Drivers of trends in Australian canola productivity and future prospects
John A. Kirkegaard A , Julianne M. Lilley A and Malcolm J. Morrison B
+ Author Affiliations
- Author Affiliations
A CSIRO Agriculture, GPO Box 1600, Canberra, ACT 2601, Australia. Email: john.kirkegaard@csiro.au
B Eastern Cereal and Oilseed Research Centre, Agriculture and AgriFood Canada, Central Experimental Farm, 960 Carling Ave., Ottawa, ON., K1A 0C6, Canada.
Crop and Pasture Science 67(4) i-ix https://doi.org/10.1071/CPv67n4_FO
Published: 6 May 2016
References
ABARES (2014) Agricultural commodity statistics. Accessed at: www.daff.gov.au/ABARES/ (July 2014).Angus JF, Kirkegaard JA, Hunt JR, Ryan MH, Ohlander L, Peoples MB (2015) Break crops and rotations for wheat. Crop & Pasture Science 66, 523–552.
| Break crops and rotations for wheat.Crossref | GoogleScholarGoogle Scholar |
AOF (2015) Australian Oilseeds Federation Crop Reports. www.australianoilseeds.com/oilseeds_industry/crop_report_assets
Böttcher U, Rampin E, Hartmann K, Zanetti F, Flenet F, Morison M, Kage H (2016) A phenological model of winter oilseed rape according to the BBCH scale. Crop & Pasture Science 67, 345–358.
Brill RD, Kirkegaard JA, Lilley JM, Menz I, McCaffery D, McMaster C (2015) Early sowing of canola in southern NSW. In ‘GRDC-sponsored Grains Research Update’ Wagga Wagga, NSW, 17–18 February 2015. (Eds J Crane, C James) pp. 197–204. (ORM Communications: Bendigo, Vic.)
Brill RD, Jenkins ML, Gardner MJ, Lilley JM, Orchard BA (2016) Optimising canola establishment and yield in south-eastern Australia with hybrids and large seed. Crop & Pasture Science 67, 409–418.
Buzza G (2007) Canola breeding in the seventies – a personal look back. In ‘Proceedings 15th Biennial Australian Research Assembly on Brassicas’. (ARAB15) Geraldton, 2007. (Eds M Amjad, WA Cowling) pp. 63–68. (Department of Agriculture and Food Western Australia)
Christy B, O’Leary G, Riffkin P, Acuna T, Potter T, Clough A (2013) Long-season canola (Brassica napus L.) cultivars offer potential to substantially increase grain yield production in south-eastern Australia compared with current spring cultivars. Crop & Pasture Science 64, 901–913.
| Long-season canola (Brassica napus L.) cultivars offer potential to substantially increase grain yield production in south-eastern Australia compared with current spring cultivars.Crossref | GoogleScholarGoogle Scholar |
Colton B, Potter T (1999) History. In ‘Canola in Australia: The First Thirty Years’. (Eds PA Salisbury, TD Potter, G McDonald, AG Green) pp. 1–4. (Organising Committee of 10th International Rapeseed Congress) www.regional.org.au/au/gcirc/canola/
Cowling WA (2007) Genetic diversity in Australian canola and implications for crop breeding for changing future environments. Field Crops Research 104, 103–111.
| Genetic diversity in Australian canola and implications for crop breeding for changing future environments.Crossref | GoogleScholarGoogle Scholar |
CSIRO and BOM (2007) ‘Climate change in Australia.’ (CSIRO: Canberra) Available at: www.climatechangeinaustralia.gov.au/en/climate-projections/ (accessed January 2016)
FAO (2003) FAO, 2003 World Agriculture: Towards 2015/2030: An FAO perspective. Available at: www.fao.org/docrep/005/y4252e/y4252e00.htm.
FAOSTAT (2015) FAOSTAT. Available at: www.faostat.fao.org
Fischer RA, Byerlee D, Edmeades GO (2014) Crop yields and global food security: will yield increase continue to feed the world? ACIAR Monograph No. 158, Australian Centre for International Agricultural Research.
French RJ, Seymour M, Malik RS (2016) Plant density response and optimum crop densities for canola (Brassica napus L.) in Western Australia. Crop & Pasture Science 67, 397–408.
