Drought Essays -- Environment, Agricultural Field

Introductiondrouth is the most significant factor restricting plant work on majority of agricultural field of the world (Tas&Tas, 2007). During drought puree, improper leeway of photosystem II and thermodynamic damages disrupt the flow of electrons and lead to production of free radicals. Oxidative damages results from incomplete detoxification of antiphonal oxygen species. modify caused by oxidative accentuate includes inactivation of enzymes, lipid peroxidation, protein degradation and devastation of DNA strands, reduction in chlorophyl content and pigments color (Friso et al., 2004, Gechev et al., 2006 Baruah et al., 2009). Detoxification of labile oxygen species in plants, includes enzymatic mechanisms (such as su peroxide dismutase (SOD), catalse (CAT), ascorbate peroxidase (APX), peroxidase (POX), glutathione reductase (GR) and mono dehydro ascorbate reductase (MDAR) as well as non-enzymatic mechanisms (such as flavonoids, anthocyanins, carotenoids and ascorbic acid, AA) (Friso et al., 2004, Ramachandra Reddi et al., 2004). In enzymatic antioxidant systems, catalase (EC1.11.1.6) is an oxidoreductase located in peroxysomes and considered as an important enzyme to counter hydrogen peroxide produced in stress terminuss so that at drought stress conditions new isomorphs of it are released and the enumerate of former isomorphs increases (Srivalli et al, 2003 and Khana-chopra and Selote, 2007). Peroxidase )EC1.11.1.6( as another enzymatic antioxidant systems, is an oxidoreductase that has one homogeneous b as a prostatic group and catalysis oxidation of the proton donor compounds with H2O2 and consequently cause H2O2 to breakdown (Jiang and Zhang, 2004). In most studies low drought condition increase in ... ...ion of hydrogen superoxide hydrogen and peroxide occurs and causes disruptions in activity of some scavenger enzymes of reactive oxygen species standardized catalase in drought stress. This issue leads to increase of lipids p eroxidation and finally damages chlorophyll and cell membrane. The plant to alleviate the adverse effects of oxidative stress caused by drought stress increases the activity of some involved enzymes in removing reactive oxygen species, like peroxidase, by stimulation of gene expression. This condition can be seen more in resistant lines. The stress-resistant lines having these traits reduce negatively charged effects of oxidative stress through degradation and inactivation of reactive oxygen species and because of more stability of cell membrane and chlorophyll under these conditions, access to high yield is probable due to sustaining photosynthetic capacity.