APIS Bibliography

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Nicholson JK, Kendall MD, Osborn D. Cadmium and mercury nephrotoxicity. Nature. 1983 ;(304):633-635.
Nan Z, Li J, Zhang J, Cheng G. Cadmium and zinc interactions and their transfer in soil-crop system under actual field conditions. Science of the Total Environment. 2002 ;(285):187-195.
Mitchell SD, Fretz TA. Cadmium and zinc toxicity in white pine, red maple, and Norway spruce. Journal of the American Society for Horticultural Science. 1977 ;(102):81-84.
Eisler R. Cadmium hazards to fish, wildlife, and invertebrates: a synoptic review. USDI Fish and Wildlife Service. 1985 ;(46).
Rombough PJ, Garside ET. Cadmium toxicity and accumulation in eggs and alevins of Atlantic salmon Salmo salar. Canadian Journal of Zoology. 1982 ;(60):2006-2014.
Nir R, Gasith A, Perry AS. Cadmium uptake and toxicity to water hyacinth: effect of repeated exposures under controlled conditions. Bulletin of Environmental Contamination and Toxicology. 1990 ;(44):149-157.
Smolders E. Cadmium uptake by plants. International Journal of Occupational Medicine and Environmental Health. 2001 ;(14):177-183.
Oenema O. Calculated rates of soil acidification of intensively used grassland in the Netherlands. Fertilizer Research. 1990 ;26:217-228.
Ingersoll CG, Haverland PS, Brunson EL, Canfield TJ, Dwyer FJ, Henke CE, Kemble NE, Mount DR, Fox RG. Calculation and evaluation of sediment effect concentrations for the amphiod Hyalella azteca and the midge Chironomus riparius. Journal of Great Lakes Research. 1996 ;22:602-623.
Langan SJ, Bain DC, Wilson MJ. The calculation of weathering rates and their role in the determination of critical loads. (Battarbee RW). London: Environmental Change Research Centre/ENSIS; 1994 pp. 124-127.
Maggio A, De Pascale S, Fagnano M, Barbieri G. Can salt stress-induced physiological responses protect tomato crops from ozone damages in Mediterranean environments?. European Journal of Agronomy. 2007 ;26:454-461.
Wiedermann MM, Gunnarsson U, Nilsson MB, Nordin A, Ericson L. Can small-scale experiments predict ecosystem responses? An example from peatlands. Oikos. 2009 ;118(3):449-456.
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.
Pawlisz AV, Kent RA, Schneider UA, Jefferson C. Canadian water quality guidelines for chromium. Environmental Toxicology and Water Quality. 1997 ;(12):123-183.
COMEAP. Cardiovascular Disease and Air Pollution - An Expert Review for Comment .; 2005. Available from: http://www.advisorybodies.doh.gov.uk/comeap/expertreview.htm
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.
Buscher P, Koedam N, Vanspeybroeck D. Cation-exchange properties and adaptation to soil acidity in bryophytes. New Phytologist . 1990 ;115:117-186.
Sheppard LJ. Causal mechanisms by which sulphate, nitrate and acidity influence frost hardiness in red spruce: review and hypothesis. New Phytologist. 1994 ;127:69-82.
Kivimaki SK. Changes in carbon and nitrogen dynamics in Sphagnum capillifolium under enhanced nitrogen deposition. [Internet]. 2011 ;PhD. Available from: www.era.lib.ed.ac.uk/bitstream/1842/5728/2/Kivimäki2011.pdf
Knapton RW, Petrie SA. Changes in distribution and abundance of submerged macrophytes in the Inner Bay at Long Point, Lake Erie: Implications for foraging waterfowl. Journal of Great Lakes Research . 1999 ;25:783-798.
Bates JW. Changes in oak epiphytes monitored for 21 years along an air quality gradient into London. Eurasap. 2001 ;41:8-9.
Hallbacken L, Tamm CO. Changes in soil acidity from 1927-1982/84 in a forested area of south west Sweden. Scandinavian Journal of Forest Research. 1986 ;1:219-232.
Pitcairn CER, Fowler D. Changes in species composition of semi-natural vegetation associated with the increase in atmospheric inputs of nitrogen. Bush: Institute of Terrestrial Ecology; 1991.
Dupre C, Stevens CJ, Ranke T, Bleeker A, Peppler-Lisbach C, Gowing DJG, Dise NB, Dorland E, Bobbink R, Diekmann M. Changes in species richness and composition in European acidic grasslands over the past 70 years: the contribution of cumulative atmospheric nitrogen deposition. Global Change Biology. 2010 ;16:344-357.
Dupre C, Stevens CJ, Ranke T, Bleeker A, Peppler-Lisbach, C, Gowing DJ, Dise NB, Dorland E, Bobbink R, Diekmann M. Changes in species richness and composition in European acidic grasslands over the past 70 years: the contribution of cumulative atmospheric nitrogen deposition. . Global Change Biology. 2009 ;161(1):344-357.

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