Breeding for improved organoleptic quality in Wild Rocket (Diplotaxis tenuifolia (L.) DC) using marker assisted breeding at University of Liverpool on FindAPhD.com

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Dr P Walley, Mr Sujit Tha No more applications being accepted Competition Funded PhD Project (Students Worldwide)

Faculty of Health and Life Science, University of Liverpool

About the Project

Food Security has risen to the top of the international agenda following recent spikes in the price of food and the perceived growing threat to future supplies (see, e.g., the “G8 Action on Food Security and Nutrition” http://www.state.gov/s/globalfoodsecurity/190282.htm). Along with an efficient distribution system and minimizing waste, providing an adequate supply of food is a key contributor to securing food supply. Sustaining this into the future will be very difficult in the face of a steadily increasing population and diminishing availability of fertile land and water for agriculture. The challenge is made even more difficult by projected changes to climate. To meet this challenge is going to require new and innovative strategies and a new type of biologist.

This is a joint project between Liverpool and CN Seeds Ltd combining training in plant trait genetics, and plant breeding. This project will seek to identify novel sources of genetic variation captured in a unique wild rocket collection, that can be used to improve traits such as yield, disease resistance, and improved quality attributes, that can be transferred into novel breeding material. The PhD candidate will receive training in the latest plant phenotyping techniques, genetic analyses, and plant breeding. The candidate will benefit from spending time with academic and industry-based supervisors. To broaden the training experience, through CN Seeds Ltd., the student will learn about the seed industry, commercial breeding, and the supply chain through commercial growers to saleable product and have the opportunity to engage with industries in these sectors and present their work.

HOW TO APPLY

Applications should be made by emailing [Email Address Removed] with:

· a CV (including contact details of at least two academic (or other relevant) referees);

· a covering letter – clearly stating your first choice project, and optionally 2^nd ranked project, as well as including whatever additional information you feel is pertinent to your application; you may wish to indicate, for example, why you are particularly interested in the selected project(s) and at the selected University;

· copies of your relevant undergraduate degree transcripts and certificates;

· a copy of your IELTS or TOEFL English language certificate (where required);

· a copy of your passport (photo page).

A GUIDE TO THE FORMAT REQUIRED FOR THE APPLICATION DOCUMENTS IS AVAILABLE AT https://www.nld-dtp.org.uk/how-apply. Applications not meeting these criteria may be rejected.

In addition to the above items, please email a completed copy of the Additional Details Form (as a Word document) to [Email Address Removed]. A blank copy of this form can be found at: https://www.nld-dtp.org.uk/how-apply.

Informal enquiries may be made to [Email Address Removed]

The deadline for all applications is 12noon on Monday 9^th January 2023.

Funding Notes

CASE studentships are funded by the Biotechnology and Biological Sciences Research Council (BBSRC) for 4 years. Funding will cover tuition fees at the UK rate only, a Research Training and Support Grant (RTSG) and stipend. We aim to support the most outstanding applicants from outside the UK and are able to offer a limited number of bursaries that will enable full studentships to be awarded to international applicants. These full studentships will only be awarded to exceptional quality candidates, due to the competitive nature of this scheme.

References

Trait analysis reveals DOG1 determines initial depth of seed dormancy, but not changes during dormancy cycling that result in seedling emergence timing. New Phytologist, (2020). 225:2035-2047. doi.org/10.1111/nph.16081.
Identification and QTL mapping of resistance to Turnip yellows virus (TuYV) in oilseed rape, Brassica napus. Theoretical and Applied Genetics, (2020). 133, 383-393.
Assembly and characterisation of a unique onion diversity set identifies resistance to Fusarium basal rot and improved seedling vigour. Theoretical and Applied Genetics, (2019). 132(12), 3245-3264. doi.org/10.1007/s00122-019-03422-0.
Addressing the Threat of Climate Change to Agriculture Requires Improving Crop Resilience to Short-Term Abiotic Stress. Outlook on Agriculture, (2018). 47(4): 270-276. doi.org/10.1177/0030727018807722.
Biotechnology and genomics helping to understand and uncover the hidden potential of Crop Wild Relatives. In: Crop Wild Relatives and Climate Change (Yadav, S., Redden, B., Fowler, C., Maxted, N., Smith, P., Guarino, L., Snook, L., Dullo, E., eds). (2015). ISBN: 978-1-118-85433-4; Wiley-Blackwell.

Where will I study?

University of Liverpool

We are curious problem solvers at the forefront of world-leading research. A hotbed of discovery and innovation, we're committed to addressing some of the toughest challenges in our society, both now and in the future. Join us in the search for answers by pursuing your PhD at the Original Redbrick.