference’, 24–28 September 2017, Ballarat, Vic., Australia. (Australian Society of Agronomy Inc.)

Hackney BF, Jenkins J, Powells J, Edwards CE, De Meyer S, Howieson JG, Yates RJ, Orgill SE (2019) Soil acidity and nutrient deficiency cause poor legume nodulation in the permanent pasture and mixed farming zones of south-eastern Australia. Crop & Pasture Science 70, 1128–1140.
Soil acidity and nutrient deficiency cause poor legume nodulation in the permanent pasture and mixed farming zones of south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Hackney B, Rodham C, Dyce G, Piltz J (2021) Pasture legumes differ in herbage production and quality throughout spring, impacting their potential role in fodder conservation and animal production. Grass and Forage Science 76, 116–133.
Pasture legumes differ in herbage production and quality throughout spring, impacting their potential role in fodder conservation and animal production.Crossref | GoogleScholarGoogle Scholar |

Hobbs TJ, Bennell M (2008) Agroforestry species profiles for lower rainfall regions of southeastern Australia FloraSearch. 1b. Report to the Joint Venture Agroforestry Program (JVAP) and Future Farm Industries CRC. Published by RIRDC, Canberra, ACT, Australia. Available at https://rirdc.infoservices.com.au/downloads/07-080

Howieson JG, O’Hara GW, Carr SJ (2000) Changing roles for legumes in Mediterranean agriculture: developments from an Australian perspective. Field Crops Research 65, 107–122.
Changing roles for legumes in Mediterranean agriculture: developments from an Australian perspective.Crossref | GoogleScholarGoogle Scholar |

Humphries AW, Auricht GC (2001) Breeding lucerne for Australia’s southern dryland cropping environments. Australian Journal of Agricultural Research 52, 153–169.
Breeding lucerne for Australia’s southern dryland cropping environments.Crossref | GoogleScholarGoogle Scholar |

IP Australia (2022) ‘Plant breeders rights database.’ (IP Australia, Australian Government: Canberra, ACT, Australia) Available at www.ipaustralia.gov.au/get-theright-ip/plant-breeders-rights

Kelman WM, Blumenthal MJ, O’Connor JW, Borchard PA (2007) Lotus uliginosus (greater lotus) breeding line LUX97: a high seed producing, low condensed tannin population. Australian Journal of Experimental Agriculture 47, 116–118.
Lotus uliginosus (greater lotus) breeding line LUX97: a high seed producing, low condensed tannin population.Crossref | GoogleScholarGoogle Scholar |

Lane PA, Davies SR, Hall EJ, Moore GA (2004) Dorycnium species as alternative forage plants. Report No. 04/159. Rural Industries Research and Development Corporation, Canberra, ACT, Australia.

Lawes R, Mata G, Richetti J, Fletcher A, Herrmann C (2022) Using remote sensing, process-based crop models, and machine learning to evaluate crop rotations across 20 million hectares in Western Australia. Agronomy for Sustainable Development 42, 120
Using remote sensing, process-based crop models, and machine learning to evaluate crop rotations across 20 million hectares in Western Australia.Crossref | GoogleScholarGoogle Scholar |

Leroy F, Smith N, Adesogan AT, Beal T, Iannotti L, Moughan PJ, Mann N (2023) The role of meat in the human diet: evolutionary aspects and nutritional value. Animal Frontiers 13, 11–18.
The role of meat in the human diet: evolutionary aspects and nutritional value.Crossref | GoogleScholarGoogle Scholar |

Loi A, Howieson JG, Nutt BJ, Carr SJ (2005) A second generation of annual pasture legumes and their potential for inclusion in Mediterranean-type farming systems. Australian Journal of Experimental Agriculture 45, 289–299.
A second generation of annual pasture legumes and their potential for inclusion in Mediterranean-type farming systems.Crossref | GoogleScholarGoogle Scholar |

