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Nutrient leaching from conifer needles in relation to foliar apoplast cation exchange capacity
1992
Turner, D.P. | Broekhuizen, H.J. van (Mantech Environmental Technology, Inc., US EPA Environmental Research Laboratory, 200 S.W. 35th, Corvallis, Oregon 97333 (USA))
The effect of fly ash on plant growth and yield of tomato
1996
Khan, M.R. | Khan, M.W. (Department of Plant Protection, Institute of Agriculture, Aligarh Muslim University, Aligarh 202-002 (India))
Timing, magnitude and impact of acidic deposition on sensitive forest sites
1992
Shortle, W.C. (Northeastern Forest Experiment Station USDA-Forest Service, Durham, NH (USA)) | Bondietti, E.A.
Hydrochemical budgets of a small forested granitic catchment exposed to acid deposition: the strengbach catchment case study (Vosges Massif, France)
1992
Probst, A. (Centre de Geochimie de la Surface, Strasbourg (France)) | Viville, D. | Fritz, B. | Ambroise, B. | Dambrine, E.
Changes in pH, CEC and exchangeable acidity of some forest soils in southern China during the last 32-35 years
1998
Dai, Z.H. (Chinese Academy of Sciences, Beijing (China). Research Center for Eco-Environmental Sciences) | Liu, Y.X. | Wang, X.J. | Zhao, D.W.
Long-term changes in forest soil acidity in Pennsylvania, U.S.A.
1997
Drohan, J.R. (Pennsylvania State Univ., University Park, PA (USA).) | Sharpe, W.E.
Cationic and anionic clays as potential adsorbents for Cr(VI) | Katjonske i anjonske gline kao moguci adsorbenti za Cr(VI)
2009
Marjanovic, V., Visoka poslovna-tehnicka skola, Uzice (Serbia) | Petrovic, R., Univerzitet u Beogradu, Beograd (Serbia). Tehnolosko-metalurski fakultet | Aksentijevic, S., Visoka poslovno-tehnicka skola, Uzice (Serbia)
Anionic clays (layered double hydroxides) comprise positively charged layers with at least two different metal cations, octahedrally coordinated by hydroxyl groups. The positive charges of layered double hydroxides are counterbalanced by interlayer anions. The interlayer anions and water, which fill the interlayer space, are often labile. Therefore, anionic clays exhibit anion exchange capacity (AEC). Anionic clays which have a high surface area and a high anion exchange capacity, are potential adsorbents for anionic contanimants, such as the oxyanion of chrome. The adsorption study of chromium (VI) from aqueous solutions by natural cationic clay mineral (kaolinite, montmorillonite, etc.) was not given much attention, perhaps due to the fact cationic clays have negatively charged layers and clay mineral surface shows no affinity for oxyanion of chrome.
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