Dr Hue Thi Dang
Postdoctoral Research Fellow (A) (with PhD)
School of Agriculture, Food and Wine
College of Sciences
Hue completed a PhD in plant/weed science from the University of Adelaide. She began her journey in plant sciences with an ongoing Research Officer position at the Field Crop Research Institute, where she focused on potato and sweet potato yield improvement through best management practices and plant breeding. Later, she joined the Department of Crop Production to work on crop research planning and international cooperation. She continued her work as a research assistant in barley and soybean breeding and weed research projects at the University of Adelaide. Currently, she is working on barley and soybean breeding projects funded by GRDC.
Hue is a Postdoctoral Research Fellow working on soybean breeding project. She has extensive knowledge in plant breeding, crop improvement, and genetics, and is passionate about using new technologies to enhance breeding efficiency and cultural practices in these crops.
| Date | Position | Institution name |
|---|---|---|
| 2024 - ongoing | Postdoctoral research fellow | University of Adelaide |
| 2021 - 2024 | Research assistant | University of Adelaide |
| 1999 - ongoing | Research officer | Ministry of Agriculture and Rural Development |
| Language | Competency |
|---|---|
| English | Can read, write, speak, understand spoken and peer review |
| Vietnamese | Can read, write, speak, understand spoken and peer review |
| Date | Institution name | Country | Title |
|---|---|---|---|
| 2014 - 2018 | University of Adelaide | Australia | PhD |
| 2006 - 2008 | Curtin University | Australia | MSc |
| 2001 - 2002 | Van Hall Larenstein University of Applied Sciences | Netherlands | BSc. |
| 1992 - 1997 | Thai Nguyen University of Agriculture and Forestry | Vietnam | BSc. |
| Year | Citation |
|---|---|
| 2025 | Malone, J. M., Dang, H. T., de Figueiredo, M. R., Gill, G., Gaines, T. A., & Preston, C. (2025). 2,4-D resistance due to a deletion in IAA2 in Sisymbrium orientale L. carries no apparent fitness penalty. Pest Management Science, 81(6), 3013-3019. Scopus1 WoS1 Europe PMC1 |
| 2019 | Dang, H. T., Malone, J. M., Gill, G., & Preston, C. (2019). Cross-resistance to diflufenican and picolinafen and its inheritance in oriental mustard (Sisymbrium orientale L.). Pest Management Science, 75(1), 195-203. Scopus13 WoS13 Europe PMC10 |
| 2019 | Dang, H. T., Long, W., Malone, J. M., Preston, C., & Gill, G. (2019). No apparent fitness costs associated with phytoene desaturase mutations conferred resistance to diflufenican and picolinafen in oriental mustard (Sisymbrium orientale L.). Pesticide Biochemistry and Physiology, 155, 51-57. Scopus8 WoS7 Europe PMC5 |
| 2018 | Dang, H., Malone, J., Boutsalis, P., Krishnan, M., Gill, G., & Preston, C. (2018). Reduced translocation in 2,4-D-resistant oriental mustard populations (Sisymbrium orientale L.) from Australia. Pest management science, 74(6), 1524-1532. Scopus32 WoS32 Europe PMC21 |
| 2018 | Dang, H. T., Malone, J. M., Boutsalis, P., Gill, G., & Preston, C. (2018). The Mechanism of Diflufenican Resistance and its Inheritance in Oriental Mustard (Sisymbrium orientale L.) from Australia. Pest Management Science, 74(6), 1279-1285. Scopus12 WoS12 Europe PMC8 |
| 2017 | Dang, H., Malone, J., Boutsalis, P., Gill, G., & Preston, C. (2017). Identification of a target-site mutation conferring resistance to triazine herbicides in oriental mustard (Sisymbrium orientale L.) from Australia. Weed Biology and Management, 17(4), 153-160. Scopus14 WoS13 Europe PMC4 |
| 2009 | Hue, D. T., Batt, P. J., McPharlin, I., & Dawson, P. (2009). The Economic Impact on Smallholder Potato Farmers in the Red River Delta, Vietnam, from the Use of Superior Quality Seed. INTERNATIONAL SYMPOSIUM ON THE SOCIO-ECONOMIC IMPACT OF MODERN VEGETABLE PRODUCTION TECHNOLOGY IN TROPICAL ASIA, 809(809), 171-179. |
| Year | Citation |
|---|---|
| - | Tura, H. S., Pham, A., Dang, H. T., & Sangma, H. (n.d.). Supplementary Data of Experimental Barley Lines Derived from UAB27 and UAB70 population through Backcrossing and Wild Allele Introgression. DOI |
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