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Pak. J. Bot., 48(1): 29-36, 2016.

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  Updated: 29-02-16

 

 

METABOLIC IMPLICATIONS OF SALT INDUCED OSMOLYTE ACCUMULATION IN AVICENNIA MARINA

 

FARZEEN KHAN1, MUHAMMAD YOUSUF ADNAN1,2 AND IRFAN AZIZ1*

 

Abstract: Salt induced solute accumulation is a well known feature for osmotic adjustment in plants under salt stress.  Concomitantly, synthesis of compatible osmolytes requires energy which may compromise plant growth. This study highlights the contribution of different solutes to leaf osmolality in Avicennia marina seedlings and saplings and possible metabolic shifts under saline conditions. Salinity was imposed using different seawater strengths (0, 50% & 150% seawater salinity) to evaluate contribution of ions and organic osmolytes and their possible effects on plant growth. Optimum growth was found in 50% seawater salinity (SWS) and decreased under salt stress (150% SWS). Low values for water and osmotic potential could be accounted for an increase in the amount of Na+ which appeared to contribute the most in leaf osmolality in both seedlings (38%) and saplings (43%) under saline conditions. Among tested organic solutes, the contribution of total soluble sugars (TSS) was higher in non-saline control and moderate salinity, followed by glycinebetaine (GB) while proline (PRO) values were lowest. The amount of GB increased to a 4 fold in seedlings and 2 fold in saplings under salt stress. The increased ratio of GB:TSS in seedlings under salt stress indicates their sensitivity over saplings and a likely metabolic shift at the cost of growth.

 

Key words: Glycinebetaine, Ions, Mangroves, Sugars, Osmolytes, Stress.

 


1Institute of Sustainable Halophyte Utilization, University of Karachi, Karachi-75270

2Govt. Science & Commerce College, Landhi/Korangi-6, Karachi-74900

*Corresponding author: email: irfanaziz@uok.edu.pk


   
   

 

   
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