International Conference on

                                  Recent Trends in Environmental Sustainability


                                                    ESCON22/ETERM/10
               Growth and physiological response of maize (Zea mays L.) against combined toxicity of
               arsenic and boron under salt stress and its amelioration by potassium

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                                           1
               Muhammad Mubashar Iqbal , Javaid Akhtar , Muhammad Ansar Farooq        2*
               1 Institute of Soil and Environmental Sciences, University of Agriculture, Faisalabad
               2 Institute  of  Environmental  Sciences  and  Engineering  (IESE),  School  of  Civil  and
               Environmental Engineering (SCEE), National University of Sciences & Technology (NUST),
               Sector H-12, Islamabad 44000, Pakistan
               Correspondence: ansar_1264@yahoo.com; ansar@iese.nust.edu.pk
               Abstract

               Salinity and relatively high boron (B) often co-occur in agricultural environments limiting plant
               growth severely. Use of arsenic (As) contaminated irrigation water and soils further decrease
               the growth of cereal crops. While potassium (K) is known to enhance plant tolerance under
               both stress and non-stress conditions. A hydroponic experiment was conducted to study the
               interactive effect of B (1.5 and 3 mM) and As (20 and 40 µM) under saline conditions (60 mM)
               and ameliorative role of K (6 and 12 mM) on maize crop. Toxicity of B and As either alone or
               in combination, inhibited the plant growth which was further elevated by salt stress. However,
               combined  toxicity  of  salinity,  B  and  As  surprisingly  didn’t  decrease  the  growth  and
               physiological attributes of maize varieties. Exogenously applied K ameliorated the toxic effects
               of  As  and  salt  stress  by  improving  the  growth  and  the  physiological  attributes  of  maize.
               However,  plants  showed  varied  response  to  the  ionic  concentration  under  individual  and
               combined stresses. Increasing B and As stress increased the shoot Na and B however, shoots
               accumulated lesser B as compared to roots. 20 µM As in combination with 1.5 mM B decreased
               shoot  K  while  increasing  exogenous  As  and  B  concentration  improved  K  uptake  and
               accumulation in shoots. Under combined stress of salinity, As and B, shoot B and Na continued
               to increase which was significantly reduced by application of K (12 mM). It was concluded
               that As and B interaction under salinity decreased the maize growth however this interaction
               was not as damaging as compared to their individual levels and K has ameliorated the adverse
               effects of salinity and As stress.
               Keywords: Growth; Arsenic; Boron; Salinity





























                 Department of Environmental Sciences, COMSATS University Islamabad, Vehari Campus

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