GRDC (2009) Canola best practice management guide for south-eastern Australia. (Eds D McCaffery, T Potter, S Marcroft, F Pritchard) (Grains Research and Development Corporation) https://grdc.com.au/uploads/documents/GRDC_Canola_Guide_All_1308091.pdf
Harker KN, O’Donovan JT, Turkington TK, Blackshaw RE, Lupwayi NZ, Smith EG, Johnson EN, Gan Y, Kutcher HR, Dodsdall LM, Peng G (2015) Canola rotational frequency impacts canola yield and associated pest species. Canadian Journal of Plant Science 95, 9–20.
| Canola rotational frequency impacts canola yield and associated pest species.Crossref | GoogleScholarGoogle Scholar |
Hegewald H, Koblenz B, Wensch-Dorendorf M, Christen O (2016) Impacts of high intensity crop rotation and N management on oilseed rape productivity in Germany. Crop & Pasture Science 67, 439–449.
Holland JF, Robertson MJ, Kirkegaard JA, Bambach R, Cawley S (1999) Yield of canola relative to wheat and some reasons for variability in the relationship. In ‘Proceedings 10th International Rapeseed Congress’. September 1999, Canberra, Australia. www.regional.org.au/au/gcirc/2/482.htm
Kirkegaard JA, Sprague SJ, Dove H, Kelman W, Marcroft SJ, Lieschke A, Howe GN, Graham JM (2008) Dual-purpose canola – A new opportunity in mixed farming systems. Australian Journal Agricultural Research 59, 291–302.
| Dual-purpose canola – A new opportunity in mixed farming systems.Crossref | GoogleScholarGoogle Scholar |
Kirkegaard JA, Robertson MJ, Hamblin P, Sprague S (2006) Effect of blackleg and Sclerotinia stem rot on canola yield in the high rainfall zone of southern New South Wales, Australia. Australian Journal of Agricultural Research 57, 201–212.
| Effect of blackleg and Sclerotinia stem rot on canola yield in the high rainfall zone of southern New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |
Kirkegaard JA, Sprague SJ, Lilley JM, McCormick JI, Virgona JM, Morrison MJ (2012) Physiological response of spring canola (Brassica napus) to defoliation in diverse environments. Field Crops Research 125, 61–68.
| Physiological response of spring canola (Brassica napus) to defoliation in diverse environments.Crossref | GoogleScholarGoogle Scholar |
Kirkegaard JA, Lilley JM, Brill RD, Sprague SJ, Fettell NA, Pengilley GC (2016) Re-evaluating sowing time of spring canola (Brassica napus L.) in south-eastern Australia—how early is too early? Crop & Pasture Science 67, 381–396.
Lilley JM, Bell LW, Kirkegaard JA (2015) Optimising grain yield and grazing potential of crops across Australia’s high rainfall zone: A simulation analysis. 2. Canola. Crop & Pasture Science 66, 349–364.
| Optimising grain yield and grazing potential of crops across Australia’s high rainfall zone: A simulation analysis. 2. Canola.Crossref | GoogleScholarGoogle Scholar |
Lu C, Napier JA, Clemente TE, Cahoon EB (2011) New frontiers in oilseed biotechnology: meeting the global demand for vegetable oils for food, feed, biofuel and industrial applications. Current Opinion in Biotechnology 22, 252–259.
| New frontiers in oilseed biotechnology: meeting the global demand for vegetable oils for food, feed, biofuel and industrial applications.Crossref | GoogleScholarGoogle Scholar |
Maher L, Burton W, Salisbury P, Debonte L, Deng X (2007) High Oleic, low linolenic (HOLL) specialty canola development in Australia. In ‘Proceedings of the 12th International Rapeseed Congress’. Vol 5. (Eds T Fu, C. Guan) pp. 22–25. (Organising Committee of the 12th International Rapeseed Congress: Wuhan)
Matthews P, McCaffery D, Jenkins L (2015) Winter crop variety sowing guide 2015. NSW Department of Primary Industries. pp. 76–82. www.dpi.nsw.gov.au
McCormick JI, Virgona JM, Kirkegaard JA (2012) Growth, recovery, and yield of dual-purpose canola (Brassica napus) in the medium-rainfall zone of south-eastern Australia. Crop & Pasture Science 63, 635–646.
| Growth, recovery, and yield of dual-purpose canola (Brassica napus) in the medium-rainfall zone of south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
McCormick JI, Virgona JM, Lilley JM, Kirkegaard JA (2015) Evaluating the feasibility of dual-purpose canola in a medium rainfall zone of south-eastern Australia: a simulation approach. Crop & Pasture Science 66, 318–331.