Loi A, Franca A, Nutt BJ, Yates RJ, D’Antuono MF, Howieson JG (2015) Important ecological traits for selecting Biserrula pelecinus L. (biserrula) genotypes for their potential introduction into agricultural systems. Grass and Forage Science 70, 519–529.
Important ecological traits for selecting Biserrula pelecinus L. (biserrula) genotypes for their potential introduction into agricultural systems.Crossref | GoogleScholarGoogle Scholar |

Masters DG (2015) Assessing the feeding value of halophytes. In ‘Halophytic and salt tolerant feedstuffs: impacts on nutrition, physiology and reproduction of livestock’. (Eds HM El Shaer, V Squires) pp. 89–104. (CRC Press: Boca Raton, FL, USA)

Masters DG, Norman HC, Barrett-Lennard EG (2005) Agricultural systems for saline soil: The potential role of livestock. Asian-Australasian Journal of Animal Sciences 18, 296–300.

Masters DG, Mata G, Revell CK, Davidson RH, Norman HC, Nutt BJ, Solah V (2006) The effects of Prima gland clover (Trifolium glanduliferum Boiss cv Prima) consumption on sheep production and meat quality. Australian Journal of Experimental Agriculture 46, 291–297.
The effects of Prima gland clover (Trifolium glanduliferum Boiss cv Prima) consumption on sheep production and meat quality.Crossref | GoogleScholarGoogle Scholar |

Masters DG, Benes SE, Norman HC (2007) Biosaline agriculture for forage and livestock production. Agriculture, Ecosystems & Environment 119, 234–248.
Biosaline agriculture for forage and livestock production.Crossref | GoogleScholarGoogle Scholar |

Masters D, Revell D, Norman H (2010) Managing livestock in degrading environments. In ‘Sustainable improvement of animal production and health’. (Eds NE Odongo, M García, GJ Viljoen) pp. 255–268. (Food and Agricultural Organisation fo the United Nations: Rome, Italy)

Masters DG, Norman HC, Thomas DT (2019) Minerals in pastures: are we meeting the needs of livestock? Crop & Pasture Science 70, 1184–1195.
Minerals in pastures: are we meeting the needs of livestock?Crossref | GoogleScholarGoogle Scholar |

Masters DG, Blache D, Lockwood AL, Maloney SK, Norman HC, Refshauge G, Hancock SN (2023) Shelter and shade for grazing sheep: implications for animal welfare and production and for landscape health. Animal Production Science 63, 623–644.
Shelter and shade for grazing sheep: implications for animal welfare and production and for landscape health.Crossref | GoogleScholarGoogle Scholar |

McGrath SR, Sandral GA, Sundermann L, Quinn JC, Weston LA, Friend MA (2021) Liveweight and carcass characteristics of White Dorper and Crossbred lambs grazing lucerne, subterranean clover, biserrula or a choice of subterranean clover plus biserrula in southern Australia. Animal Production Science 61, 1151–1159.
Liveweight and carcass characteristics of White Dorper and Crossbred lambs grazing lucerne, subterranean clover, biserrula or a choice of subterranean clover plus biserrula in southern Australia.Crossref | GoogleScholarGoogle Scholar |

Meat and Livestock Australia (2019) Industry projections 2019: Australian sheep. Available at https://www.mla.com.au/globalassets/mla-corporate/prices--markets/documents/trends--analysis/sheep-projections/mla_australian-sheep-industry-projections-2019.pdf [Accessed 22 September 2022]

Meat and Livestock Australia (2023) Market information statistics database. Available at https://www.mla.com.au/prices-markets/Trends-analysis/mla--awi-sheepmeat-survey/ [Accessed 28 March 2023]

Minson DJ (1990) ‘Forage in ruminant nutrition. Vol. 12.’ (Academic Press)

Monjardino M, Bathgate A, Llewellyn R (2014) Opportunities for plant improvement to increase the value of forage shrubs on low-rainfall mixed farms. Crop & Pasture Science 65, 1057–1067.
Opportunities for plant improvement to increase the value of forage shrubs on low-rainfall mixed farms.Crossref | GoogleScholarGoogle Scholar |

