|The bacterial biogeography of British soils|
RI Griffiths, BC Thomson, P James, T Bell, M Bailey, AS Whiteley
Environmental Microbiology 13 (6), 1642-1654, 2011
|Plant diversity increases soil microbial activity and soil carbon storage|
M Lange, N Eisenhauer, CA Sierra, H Bessler, C Engels, RI Griffiths, ...
Nature Communications 6, 6707, 2015
|Niche specialization of terrestrial archaeal ammonia oxidizers|
C Gubry-Rangin, B Hai, C Quince, M Engel, BC Thomson, P James, ...
Proceedings of the National Academy of Sciences 108 (52), 21206-21211, 2011
|Soil networks become more connected and take up more carbon as nature restoration progresses|
E Morriën, SE Hannula, LB Snoek, NR Helmsing, H Zweers, ...
Nature Communications 8, 14349, 2017
|RNA stable-isotope probing|
AS Whiteley, B Thomson, T Lueders, M Manefield
Nature protocols 2 (4), 838-844, 2007
|Evaluation of the ISO Standard 11063 DNA extraction procedure for assessing soil microbial abundance and community structure|
P Plassart, S Terrat, B Thomson, R Griffiths, S Dequiedt, M Lelievre, ...
PloS one 7 (9), e44279, 2012
|Vegetation affects the relative abundances of dominant soil bacterial taxa and soil respiration rates in an upland grassland soil|
BC Thomson, N Ostle, N McNamara, MJ Bailey, AS Whiteley, RI Griffiths
Microbial ecology 59 (2), 335-343, 2010
|Soil bacterial networks are less stable under drought than fungal networks|
FT de Vries, RI Griffiths, M Bailey, H Craig, M Girlanda, HS Gweon, ...
Nature communications 9 (1), 3033, 2018
|Vegetation exerts a greater control on litter decomposition than climate warming in peatlands|
SE Ward, KH Orwin, NJ Ostle, MJI Briones, BC Thomson, RI Griffiths, ...
Ecology 96 (1), 113-123, 2015
|Soil conditions and land use intensification effects on soil microbial communities across a range of European field sites|
BC Thomson, E Tisserant, P Plassart, S Uroz, RI Griffiths, SE Hannula, ...
Soil Biology and Biochemistry 88, 403-413, 2015
|Effects of sieving, drying and rewetting upon soil bacterial community structure and respiration rates|
BC Thomson, NJ Ostle, NP McNamara, AS Whiteley, RI Griffiths
Journal of microbiological methods 83 (1), 69-73, 2010
|Selecting cost effective and policy-relevant biological indicators for European monitoring of soil biodiversity and ecosystem function|
BS Griffiths, J Römbke, RM Schmelz, A Scheffczyk, JH Faber, J Bloem, ...
Ecological Indicators 69, 213-223, 2016
|Mapping and validating predictions of soil bacterial biodiversity using European and national scale datasets|
RI Griffiths, BC Thomson, P Plassart, HS Gweon, D Stone, RE Creamer, ...
Applied Soil Ecology 97, 61-68, 2016
|Rhizosphere bacterial carbon turnover is higher in nucleic acids than membrane lipids: implications for understanding soil carbon cycling|
AA Malik, H Dannert, RI Griffiths, BC Thomson, G Gleixner
Frontiers in microbiology 6, 2015
|Mycobacterium avium subspecies paratuberculosis is widely distributed in British soils and waters: implications for animal and human health|
G Rhodes, P Henrys, BC Thomson, RW Pickup
Environmental microbiology 15 (10), 2761-2774, 2013
|Plant soil interactions alter carbon cycling in an upland grassland soil|
BC Thomson, NJ Ostle, NP McNamara, S Oakley, AS Whiteley, MJ Bailey, ...
Frontiers in microbiology 4, 2013
|Mesophilic mineral-weathering bacteria inhabit the critical-zone of a perennially cold basaltic environment|
S Summers, BC Thomson, AS Whiteley, CS Cockell
Geomicrobiology Journal 33 (1), 52-62, 2016
|Bacterial physiological adaptations to contrasting edaphic conditions identified using landscape scale metagenomics. mBio 8: e00799-17|
AA Malik, BC Thomson, AS Whiteley, M Bailey, RI Griffiths