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Top results for “peatland”
Dr Jens-Arne Subke
Associate Professor, Biological and Environmental Sciences
Dr Evangelos Spyrakos
Lecturer, Biological and Environmental Sciences
Dr Peter Hunter
Senior Lecturer, Biological and Environmental Sciences
Dr Eileen Tisdall
Lecturer, Biological and Environmental Sciences
Professor Andrew Tyler
Professor, Biological and Environmental Sciences
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Top results for “peatland”
Article: Dean JF, Garnett MH, Spyrakos E & Billett MF (2019) The potential hidden age of dissolved organic carbon exported by peatland streams. Journal of Geophysical Research: Biogeosciences, 124 (2), pp. 328-341.
Article: Andersen R, Cowie N, Payne RJ & Subke J (2019) The Flow Country Peatlands of Scotland: Foreword. Mires and Peat, 23, pp. 1-2. https://doi.org/10.19189/MaP.2018.OMB.381
Article: Hermans R, Zahn N, Andersen R, Teh YA, Cowie N & Subke J (2019) An incubation study of GHG flux responses to a changing water table linked to biochemical parameters across a peatland restoration chronosequence. Mires and Peat, 23 (2018/19),
Article: Payne R (2012) Volcanic impacts on peatland microbial communities: A tephropalaeoecological hypothesis-test. Quaternary International, 268, pp. 98-110. https://doi.org/10.1016/j.quaint.2011.06.019
Article: Payne R (2010) Testate amoeba response to acid deposition in a Scottish peatland. Aquatic Ecology, 44 (2), pp. 373-385. https://doi.org/10.1007/s10452-009-9297-9
Article: Kunnas J (2005) A Dense and Sickly Mist from Thousands of Bog Fires: An Attempt to Compare the Energy Consumption in Slash-and-Burn Cultivation and Burning Cultivation of Peatlands in Finland in 1820-1920. Environment and History, 11 (4), pp
Article: Billett M, Garnett MH & Harvey F (2007) UK peatland streams release old carbon dioxide to the atmosphere and young dissolved organic carbon to rivers. Geophysical Research Letters, 34 (23), Art. No.: L23401.
Article: Billett M & Moore TR (2008) Supersaturation and evasion of CO2 and CH4 in surface waters at Mer Bleue peatland, Canada. Hydrological Processes, 22 (12), pp. 2044-2054. https://doi.org/10.1002/hyp.6805
Article: Garnett MH, Hardie SML, Murray C & Billett M (2013) Radiocarbon dating of methane and carbon dioxide evaded from a temperate peatland stream. Biogeochemistry, 114 (1-3), pp. 213-223. https://doi.org/10.1007/s10533-012-9804-2
Article: Payne R, Gauci V & Charman DJ (2010) The Impact of Simulated Sulfate Deposition on Peatland Testate Amoebae. Microbial Ecology, 59 (1), pp. 76-83. https://doi.org/10.1007/s00248-009-9552-6
Article: Payne R & Blackford JJ (2008) Distal volcanic impacts on peatlands: palaeoecological evidence from Alaska. Quaternary Science Reviews, 27 (21-22), pp. 2012-2030. https://doi.org/10.1016/j.quascirev.2008.08.002
Article: Payne R & Gehrels M (2010) The formation of tephra layers in peatlands: An experimental approach. CATENA, 81 (1), pp. 12-23. https://doi.org/10.1016/j.catena.2009.12.001
Article: Payne R, Mitchell EAD, Nguyen-Viet H & Gilbert D (2012) Can pollution bias peatland paleoclimate reconstruction?. Quaternary Research, 78 (2), pp. 170-173. https://doi.org/10.1016/j.yqres.2012.05.004
Article: Garnett MH, Gulliver P & Billett M (2016) A rapid method to collect methane from peatland streams for radiocarbon analysis. Ecohydrology, 9 (1), pp. 113-121. https://doi.org/10.1002/eco.1617
Article: Payne R, Jassey VEJ, Leith ID, Sheppard LJ, Dise NB & Gilbert D (2013) Ammonia exposure promotes algal biomass in an ombrotrophic peatland. Soil Biology and Biochemistry, 57, pp. 936-938. https://doi.org/10.1016/j.soilbio.2012.09.012
Article: Dinsmore KJ & Billett M (2008) Continuous measurement and modeling of CO2 losses from a peatland stream during stormflow events. Water Resources Research, 44 (12), Art. No.: W12417. https://doi.org/10.1029/2008WR007284
Article: Billett M & Harvey F (2013) Measurements of CO2 and CH4 evasion from UK peatland headwater streams. Biogeochemistry, 114 (1-3), pp. 165-181. https://doi.org/10.1007/s10533-012-9798-9
Article: Payne R, Kishaba K, Blackford JJ & Mitchell EAD (2006) Ecology of testate amoebae (protista) in south-central Alaska peatlands: Building transfer-function models for palaeoenvironmental studies. Holocene, 16 (3), pp. 403-414. https://doi.org
Article: Evans CD, Page SE, Jones T, Moore S, Gauci V, Laiho R, Hruska J, Allott TEH, Billett M, Tipping E, Freeman C & Garnett MH (2014) Contrasting vulnerability of drained tropical and high-latitude peatlands to fluvial loss of stored carbon.
Article: Billett M, Charman DJ, Clark JM, Evans CD, Evans MG, Ostle NJ, Worrall F, Burden A, Dinsmore KJ, Jones TG, McNamara NP, Parry L, Rowson JG & Rose RJ (2010) Carbon balance of UK peatlands: current state of knowledge and future research
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Top results for “peatland”
Menu. Site search. Submit. Suggestions. Courses. News. Loading. Project. Remote Sensing of plant Functional types in Peatlands: a pilot study in the Flow Country.
Menu. Site search. Submit. Suggestions. Courses. News. Loading. Project. The Flow Country Peatlands: Studying the past to shape the future.
Menu. Site search. Submit. Suggestions. Courses. News. Loading. Project. Peat erosion and the management of peatland habitats.