Photosynthetica, 2016 (vol. 54), issue 1
Photosynthetica 2016, 54(1):19-27 | DOI: 10.1007/s11099-015-0140-3
Exogenous melatonin improves growth and photosynthetic capacity of cucumber under salinity-induced stress
- 1 State Key Laboratory of Crop Stress Biology for Arid Areas, College of Horticulture, Northwest A&F University, Yangling, Shaanxi, China
Melatonin mediates many physiological processes in animals and plants. To examine the potential roles of melatonin in salinity tolerance, we investigated the effects of exogenous melatonin on growth and antioxidant system in cucumber under 200 mM NaCl stress conditions. The results showed that the melatonin-treated plants significantly increased growth mass and antioxidant protection. Under salinity stress, the addition of melatonin effectively alleviated the decrease in the net photosynthetic rate, the maximum quantum efficiency of PSII, and the total chlorophyll content. Our data also suggested that melatonin and the resistance of plants exhibited a concentration effect. The application of 50-150 μM melatonin significantly improved the photosynthetic capacity. Additionally, the pretreatment with melatonin reduced the oxidative damage under salinity stress by scavenging directly H2O2 or enhancing activity of antioxidant enzymes (including superoxide dismutase, peroxidase, catalase, ascorbate peroxidase) and concentrations of antioxidants (ascorbic acid and glutathione). Therefore, the melatonin-treated plants could effectively enhance their salinity tolerance.
Additional key words: antioxidant enzymes; chlorophyll fluorescence; gas exchange; growth analysis; melatonin; salt tolerance
Received: September 17, 2014; Accepted: January 29, 2015; Published: March 1, 2016Show citation
ACS | AIP | APA | ASA | Harvard | Chicago | IEEE | ISO690 | MLA | NLM | Turabian | Vancouver |
References
- Aebi H.: Catalase in vitro. - Methods Enzymol. 105: 121-126, 1984. Go to original source...
- Afreen F., Zobayed S.M., Kozai T.: Melatonin in Glycyrrhiza uralensis: response of plant roots to spectral quality of light and UV-B radiation. - J. Pineal Res. 41: 108-115, 2006. Go to original source...
- Arnao M.B.: Phytomelatonin: discovery, content, and role in plants. - Adv. Bot. 2014:1-11, 2014. Go to original source...
- Arnao M.B., Hernández-Ruiz J.: Melatonin promotes adventitious and lateral root regeneration in etiolated hypocotyls of Lupinus albus L. - J. Pineal Res. 42: 147-152, 2007. Go to original source...
- Arnao M.B., Hernández-Ruiz J.: Protective effect of melatonin against chlorophyll degradation during the senescence of barley leaves. - J. Pineal Res. 46: 58-63, 2009. Go to original source...
- Arnao M.B., Hernández-Ruiz J.: Growth conditions determine different melatonin levels in Lupinus albus L. - J. Pineal Res. 55: 149-155, 2013a. Go to original source...
- Arnao M.B., Hernández-Ruiz J.: Growth conditions influence the melatonin content of tomato plants. - Food Chem. 138: 1212-1214, 2013b. Go to original source...
- Arnao M.B., Hernández-Ruiz J.: Melatonin: plant growth regulator and/or biostimulator during stress? - Trends Plant Sci. 19: 789-797, 2014. Go to original source...
- Choi S., Dadakhujaev S., Ryu H. et al.: Melatonin protects against oxidative stress in granular corneal dystrophy type 2 corneal fibroblasts by mechanisms that involve membrane melatonin receptors. - J. Pineal Res. 51: 94-103, 2011. Go to original source...
- Dionisio-Sese M.L., Tobita S.: Antioxidant responses of rice seedlings to salinity stress. - Plant Sci. 135: 1-9, 1998. Go to original source...
- Foyer C., Noctor G.: Oxygen processing in photosynthesis: regulation and signalling. - New Phytol. 146: 359-388, 2000. Go to original source...
