Track 3-1-1: Multi‐Stakeholder Platforms for Addressing Grassland Issues and Sustainable Use of Forage and Grassland Resources
Description
Mixed farming pasture-crop rotation systems in southern Australia have traditionally relied on subterranean clover and annual medics. Concern over the long-term persistence of these species was raised in the 1980‟s with the cessation of manufacture of suction harvesters required for seed production. Subsequently, their adaptation has been tested due to climate change. More frequent droughts, particularly the millennium drought (2002-2009), increased incidence of false breaks and dry spring conditions causing decline or complete loss of seedbank reserves and failure of new sowings. A concerted effort developing new legume species for Australian farming systems, led by Western Australia, resulted in domestication of biserrula, bladder clover and gland clover and development of new cultivars of French and yellow serradella. These species/varieties possess characteristics including one or more of the following: higher hard seed content, deeper root systems, greater acid soil tolerance in symbiosis, increased herbage and seed production, wider tolerance to pest and diseases. They can also be harvested with conventional cereal harvesters reducing seed cost and enabling farmers to produce their own seed (Loi et al., 2005). A survey of farmers showed adoption of new species was limited by a lack of detailed management information on how to grow and manage them, to maximise their impact on crop and livestock productivity (Hackney et al., 2012). This paper reports on efforts made over a decade by a multidisciplinary WA and NSW team of plant breeders, rhizobiologists, agronomists and animal scientists, formed to develop new self-sustaining pasture-crop rotation systems to fill the void left by the failure of traditional rotation systems. The critical role and early recruitment of „champion‟ farmers in achieving the successful adoption of new technology is discussed, as is the difficulty in organizing and funding systems research.
Citation
Hackney, Belinda; Loi, Angelo; Nutt, Bradley; Yates, Ronald; Quinn, Jane; Jenkins, Janelle; Plitz, John; O'Hare, Michael; Butcher, Colin; Butcher, Anna; Weston, Leslie; Lemerle, Deirdre; Wolfe, Ted; and Howieson, John, "Revolutionary Self-Sustaining Pasture-Crop Rotation Systems Developed by Researcher-Farmer Collaboration for Southern Australian Farming Systems" (2020). IGC Proceedings (1993-2023). 1.
https://uknowledge.uky.edu/igc/23/3-1-1/1
Included in
Revolutionary Self-Sustaining Pasture-Crop Rotation Systems Developed by Researcher-Farmer Collaboration for Southern Australian Farming Systems
Mixed farming pasture-crop rotation systems in southern Australia have traditionally relied on subterranean clover and annual medics. Concern over the long-term persistence of these species was raised in the 1980‟s with the cessation of manufacture of suction harvesters required for seed production. Subsequently, their adaptation has been tested due to climate change. More frequent droughts, particularly the millennium drought (2002-2009), increased incidence of false breaks and dry spring conditions causing decline or complete loss of seedbank reserves and failure of new sowings. A concerted effort developing new legume species for Australian farming systems, led by Western Australia, resulted in domestication of biserrula, bladder clover and gland clover and development of new cultivars of French and yellow serradella. These species/varieties possess characteristics including one or more of the following: higher hard seed content, deeper root systems, greater acid soil tolerance in symbiosis, increased herbage and seed production, wider tolerance to pest and diseases. They can also be harvested with conventional cereal harvesters reducing seed cost and enabling farmers to produce their own seed (Loi et al., 2005). A survey of farmers showed adoption of new species was limited by a lack of detailed management information on how to grow and manage them, to maximise their impact on crop and livestock productivity (Hackney et al., 2012). This paper reports on efforts made over a decade by a multidisciplinary WA and NSW team of plant breeders, rhizobiologists, agronomists and animal scientists, formed to develop new self-sustaining pasture-crop rotation systems to fill the void left by the failure of traditional rotation systems. The critical role and early recruitment of „champion‟ farmers in achieving the successful adoption of new technology is discussed, as is the difficulty in organizing and funding systems research.