Rees, H., Duncan, S., Gould, P., Wells, R., Greenwood, M., Brabbs, T., & Hall, A. (2019). A high-throughput delayed fluorescence method reveals underlying differences in the control of circadian rhythms in Triticum aestivum and Brassica napus. Plant Methods.

Rees, Hannah, Susan Duncan, Peter Gould, Rachel Wells, Mark Greenwood, Thomas Brabbs, and Anthony Hall. "A High-throughput Delayed Fluorescence Method Reveals Underlying Differences in the Control of Circadian Rhythms in Triticum Aestivum and Brassica Napus." Plant Methods 2019.

Rees, Hannah, et al. "A High-throughput Delayed Fluorescence Method Reveals Underlying Differences in the Control of Circadian Rhythms in Triticum Aestivum and Brassica Napus." Plant Methods 2019.