Dave Reay
Dave Reay
Professor of Carbon Management and Education, University of Edinburgh
Verified email at - Homepage
Cited by
Cited by
Climate-smart soils
K Paustian, J Lehmann, S Ogle, D Reay, GP Robertson, P Smith
Nature 532 (7597), 49-57, 2016
Scientists’ warning to humanity: microorganisms and climate change
R Cavicchioli, WJ Ripple, KN Timmis, F Azam, LR Bakken, M Baylis, ...
Nature Reviews Microbiology 17 (9), 569-586, 2019
Microorganisms and climate change: terrestrial feedbacks and mitigation options
BK Singh, RD Bardgett, P Smith, DS Reay
Nature Reviews Microbiology 8 (11), 779-790, 2010
Global agriculture and nitrous oxide emissions
DS Reay, EA Davidson, KA Smith, P Smith, JM Melillo, F Dentener, ...
Nature climate change 2 (6), 410-416, 2012
Global nitrogen deposition and carbon sinks
DS Reay, F Dentener, P Smith, J Grace, RA Feely
Nature Geoscience 1 (7), 430-437, 2008
The effect of biochar addition on N2O and CO2 emissions from a sandy loam soil–the role of soil aeration
SDC Case, NP McNamara, DS Reay, J Whitaker
Soil Biology and Biochemistry 51, 125-134, 2012
Large-Scale Controls of Methanogenesis Inferred from Methane and Gravity Spaceborne Data
AA Bloom, PI Palmer, A Fraser, DS Reay, C Frankenberg
Science 327 (5963), 322-325, 2010
Identification of active methylotroph populations in an acidic forest soil by stable-isotope probing
S Radajewski, G Webster, DS Reay, SA Morris, P Ineson, DB Nedwell, ...
Microbiology 148 (8), 2331, 2002
A half-century of production-phase greenhouse gas emissions from food loss & waste in the global food supply chain
SD Porter, DS Reay, P Higgins, E Bomberg
Science of the Total Environment 571, 721-729, 2016
Temperature dependence of inorganic nitrogen uptake: reduced affinity for nitrate at suboptimal temperatures in both algae and bacteria
DS Reay, DB Nedwell, J Priddle, JC Ellis-Evans
Applied and environmental microbiology 65 (6), 2577, 1999
Biochar suppresses N2O emissions while maintaining N availability in a sandy loam soil
SDC Case, NP McNamara, DS Reay, AW Stott, HK Grant, J Whitaker
Soil Biology and Biochemistry 81, 178-185, 2015
Ultraviolet radiation drives methane emissions from terrestrial plant pectins
AR McLeod, SC Fry, GJ Loake, DJ Messenger, DS Reay, KA Smith, ...
New Phytologist 180 (1), 124-132, 2008
The impact of global dietary guidelines on climate change
H Ritchie, DS Reay, P Higgins
Global environmental change 49, 46-55, 2018
Can biochar reduce soil greenhouse gas emissions from a M iscanthus bioenergy crop?
SDC Case, NP McNamara, DS Reay, J Whitaker
Gcb Bioenergy 6 (1), 76-89, 2014
Methane oxidation in temperate soils: effects of inorganic N
DS Reay, DB Nedwell
Soil Biology and Biochemistry 36 (12), 2059-2065, 2004
Nitrous oxide emission from agricultural drainage waters
DS Reay, KA Smith, AC Edwards
Global Change Biology 9 (2), 195-203, 2003
Land use and climate change in the UK
MDA Rounsevell, DS Reay
Land use policy 26, S160-S169, 2009
Nitrogen processes in aquatic ecosystems
P Durand, L Breuer, PJ Johnes, G Billen, A Butturini, G Pinay, ...
Cambridge University Press, 2011
Nitrous oxide emissions from European agriculture–an analysis of variability and drivers of emissions from field experiments
RM Rees, J Augustin, G Alberti, BC Ball, P Boeckx, A Cantarel, S Castaldi, ...
Biogeosciences 10 (4), 2671-2682, 2013
Avoidable food losses and associated production-phase greenhouse gas emissions arising from application of cosmetic standards to fresh fruit and vegetables in Europe and the UK
SD Porter, DS Reay, E Bomberg, P Higgins
Journal of Cleaner Production 201, 869-878, 2018
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