Biblio

Export 111 results:
Author [ Title(Asc)] Type Year
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D
Sheppard L.J, Leith I.D, Mizunuma T., Cape J.N., Crossley A., Leeson S., Sutton M.A., Fowler D., van Dijk N..  2011.  Dry deposition of ammonia gas drives species change faster than wet deposition of ammonium ions: evidence from a long-term field manipulation. Global Change Biology. 17(12):3589-3607.
Sheppard L.J., Leith I.D., Kivimaki S.K., van Dijk N., Hall J., Bruneau P., Grace J., Rees R.M..  2008.  Does enhanced nitrogen deposition represent a threat to Sphagnum and thus the sustainability of Scottish peatlands? Land management in a changing environment. :291-297.
Evans CD, Goodale CL, Caporn SJM, Dise NB, Emmett BA, Fernandez IJ, Field CD, Findlay SEG, Lovett GM, Meesenburg H et al..  2008.  Does elevated nitrogen deposition or ecosystem recovery from acidification drive increased dissolved organic carbon loss from upland soil? A review of evidence from field nitrogen addition experiments Biogeochemistry. 91(1):13-35.
Larmola T, Kiheri H, Bubier JL, van Dijk N, Dise N, Hobbie EA, Moore TR, Pennanen T, Timonen S.  2018.  Do foliar δ15N patterns indicate shifts in the mycorrhizal abundance and function under nutrient load? EGU 2018 .
T. L, H. K, JL. B, N. vanDijk, N. D, E.A. H, T.R. M, T. P, S. T.  2019.  Do foliar δ15N patterns indicate shifts in the mycorrhizal abundance and function under nitrogen load?
Larmola T, Kiheri H., Bubier J.L., van Dijk N, Dise N, A. Erik H, Moore T.R., Pennanen T, .Timonen S.  2018.  Do foliar δ 15N patterns indicate shifts in mycorrhizal abundance and function under nutrient load? Ecology of Soil microorganisms.
García M.A.Solera, Timmis R.J., van Dijk N., Whyatt J.D., Leith I.D., Leeson S.R., Braban C.F., Sheppard L.J., Sutton M.A., Tang Y.S..  2017.  Directional passive ambient air monitoring of ammonia for fugitive source attribution; a field trial with wind tunnel characteristics.. Atmospheric Environment. 167:576-585.
Johnson D., Moore L., Green S., Leith I.D, Sheppard L.J.  2010.  Direct and indirect effects of ammonia, ammonium and nitrate on phosphatase activity and carbon fluxes from decomposing litter in peatland. Environmental Pollution. 158(10):3157-3163.
van Dijk etal.  2018.  Dataset: Vegetation change at Whim peatbog (2002-2016).
C
Cape J.N., van der Eerden L., Fangmeier A., Ayres J., Bareham S., Bobbink R., Branquinho C., Crittenden P., Cruz C., Dias T. et al..  2009.  Critical Levels for Ammonia. Atmospheric Ammonia. :375-382.
Munzi S, Sheppard L, Leith I, Cruz C, Branquinho C, Bini L, Gagliardi A, Cai G.  2017.  The cost of surviving nitrogen excess: energy and protein demand in the lichen Cladonia portentosa as revealed by proteomic analysis.. Planta. 245:819-833.
Skinner R., Ineson P., Hicks W.K, Jones H.E, Sleep D., Leith I.D, Sheppard L.J.  2005.  Correlating the spatial distribution of atmospheric ammonia with δ15n values at an ammonia release site. Water, Air and Soil Pollution: Focus. 4(6):219-228.
Skinner R., Ineson P., Hicks W.K., Jones H.E., Sleep D., Leith I.D., Sheppard L.J..  2004.  Correlating the spatial distribution of atmospheric ammonia with delta N-15 values at an ammonia release site. Water, Air and Soil Pollution: Focus. 4:219-228.
Jones M.R, Leith I.D, Raven J.A, Fowler D., Sutton M.A, Nemitz E., Cape J.N, Sheppard L.J, Smith R.I.  2007.  Concentration-dependent NH3 deposition processes for moorland plant species with and without stomata. Atmospheric Environment. 41(39):8980-8994.
Jones M.R, Leith I.D, Fowler D., Raven J.A, Sutton M.A, Nemitz E., Cape J.N, Sheppard L.J, Smith R.I, Theobald M.R.  2007.  Concentration-dependent NH3 deposition processes for mixed moorland semi-natural vegetation. Atmospheric Environment. 41(10):2049-2061.
Cape J.N., Jones M., Leith I.D., Sheppard L.J., van Dijk N., Sutton M.A., Fowler D..  2008.  Concentration-dependent deposition velocities for ammonia – from lab to field. Geophysical Research Abstracts. 10
Leith I.D, Pitcairn C.ER, Sheppard L.J, Hill P.W, Cape J.N, Fowler D., Tang S., Smith R.I, Parrington J.A.  2002.  A comparison of impacts of N deposition applied as NH3 or as NH4Cl on ombrotrophic mire vegetation. Special Edition Responses of Plant Metabolism to Air Pollution and Global Change. 42(3):83-88.
Limpens J., Granath G., Gunnarsson U., Aerts R., Bayley S., Bragazza L., Bubier J., Buttler A., van den Berg L.JL, Francez A.J et al..  2011.  Climatic modifiers of the response to nitrogen deposition in peat-forming Sphagnum mosses: a meta-analysis. New Phytologist. 191(2):496-507.
Larmola T, Kiheri H, Adamczyk S, Palomäki A, Bubier JL, van Dijk N, Dise N, Fritze H, Hobbie EA, Laiho R et al..  2019.  Changes in plant biomass allocation and mycorrhizal performance in peatlands under nitrogen load. Geophysical Research Abstracts.
Kivimaki S.K., Bruneau P., Grace J., Leith I.D., Rees B., Sheppard L.J..  2008.  Carbon and nitrogen cycling in Sphagnum capillifolium in response to nitrogen deposition and form . :592-594.
Munzi S., Cruz C., Branquinho C., Pinho P., Leith I.D, Sheppard L.J.  2014.  Can ammonia tolerance amongst lichen functional groups be explained by physiological responses? Environmental Pollution. 187:206-209.

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