APIS Bibliography

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F
Schroder W, Holy M, Pesch R, Harmens H, Fagerli H, Alber R, Coskun M, De Temmerman L, Frolova M, Gonzalez-Miqueo L, et al. First Europe-wide correlation analysis identifying factors best explaining the total nitrogen concentration in mosses. Atmospheric Environment. 2010 ;44(29):3485-3491.
Schulze ED, Lange OL, Oren R. Forest decline and Air Pollution. Berlin: Springer; 1989.
Huettl RF, Fink S, Lutz HJ, Poth M, Wisniewski J. Forest decline, nutrient supply and diagnostic fertilisation in southwestern Germany and in southern California. . Forest Ecology and Management. 1990 ;30:341-350.
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Landers DH, Bayley SE, Ford J, Gunn JM, Lukewille A, Norton SA, Steinberg CEW, Vesely J, Zahn MT. Group report: interactions among acidification, phosphorus, contaminants and biota in freshwater ecosystems. (Steinberg CEW, Wright RF). Chichester: John Wiley and Sons; 1994 pp. 185-200.
Landers DH, Bayley SE, Ford J, Gunn JM, Lukewille A, Norton SA, Steinberg CEW, Vesely J, Zahn MT. Group report: interactions among acidification, phosphorus, contaminants and biota in freshwater ecosystems. (Steinberg CEW, Wright RF). Chichester: John Wiley and Sons; 1994 pp. 185-200.
Bender J, Muntifering RB, Lin JC, Weigel HJ. Growth and nutritive quality of Poa pratensis as influence by ozone and competition. Environmental Pollution. 2006 ;142:109-115.
Mitchell RJ, Truscott AM, Leith ID, Cape JN, van Dijk N, Tang YS, Fowler D, Sutton MA. Growth and tissue nitrogen of epiphytic Atlantic bryophytes: effects of increased and decreased atmospheric N deposition. Functional Ecology. 2004 ;18:322-329.
Lorenzini G, Panicucci A, Guidi L. Growth Dynamics of Wheat (Triticum aestivum L.) Exposed to Sulfur Dioxide Pollution. Bulletin of Environmental Contamination and Toxicology. 1990 ;45(3):408-414.
Ferguson NP, Lee JA. The growth of Sphagnum species in the southern Pennines. Journal Bryology . 1983 ;12:579-586.
H
Joly P, Miaud C, Lehmann A, Grolet O. Habitat matrix effects on pond occupancy in newts. . Conservation Biology. 2000 ;15:239-248.
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Mitchell RJ, Truscott AM, Leith ID, Tang YS, van Dijk N, Smith RI, Sutton MA. Impact of atmospheric nitrogen deposition on epiphytes in Atlantic oakwoods.; 2003.
Phoenix GK, Emmett BA, Britton AJ, Caporn SJM, Dise NB, Helliwell R, Jones MLM, Leake JR, Leith ID, Sheppard LJ, et al. Impacts of atmospheric nitrogen deposition: responses of multiple plant and soil parameters across contrasting ecosystems in long-term field experiments. Global Change Biology. 2012 ;18:1197-1215.
Phoenix GK, Emmett BA, Britton AJ, Caporn SJM, Dise NB, Helliwell R, Jones MLM, Leake JR, Leith ID, Sheppard LJ, et al. Impacts of atmospheric nitrogen deposition: responses of multiple plant and soil parameters across contrasting ecosystems in long-term field experiments. Global Change Biology. 2012 ;18:1197-1215.
Long ER, MacDonald DD, Smith SL, Calder FD. Incidence of adverse biological effects within ranges of chemical concentrations in marine and estuarine sediments. Environmental Management. 1995 ;19:81-97.
Weinstein LH, Laurence JA. Indigenous and cultivated plants as bioindicators. In: Biologic Markers of Air-Pollution Stress and Damage in Forests. Biologic Markers of Air-Pollution Stress and Damage in Forests. Washington DC: National Academy Press; 1989. pp. 194-204.
Sheppard LJ, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to 9 years' realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
Sheppard LJ, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to 9 years' realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
Sheppard LJ, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to 9 years' realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
L.J. S, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
L.J. S, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
Sheppard LJ, Leith ID, Mizunuma T, Leeson S, Kivimaki SK, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global change Biology . 2013 .
Sheppard LJ, Leith ID, Mizunuma T, Leeson S, Kivimaki SK, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global change Biology . 2013 .
L.J. S, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
L.J. S, Leith ID, Mizunuma T, Leeson S, Kivimaki S, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global Change Biology. 2014 ;20(2):566-580.
Sheppard LJ, Leith ID, Mizunuma T, Leeson S, Kivimaki SK, Cape JN, van Dijk N, Leaver D, Sutton MA, Fowler D, et al. Inertia in an ombrotrophic bog ecosystem in response to nine years’ realistic perturbation by wet deposition of nitrogen, separated by form. Global change Biology . 2013 .

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