APIS Bibliography

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Journal
Arroniz-Crespo M, Leake JR, Horton P, Phoenix GK. Bryophyte physiological responses to, and recovery from, long-term nitrogen deposition and phosphorus fertilisation in acidic grassland. New Phytologist . 2008 ;180:864-874.
Hicks WK, Leith ID, Woodin SJ, Fowler D. Can the foliar nitrogen concentration of upland vegetation be used for predicting atmospheric nitrogen deposition? Evidence from field surveys. . Environmental Pollution. 2000 ;107:367-376.
Chameides WL, Yu H, Liu SC, Bergin M, Zhou X, Mearns L, Wang G, Kiang CS, Saylor RD, Luo C, et al. Case study of the effects of atmospheric aerosols and regional haze on agriculture: An opportunity to enhance crop yields in China through emission controls?. PNAS. 1999 ;96:13626-13633.
Hammer D, Keller C. Changes in the rhizosphere of metal-accumulating plants evidenced by chemical extractants. Journal of Environmental Quality. 2002 ;(31):1561-1569.
Jones MLM, Wallace HL, Norris D, Brittain SA, Haria S, Jones RE, Rhind PM, Reynolds BR, Emmett BA. Changes in vegetation and soil characteristics in coastal sand dunes along a gradient of atmospheric nitrogen deposition. Plant Biology. 2004 ;6(5):598-605.
Haines-Young R, Barr CJ, Firbank LG, Furse M, Howard DC, McGowan G, Petit S, Smart SM, Watkins JW. Changing landscapes, habitats and vegetation diversity across Great Britain. Journal of Environmental Management. 2003 ;67(3):267-281.
Haines-Young R, Barr CJ, Firbank LG, Furse M, Howard DC, McGowan G, Petit S, Smart SM, Watkins JW. Changing landscapes, habitats and vegetation diversity across Great Britain. Journal of Environmental Management. 2003 ;67(3):267-281.
Kasurinen A, Riikonen J, Oksanen E, Vapaavuori E, Holopainen T. Chemical composition and decomposition of silver birch leaf litter produced under elevated CO2 and O3. Plant and Soil. 2006 ;282:261-280.
Vanguelova EI, Benham S, Pitman R, Moffat AJ, Broadmeadow M, Nisbet T, Durrant D, Barsoum N, Wilkinson M, Bochereau F, et al. Chemical fluxes in time through forest ecosystems in the UK – Soil response to pollution recovery. Environmental Pollution. 2010 ;158(5):1857-1869.
Vanguelova EI, Benham S, Pitman R, Moffat AJ, Broadmeadow M, Nisbet T, Durrant D, Barsoum N, Wilkinson M, Bochereau F, et al. Chemical fluxes in time through forest ecosystems in the UK – Soil response to pollution recovery. Environmental Pollution. 2010 ;158(5):1857-1869.
Mills G, Hayes F, Wilkinson S, Davies WJ. Chronic exposure to increasing background ozone impairs stomatal functioning in grassland species. Global Change Biology. 2009 ;15(6):1522-1533.
Buhl KJ, Hamilton SJ. Comparative toxicity of inorganic contaminants released by placer mining to early life stages of salmonids. Ecotoxicology and Environmental Safety. 1990 ;(20):325-342.
Adema D, Henzen L. A comparison of plant toxicities of some industrial chemicals in soil culture and soilless culture. Ecotoxicology and Environmental Safety. 1989 ;(18):219-229.
Leith ID, Sheppard LJ, Pitcairn CER, Cape JN, Hill PW, Kennedy VH, Tang YS, Smith RI, D. F. Comparison of the effects of dry deposited N as NH3 with wet deposited N as NH4Cl on acid moorland vegetation. Water Air and Soil Pollution (In press). 2001 .
Manninen AM, Laatikainen T, Holopainen T. Condition of Scots Pine fine roots and mycorrhiza after fungicide application and low-level ozone exposure in a 2-year field experiment. Trees. 1988 ;12:347-355.
Monni S, Salemaa M, White C, Tuittila E, Huopalainen M. Copper resistance of Calluna vulgaris originating from the pollution gradient of a Cu-Ni smelter, in southwest Finland. Environmental Pollution. 2000 ;(109):211-219.
Lien L, Raddum GG, Fjellheim A, Henriksen A. A critical limit for acid neutralizing capacity in Norwegian surface waters, based on new analyses of fish and invertebrate responses. Science of the Total Environment . 1996 ;177:173-193.
Henriksen A, Posch M, Hultberg H, Lien L. Critical loads of acidity for surface waters - can the ANC limit be considered variable? . Water, Air and Soil Pollution. 1995 ;85:2419-2424.
Henriksen A, Posch M, Hultberg H, Lien L. Critical loads of acidity for surface waters - can the ANC limit be considered variable? . Water, Air and Soil Pollution. 1995 ;85:2419-2424.
Curtis C, Allott T, Hall J, Harriman R, Helliwel R, Hughes M, Kernan M, Reynolds B, Ullyett J. Critical loads of sulphur and nitrogen for freshwaters in Great Britain and assessment of deposition reduction requirements with the First-order Acidity Balance (FAB) model. Hydrology And Earth System Sciences. 2000 ;4:125-140.
Curtis C, Allott T, Hall J, Harriman R, Helliwel R, Hughes M, Kernan M, Reynolds B, Ullyett J. Critical loads of sulphur and nitrogen for freshwaters in Great Britain and assessment of deposition reduction requirements with the First-order Acidity Balance (FAB) model. Hydrology And Earth System Sciences. 2000 ;4:125-140.
Curtis C, Allott T, Hall J, Harriman R, Helliwel R, Hughes M, Kernan M, Reynolds B, Ullyett J. Critical loads of sulphur and nitrogen for freshwaters in Great Britain and assessment of deposition reduction requirements with the First-order Acidity Balance (FAB) model. Hydrology And Earth System Sciences. 2000 ;4:125-140.
Curtis C, Allott T, Hall J, Harriman R, Helliwel R, Hughes M, Kernan M, Reynolds B, Ullyett J. Critical loads of sulphur and nitrogen for freshwaters in Great Britain and assessment of deposition reduction requirements with the First-order Acidity Balance (FAB) model. Hydrology And Earth System Sciences. 2000 ;4:125-140.
Fuhrer J, Martin MVal, Mills G, Heald CL, Harmens H, Hayes F, Sharps K, Bender J, Ashmore MR. Current and future ozone risks to global terrestrial biodiversity and ecosystem processes. Ecology and Evolution. 2016 ;6(24C):8785 - 8799.
Fuhrer J, Martin MVal, Mills G, Heald CL, Harmens H, Hayes F, Sharps K, Bender J, Ashmore MR. Current and future ozone risks to global terrestrial biodiversity and ecosystem processes. Ecology and Evolution. 2016 ;6(24C):8785 - 8799.

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