- Gómez-Pando L.R., Álvarez-Castro R., Eguiluz-de la Barra A.: Effect of salt stress on peruvian germplasm of Chenopodium quinoa Willd.: A promising crop. - J. Agron. Crop Sci. 196: 391-396, 2010. Go to original source...
- Galano A., Tan D.X., Reiter R.J.: Melatonin as a natural ally against oxidative stress: a physicochemical examination. - J. Pineal Res. 51: 1-16, 2011. Go to original source...
- Griffith O.W.: Determination of glutathione and glutathione disulfide using glutathione reductase and 2-vinylpyridine. - Anal. Biochem. 106: 207-212, 1980. Go to original source...
- Hardeland R., Cardinali D.P., Srinivasan V. et al.: Melatonin - a pleiotropic, orchestrating regulator molecule. - Prog. Neurobiol. 93: 350-384, 2011. Go to original source...
- Hernández-Ruiz J., Arnao M.B.: Melatonin stimulates the expansion of etiolated lupin cotyledons. - Plant Growth Regul. 55: 29-34, 2008. Go to original source...
- Hernandez-Ruiz J., Cano A., Arnao M.B.: Melatonin: a growthstimulating compound present in lupin tissues. - Planta 220: 140-144, 2004. Go to original source...
- Hodges D.M., DeLong J.M., Forney C.F., Prange R.K.: Improving the thiobarbituric acid-reactive-substances assay for estimating lipid peroxidation in plant tissues containing anthocyanin and other interfering compounds. - Planta 207: 604-611, 1999. Go to original source...
- Jampeetong A., Brix H.: Effects of NaCl salinity on growth, morphology, photosynthesis and proline accumulation of Salvinia natans. - Aquat. Bot. 91: 181-186, 2009. Go to original source...
- Jung-Hynes B., Reiter R.J., Ahmad N.: Sirtuins, melatonin and circadian rhythms: building a bridge between aging and cancer. - J. Pineal Res. 48: 9-19, 2010. Go to original source...
- Khalid A.M., Nasim A.R., Abdulbasset M.A.: Salicylic acidmediated alleviation of cadmium toxicity in maize leaves. - J. Plant Sci. 2: 276-281, 2014.
- Kolář J., Johnson C.H., Macháčková I.: Exogenously applied melatonin (N-acetyl-5-methoxytryptamine) affects flowering of the short-day plant Chenopodium rubrum. - Physiol. Plantarum 118: 605-612, 2003. Go to original source...
- Lei X.Y., Zhu R.Y., Zhang G.Y., Dai Y.R.: Attenuation of coldinduced apoptosis by exogenous melatonin in carrot suspension cells: the possible involvement of polyamines. - J. Pineal Res. 36: 126-131, 2004. Go to original source...
- Li C., Wang P., Wei Z. et al.: The mitigation effects of exogenous melatonin on salinity-induced stress in Malus hupehensis. - J. Pineal Res. 53: 298-306, 2012. Go to original source...
- Lichtenthaler K., Wellburn A.: Determinations of total carotenoids and chlorophylls a and a of leaf extracts in different solvents. - Biochem. Soc. Trans. 11: 591-592, 1983. Go to original source...
- Logan B.A., Grace S. C., Adams W. W., Demmig-Adams B.: Seasonal differences in xanthophylls cycle characteristics and antioxidants in Mahonia repens growing in different light environments. - Oecologia 116: 9-17, 1998. Go to original source...
- McKersie B.D., Bowley S.R., Harjanto E., Leprince O.: Waterdeficit tolerance and field performance of transgenic alfalfa overexpressing superoxide dismutase. - Plant Physiol. 111: 1177-1181, 1996. Go to original source...
- Mittler R.: Oxidative stress, antioxidants and stress tolerance. - Trends Plant Sci. 7: 405-410, 2002. Go to original source...
- Motilva V., García-Mauriño S., Talero E., Illanes M.: New paradigms in chronic intestinal inflammation and colon cancer: role of melatonin. - J. Pineal Res. 51: 44-60, 2011. Go to original source...
- Munns R., Tester M.: Mechanisms of salinity tolerance. - Annu. Rev. Plant Biol. 59: 651-681, 2008. Go to original source...
