Abstract

Soil salinization is a major factor limiting crop growth and development in many areas. Switchgrass (Panicum virgatum L.) is an important warm-season grass species used for biofuel production. The objective of this study was to investigate antioxidant metabolism, proline,and protein variation associated with alkali-salt tolerance among 30 switchgrass lines and identify metabolic markers for evaluating alkali-salt tolerance of switchgrass lines. The grass lines were transplanted into plastic pots containing fine sand. When the plants reached E5 developmental stage, they were subjected to either alkali-salt stress treatment (150 mM Na+ and pH of 9.5) or control (no alkali-salt stress) for 20 d. The 30 switchgrass lines differed in alkali-salt tolerance as determined by the level of leaf malondialdehyde (MDA), antioxidant enzyme activity [(superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX)], proline and protein. Alkali-salt stress increased MDA, proline, SOD, reduced CAT activity, but its effect on protein and APX varied depending on lines. Wide variations in the five parameters existed among the 30 lines. In general, the lines with higher CAT activity and lower proline content under alkali-salt stress had less MDA, exhibiting better alkali-salt tolerance. Among the five parameters, CAT can be considered as valuable metabolic markers for assessment of switchgrass tolerance to alkali-salt stress.

Highlights

  • Salt-alkalization is becoming a major environmental and land resource problem [1]

  • The results of this study indicated that alkali-salt stress (150 mM Na+, pH 9.5) caused damage to cell membrane and function as indicated by an increase in MDA a product of lipid peroxidation

  • Wide variations in MDA responses to alkali-salt stress were found among the 30 switchgrass line

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Summary

Introduction

Salt-alkalization is becoming a major environmental and land resource problem [1]. Soil salinization-caused the loss of agricultural land accounts for 0.25 to 0.5 Mha each year in the world [1]. Soil salinization and alkalization significantly reduce crop productivity [2,3,4]. There are about 950 million ha of saline-alkalized land worldwide [5]. Revegetation for this kind of lands and corresponding plant screening will be important.

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