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T Davies-Barnard
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The BRIDGE HadCM3 family of climate models: HadCM3@ Bristol v1. 0
PJ Valdes, E Armstrong, MPS Badger, CD Bradshaw, F Bragg, M Crucifix, ...
Geoscientific Model Development 10 (10), 3715-3743, 2017
2422017
Orographic evolution of northern Tibet shaped vegetation and plant diversity in eastern Asia
SF Li, PJ Valdes, A Farnsworth, T Davies-Barnard, T Su, DJ Lunt, ...
Science Advances 7 (5), eabc7741, 2021
1022021
The global distribution of biological nitrogen fixation in terrestrial natural ecosystems
T Davies‐Barnard, P Friedlingstein
Global Biogeochemical Cycles 34 (3), e2019GB006387, 2020
952020
Nitrogen cycling in CMIP6 land surface models: progress and limitations
T Davies-Barnard, J Meyerholt, S Zaehle, P Friedlingstein, V Brovkin, ...
Biogeosciences 17 (20), 5129-5148, 2020
812020
Quantifying the relative importance of land cover change from climate and land use in the representative concentration pathways
T Davies‐Barnard, PJ Valdes, JS Singarayer, AJ Wiltshire, CD Jones
Global Biogeochemical Cycles 29 (6), 842-853, 2015
672015
Terrestrial nitrogen cycling in Earth system models revisited
BD Stocker, IC Prentice, SE Cornell, T Davies-Barnard, AC Finzi, ...
New Phytologist 210 (4), 1165-1168, 2016
452016
Sensitivity of a coupled climate model to canopy interception capacity
T Davies-Barnard, PJ Valdes, CD Jones, JS Singarayer
Climate Dynamics 42, 1715-1732, 2014
432014
Full effects of land use change in the representative concentration pathways
T Davies-Barnard, PJ Valdes, JS Singarayer, FM Pacifico, CD Jones
Environmental Research Letters 9 (11), 114014, 2014
402014
JULES-CN: a coupled terrestrial carbon–nitrogen scheme (JULES vn5. 1)
AJ Wiltshire, EJ Burke, SE Chadburn, CD Jones, PM Cox, ...
Geoscientific Model Development 14 (4), 2161-2186, 2021
352021
Quantifying the influence of the terrestrial biosphere on glacial–interglacial climate dynamics
T Davies-Barnard, A Ridgwell, J Singarayer, P Valdes
Climate of the Past 13 (10), 1381-1401, 2017
332017
JULES-CN: a coupled terrestrial carbon–nitrogen scheme (JULES vn5. 1), Geosci. Model Dev., 14, 2161–2186
AJ Wiltshire, EJ Burke, SE Chadburn, CD Jones, PM Cox, ...
322021
Disentangling the roles of late Miocene palaeogeography and vegetation–Implications for climate sensitivity
CD Bradshaw, DJ Lunt, R Flecker, T Davies-Barnard
Palaeogeography, Palaeoclimatology, Palaeoecology 417, 17-34, 2015
282015
Regional climate change mitigation with crops: context and assessment
JS Singarayer, T Davies-Barnard
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2012
282012
Planetary limits to BECCS negative emissions
A Wiltshire, T Davies-Barnard, C Jones
AVOID2 WPD. 2a Report 1, 2015
262015
Climatic Impacts of Land-Use Change due to Crop Yield Increases and a Universal Carbon Tax from a Scenario Model
T Davies-Barnard, PJ Valdes, JS Singarayer, CD Jones
Journal of Climate 27 (4), 1413-1424, 2014
222014
JULES-CN: a coupled terrestrial carbon–nitrogen scheme (JULES vn5. 1), Geosci. Model Dev., 14, 2161–2186, 10.5194
AJ Wiltshire, EJ Burke, SE Chadburn, CD Jones, PM Cox, ...
gmd-14-2161-2021, 2021
192021
Assessment of the impacts of biological nitrogen fixation structural uncertainty in CMIP6 earth system models
T Davies-Barnard, S Zaehle, P Friedlingstein
Biogeosciences 19 (14), 3491-3503, 2022
82022
The BRIDGE HadCM3 family of climate models: HadCM3@ Bristol v1. 0. Geosci. Model Dev. 2017; 10: 3715–3743. doi: 10.5194
PJ Valdes, E Armstrong, MPS Badger, CD Bradshaw, F Bragg, M Crucifix, ...
gmd-10-3715-2017.[CrossRef][Google Scholar], 0
8
JULES-CN: a coupled terrestrial Carbon-Nitrogen Scheme (JULES vn5. 1), Geosci. Model Dev. Discuss., 10.5194
AJ Wiltshire, EJ Burke, SE Chadburn, CD Jones, PM Cox, ...
gmd-2020-205, in review, 2020
62020
Cooling the Earth with crops
T Davies-Barnard
42014
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