| Evaluating the feasibility of dual-purpose canola in a medium rainfall zone of south-eastern Australia: a simulation approach.Crossref | GoogleScholarGoogle Scholar |
Mendham NJ, Salisbury PA (1995) Physiology: Crop development, growth and yield. In ‘Brassica oilseeds: production and utilization’. (Eds DS Kimber, DI McGregor) pp. 11–64. (CABI: Wallingford, UK)
Morrison MJ, Stewart DW (2002) Heat stress during flowering in summer Brassica. Crop Science 42, 797–803.
| Heat stress during flowering in summer Brassica.Crossref | GoogleScholarGoogle Scholar |
Morrison MJ, Harker KN, Blackshaw RE, Holzapfel CJ, O’Donovan JT (2016a) Canola yield improvement on the Canadian Prairies from 2000 to 2013. Crop & Pasture Science 67, 245–252.
Morrison MJ, Gutknecht A, Chan J, Miller SS (2016b) Characterising canola pollen germination across a temperature gradient. Crop & Pasture Science 67, 317–322.
Nelson MN, Lilley JM, Helliwell C, Taylor CM, Siddique KHM, Chen S, Raman H, Batley J, Cowling WA (2016) Can genomics assist the phenological adaptation of canola to new and changing environments? Crop & Pasture Science 67, 284–297.
Norton RM (2007) Agronomic research in canola – achievements and challenges. In ‘Proceedings 15th Biennial Australian Research Assembly on Brassicas (ARAB15)’. Geraldton, 2007. (Eds M Amjad, WA Cowling) pp. 90–94. (Department of Agriculture and Food Western Australia)
Norton RM (2016) Nitrogen management to optimise canola production in Australia. Crop & Pasture Science 67, 419–438.
Norton R, Kirkegaard J, Angus J, Potter T (1999). Canola in rotations. In ‘Canola in Australia: The First Thirty Years’. (Eds PA Salisbury, TD Potter, G McDonald, AG Green) pp. 1–4. (Organising Committee of 10th International Rapeseed Congress) www.regional.org.au/au/gcirc/canola/
Pan WL, Young FL, Maaz TM, Huggins DR (2016) Canola integration into semi-arid wheat cropping systems of the inland Pacific Northwestern USA. Crop & Pasture Science 67, 253–265.
Potter T, Burton W, Edwards J, Wratten N, Mailer R, Salisbury P, Pearce A (2016) Assessing progress in breeding to improve grain yield, quality and blackleg (Leptosphaeria maculans) resistance in selected Australian canola cultivars (1978–2012). Crop & Pasture Science 67, 308–316.
Raman R, Diffey S, Carling C, Cowley RB, Kilian A, Luckett DJ, Raman H (2016) Quantitative genetic analysis of grain yield in an Australian Brassica napus doubled-haploid population. Crop & Pasture Science 67, 298–307.
Reynolds M, Tuberosa R (2008) Translational research impacting on crop productivity in drought-prone environments. Current Opinion in Plant Biology 11, 171–179.
| Translational research impacting on crop productivity in drought-prone environments.Crossref | GoogleScholarGoogle Scholar |
Riffkin P, Potter T, Kearney G (2012) Yield performance of late-maturing winter canola (Brassica napus L.) types in the High Rainfall Zone of southern Australia. Crop & Pasture Science 63, 17–32.
| Yield performance of late-maturing winter canola (Brassica napus L.) types in the High Rainfall Zone of southern Australia.Crossref | GoogleScholarGoogle Scholar |
Riffkin P, Christy B, O’Leary G, Partington D (2016) Contribution of phase durations to canola (Brassica napus L.) grain yields in the High Rainfall Zone of southern Australia. Crop & Pasture Science 67, 359–368.
Robertson MJ, Kirkegaard JA (2003) Crop modelling for the Australian canola industry: a review. In ‘13th Australian Research Assembly on Brassicas’. 8–12 September 2003, Tamworth, Australia. (Ed. J Edwards) pp. 65–72.
Robertson MJ, Kirkegaard JA (2005) Water use efficiency of dryland canola in an equi-seasonal rainfall environment. Australian Journal of Agricultural Research 56, 1373–1386.
| Water use efficiency of dryland canola in an equi-seasonal rainfall environment.Crossref | GoogleScholarGoogle Scholar |
Robertson MJ, Lilley JM (2016) Simulation of growth, development and yield of canola (Brassica napus) in APSIM. Crop & Pasture Science 67, 332–344.
