1 0 : S O I L A N D S O I L A C I D I F I C AT I O N I N T H E A D I RO N DA C K M O U N TA I N S
Sullivan, T.J., B.J. Cosby, A.T. Herlihy, C.T. Driscoll, I.J. Fernandez, T.C. McDonnell, C.W. Boylen, S.A. Nierzwicki-Bauer, and K.U. Snyder. 2007. “Assessment of the extent to which intensively-studied lakes are representative of the Adirondack region and response to future changes in acidic deposition,” Water, Air, and Soil Pollution, 185: 279-291. “Effects of acidic deposition and soil acidification on sugar maple trees in the Adirondack Mountains, New York,” Environmental Science and Technology, 47(22): 12687-12694. Waller, K., C. Driscoll, C., J. Lynch, D. Newcomb, and K. Roy. 2012. “Long-term recovery of lakes in the Adirondack region of New York to decreases in acidic deposition,” Atmospheric Environment, 46: 56-64. Warby, R.A.F. and C.T. Driscoll. 2005. “Chemical recovery of surface waters across the northeastern United States from reduced inputs of acidic deposition: 1984-2001,” Environmental Science and Technology, 39 (17): 6548-6554. Warby, R.A.F., C.E. Johnson, C.T. Driscoll. 2009. “Continuing acidification of organic soils across the northeastern USA: 1984-2001,” Soil Sciences Society of America Journal, 73(1): 274-284. White A.F. 1995. “Chemical weathering rates of silicate minerals in soils,” in A.F. White and S.L. Brantley (Eds.), Reviews in Mineralogy and Geochemistry, 31: 407-459. White, A.F., A.E. Blum, M.S. Schulz, T.D. Bullen, J.W. Harden, and M.L. Peterson. 1996. “Chemical weathering rates of a soil chronosequence on granitic alluvium: I. Quantification of mineralogical and surface area changes and calculation of primary silicate reaction rates,” Geochimica et Cosmochimica Acta, 60(14): 2533-2550.
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