Spermidine (Spd) acts as a plant protectant under salinity stress. The objective of this study was to determine whether exogenous Spd pre-treatment could improve the salinity tolerance of Kentucky bluegrass (Poa pratensis L.). Exogenous Spd was applied before the grass was exposed to 200 mM sodium chloride (NaCl) for 28 d in the growth chamber. Salinity stress decreased chlorophyll (Chl) content, K+/Na+ratio and K+, Ca2+, and Mg2+ contents, and increased electrolyte leakage (EL), proline, Na+, putrescine (Put), Spd and Spermine (Spm) levels and the activities of arginine decarboxylase (ADC), ornithine decarboxylase (ODC), S-adenosylmethionine decarboxylase (SAMDC) and polyamine oxidase (PAO). Pre-treatment with 1 mM Spd effectively alleviated the decline of Chl content, K+/Na+ratio and K+, Ca2+, and Mg2+ contents under salinity stress conditions. Spd pre-treatment also reduced EL, Na+ content, Put levels and the activities of ADC and PAO, but increased proline content, endogenous Spd and Spm levels and the activities of ODC and SAMDC upon salinity stress. These results indicate that exogenous Spd pre-treatment could enhance salinity tolerance by increasing proline levels and regulating ion and polyamine metabolism.

1 Moschou, P. N., "Transgenic tobacco plants overexpressing polyamine oxidase are not able to cope with oxidative burst generated by abioticfactors" 133 : 140-156, 2008

2 Hoagland, D.R., "The water-culture method for growing plants without soil" 347 : 1-32, 1950

3 Slocum, R. D., "The physiology and biochemistry of polyamines in plants" 235 : 283-303, 1984

4 Lin, C. C., "The effect of NaCl on proline accumulation in rice leaves" 36 : 275-285, 2002

5 Roy, P., "Spermidine treatment to rice seedlings recovers salinity stress-induced damage of plasma membrane and PM-bound H +-ATPase in salt-tolerant and salt-sensitive rice cultivars" 168 : 583-591, 2005

6 Parvin, S., "Spermidine alleviates the growth of saline-stressed ginseng seedlings through antioxidative defense system" 537 : 70-78, 2014

7 Smethurst, C.F., "Screening methods for waterlogging tolerance in lucerne: comparative analysis of waterlogging effects on chlorophyll fluorescence, photosynthesis, biomass and chlorophyll content" 30 : 335-343, 2003

8 Velarde-Buendía, A. M., "Salt-sensitive and salt-tolerant barley varieties differ in the extent of potentiation of the ROS-induced K +efflux by polyamines" 61 : 18-23, 2012

9 Carrow, R.N., "Salt-affected turfgrass sites:assessment and management" Ann Arbor Press 1998

10 Zhu, J. K., "Salt and drought stress signal transduction in plants. Annu" 53 : 247-273, 2002

11 Zhao, F. G., "Relationship between polyamine metabolism in roots and salt tolerance of barley seedlings" 45 : 295-300, 2003

12 Bates, L. S., "Rapid determination of free proline for water-stress studies" 39 : 205-207, 1973

13 Zhang, G. W., "Putrescine plays a positive role in salt-tolerance mechanisms by reducing oxidative damage in roots of vegetable soybean" 13 : 349-357, 2014

14 Chattopadhayay, M. K., "Protective role of exogenous polyamines on salinity-stressed rice (Oryza sativa) plants" 116 : 192-199, 2002

15 Jiménez-Bremont, J. F., "Proline accumulation in two bean cultivars under salt stress and the effect of polyamines and ornithine" 50 : 763-766, 2006

16 Saleethong, P., "Pretreatment with spermidine reverses inhibitory effects of salt stress in two rice (Oryza sativa L.) cultivars differing in salinity tolerance" 10 : 245-254, 2011

17 Lopatin, A. N., "Potassium channel block by cytoplasmic polyamines as the mechanism of intrinsic rectification" 372 : 366-369, 1994

18 Fariduddin, Q., "Polyamines: potent modulators of plant responses to stress" 8 : 1-16, 2013

19 Hussain, S. S., "Polyamines: natural and engineered abiotic and biotic stress tolerance in plants" 29 : 300-311, 2011

20 Alcázar, R., "Polyamines: molecules with regulatory functions in plant abiotic stress tolerance" 231 : 1237-1249, 2010

