Tytuł artykułu

Selenite is More Efficient than Selenate in Alleviation of Salt Stress in Lettuce Plants

Tytuł czasopisma

Acta Biologica Cracoviensia s. Botanica

Rocznik

2015

Wolumin

vol. 57

Numer

No 2

Autorzy

Hawrylak-Nowak, Barbara

Wydział PAN

Nauki Biologiczne i Rolnicze

Wydawca

Biological Commission of the Polish Academy of Sciences – Cracow Branch

Data

2015[2015.01.01 AD - 2015.12.31 AD]

Identyfikator

DOI: 10.1515/abcsb-2015-0023 ; ISSN 0001-5296 ; eISSN 1898-0295

Źródło

Acta Biologica Cracoviensia s. Botanica; 2015; vol. 57; No 2

Referencje

HeathRL (1968), Photoperoxidation in isolated chloroplasts Kinetics and stoichiometry of fatty acid peroxidation, Archives of Biochemistry and Biophysics, 125. ; Hawrylak (2009), Beneficial effects of exogenous selenium in cucumber seedlings subjected to salt stress, Biological Trace Element Research, 132. ; ParvaizA (2008), Salt stress and phyto - biochemical responses of plants a review Plant , Soil and, Environment, 54. ; Hawrylak (2013), Comparative effects of selenite and selenate on growth and selenium accumulation in lettuce plants under hydroponic conditions, Plant Growth Regulation, 70. ; HoaglandDR (1950), The water - culture method for growing plants without soil California Agricultural Experiment Station, Circular, 347. ; KongL (2005), and BiD Selenium modulates the activities of antioxidant enzymes , osmotic homeostasis and promotes the growth of sorrel seedlings under salt stress, Plant Growth Regulation, 45. ; WuL (1988), Selenium accumulation and selenium - salt cotolerance in five grass species, Crop Science, 28. ; WalaaAE (2010), Selenium induces antioxidant defensive enzymes and promotes tolerance against salinity stress in cucumber seedlings ( Cucumis sativus ) Arab Universities Journal of Agricultural, Sciences, 18. ; OhMM (2009), Environmental stresses induce health - promoting phytochemicals in lettuce, Plant Physiology and Biochemistry, 47. ; FilekM (2008), The protective role of selenium in rape seedlings subjected to cadmium stress, Journal of Plant Physiology, 165. ; BatesL (1973), Rapid determination of free proline for water stress studies, Plant and Soil, 39. ; HasanuzzamanM (2011), Selenium - induced up - regulation of the antioxidant defense and methylglyoxal detoxification system reduces salinity - induced damage in rapeseed seedlings, Biological Trace Element Research, 143. ; MozafariyanM (2014), Protective role of selenium on pepper exposed to cadmium stress during reproductive stage, Biological Trace Element Research, 160. ; DiaoM (2014), Selenium promotes the growth and photosynthesis of tomato seedlings under salt stress by enhancing chloroplast antioxidant defense system, Journal of Plant Growth Regulation, 33. ; KelingH (2013), Influence of selenium on growth , lipid peroxidation and antioxidative enzyme activity in melon ( Cucumis meloL ) seedlings under salt stress, Acta Societatis Botanicorum Poloniae, 82. ; SieprawskaA (2015), Involvement of selenium in protective mechanisms of plants under environmental stress conditions review, Acta Biologica Cracoviensia Series Botanica, 57. ; KaurN (2014), Selenium in agriculture : a nutrient or contaminant for crops Archives of Agronomy and Soil, Science, 60. ; YaoX (2012), Selenium improves recovery of wheat seedlings at rewatering after drought stress, Russian Journal of Plant Physiology, 59. ; JanaS (1982), Glycolate metabolism of three submerged aquatic angiosperms during aging, Aquatic Botany, 12. ; LichtenthalerHK (1983), Determination of total carotenoids and chlorophyllaandbof leaf extracts in different solvents, Biochemical Society Transactions, 603. ; KumarSG (2003), NaCl effects on proline metabolism in two high yielding genotypes of mulberry ( Morus albaL ) with contrasting salt tolerance, Plant Science, 165. ; ShannonMC (1999), Tolerance of vegetable crops to salinity, Scientia Horticulturae, 78.