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2021

Book Chapter

Sorghum

Borrell, Andrew, van Oosterom, Erik, George-Jaeggli, Barbara, Rodriguez, Daniel, Eyre, Joe, Jordan, David J., Mace, Emma, Singh, Vijaya, Vadez, Vincent, Bell, Mike, Godwin, Ian, Cruickshank, Alan, Tao, Yongfu and Hammer, Graeme (2021). Sorghum. Crop physiology: case histories for major crops. (pp. 196-221) edited by Victor O. Sadras and Daniel F. Calderini. London, United Kingdom: Academic Press. doi: 10.1016/B978-0-12-819194-1.00005-0

Sorghum

2020

Book Chapter

Making science more effective for agriculture

Sadras, Victor, Alston, Julian, Aphalo, Pedro, Connor, David, Denison, R. Ford, Fischer, Tony, Gray, Richard, Hayman, Peter, Kirkegaard, John, Kirchmann, Holger, Kropff, Martin, Lafitte, H. Renee, Langridge, Peter, Lenne, Jill, Mínguez, M. Inés, Passioura, John, Porter, John R., Reeves, Tim, Rodriguez, Daniel, Ryan, Megan, Villalobos, Francisco J. and Wood, David (2020). Making science more effective for agriculture. Advances in Agronomy. (pp. 153-177) edited by Donald L. Sparks. Maryland Heights, MO, United States: Academic Press. doi: 10.1016/bs.agron.2020.05.003

Making science more effective for agriculture

2019

Book Chapter

Evolution of conservation agriculture in summer rainfall areas

Serafin, Loretta, Dang, Yash, Freebairn, David and Rodriguez, Daniel (2019). Evolution of conservation agriculture in summer rainfall areas. Australian Agriculture in 2020: From Conservation to Automation. (pp. 65-78) edited by J. Pratley and J. Kirkegaard. Wagga Wagga, NSW Australia: Agronomy Australia.

Evolution of conservation agriculture in summer rainfall areas

2017

Book Chapter

Intercropping in sustainable maize cultivation

Temesgen, Abeya, Fukai, Shu and Rodriguez, Daniel (2017). Intercropping in sustainable maize cultivation. Achieving sustainable cultivation of maize - Volume 2: Cultivation techniques, pest and disease control. (pp. 203-225) edited by Dave Watson. Cambridge, United Kingdom: Burleigh Dodds Science Publishing.

Intercropping in sustainable maize cultivation

2017

Book Chapter

Climate risk management in maize cropping systems

Rodriguez, Daniel, Roxburgh, Caspar, Farnsworth, Claire, Ferrante, Ariel, Eyre, Joseph, Irvine-Brown, Stuart, McLean, James and Bielich, Martin (2017). Climate risk management in maize cropping systems. Achieving sustainable cultivation of maize - Volume 2: cultivation techniques, pest and disease control. (pp. 227-245) edited by Dave Watson. Cambridge, United Kingdom: Burleigh Dodds. doi: 10.19103/AS.2016.0002.26

Climate risk management in maize cropping systems

2016

Book Chapter

Modelling dryland agricultural systems

Rodriguez, Daniel, de Voil, Peter and Power, B. (2016). Modelling dryland agricultural systems. Innovations in dryland agriculture. (pp. 239-256) edited by Muhammad Farooq and Kadambot H. M. Siddique. Cham, Switzerland: Springer . doi: 10.1007/978-3-319-47928-6_9

Modelling dryland agricultural systems

2015

Book Chapter

Raising productivity of maize-based cropping systems in eastern and southern Africa: Step-wise intensification options

Dimes, John, Rodriguez, Daniel and Potgieter, Andries (2015). Raising productivity of maize-based cropping systems in eastern and southern Africa: Step-wise intensification options. Crop Physiology Applications for Genetic Improvement and Agronomy. (pp. 93-110) edited by Sadras, Victor O and Calderini, Daniel F. United States of America: Elsevier : Academic Press. doi: 10.1016/B978-0-12-417104-6.00005-4

Raising productivity of maize-based cropping systems in eastern and southern Africa: Step-wise intensification options

2009

Book Chapter

Dynamic and functional monitoring technologies for applications in crop management.

Rodriguez, Daniel, Robson, Andrew J. and Belford, Robert (2009). Dynamic and functional monitoring technologies for applications in crop management.. Crop physiology: Applications for genetic improvement and agronomy. (pp. 489-584) edited by Victor Sadras and Daniel Calderini. Burlington, U.S.A.: Elsevier Academic Press. doi: 10.1016/B978-0-12-374431-9.00019-0

Dynamic and functional monitoring technologies for applications in crop management.