Publications

Publications

Hochman, Z., Gobbett, D., & Horan, H. (2017). Changing climate has stalled Australian wheat yields: study. The Conversation, January 24, 2017. page-white-link-icon


Hochman, Z., Gobbett, D. L., & Horan, H. (2017). Climate trends account for stalled wheat yields in Australia since 1990. Global Change Biology. page-white-link-icon


Gobbett, D. L., Hochman, Z., Horan, H., Navarro Garcia, J., Grassini, P., & Cassman, K. G. (2016). Yield gap analysis of rainfed wheat demonstrates local to global relevance. The Journal of Agricultural Science, 155(02), 282-299. page-white-link-icon


Hochman, Z., Gobbett, D., Horan, H., & Navarro Garcia, J. (2016). Data rich yield gap analysis of wheat in Australia. Field Crops Research, 197, 97-106.  page-white-link-icon


Hochman, Z., Gobbett, D., Horan, H., & Navarro Garcia, J. (2015). Visualizing yield gaps in Australia’s wheat cropping zone. Paper presented at 17th Australian Agronomy Conference 2015. “Building Productive, Diverse and Sustainable Landscapes”, Hobart, Tas. page-white-link-icon


Lilley JM, Bell LJ, 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. page-white-link-icon


Fischer, T., D. Byerlee and G. Edmeades (2014). Crop yields and global food security: will yield increase continue to feed the world? ACIAR Monograph No. 158. Canberra, Australian Centre for International Agricultural Research: xxii + 634 pp. PDF_file_document_text_page


Holzworth DP, Huth NI, deVoil PG, et al. (2014). APSIM – Evolution towards a new generation of agricultural systems simulation. Environmental Modelling & Software 62: 327-350. page-white-link-icon


van Rees, H., McClelland, T., Hochman, Z., Carberry, P., Hunt, J., Huth, N. & Holzworth D. (2014). Leading farmers in South East Australia have closed the exploitable wheat yield gap: Prospects for further improvement.” Field Crops Research 164: 1-11. page-white-link-icon


Hochman Z, PS Carberry, MJ Robertson, DS Gaydon, LW Bell, PC McIntosh. (2013). Prospects for ecological intensification of Australian agriculture. European Journal of Agronomy, 44, 109-123. page-white-link-icon


van Ittersum, M.K., Cassman, K.G., Grassini, P., Wolf, J., Tittonell, P., Hochman, Z. 2013. Yield gap analysis with local to global relevance – a review. Field Crops Research, 143, 4-17. PDF_file_document_text_page


van Wart, J., Kersebaum, K. C., Peng, S., Milner, M. & Cassman, K. G. (2013a). Estimating crop yield potential at regional to national scales. Field Crops Research 143(0): 34-43. PDF_file_document_text_page


van Wart, J., van Bussel, L. G. J., Wolf, J., Licker, R., Grassini, P., Nelson, A., Boogaard, H.,Gerber, J., Mueller, N. D., Claessens, L., van Ittersum, M. K. & Cassman, K. G. (2013b). Use of agro-climatic zones to upscale simulated crop yield potential. Field Crops Research 143: 44-55. PDF_file_document_text_page


Hochman, Z., Gobbett, D., Holzworth, D., McClelland, T., van Rees, H., Marinoni, O., Navarro Garcia, J. & Horan, H. (2012). Quantifying yield gaps in rainfed cropping systems: an Australian case study Field Crops Research 136: 85-96. page-white-link-icon


Hochman, Z., Holzworth, D. & Hunt, J. R. (2009). Potential to improve on-farm wheat yield and WUE in Australia. Crop and Pasture Science 60(8): 708-716. page-white-link-icon


Lobell, D. B., K. G. Cassman and C. B. Field (2009). “Crop Yield Gaps: Their Importance, Magnitudes, and Causes. NCESR Publications and Research. Paper 3 . page-white-link-icon