Monjardino M, Loi A, Thomas DT, Revell CK, Flohr BM, Llewellyn RS, Norman HC (2022) Improved legume pastures increase economic value, resilience and sustainability of crop-livestock systems. Agricultural Systems 203, 103519
Improved legume pastures increase economic value, resilience and sustainability of crop-livestock systems.Crossref | GoogleScholarGoogle Scholar |

Moore AD (2014) The case for and against perennial forages in the Australian sheep–wheat zone: modelling livestock production, business risk and environmental interactions. Animal Production Science 54, 2029–2041.
The case for and against perennial forages in the Australian sheep–wheat zone: modelling livestock production, business risk and environmental interactions.Crossref | GoogleScholarGoogle Scholar |

Moore AD, Bell LW, Revell DK (2009) Feed gaps in mixed-farming systems: insights from the Grain & Graze program. Animal Production Science 49, 736–748.
Feed gaps in mixed-farming systems: insights from the Grain & Graze program.Crossref | GoogleScholarGoogle Scholar |

Morrison DA, Bathgate AD (1990) The value of pasture in a dryland farming system. In ‘Annual ryegrass workshop’, Adelaide, SA, Australia. (Waite Agricultural Research Institute, Adelaide, SA, Australia)

Nichols P, Loi A, Nutt B, Snowball R, Revell C (2010) Domestication of new Mediterranean annual pasture legumes. In ‘Sustainable use of genetic diversity in forage and turf breeding’. (Ed. C Huyghe) pp. 137–141. (Springer Science+Business Media BV)

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.
Temperate pasture legumes in Australia: their history, current use, and future prospects.Crossref | GoogleScholarGoogle Scholar |

Norman HC, Masters DG (2010) Predicting the nutritive value of saltbushes (Atriplex spp) with near infrared reflectance spectroscopy. In ‘International Conference on Soils and Groundwater Salinization in Arid Environments’, 11–14 January 2010, Oman.

Norman HC, Freind C, Masters DG, Rintoul AJ, Dynes RA, Williams IH (2004) Variation within and between two saltbush species in plant composition and subsequent selection by sheep. Australian Journal of Agricultural Research 55, 999–1007.
Variation within and between two saltbush species in plant composition and subsequent selection by sheep.Crossref | GoogleScholarGoogle Scholar |

Norman HC, Masters DG, Rintoul AJ, Wilmott MG, Jayasena V, Loi A, Revell CK (2005) The relative feeding value of a new pasture legume, eastern star clover (Trifolium dasyurum) compared to subterranean clover (Trifolium subterraneum). Australian Journal of Agricultural Research 56, 637–644.
The relative feeding value of a new pasture legume, eastern star clover (Trifolium dasyurum) compared to subterranean clover (Trifolium subterraneum).Crossref | GoogleScholarGoogle Scholar |

Norman HC, Revell DK, Mayberry DE, Rintoul AJ, Wilmot MG, Masters DG (2010) Comparison of in vivo organic matter digestibility of native Australian shrubs to in vitro and in sacco predictions. Small Ruminant Research 91, 69–80.
Comparison of in vivo organic matter digestibility of native Australian shrubs to in vitro and in sacco predictions.Crossref | GoogleScholarGoogle Scholar |

Norman HC, Hughes SJ, Hulm E, Humphries AW, Oldach K, Revell DK, Durmic Z, Vadhanabhuti J, Vercoe PE (2013) Improving the feeding value of dryland lucerne in Australia. In ‘Proceedings of the 22nd International Grasslands Congress’, 14–19 September 2013, Sydney, NSW, Australia. (New South Wales Department of Primary Industry)