Robertson MJ, Watkinson AR, Kirkegaard JA, Holland JF, Potter TD, Burton W, Walton GH, Moot DJ, Wratten N, Farre I, Asseng S (2002a) Environmental and genotypic control of time to flowering in canola and Indian mustard. Australian Journal of Agricultural Research 53, 793–809.
| Environmental and genotypic control of time to flowering in canola and Indian mustard.Crossref | GoogleScholarGoogle Scholar |
Robertson MJ, Holland JF, Cawley S, Potter TD, Burton W, Walton GH (2002b) Growth and yield differences between triazine-tolerant and non-triazine-tolerant cultivars of canola. Australian Journal of Agricultural Research 53, 643–651.
| Growth and yield differences between triazine-tolerant and non-triazine-tolerant cultivars of canola.Crossref | GoogleScholarGoogle Scholar |
Robertson MJ, Rebetzke GJ, Norton RM (2015) Assessing the place and role of crop simulation modelling in Australia. Crop & Pasture Science 66, 877–893.
| Assessing the place and role of crop simulation modelling in Australia.Crossref | GoogleScholarGoogle Scholar |
Salisbury P, Wratten N (1999) Brassica napus breeding. In ‘Canola in Australia: The First Thirty Years’. (Eds PA Salisbury, TD Potter, G McDonald, AG Green) pp. 29–35. (Organising Committee of 10th International Rapeseed Congress) www.regional.org.au/au/gcirc/canola/
Salisbury PA, Cowling WA, Potter TD (2016) Continuing innovation in Australian canola breeding. Crop & Pasture Science 67, 266–272.
Seymour M, Sprigg S, French B, Bucat J, Malik R, Harries M (2016) Nitrogen responses of canola in low to medium rainfall environments of Western Australia. Crop & Pasture Science 67, 450–466.
Sprague SJ, Kirkegaard JA, Graham JM, Bell LW, Seymour M, Ryan M (2015) Forage and grain yield of diverse canola (Brassica napus) maturity types in the high rainfall zone of Australia. Crop & Pasture Science 66, 260–274.
| Forage and grain yield of diverse canola (Brassica napus) maturity types in the high rainfall zone of Australia.Crossref | GoogleScholarGoogle Scholar |
Van de Wouw AP, Marcroft SJ, Howlett BJ (2016) Blackleg disease of canola in Australia. Crop & Pasture Science 67, 273–283.
Verdon-Kidd DC, Kiem AS, Moran R (2014) Links between the Big Dry in Australia and hemispheric multi-decadal climate variability – implications for water resource management. Hydrology and Earth System Sciences 18, 2235–2256.
| Links between the Big Dry in Australia and hemispheric multi-decadal climate variability – implications for water resource management.Crossref | GoogleScholarGoogle Scholar |
Walton G, Mendham N, Robertson M, Potter T (1999) Phenology, physiology and agronomy. In ‘Proceedings of the 10th International Rapeseed Congress’. Canberra, Australia. pp. 9–14. www.regional.org.au/au/gcirc/canola/p-04.htm
Zeleke KT, Luckett DJ, Cowley RB (2014) The influence of soil water conditions on canola yields and production in Southern Australia. Agricultural Water Management 144, 20–32.
| The influence of soil water conditions on canola yields and production in Southern Australia.Crossref | GoogleScholarGoogle Scholar |
Zhang H, Flottmann S (2016) Seed yield of canola (Brassica napus L.) is determined primarily by biomass in a high-yielding environment. Crop & Pasture Science 67, 369–380.
Zhang H, Berger JD, Milroy S (2013) Genotype × environment interaction studies highlight the role of phenology in specific adaptation of canola (Brassica napus) to contrasting Mediterranean climates. Field Crops Research 144, 77–88.
| Genotype × environment interaction studies highlight the role of phenology in specific adaptation of canola (Brassica napus) to contrasting Mediterranean climates.Crossref | GoogleScholarGoogle Scholar |
Zhang H, Berger JD, Seymour M, Brill R, Herrmann C, Quinlan R, Knell G (2016) Relative yield and profit of Australian hybrid compared with open-pollinated canola is largely determined by growing-season rainfall. Crop & Pasture Science 67, 323–331.
Zheng B, Biddulph B, Li D, Kuchel H, Chapman S (2013) Quantification of the effects of VRN1 and Ppd-D1 to predict spring wheat (Triticum aestivum) heading time across diverse environments. Journal of Experimental Botany 64, 3747–3761.
| Quantification of the effects of VRN1 and Ppd-D1 to predict spring wheat (Triticum aestivum) heading time across diverse environments.Crossref | GoogleScholarGoogle Scholar |