- Nakano Y., Asada K.: Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts. - Plant Cell Physiol. 22: 867-880, 1981.
- Noctor G., Foyer C.H.: Ascorbate and glutathione: Keeping active oxygen under control. - Annu. Rev. Plant Phys. 49: 249-279, 1998. Go to original source...
- Parida A.K., Das A.B.: Salt tolerance and salinity effects on plants: a review. - Ecotox. Environ. Safe. 60: 324-349, 2005. Go to original source...
- Patterson B.D., Macrae E.A., Ferguson I.B.: Estimation of hydrogen peroxide in plant extracts using titanium(IV). - Anal. Biochem. 139: 487-492, 1984. Go to original source...
- Radyukina N.L., Kartashov A.V., Ivanov Y.V. et al.: Functioning of defense systems in halophytes and glycophytes under progressing salinity. - Russ. J. Plant Physl+ 54: 806-815, 2007.
- Rao M.V., Paliyath G., Ormrod D.P.: Ultraviolet-B- and ozoneinduced biochemical changes in antioxidant enzymes of Arabidopsis thaliana. - Plant Physiol. 110: 125-136, 1996. Go to original source...
- Reiter R.J., Tan D.X., Terron M.P. et al.: Melatonin and its metabolites: new findings regarding their production and their radical scavenging actions. - Acta. Biochim. Pol. 54: 1-9, 2007. Go to original source...
- Roncarati F., Rijstenbil J.W., Pistocchi R.: Photosynthetic performance, oxidative damage and antioxidants in Cylindrotheca closterium in response to high irradiance, UVB radiation and salinity. - Mar. Biol. 153: 965-973, 2008. Go to original source...
- Smirnoff N.: The role of active oxygen in the response of plants to water deficit and desiccation. - New Phytol. 125: 27-58, 1993. Go to original source...
- Sreenivasulu N., Grimm B., Wobus U., Weschke W.: Differential response of antioxidant compounds to salinity stress in salttolerant and salt-sensitive seedlings of foxtail millet (Setaria italica). - Physiol. Plantarum 109: 435-442, 2000. Go to original source...
- Tan D.X., Manchester L.C., Liu X. et al.: Mitochondria and chloroplasts as the original sites of melatonin synthesis: a hypothesis related to melatonin's primary function and evolution in eukaryotes. - J. Pineal Res. 54: 127-138, 2013. Go to original source...
- Tan D.X., Manchester L.C., Terron M.P. et al.: One molecule, many derivatives: a never-ending interaction of melatonin with reactive oxygen and nitrogen species? - J. Pineal Res. 42: 28-42, 2007. Go to original source...
- Wang P., Sun X., Li C. et al.: Long-term exogenous application of melatonin delays drought-induced leaf senescence in apple. - J. Pineal Res. 54: 292-302, 2013. Go to original source...
- Wang P., Yin L., Liang D. et al.: Delayed senescence of apple leaves by exogenous melatonin treatment: toward regulating the ascorbate-glutathione cycle. - J. Pineal Res. 53: 11-20, 2012. Go to original source...
- Xu S.C., He M.D., Zhong M. et al.: Melatonin protects against Nickel-induced neurotoxicity in vitro by reducing oxidative stress and maintaining mitochondrial function. - J. Pineal Res. 49: 86-94, 2010. Go to original source...
- Zhang N., Sun Q., Zhang H. et al.: Roles of melatonin in abiotic stress resistance in plants. - J. Exp. Bot. 66: 647-656, 2015 Go to original source...
- Zhang N., Zhao B., Zhang H.J. et al.: Melatonin promotes waterstress tolerance, lateral root formation, and seed germination in cucumber (Cucumis sativus L.). - J. Pineal Res. 54: 15-23, 2013. Go to original source...
- Zhang N., Zhao H., Yang R.C. et al.: Advances in melatonin and its functions in plants. - Agr. Sci. Tech. 13: 1833-1837, 2012.
- Zhu J.K.: Plant salt tolerance. - Trends Plant Sci. 6: 66-71, 2001. Go to original source...