BBSRC Quota Studentship: Decreasing arsenic accumulation in rice to reduce health risk

Project (past)

Project dates01 Oct 2009 to end of 30 Sep 2013
Project numberS2041
2041
DepartmentSustainable Soils and Grassland Systems (SSGS)

Outputs

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Earth abides arsenic biotransformations

A - Papers appearing in refereed journals
Zhu, Y-G., Yoshinaga, M., Zhao, F-J. and Rosen, B. P. 2014. Earth abides arsenic biotransformations. Annual Review of Earth and Planetary Sciences. 42, pp. 443-467. https://doi.org/10.1146/annurev-earth-060313-054942

Investigating the origin and transport of methylated arsenic species in plants

F - Theses
Lomax, C. 2013. Investigating the origin and transport of methylated arsenic species in plants. F - Theses

Identification and characterisation of resistance to the take-all fungus in wheat. PhD thesis, University of Exeter

F - Theses
Mcmillan, V. E. 2012. Identification and characterisation of resistance to the take-all fungus in wheat. PhD thesis, University of Exeter. F - Theses

Methylated arsenic species in plants originate from soil microorganisms

A - Papers appearing in refereed journals
Lomax, C., Liu, W-J., Wu, Liyou, Xue, K., Xiong, J., Zhou, J., McGrath, S. P., Meharg, A. A., Miller, A. J. and Zhao, F-J. 2012. Methylated arsenic species in plants originate from soil microorganisms. New Phytologist. 193 (3), pp. 665-672. https://doi.org/10.1111/j.1469-8137.2011.03956.x