Methodologies for extracellular enzyme assays from wetland soils C Dunn, TG Jones, A Girard, C Freeman Wetlands 34, 9-17, 2014 | 92 | 2014 |
Peatlands: our greatest source of carbon credits? C Dunn, C Freeman | 80 | 2011 |
Decomposition as a regulator of carbon accretion in mangroves: a review SD Friesen, C Dunn, C Freeman Ecological Engineering 114, 173-178, 2018 | 70 | 2018 |
The potential of peatlands as nature-based climate solutions M Strack, SJ Davidson, T Hirano, C Dunn Current Climate Change Reports 8 (3), 71-82, 2022 | 50 | 2022 |
The role of molecular weight in the enzyme-inhibiting effect of phenolics: the significance in peatland carbon sequestration C Dunn, C Freeman Ecological Engineering 114, 162-166, 2018 | 35 | 2018 |
Is peat accumulation in mangrove swamps influenced by the “enzymic latch” mechanism? S Saraswati, C Dunn, WJ Mitsch, C Freeman Wetlands Ecology and Management 24, 641-650, 2016 | 32 | 2016 |
Plant species effects on the carbon storage capabilities of a blanket bog complex C Dunn, TG Jones, S Roberts, C Freeman Wetlands 36, 47-58, 2016 | 28 | 2016 |
Small changes in water levels and groundwater nutrients alter nitrogen and carbon processing in dune slack soils J Rhymes, L Jones, H Wallace, TG Jones, C Dunn, N Fenner Soil Biology and Biochemistry 99, 28-35, 2016 | 22 | 2016 |
Constructed wetlands may lower inorganic nutrient inputs but enhance DOC loadings into a drinking water reservoir in North Wales C Scholz, TG Jones, M West, AMS Ehbair, C Dunn, C Freeman Environmental Science and Pollution Research 23, 18192-18199, 2016 | 21 | 2016 |
Quantifying dissolved organic carbon concentrations in upland catchments using phenolic proxy measurements M Peacock, A Burden, M Cooper, C Dunn, CD Evans, N Fenner, ... Journal of Hydrology 477, 251-260, 2013 | 21 | 2013 |
Water Table Fluctuation in Peatlands Facilitates Fungal Proliferation, Impedes Sphagnum Growth and Accelerates Decomposition J Kim, L Rochefort, S Hogue-Hugron, Z Alqulaiti, C Dunn, R Pouliot, ... Frontiers in Earth Science 8, 579329, 2021 | 20 | 2021 |
A potential approach for enhancing carbon sequestration during peatland restoration using low-cost, phenolic-rich biomass supplements A Alshehri, C Dunn, C Freeman, S Hugron, TG Jones, L Rochefort Frontiers in Environmental Science 8, 48, 2020 | 18 | 2020 |
The environmental release and ecosystem risks of illicit drugs during Glastonbury Festival. D Aberg, D Chaplin, C Freeman, B Paizs, C Dunn Environmental Research 204, 112061, 2022 | 17 | 2022 |
Elucidating the surface macroplastic load, types and distribution in mangrove areas around Cebu Island, Philippines and its policy implications MKO Paler, IDF Tabañag, FDC Siacor, PJL Geraldino, MEM Walton, ... Science of The Total Environment 838, 156408, 2022 | 11 | 2022 |
Peatland catchments and natural flood management T Allott, J Auñón, C Dunn, M Evans, J Labadz, P Lunt, M MacDonald, ... IUCN UK Peatland Programme, 2019 | 9 | 2019 |
Investigating whether light intensity can modify decomposition rates in peatlands through control of the ‘enzymic latch’ C Dunn, P Zieliński, M Kent, C Freeman Ecological Engineering 114, 167-172, 2018 | 5 | 2018 |
An affordable methodology for quantifying waterborne microplastics-an emerging contaminant in inland-waters C Dunn, J Owens, L Fears, L Nunnerley, J Kirby, O Armstrong, PJ Thomas, ... Journal of Limnology 79 (1), 92-95, 2020 | 4 | 2020 |
The drinking water contaminant dibromoacetonitrile delays G1-S transition and suppresses Chk1 activation at broken replication forks T Caspari, J Dyer, N Fenner, C Dunn, C Freeman Scientific reports 7 (1), 12730, 2017 | 4 | 2017 |
Nature-based solutions for climate change in the UK-Peatlands C Dunn, A Burden, B Chamberlain, S Danek, C Evans, C Freeman, ... Nature-based solutions for climate change in the UK, 2021 | 3 | 2021 |
Options for geoengineering the climate via microorganisms: a peatland case study. C Dunn, N Fenner, A Shirsat, C Freeman | 1 | 2016 |