Christopher Freeman
Christopher Freeman
Professor Emeritus, School of Natural Sciences, Bangor University
Verified email at bangor.ac.uk - Homepage
Title
Cited by
Cited by
Year
A communal catalogue reveals Earth’s multiscale microbial diversity
LR Thompson, JG Sanders, D McDonald, A Amir, J Ladau, KJ Locey, ...
Nature, 2017
11422017
Export of organic carbon from peat soils
C Freeman, CD Evans, DT Monteith, B Reynolds, N Fenner
Nature 412 (6849), 785-785, 2001
10982001
An enzymic'latch'on a global carbon store
C Freeman, N Ostle, H Kang
Nature 409 (6817), 149-149, 2001
10232001
Peatlands and the carbon cycle: from local processes to global implications–a synthesis
J Limpens, F Berendse, C Blodau, JG Canadell, C Freeman, J Holden, ...
Biogeosciences 5 (5), 1475-1491, 2008
8842008
Microbial contributions to climate change through carbon cycle feedbacks
RD Bardgett, C Freeman, NJ Ostle
The ISME journal 2 (8), 805-814, 2008
8582008
Export of dissolved organic carbon from peatlands under elevated carbon dioxide levels
C Freeman, N Fenner, NJ Ostle, H Kang, DJ Dowrick, B Reynolds, ...
Nature 430 (6996), 195-198, 2004
6882004
Drought-induced carbon loss in peatlands
N Fenner, C Freeman
Nature geoscience 4 (12), 895-900, 2011
4512011
Atmospheric nitrogen deposition promotes carbon loss from peat bogs
L Bragazza, C Freeman, T Jones, H Rydin, J Limpens, N Fenner, T Ellis, ...
Proceedings of the National Academy of Sciences 103 (51), 19386-19389, 2006
4312006
A regulatory role for phenol oxidase during decomposition in peatlands
C Freeman, NJ Ostle, N Fenner, H Kang
Soil Biology and Biochemistry 36 (10), 1663-1667, 2004
4232004
Phosphatase and arylsulphatase activities in wetland soils: annual variation and controlling factors
H Kang, C Freeman
Soil Biology and Biochemistry 31 (3), 449-454, 1999
2931999
Fluxes of CO 2, CH 4 and N 2 O from a Welsh peatland following simulation of water table draw-down: potential feedback to climatic change
C Freeman, MA Lock, B Reynolds
Biogeochemistry 19 (1), 51-60, 1993
2811993
Deep instability of deforested tropical peatlands revealed by fluvial organic carbon fluxes
S Moore, CD Evans, SE Page, MH Garnett, TG Jones, C Freeman, ...
Nature 493 (7434), 660-663, 2013
2602013
The biofilm polysaccharide matrix: a buffer against changing organic substrate supply?
C Freeman, MA Lock
Limnology and Oceanography 40 (2), 273-278, 1995
2351995
Acidity controls on dissolved organic carbon mobility in organic soils
CD Evans, TG Jones, A Burden, N Ostle, P Zieliński, MDA Cooper, ...
Global Change Biology 18, 3317-3331, 2012
2222012
Carbon supply and the regulation of enzyme activity in constructed wetlands
VJ Shackle, C Freeman, B Reynolds
Soil Biology and Biochemistry 32 (13), 1935-1940, 2000
2222000
Enzymic degradation of phenolic materials in peatlands—measurement of phenol oxidase activity
A Pind, C Freeman, MA Lock
Plant and Soil 159 (2), 227-231, 1994
2021994
The use of fluorogenic substrates for measuring enzyme activity in peatlands
C Freeman, G Liska, NJ Ostle, SE Jones, MA Lock
Plant and soil 175 (1), 147-152, 1995
2011995
Observations of a seasonally shifting thermal optimum in peatland carbon-cycling processes; implications for the global carbon cycle and soil enzyme methodologies
N Fenner, C Freeman, B Reynolds
Soil Biology and Biochemistry 37 (10), 1814-1821, 2005
1842005
Microbial activity and enzymic decomposition processes following peatland water table drawdown
C Freeman, G Liska, NJ Ostle, MA Lock, B Reynolds, J Hudson
Plant and soil 180 (1), 121-127, 1996
1691996
The impact of climate change on the treatability of dissolved organic matter (DOM) in upland water supplies: A UK perspective
JP Ritson, NJD Graham, MR Templeton, JM Clark, R Gough, C Freeman
Science of the Total Environment 473, 714-730, 2014
1652014
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