Norman HC, Duncan EG, Masters DG (2019) Halophytic shrubs accumulate minerals associated with antioxidant pathways. Grass and Forage Science 74, 345–355.
Halophytic shrubs accumulate minerals associated with antioxidant pathways.Crossref | GoogleScholarGoogle Scholar |

Norman HC, Hulm E, Humphries AW, Hughes SJ, Vercoe PE (2020) Broad near-infrared spectroscopy calibrations can predict the nutritional value of >100 forage species within the Australian feedbase. Animal Production Science 60, 1111–1122.
Broad near-infrared spectroscopy calibrations can predict the nutritional value of >100 forage species within the Australian feedbase.Crossref | GoogleScholarGoogle Scholar |

Norman HC, Humphries AW, Hulm E, Young P, Hughes SJ, Rowe T, Peck DM, Vercoe PE (2021) Productivity and nutritional value of 20 species of perennial legumes in a low-rainfall Mediterranean-type environment in southern Australia. Grass and Forage Science 76, 134–158.
Productivity and nutritional value of 20 species of perennial legumes in a low-rainfall Mediterranean-type environment in southern Australia.Crossref | GoogleScholarGoogle Scholar |

Nutt BJ, Loi A, Hackney B, Yates RJ, D’Antuono M, Harrison RJ, Howieson JG (2021) ‘Summer sowing’: a successful innovation to increase the adoption of key species of annual forage legumes for agriculture in Mediterranean and temperate environments. Grass and Forage Science 76, 93–104.
‘Summer sowing’: a successful innovation to increase the adoption of key species of annual forage legumes for agriculture in Mediterranean and temperate environments.Crossref | GoogleScholarGoogle Scholar |

O’Connell M, Young J, Kingwell R (2006) The economic value of saltland pastures in a mixed farming system in Western Australia. Agricultural Systems 89, 371–389.
The economic value of saltland pastures in a mixed farming system in Western Australia.Crossref | GoogleScholarGoogle Scholar |

Parr-Smith G (1982) Biogeography and evolution in the shrubby Australian species of Atriplex (Chenopodiaceae). In ‘Evolution of the Flora and Fauna of Arid Australia’. (Eds W Barker, P Greenslade) pp. 291–299. (Peacock Publications: Frewville, SA, Australia)

Pearce KL, Norman HC, Hopkins DL (2010) The role of saltbush-based pasture systems for the production of high quality sheep and goat meat. Small Ruminant Research 91, 29–38.
The role of saltbush-based pasture systems for the production of high quality sheep and goat meat.Crossref | GoogleScholarGoogle Scholar |

Perret E (2015) Are we killing the Golden Sheep? The changing size and composition of the Australian sheep flock: implications for production and profitability. Australasian Agribusiness Perspectives Paper 101. The University of Melbourne, Melbourne School of Land and Environment.

Rasmussen S, Parsons AJ, Xue H, Liu Q, Jones CS, Ryan GD, Newman JA (2014) Transcript profiling of fructan biosynthetic pathway genes reveals association of a specific fructosyltransferase isoform with the high sugar trait in Lolium perenne. Journal of Plant Physiology 171, 475–485.
Transcript profiling of fructan biosynthetic pathway genes reveals association of a specific fructosyltransferase isoform with the high sugar trait in Lolium perenne.Crossref | GoogleScholarGoogle Scholar |

Reed KFM (1994) Improved grass cultivars increase milk and meat production: a review. New Zealand Journal of Agricultural Research 37, 277–286.
Improved grass cultivars increase milk and meat production: a review.Crossref | GoogleScholarGoogle Scholar |

Reed KFM (2014) Perennial pasture grasses: an historical review of their introduction, use and development for southern Australia. Crop & Pasture Science 65, 691–712.
Perennial pasture grasses: an historical review of their introduction, use and development for southern Australia.Crossref | GoogleScholarGoogle Scholar |

Ridley AM, Pannell DJ (2005) The role of plants and plant-based research and development in managing dryland salinity in Australia. Australian Journal of Experimental Agriculture 45, 1341–1355.
The role of plants and plant-based research and development in managing dryland salinity in Australia.Crossref | GoogleScholarGoogle Scholar |

