References
- Aebi H. 1984. Catalase in vitro. Meth Enzymol. 105:121–126.
- Al-Ghamdi AA. 2009. Evaluation of oxidative stress tolerance in two wheat (Triticum aestivum) cultivars in response to drought. Int J Agric Biol. 11:7–12.
- Aganchich B, Tahi H, Wahbi S, El Modafar C, Serraj R. 2007. Growth, water relations and antioxidant defence mechanisms of olive (Olea europaea L.) subjected to Partial Root Drying (PRD) and Regulated Deficit Irrigation (RDI). Plant Biosyst. 141:252–264.
- Axelrod B, Cheesbrough TM, Laakso S. 1981. Lipoxygenase from soybeans: EC 1.13.11.12 linoleate: oxygenoxidoreductase. Meth Enzymol. 71:441–451.
- Basu S, Roychoudhury A, Saha P, Sengupta DN. 2009. Differential antioxidative responses of Indica rice cultivars to drought stress. Plant Growth Regul. 60:51–59.
- Beauchamp C, Fridovich I. 1971. Superoxide dismutase: improved assays and applicable to acrylamide gels. Anal Biochem. 44:276–287.
- Ben Ahmed C, Ben Rouina B, Sensoy B, Boukhris M, Ben Abdallah F. 2009. Changes in gas exchange, proline accumulation and antioxidative enzyme activities in three olive cultivars under contrasting water availability regimes. Environ Exp Bot. 67:345–352.
- Boughalleb F, Mhamdi M. 2011. Possible involvement of proline and the antioxidant defense systems in the drought tolerance of three olive cultivars grown under increasing water deficit regimes. Agric J. 6:378–391.
- Bradford MM. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilising the principle of protein-dye binding. Anal Biochem. 72:248–254.
- Chakhchar A, Ferradous A, Lamaoui M, Wahbi S, El Modafar C. 2011. Changes in antioxidant enzymes activity and oxidative damage in four Argania spinosa ecotypes under water stress conditions. Nature Precedings. doi: 10.1038/npre.2011.6189.1.
- Chakhchar A, Lamaoui M, Wahbi S, Ferradous A, El Mousadik A, Ibnsouda-Koraichi S, Filali-Maltouf A, El Modafar C. 2015a. Differential drought tolerance of four contrasting Argania spinosa ecotypes assessed by enzymatic and non-enzymatic antioxidant. Int J Recent Sci Res. 6:3002–3009.
- Chakhchar A, Lamaoui M, Wahbi S, Ferradous A, El Mousadik A, Ibnsouda-Koraichi S, Filali-Maltouf A, El Modafar C. 2015b. Leaf water status, osmoregulation and secondary metabolism as a model for depicting drought tolerance in Argania spinosa. Acta Physiol Plant. 37:1–16.
- Chandra A, Dubey A. 2008. Evaluation of genus Cenchrus based on malondialdehyde, proline content, specific leaf area and carbon isotope discrimination for drought tolerance and divergence of species at DNA level. Acta Physiol Plant 30:53–61.
- Chaparzadeh N, D'Amico ML, Khavari-Nejad RA, Izzo R, Navari-Izzo F. 2004. Antioxidative responses of Calendula officinalis under salinity conditions. Plant Physiol Biochem. 42:695–701.
- Chaussod R, Adlouni A, Christon R. 2005. The argan tree and argan oil in Morocco: towards a deep change in a traditional agroforestry system. Economic and scientific challenges. Cah Agric. 14:351–356.
- Díaz-Barradas MC, Zunzunegui M, Ain-Lhout F, Jáuregui J, Boutaleb S, Álvarez-Cansino L, Esquivias MP. 2010. Seasonal physiological responses of Argania spinosa tree from Mediterranean to semi-arid climate. Plant Soil. 337:217–231.
- Farouk S, Abdul Qados AMS. 2013. Osmotic adjustment and yield of cowpea in response to drought stress and chitosan. Indian J Appl Res. 3(10) doi:10.15373/2249555X.
