Agriculture Reference
In-Depth Information
Iimura K. (1981). Background contents of heavy metals in Japan soils. In:
Heavy Metal
Pollution in Soils of Japan
, Kitagishi K, Yamane I, (Eds.), pp. 37-44, Japan Sci. Soc.
Press, Tokyo, Japan.
Javed MT, Greger M. (2011). Cadmium triggers
Elodea Canadensis
to change the surrounding
water pH and thereby Cd uptake.
International Journal of Phytoremediation
, Vol.13,
pp. 95-106.
Jiang XJ, Luo YM, Zhao QG, Baker AJM, Christie P, Wong MH. (2003). Soil Cd availability to
Indian mustard and environmental risk following EDTA addition to Cd-
contaminated soil.
Chemosphere
, Vol.50, pp. 813-818.
Kabata-Pendias A, Pendias H. (2001).
Trace Elements in Soils and Plants
, CRC Press LLC, Boca
Raton, Florida, USA.
Lai HY, Chen ZS. (2004). Effects of EDTA on solubility of cadmium, zinc, and lead and their
uptake by rainbow pink and vetiver grass.
Chemosphere
, Vol.55, pp. 421-430.
Lai HY, Chen ZS. (2005). The EDTA effect on phytoextraction of single and combined
metals-contaminated soils using rainbow pink (
Dianthus chinensis
).
Chemosphere
,
Vol.60, pp. 1062-1071.
Lai HY, Chen ZS. (2006). The influence of EDTA application on the interactions of cadmium,
zinc, and lead and their uptake of rainbow pink (
Dianthus chinensis
).
Journal of
Hazardous Materials
, Vol.137, pp. 1710-1718.
Lai HY, Chen ZS. (2009). In-situ selection of suitable plants for phytoremediation of multi-
metals contaminated sites in central Taiwan.
International Journal of
Phytoremediation
, Vol.11, pp. 235-250.
Lai HY, Juang KW, Chen ZS. (2010a). Large-area Experiment on uptake of metals by twelve
plant species growing in soil contaminated with multiple metals.
International
Journal of Phytoremediation,
Vol.12, pp. 785-797.
Lai HY, Hseu ZY, Chen TC, Chen BC, Guo HY, Chen ZS. (2010b). Health risk-based
assessment and management of heavy metals-contaminated soil sites in Taiwan.
International Journal of Environmental Research & Public Health
, Vol.7, pp. 3595-3614.
Lee, TM, Lai HY, Chen ZS. (2004). Effect of chemical amendments on the concentration of
cadmium and lead in long-term contaminated soils.
Chemosphere
, Vol.57, pp. 1459-
1471.
Liao XY, Chen TB, Xie H, Liu YR. (2005). Soil As contamination and its risk assessment in
areas near the industrial districts of Chenzhou City, Southern China.
Environment
International
, Vol.31, pp. 791-798.
Lin CC, Lai HY, Chen ZS. (2010). Cadmium hyperaccumulation of fresh marigold and
impatiens.
International Journal of Phytoremediation
, Vol.12, pp. 1-14.
Liu JG, Qian M, Cai GL, Yang JC, Zhu QS. (2007). Uptake and translocation of Cd in
different rice cultivars and the relation with Cd accumulation in rice grain.
Journal
of Hazardous Materials
, Vol.143, pp. 443-447.
Madrid F, Liphadzi MS, Kirkham MB. (2003). Heavy metal displacement in chelate-irrigated
soil during phytoremediation.
Journal of Hydrology
, Vol.272, pp. 107-119.
Masironi R. (1977). Zinc, copper, cadmium, and chromium in polished and unpolished rice.
Science of the Total Environment
, Vol.7, pp. 27-43.
Masscheleyn PH, Delaune RD, Patrick WH. (1991). Effect of redox potential and pH on
arsenic speciation and solubility in a contaminated soil.
Environmental Science &
Technology,
Vol.25, pp. 1414-1419.