Shenk JS, Westerhaus MO (1982) Selection for yield and quality in orchardgrass. Crop Science 22, 422–425.
Selection for yield and quality in orchardgrass.Crossref | GoogleScholarGoogle Scholar |

Smith KF, Ludemann C, Lewis CD, Malcolm B, Banks RG, Jacobs JL, Fennessy PF, Spangenberg GC (2014) Estimating the value of genetic gain in perennial pastures with emphasis on temperate species. Crop & Pasture Science 65, 1230–1237.
Estimating the value of genetic gain in perennial pastures with emphasis on temperate species.Crossref | GoogleScholarGoogle Scholar |

Thomas DT, White CL, Hardy J, Collins JP, Ryder A, Norman HC (2009) An on-farm evaluation of the capability of saline land for livestock production in southern Australia. Animal Production Science 49, 79–83.
An on-farm evaluation of the capability of saline land for livestock production in southern Australia.Crossref | GoogleScholarGoogle Scholar |

Thomas DT, Flohr BM, Monjardino M, Loi A, Llewellyn RS, Lawes RA, Norman HC (2021) Selecting higher nutritive value annual pasture legumes increases the profitability of sheep production. Agricultural Systems 194, 103272
Selecting higher nutritive value annual pasture legumes increases the profitability of sheep production.Crossref | GoogleScholarGoogle Scholar |

Ulyatt MJ (1973) The feeding value of herbage. In ‘Chemistry and biochemistry of herbage.’ (Eds GW Butler, RW Bailey) pp. 131–178. (Academic Press: London, UK)

Wilmot MG, Norman HC, Hendry J, Young P, Hulm E, Harrison R, Toovey A, Spiers J (2023) Sheep grazing Trigonella balansae had productivity, health and meat quality similar to sheep grazing subterranean clover or French serradella. Animal Production Science 63, 152–167.
Sheep grazing Trigonella balansae had productivity, health and meat quality similar to sheep grazing subterranean clover or French serradella.Crossref | GoogleScholarGoogle Scholar |

Witcombe JR, Packwood AJ, Raj AGB, Virk DS (1998) The extent and rate of adoption of modern cultivars in India. In ‘Seeds of choice: making the most of new varieties for small farmer’. (Eds JR Witcombe, DS Virk, J Farrington) pp. 53–58. (Oxford IBH: New Delhi, India; and Intermediate Technology Publications: London, UK)

Witcombe JR, Gyawali S, Sunwar S, Sthapit BR, Joshi KD (2006) Participatory plant breeding is better described as highly client-oriented plant breeding. II. Optional farmer collaboration in the segregating generationss. Experimental Agriculture 42, 79–90.
Participatory plant breeding is better described as highly client-oriented plant breeding. II. Optional farmer collaboration in the segregating generationss.Crossref | GoogleScholarGoogle Scholar |

Young M, Kingwell R, Young J, Vercoe P (2020) An economic analysis of sheep flock structures for mixed enterprise Australian farm businesses. Australian Journal of Agricultural and Resource Economics 64, 677–699.
An economic analysis of sheep flock structures for mixed enterprise Australian farm businesses.Crossref | GoogleScholarGoogle Scholar |

Young M, Vercoe PE, Kingwell RS (2022) Optimal sheep stocking rates for broad-acre farm businesses in Western Australia: a review. Animal Production Science 62, 803–817.
Optimal sheep stocking rates for broad-acre farm businesses in Western Australia: a review.Crossref | GoogleScholarGoogle Scholar |

Zhao Q, Dixon RA (2014) Altering the cell wall and its impact on plant disease: from forage to bioenergy. Annual Review of Phytopathology 52, 69–91.
Altering the cell wall and its impact on plant disease: from forage to bioenergy.Crossref | GoogleScholarGoogle Scholar |