- Farouk S, Ramadan AA, Showler AT. 2013. Chitosan effects on physiochemical indicators of drought-induced leaf stress in cowpea. Plant Knowl J. 2:135–144.
- Feussner I, Kindl H. 1994. Particulate and soluble lipoxygenase isozymes. Comparison of molecular and enzymatic properties. Planta. 194:22–28.
- Fini A, Guidi L, Ferrini F, Brunetti C, Di Ferdinando M, Biricolti S, Pollastri S, Calamai L, Tattini M. 2012. Drought stress has contrasting effects on antioxidant enzymes activity and phenylpropanoid biosynthesis in Fraxinus ornus leaves: an excess light stress affair?. J Plant Physiol. 169:929–939.
- Foyer CH, Noctor G. 2005. Redox homeostasis and antioxidant signaling: a metabolic interface between stress perception and physiological responses. Plant Cell. 17:1866–1875.
- Gao J, Xiao Q, Ding L, Chen M, Yin L, Li J, Zhou S, He G. 2008. Differential responses of lipid peroxidation and antioxidants in Alternanthera philoxeroides and Oryza sativa subjected to drought stress. Plant Growth Regul. 56:89–95.
- Garnier E, Shipley B, Roumet C, Laurent G. 2001. A standardized protocol for the determination of specific leaf area and leaf dry matter content. Funct Ecol. 15:688–695.
- Gill SS, Tuteja N. 2010. Reactive oxygen species and antioxidant machinery in abiotic stress tolerance in crop plants. Plant Physiol Biochem. 48:909–930.
- Gomes MMA, Lagôa AMMA, Medina CL, Machado EC, Machado MA. 2004. Interactions between leaf water potential, stomatal conductance and abscisic acid content of orange trees submitted to drought stress. Braz J Plant Physiol. 16:155–161.
- Hameed A, Goher M, Iqbal N. 2013. Drought induced programmed cell death and associated changes in antioxidants, proteases, and lipid peroxidation in wheat leaves. Biol Plant. 57:370–374.
- Hernandez JA, Almansa MS. 2002. Short-term effects of salt stress on antioxidant systems and leaf water relations of pea leaves. Physiol Plant. 115:251–257.
- Jiang J, Su M, Chen Y, Gao N, Jiao C, Sun Z, Li F, Wang C. 2013. Correlation of drought resistance in grass pea (Lathyrus sativus) with reactive oxygen species scavenging and osmotic adjustment. Biologia. 68:231–240.
- Lee BR, Kim KY, Jung WJ, Avice JC, Ourry A, Kim TH. 2007. Peroxidases and lignification in relation to the intensity of water-deficit stress in white clover (Trifolium repens L.). J Exp Bot. 58:1271–1279.
- Liu ZJ, Zhang XL, Bai JG, Suo BX, Xuand PL, Wang L. 2009. Exogenous paraquat changes antioxidant enzyme activities and lipid peroxidation in drought-stressed cucumber leaves. Sci Hort. 121:138–143.
- Maalekuu K, Elkind Y, Leikin-Frenkel A, Lurie S, Fallik E. 2006. The relationship between water loss, lipid content, membrane integrity and LOX activity in ripe pepper fruit after storage. Postharvest Biol Technol. 42:248–255.
- Møller IM, Jensen PE, Hansson A. 2007. Oxidative Modifications to Cellular Components in Plants. Annu Rev Plant Biol. 58:459–481.
- Montillet JL, Chamnongpol S, Rusterucci C, Dat J, Van de Cotte B, Agnel JP, Battesti C, Inzé D, Van Breusegem F, Triantaphylidès C. 2005. Fatty acid hydroperoxides and H2O2 in the execution of hypersensitive cell death in tobacco leaves. Plant Physiol. 138:1516–1526.
- Moore BM, FIurkey WH. 1990. Sodium dodecyl sulfate activation of a plant polyphenol oxidase. J Biol Chem. 265:4982–4988.
