CLC number: S153
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Received: 2001-01-05
Revision Accepted: 2001-05-30
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YE Lan-jun, XIE Zheng-miao, HUANG Chang-yong, XU Jian-min. Aluminum extractability in red soils as influenced by land use patterns[J]. Journal of Zhejiang University Science A, 2002, 3(2): 223-227.
@article{title="Aluminum extractability in red soils as influenced by land use patterns",
author="YE Lan-jun, XIE Zheng-miao, HUANG Chang-yong, XU Jian-min",
journal="Journal of Zhejiang University Science A",
volume="3",
number="2",
pages="223-227",
year="2002",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.2002.0223"
}
%0 Journal Article
%T Aluminum extractability in red soils as influenced by land use patterns
%A YE Lan-jun
%A XIE Zheng-miao
%A HUANG Chang-yong
%A XU Jian-min
%J Journal of Zhejiang University SCIENCE A
%V 3
%N 2
%P 223-227
%@ 1869-1951
%D 2002
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.2002.0223
TY - JOUR
T1 - Aluminum extractability in red soils as influenced by land use patterns
A1 - YE Lan-jun
A1 - XIE Zheng-miao
A1 - HUANG Chang-yong
A1 - XU Jian-min
J0 - Journal of Zhejiang University Science A
VL - 3
IS - 2
SP - 223
EP - 227
%@ 1869-1951
Y1 - 2002
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.2002.0223
Abstract: This study on the effect of land use on soil quality in relation to forms and toxicity of aluminum in red soils (ultisol) in southeast China showed that in general, the extractable order for soil active aluminum by four extractants was: NaOH 0.5 mol/L > HCl 1 mol/L > NH4Ac 1 mol/L > KCl 1 mol/L. Different uses of the red soils, developed from Quarternary red clay with the similar hydrogeological environment, greatly affected the amount of active aluminum, especially the exchangeable Al3+. The order of exchangeable Al3+ (Al mg/kg) in the red soils with different land uses was: barren land (740) > tea garden (663) > peach garden (432) > citrus garden (234) > paddy soil (127). The content of water soluble aluminum in the red soils was highly sensitive to soil acidity.
[1] American Public Health Association, 1971. Standard methods for the examination of water and waste water (13th edition), 316p.
[2] Feng,Z. Y., 1993. Effects of acid rains on ecosystem. China Science and Technology Press, Beijing, 289p.(in Chinese).
[3] Flaten, T. P., Garruto R. M., 1992. Polynuclear ions in aluminum toxicity. J. Theoretical Biology, 156, 129-132.
[4] Huang, P. M., 1988. Ionic factors affecting aluminum transformations and the impact on soil and environmental sciences. Advances in Soil Science, 8: 1-78.
[5] Ma, H.C., 1992. Comparison of forms of active aluminum in coniferous forest soils. Environmental Chemistry, 11(3), 48-54(in Chinese, with English abstract).
[6] Norton, S. A., Lindberg S. E., Page A. L., 1990. Acidic Precipitation (Vol. 4: Soils, Aquatic Processes, and Lake Acidification), Springer-Verlag, New York-Berlin-Heidelberg, 356p.
[7] Pang, S. W., 1986. Study on dissolution and forms of active aluminum in soil using chemical extractants. Environmental Chemistry, 5(3), 68-76(in Chinese, with English abstract).
[8] Pang, S. W., 1987. Effect of acid deposition on soil acidity and dissolved aluminum. Environmental Chemistry, 7(1):41-45(in Chinese, with English abstract).
[9] Wang, W., J. Chen, Q. He, 1991. A study on forms of exchangeable aluminum in acid soils. Science Bulletin, 17(6):460-463(in Chinese, with English abstract).
[10] Wang, W., J. Chen, Q. He, 1992. Effect of simulated rain on dissolved aluminum and forms in acid soils. J. of Applied Ecology, 3(2): 184-189(in Chinese, with English abstract).
[11] Zhang,T., Zhao Q. 1994. Rehabilitation and sustainable management of degraded agro-ecosystem in southern China. In: Pedosphere, Zhao Q. et al., Eds. Nanjiang University Press, Nanjing, p.89-93.
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