Environmental Engineering Reference
In-Depth Information
Rubio MI, Escrig I, Martinez-Cortina C, Lopez-Benet FJ, Sanz A (1994) Cadmium and nickel
accumulation in rice plants. Effects on mineral nutrition and possible interactions of abscisic
and gibberellic acids. Plant Grow Reg 14:151-157.
Sabir M, Ghafoor A, Saifullah, Rehman MZU, Ahmad HR, Aziz T (2011) Growth and metal ionic
composition of
Zea mays
as affected by nickel supplementation in the nutrient solution. Int J
Agric Biol 13:186-190.
Sakamoto T, Bryant DA (2001) Requirement of nickel as an essential micronutrient for the utiliza-
tion of urea in the marine cyanobacterium
Synechococcus
sp. PCC 7002. Microb Environ
16:177-184.
Sauter M, Lorbiecke R, Ouyang B, Pochapsky TC, Rzewuski G (2005) The immediate-early eth-
ylene response gene OsARD1 encodes an acireductone dioxygenase involved in recycling of
the ethylene precursor S-adenosylmethionine. Plant J 44:718-29.
Schmidt A, Schmidt A, Haferburg G, Kothe E (2007) Superoxide dismutases of heavy metal resis-
tant streptomycetes. J Basic Microbiol 47:56-62.
Schor-Fumbarov T, Goldsbrough PB, Adam Z, Tel-Or E (2005) Characterization and expression
of a metallothionein gene in the aquatic fern
Azolla iliculoides
under heavy metal stress. Planta
223:69-76.
Seravalli J, Xiao Y, Gu W, Cramer SP, Antholine WE, Krymov V, Gerfen GJ, Ragsdale SW (2004)
Evidence that Ni-Ni Acetyl-CoA synthase is active and that the Cu-Ni enzyme is not.
Biochemistry 43:3944-3955.
Seregin IV, Kozhevnikova AD (2005) Distribution of cadmium, lead, nickel, and strontium in
imbibing maize caryopses. Russian J Plant Physiol 52:565-569.
Seregin IV, Kozhevnikova AD (2006) Physiological role of nickel and its toxic effects on higher
plants. Russian J Plant Physiol 53:257-277.
Seregin IV, Kozhevnikova AD, Kazyumina EM, Ivanov VB (2003) Nickel toxicity and distribution
in maize roots, Fiziol Rast 50:793-800.
Setia RC, Bala R (1994) Anatomical changes in root and stem of wheat (
Triticum aestivwn
L.) in
response to different heavy metals. Phytomorph 44:95-104.
Sharma CP, Sharma PN (1987) Mineral nutrient deiciencies affect plant water relations. J Plant
Nutr 10:9-16.
Sharma P, Dubey RS (2007) Involvement of oxidative stress and role of antioxidative defense
system in growing rice seedlings exposed to toxic concentrations of aluminum. Plant Cell Rep
26:2027-2038.
Sharma PD (2005) Environmental Biology and Toxicology. Rastogi Publications.
Sharma SS, Dietz KJ (2006) The signiicance of amino acids and amino acid-derived molecules in
plant responses and adaptation to heavy metal stress. J Exp Bot 57:711-726.
Sheoran IS, Singal HR, Singh R (1990) Effect of cadmium and nickel on photosynthesis and the
enzymes of the photosynthetic carbon reduction cycle in pigeonpea (
Cajanus cajan
L.).
Photosynth Res 23:345-351.
Shi GR, Cai QS (2008) Photosynthetic and anatomic responses of peanut leaves to cadmium stress.
Photosynthetica 46(4): 627-630.
Shimada N, Ando T, Tomiyama M, Kaku H (1980) Role of nickel in plant nutrition. Effects of
nickel on the growth of tomato and soybean. Japanese J Soil Sci Plant Nutr 51:493-496.
Shukla R, Gopal R (2009) Excess nickel alters growth, metabolism, and translocation of certain
nutrients in potato. J Plant Nutr 32:1005-1014.
Sigel A, Sigel H, Sigel RKO (2005) Biogeochemistry, Availability, and Transport of Metals in the
Environment. Informa Health Care Publishers.
Sigel H, Sigel A (1994) Handbook on Metals in Clinical and Analytical Chemistry. CRC Press.
Singh DP, Khare P, Singh PS (1989) Effect of Ni
2+
, Hg
2+
and Cu
2+
on growth, oxygen evolution and
photosynthetic electron transport in
Cylindrospermum
IU 942, J Plant Physiol 134:406-412.
Singh P, Nayyar K (2001) Inluence of lime on nickel availability to plants and its toxic level in
cowpea. J Res Punjab Agri Univ 38:10-13.
Singh S, Saxena R, Pandey K, Bhatt K, Sinha S (2004) Response of antioxidants in sunlower
(
Helianthus annuus
L.) grown on different amendments of tannery sludge: Its metal accumula-
tion potential. Chemosphere 57:1663-1673.
Search WWH ::
Custom Search