APIS Bibliography

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Wallenda T, Kottke I. Nitrogen deposition and ectomycorhizas. New Phytol. 1998 ;139:169-187.
Goulding KWT, Bailey NJ, Bradbury NJ, Hargreaves P, Howe M, Murphy DV, Poulton PR, Willison TW. Nitrogen deposition and its contribution to nitrogen cycling and associated soil processes. New Phytologist. 1998 ;139:49-58.
Armitage HF, Britton AJ, Van der Wal R, Pearce ISK, Thompson DBA, Woodin SJ. Nitrogen deposition enhances moss growth but leads to an overall decline in habitat condition of mountain moss-sedge heath. Global Change Biology. 2012 ;18(1):290-300.
Nadelhoffer, Emmett BA, Gundersen P, Kjonaas OJ, Koopmans CJ, Schleppi P, Tietema A, Wright RF. Nitrogen deposition makes a minor contribution to carbon sequestration in temperate forests. Nature. 1999 ;398:145-148.
Smidt RE, Whitton JS. Note on boron toxicity in a stand of radiata pine in Hawkes Bay. New Zealand Journal of Science. 1975 ;(18):109-113.
Kaus A, Wild A. Nutrient disturbance through manganese accumulation in Douglas fir. Chemosphere. 1998 ;(36):961-964.
Cape JN, Freer-Smith PH, Paterson IS, Parkinson JA, Wolfenden J. The nutritional status of Picea abies (L.) Karst. across Europe, and implications for "forest decline". Trees. 1990 ;4(4):211-224.
P
Derwent RG, Witham C, Redington A, Jenkin ME, Stedman JR, Yardley R, Hayman G. Particulate matter at a rural location in southern England during 2006: Model sensitivities to precursor emissions. Atmospheric Environment. 2009 ; 43(3):689-696.
Wolff K, Morgan-Richards M, Davison AW. Patterns of molecular genetic variation in Plantago major and P. intermedia in relation to ozone resistance. New Phytologist. 2000 ;145:501-509.
Pearce ISK, Woodin SJ, Van der Wal R. Physiological and growth responses of the montane bryophyte Racomitrium lanuginosum to atmospheric nitrogen deposition. New Phytologist. 2003 ;160 :145–155.
Manninen S, Woods C, Leith ID, Sheppard LJ. Physiological and morphological effects of long-term ammonium or nitrate deposition on green and red (shade and open grown) Sphagnum capillifolium. Environmental and Experimental Botany. 2011 ;72:140-148.
Foy CD, Chaney RL, White MC. The physiology of metal toxicity in plants. Annual Review of Plant Physiology. 1978 ;(29):511-566.
Wang Q, Cui Y, Dong Y. Phytoremediation of polluted waters, potentials and prospects of wetland plants. Acta Biotechnologica. 2002 ;(22):199-208.
Press MC, Woodin SJ, Lee JA. The potential importance of an increased atmospheric nitrogen supply to the growth of ombrotrophic Sphagnum species. New Phytologist. 1986 ;103:45-55.
Jauhiainen J, Wallen B, Malmer N. Potential NH4+ & NO3- uptake in seven Sphagnum species. New Phytol. 1998 ;138:287-293.
Osborn D, Weeks JM, Hankard P, Dale L. Potential Uses of Biomonitoring in Pollution Control - An Introductory Guide.; 2000 p. p319.
Cosby BJ, Bulger AJ, Wright RF. Predicting recovery of freshwater ecosystems: trout in Norwegian lakes. (Steinberg CEW, Wright RF).; 1994 pp. 355-373.
Cosby BJ, Bulger AJ, Wright RF. Predicting recovery of freshwater ecosystems: trout in Norwegian lakes. (Steinberg CEW, Wright RF).; 1994 pp. 355-373.
Nilsson LO, Wallander H. The production of externalmycelium by ectomycorrhizal fungi in a Norway spruceforest was reduced in response to nitrogen fertilization. New Phytologist. 2003 ;158:409–416.

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