[IAMSLIC:1545] Request Articles

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Greetings!

Can anybody please provide me copies of the following
journal articles. I need them very badly for research.

1. Akcin, G. O. Saltabas, and H. Afsar. 1994. Removal of
Lead by Water Hyacinth (Eichornia crassipes). J. ENVIRON.
SCI. HEALTH. A29 (10): 2177-2184.

2. Y. Hao, A.L. Roach, and G.J. Ramelow, 1993. Uptake of
Metal Ions by Nonliving Biomass Derived from Sphagnum Moss
and Water Hyacinth Roots. JOURNAL OF ENVIRONMENTAL SCIENCE
AND HEALTH PART A: ENVIRONMENTAL SCIENCE AND ENGINEERING.
A28 (10), 2333-2343.

3. T. Lee and J.K. Hardy. 1987. Evaluation of Copper Uptake
by Eichhornia Crassipes. J. ENVIRON. SCI. AND HEALTH, A22
(2): 141.

4. Saltabas, O. and Akcin, G., 1994. Removal of Cr, Cu, and
Ni by Water Hyacinth (Eichhornia crassipes). TOXICOL ENVIRON
CHEM. (41): 131-134; (43):163-168.

5. Zaranyika, M.F., and T. Ndapwadza. 1995. Uptake on Ni,
Zn, Fe, Co, Cr, Pb, Cu, and Cd by Water Hyacinth (Eichhornia
crassipes) in Mukuvis and Manyame Rivers, Zimbabwe. J.
ENVIRON. SCI. HEALTH. A30 (1): 157-170.

6. T.D. Turnquist, B.M. Urig and J.K. Hardy. 1990. Nickel
Uptake by the Water Hyacinth. J. ENVIRON. SCI, AND HEALTH.
A25, 897.

7. Kuber C. Bhainsa, S. F. D’Souza. 2001. Uranium (VI)
Biosorption By Dried Roots of Eichhornia Crassipes (Water
Hyacinth). J. ENVIRON. SCI. HEALTH. Part A. Vol 36 issue 9,
1621-1631.

8. T. Lee and J.K. Hardy. 1986. Lead Uptake by Eichhornia
Crassipes. TOX. AND ENVIRON. CHEM., 11 (2):125.

9. G. Wang, M.C. Fuerstenau and R.W. Smith. 1998. Sorption
of Heavy Metals onto Nonliving Water Hyacinth Roots. MINERAL
PROCESSING AND EXTRACTIVE METALLURGY REVIEW. Vol. 19 No.
1-4.

10. G. X. Wang, M. C. Fuerstenau and R.W. Smith. Removal of
Metal Ions by Nonliving Water Hyacinth Roots. MINERALS AND
METALLURGICAL PROCESSING. Vol 16 No. 1, Feb. 1999.

11. H. Yao and G.J. Ramelow. 1997. Evaluation of Treatment
Techniques for Increasing the Uptake of Metal Ions from
Solution by Nonliving Biomass Derived from Several Strains
of Lichen, Sphagnum (peat) moss, and Eichhornia crassipes
(Water Hyacinth) Root. MICROBIOS. 50, 97-109.

12. B.C. Wolverton and R.C. McDonald, "Water Hyacinth
Sorption Rates of Lead, Mercury and Cadmium," ERL Report No.
170, pp. 73-88 (1978).

13. Ding X, Wang WQ, Jiang J, Ru BG and Wang YY (1994) The
purification and rapid identification of heavy metal-binding
peptides of water hyacinth. SCI. -CHINA-SER. B 37: 303-309

14. El-Enany AE and Mazen AMA (1996) Isolation of Cd-binding
protein of water hyacinth (Eichhornia crassipes) grown in
Nile River water. WATER AIR AND SOIL POLLUT. 87: 357-362

15. Nor YM (1990) The absorption of metal ions by Eichhornia
crassipes. CHEMICAL SPECIATION AND BIOAVAILABILITY 2: 85-91

Sincerely,
Ranny Huang

Department of Chemistry
University of San Carlos
Talamban Campus
Cebu City, Philippines 6000
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