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SF TF 170 - CTP for Fruit Crop Research (Studentships)
Summary
AHDB, Biotechnology and Biological Sciences Research Council (BBSRC) and UK leading fruit industry organisations jointly funded Collaborative Training Partnerships (CTPs) to train the next generation of skilled people for the horticultural research base and wider bioeconomy by providing PhD students with a first-rate, challenging research training experience within the context of a mutually beneficial research collaboration between academic and partner organisations.
This pioneering partnership between businesses, research providers and the AHDB will provide a world-class horticultural and bioscience UK research training programme. The programme will address the scientific challenges faced by agri-businesses, from crop production, food quality and supply, through to consumer preference and consumer waste.
Cohort
|
Code |
Name |
Title |
|
2017 |
CTP-FCR-2017-1 |
Christina Conroy |
Developing a ‘push-pull’ strategy for the management of Drosophila suzukii |
|
2017 |
CTP-FCR-2017-2 |
Carlota Gonzalez |
Mechanisms of winter dormancy break and how to better influence in the context of climate change |
|
2017 |
CTP-FCR-2017-3 |
Sophia Bellamy |
Biocontrol as a key component to manage brown rot diseases on stone fruit |
|
2017 |
CTP-FCR-2017-4 |
Magdalena Cobo-Medina |
Combining root architecture, root function and soil management to improve production efficiency and quality of apples |
|
2017 |
CTP-FCR-2017-5 |
Stuart Edwards |
Pests, plants and parasitoids: how does climate variability affect tri-trophic interactions in apple orchards? |
|
2017 |
CTP-FCR-2017-7 |
Alexander Gabriel |
Human robot interaction |
|
2017 |
CTP-FCR-2017-8 |
Raymond Martin |
Strawberry detection, imaging and deep learning |
|
2018 |
CTP-FCR-2018-1 |
Thomas Heaven |
Using precision diagnostic technologies to tailor disease management strategies |
|
2018 |
CTP-FCR-2018-2 |
Nicholas Doddrell |
Genetic manipulation of photosynthetic efficiency to increase strawberry yields |
|
2018 |
CTP-FCR-2018-4 |
Matteo Luberti |
Investigating durable resistance to Phytophthora cactorum in strawberry and apple |
|
2018 |
CTP-FCR-2018-5 |
Chris Cook |
Understanding soil resilience to improve tree health |
|
2018 |
CTP-FCR-2018-6 |
Justin LeLouëdec |
Application of novel machine learning techniques and high speed 3D vision algorithms for real time detection of fruit |
|
2018 |
CTP-FCR-2018-7 |
Wayne Andrews |
A Deep Learning project to develop automated visual recognition of strawberry disease |
|
2018 |
CTP-FCR-2018-8 |
George Onoufriou |
The augmented agronomist: Synthesis of AI, ML and robotics to assist decision support
|
|
2019 |
CTP-FCR-2019-1 |
Ross George |
New approaches to aphid control in strawberries combining botanicals with natural enemies |
|
2019 |
CTP-FCR-2019-2 |
Winnie Swann |
Optimizing the light recipe for maximum photosynthesis, yield and quality in strawberry |
|
2019 |
CTP-FCR-2019-4 |
Akinkunmi Akinyanju |
Making genotyping cheaper and easier |
|
2019 |
CTP-FCR-2019-5 |
Catherine Chapman |
Belowground carbon sequestration potential of apple trees |
|
2019 |
CTP-FCR-2019-6 |
Cindayniah Godfrey |
Resistance and susceptibility in interactions between apple and woolly aphids |
|
2019 |
CTP-FCR-2019-7 |
Samantha Lynn |
Powdery mildew resistance in strawberry fruit |
|
2019 |
CTP-FCR-2019-8 |
Sophie Read |
Towards year-round production of UK strawberries |
|
2019 |
CTP-FCR-2019-9 |
Lauren Farwell |
Epidemiology and management of Cladosporium rot in raspberry |
|
2020 |
CTP-FCR-2020-1 |
Phil Johnson |
Accurate control of a low-cost soft robotic arm for automated strawberry picking |
|
2020 |
CTP-FCR-2020-2 |
Jack Stevenson |
Precision agriculture: AI- and Expert- based approach to forecast fruit production in high intra-field variation settings |
|
2020 |
CTP-FCR-2020-3 |
Adam Gregg |
Characterising broad-acting resistance to bacterial canker of cherry and elucidating tissue-specific mechanisms of immunity |
|
2020 |
CTP-FCR-2020-4 |
Hayden Tempest |
Radio-tagging earwigs to understand the breakdown in successful woolly apple aphid,Eriosoma lanigerum (Hausmann) control |
|
2020 |
CTP-FCR-2020-5 |
Finlay Bourquin |
Engineering tolerance to Botrytis in soft fruit crops |
|
2020 |
CTP-FCR-2020-6 |
Marios Stamatiou |
Managing living mulch (cover crops) to improve soil health (including nutrient cycling) and encourage natural enemies | |
2020 |
CTP-FCR-2020-8 |
Ece Moustafa |
Improving cane crop resilience by overcoming the legacy effects on photosynthesis during the recovery from short-term combined stresses |
|
2020 |
CTP-FCR-2020-9 |
Eithne Browne |
Is there more to raspberry root rot than Phytophthora rubi? |
|
2021 |
CTP-FCR-2021-1 |
Haidee Tang |
Using climatic and microbiome data to predict apple fruit quality |
|
2021 |
CTP-FCR-2021-2 |
Hamish McLean |
Investigating abiotic and biotic factors affecting apple canker (Neonectria ditissima) symptom development |
|
2021 |
CTP-FCR-2021-3 |
Katie Stewart |
Understanding the dynamics of ascospore production to optimise apple scab management |
|
2021 |
CTP-FCR-2021-4 |
George Woodward |
What factors control variation in floral initiation in strawberry? | |
2021 |
CTP-FCR-2021-5 |
William Atkinson |
Manipulation of stomatal density to improve CO2 uptake in strawberry and blueberry |
|
2021 |
CTP-FCR-2021-6 |
Camila Gonzalez |
Dissecting the control of continuous cropping in strawberry using genetic mapping and gene-editing |
|
2021 |
CTP-FCR-2021-7 |
Emily Johnstone |
Overcoming the limitations to yield in strawberry |
|
2021 |
CTP-FCR-2021-8 |
Katherine James |
High-throughput robotic phenotyping of fruit traits for automatic strawberry harvesting |
|
2021 |
CTP-FCR-2021-9 |
Laura Martinez |
Attacking the clones: understanding resistance of aphid pests to biological control |
|
2021 |
CTP-FCR-2021-10 |
Mengjie Fan |
Optimising photosynthetic performance, marketable yields and berry quality using blue light |
|
2022 |
CTP-FCR-2022-01 |
Deborah Babalola |
The genetics of flowering in raspberry and blackberry – what makes a primocane? |