21 Kusano, T., "Polyamines: essential factors for growth and survival" 228 : 367-381, 2008

22 Shabala, S., "Polyamines prevent NaCl-induced K +efflux from pea mesophyll by blocking nonselectivecation channels" 581 : 1993-1999, 2007

23 Zhao, F. G., "Polyamines improve K +/Na +homeostasis in barley seedlings by regulating root ion channel activities" 3 : 1061-1072, 2007

24 Pottosin, I., "Polyamines control of cation transport across plant membranes: implications for ion homeostasis and abiotic stress signaling" 5 : 1-16, 2014

25 Liu, J. H., "Polyamines and their ability to provide environmental stress tolerance to plants" 24 : 117-126, 2007

26 Bouchereau, A., "Polyamines and environmental challenges: recent development" 140 : 103-125, 1999

27 Groppa, M.D., "Polyamines and abiotic stress: recent advances" 34 : 35-45, 2008

28 Gill, S.S., "Polyamines and abiotic stress tolerance in plants" 5 : 26-33, 2010

29 Smith, T. A., "Polyamines" 36 : 117-143, 1985

30 Tiburcio, A. F., "Polyamine metabolism and its regulation" 100 : 664-674, 1997

31 Del Duca, S., "Polyamine in chloroplasts: Identification of their glutamyl and acetyl derivatives" 305 : 233-237, 1995

32 Zhu, J. K., "Plant salt tolerance" 6 : 66-71, 2001

33 Jones, J. B., "Plant analysis handbook" Micro-Macro Publishing, Inc. 1991

34 Bizhani, S., "Physio-morphological and structural changes in common bermudagrass and Kentucky bluegrass during salt stress" 36 : 777-786, 2014

35 Groppa, M. D., "Nitric oxide, polyamines and Cd-induced phytotoxicity in wheat roots" 69 : 2609-2615, 2008

36 Shen, W. Y., "Involvement of polyamines in the chilling tolerance of cucumber cultivars" 124 : 431-440, 2000

37 Schuber, F., "Influence of polyamines on membrane functions" 260 : 1-10, 1989

38 Duan, J. J., "Exogenous spermidine affects polyamine metabolism in salinity-stressed Cucumis sativus roots and enhances short-term salinity tolerance" 165 : 1620-1635, 2008

39 Shu, S., "Effects of exogenous spermine on chlorophyll fluorescence, antioxidant system and ultrastructure of chloroplasts in Cucumis sativus L. under salt stress" 63 : 209-216, 2013

40 Hu, X. H., "Effect of exogenous spermidine on polyamine content and metabolism in tomato exposed to salinity–alkalinity mixed stress. Plant Physiol" 57 : 200-209, 2012

41 Ahmad, P., "Ecophysiology and responses of plants under salt stress" Springer 2013

42 Ndayiragije, A., "Do exogenous polyamines have an impact on the response of a salt-sensitive rice cultivar to NaCl?" 163 : 506-516, 2006

43 Chen, F. M., "Determining the chlorophyll contents of plant leaves by acetone/ethanol mixture assay" 2 : 4-8, 1984

44 Martin-Tanguy, J., "Conjugated polyamines and reproductive development: biochemical, molecular and physiological approaches" 11 : 675-688, 1997

45 Shi, H. T., "Comparative proteomic and physiological analyses reveal the protective effect of exogenous polyamines in the bermudagrass (Cynodon dactylon) response to salt and drought stresses" 12 : 4951-4964, 2013

46 Greweling, T., "Chemical analysis of plant tissue" 6 : 1-35, 1976

47 Blum, A., "Cell membrane stability as a measurement of drought and heat tolerance in wheat" 21 : 43-47, 1981

48 Bagni, N., "Biosynthesis, oxidation and conjugation of aliphatic polyamines in higher plants" 20 : 301-317, 2001

49 Slocum, R.D., "Biochemistry and physiology of polyamines in plants" CRC press 1991

50 Ohe, M., "Analysis of polyamine metabolism in soybean seedlings using 15N-labelled putrescine" 66 : 523-528, 2005

51 Roychoudhury, A., "Amelioration of salinity stress by exogenously applied spermidine or spermine in three varieties of indica rice differing in their level of salt tolerance" 168 : 317-328, 2011

52 Idrees, M., "Alleviation of salt stress in lemongrass by salicylic acid" 249 : 709-720, 2012

53 Yamaguchi, K., "A protective role for the polyamine spermine against drought stress in Arabidopsis" 352 : 486-490, 2007