- Msanda F, El Aboudi A, Peltier JP. 2005. Biodiversity and biogeography of Moroccan argan tree communities. Cah Agri. 14:357–364.
- Nag S, Saha K, Choudhuri A. 2000. A rapid and sensitive assay method for measuring amine oxidase based on hydrogen peroxide-titanium complex formation. Plant Sci. 157:157–163.
- Nogués S, Baker NR. 2000. Effects of drought on photosynthesis in Mediterranean plants grown under enhanced UV-B radiation. J Exp Bot. 51:1309–1317.
- Patade VY, Bhargava S, Suprasanna P. 2011. Salt and drought tolerance of sugarcane under iso-osmotic salt and water stress: growth, osmolytes accumulation, and antioxidant defense. J Plant Interact. 6:275–282.
- Pita P, Cañas I, Soria F, Ruiz F, Toval G. 2005. Use of physiological traits in tree breeding for improved yield in drought-prone environments. The case of Eucalyptus globulus. The case of Eucalyptus globulus. Invest Agrar: Sist Recur For. 14:383–393.
- Pyngrope S, Bhoomika K, Dubey RS. 2013. Oxidative stress, protein carbonylation, proteolysis and antioxidative defense system as a model for depicting water deficit tolerance in Indica rice seedlings. Plant Growth Regul. 69:149–165.
- Rivero RM, Ruiz JM, García PC, López-Lefebre LR, Sánchez E, Romero L. 2001. Resistance to cold and heat stress: accumulation of phenolic compounds in tomato and watermelon plants. Plant Sci. 160:315–321.
- Sayfzadeh S, Habibi D, Taleghani DF, Kashani A, Vazan S, Qaen SHS, Khodae AH, Boojar MMA, Rashedi M. 2011. Response of antioxidant enzyme activities and root yield in sugar beet to drought stress. Int J Agric Biol. 13:357–362.
- Smirnoff N. 1993. The role of active oxygen in the response of plants to water deficit and desiccation. New Phytol. 125:27–58.
- Sofo A, Dichio B, Xiloyannis C, Masia A. 2004. Lipoxygenase activity and proline accumulation in leaves and roots of olive trees in response to drought stress. Physiol Plant. 121:58–65.
- Tardieu F, Lafarge T, Simonneau T. 1996. Stomatal control by fed or endogenous xylem ABA in sunflower: interpretation of correlations between leaf water potential and stomatal conductance in anisohydric species. Plant Cell Environ. 19:75–84.
- Tardieu F, Simonneau T. 1998. Variability among species of stomatal control under fluctuating soil water status and evaporative demand: modelling isohydric and anisohydric behaviours. J Exp Bot. 49:419–432.
- Teulat B, Monneveux P, Wery J, Borries C, Sourys I, Charrier A, This D. 1997. Relationships between relative water content and growth parameters under water stress in barley: a QTL study. New Phytol. 137:99–107.
- Wahbi S, Wakrim R, Aganchich B, Tahi H, Serraj R. 2005. Effects of partial root zone drying (PRD) on adult olive tree (Olea europaea) in field conditions under arid climate I. Physiological and agronomic responses. Agric Ecosyst Environ. 106:289–301.
- Yang F, Xu X, Xiao X, Li C. 2009. Responses to drought stress in two poplar species originating from different altitudes. Biol Plant. 53:511–516.
- Ye Z, Rodriguez R,Tran A, Hoang H, de los Santos D, Brown S, Vellanoweth L. 2000. The developmental transition to flowering repress ascorbate peroxidase activity and induces enzymatic lipid peroxidation in leaf tissue in Arabidopsis thaliana. Plant Sci. 158:115–127.
- Zhang S, Lu S, Xu X, Korpelainen H, Li C. 2009. Changes in antioxidant enzyme activities and isozyme profiles in leaves of male and female Populus cathayana infected with Melampsora larici-populina. Tree Physiol. 30:116–128.