APIS Bibliography

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Bobbink R, Hicks K, Galloway J, Spranger T, Alkemade R, Ashmore M, Bustamante M, Cinderby S, Davidson E, Dentener F, et al. Global assessment of nitrogen deposition effects on terrestrial plant diversity: a synthesis. Ecological Applications. 2010 ;20(1):30-59.
Wiedermann MM, Nordin A, Gunnarsson U, Nilsson MB, Ericson L. Global change shifts vegetation and plant-parasite interactions in a boreal mire. Ecology. 2007 ;88:454-464.
Dignon J, Hameed S. Global Emissions of Nitrogen and Sulfur-Oxides from 1860 to 1980. Japca-the Journal of the Air & Waste Management Association. 1989 ;39(2):180-186.
Hopkins A, Holz B. Grassland for agriculture and nature conservation: production, quality and multifunctionality. Agronomy Research. 2006 ;4 (1):3-20.
Armitage HF, Britton AJ, Van der Wal R, Woodin SJ. Grazing exclusion and phosphorus addition as potential local management options for the restoration of alpine moss-sedge heath. Biological Conservation. 2012 ;153:17-24.
Nilsson LO, Giesler R, Bååth E, Wallander H. Growth and biomass of mycorrhizal mycelia in coniferous forestsalong short natural nutrient gradients. New Phytologist. 2005 ;165:613–622.
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.
Meier S, Grand LF, Schoeneberger MM, Reinart RA. Growth, ectomycorrhizae and nonstructural carbohydrates of loblolly pine seedlings exposed to ozone and soil water defect. Environment Pollution . 1990 ;64:11-27.
Aerts R, Wallen B, Malmer N. Growth limiting nutrients in Sphagnum dominated bogs subject to low and high atmospheric Nitrogen supply. Journal of Ecology . 1992 ;80:131-40.
Dahlmann L, Näsholm T, Palmqvist K. Growth, nitrogen uptake, and resource allocation in the two tripartite lichens Nephroma arcticum and Peltigera aphthosa during nitrogen stress. New Phytologist. 2002 ;153:307-315.
Hattenschwiler S, Korner C. Growth of autotrophic and root-hemiparasitic understory plants under elevated CO2 and increased N deposition. Acta Oecologica. 1997 ;18:327-333 .
Ferguson NP, Lee JA. The growth of Sphagnum species in the southern Pennines. Journal Bryology . 1983 ;12:579-586.
Ramo K, Kanerva T, Ojanpera K, Manninen S. Growth onset, senescence, and reproductive development of meadow species in mesocosms exposed to elevated O3 and CO2. Environmental Pollution. 2007 ;145:850-860.
Gunnarsson U, Granberg G, Nilsson M. Growth, production and interspecific competition in Sphagnum: effects of temperature, nitrogen and sulphur treatments on a boreal mire. New Phytologist. 2004 ;163(2):349-359.
Vocke RW, Sears KL, O'Toole JJ, Wildman RB. Growth responses of selected freshwater algae to trace elements and scrubber ash slurry generated by coal-fired power plants. Water Research. 1980 ;(14):141-150.
Franzaring J, A.E.G. T, Kooijman AWM, Dueck TA. Growth responses to ozone in plant species from wetlands. Environmental and Experimental Botany. 2000 ;44:39-48.
Tamm CO. Growth, yield and nutrition in carpets of a forest moss (Hylocomium splendens ). Meddel. Stat. Skogsforskn. 1953 ;43:1-140.

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