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Tessa E. Reid
Tessa E. Reid
Verified email at rothamsted.ac.uk
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Inorganic chemical fertilizer application to wheat reduces the abundance of putative plant growth-promoting rhizobacteria
TE Reid, VN Kavamura, M Abadie, A Torres-Ballesteros, M Pawlett, ...
Frontiers in Microbiology 12, 642587, 2021
532021
Phosphorus availability drives the effect of legume-wheat intercropping on prokaryotic community interactions
EL Presti, VN Kavamura, M Abadie, M Romeo, TE Reid, S Heuer, M Monti, ...
Applied Soil Ecology 199, 105414, 2024
12024
Agricultural intensification reduces selection of putative plant growth-promoting rhizobacteria in wheat
TE Reid, VN Kavamura, A Torres-Ballesteros, ME Smith, M Abadie, ...
The ISME Journal 18 (1), 2024
12024
Geographic bioprospection of maize rhizoplane-associated bacteria for consortia construction and impact on plant growth and nutrient uptake under low P availability
D Nkir, Y Aallam, A Ibnyasser, M Haddine, B Benbrik, A Barakat, TE Reid, ...
Environmental and Experimental Botany 226, 105939, 2024
2024
Has plant domestication decoupled beneficial Plant-microbe interactions in wheat?
T Reid
Cranfield University, 2021
2021
Inorganic chemical fertilizer application reduces putative plant growth-promoting rhizobacteria in wheat
TE Reid, VN Kavamura, M Abadie, A Torres-Ballesteros, M Pawlett, ...
Frontiers Media, 2021
2021
Phosphorus Availability Drives the Effect of Legume-Wheat Intercropping on Bacterial Community Interactions
E Lo Presti, VN Kavamura, M Abadie, M Romeo, TE Reid, S Heuer, ...
Available at SSRN 4713434, 0
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