Inclusion of urea in a 59FeEDTA solution stimulated leaf penetration and translocation of 59Fe within wheat plants

Study of durum wheat, grown for 2 weeks in nutrient solution and until grain maturation in soil culture

Abstract

The role of urea in the translocation of 59Fe from 59FeEDTA-treated leaves was studied in durum wheat (Triticum durum) grown for 2 weeks in nutrient solution and until grain maturation in soil culture. Five-cm long tips of the first leaf of young wheat seedlings or flag leaves at the early milk stage were immersed twice daily for 10 s in 59FeEDTA solutions containing increasing amounts of urea (0, 0.2, 0.4 and 0.8% w/v) over 5 days. In the experiment with young wheat seedlings, urea inclusion in the 59FeEDTA solution increased significantly translocation of 59Fe from the treated leaf into roots and the untreated part of shoots. When 59Fe-treated leaves were induced into senescence by keeping them in the dark, there was a strong 59Fe translocation from these leaves. Adding urea to the 59Fe solution did not result in an additional increase in Fe translocation from the dark-induced senescent leaves. In the experiment conducted in the greenhouse in soil culture until grain maturation, translocation of 59Fe from the flag leaves into grains was also strongly promoted by urea, whereas 59Fe translocation from flag leaves into the untreated shoot was low and not affected by urea. In conclusion, urea contributes to transportation of the leaf-absorbed Fe into sink organs. Probably, nitrogen compounds formed after assimilation of foliar-applied urea (such as amino acids) contributed to Fe chelation and translocation to grains in wheat.

Citation

Aciksoz, S.B.; Ozturk, L.; Yazici, A.; Cakmak, I. Inclusion of urea in a 59FeEDTA solution stimulated leaf penetration and translocation o f59Fe within wheat plants. Physiologia Plantarum (2014) 151 (3) 348-357. [DOI: 10.1111/ppl.12198]

Inclusion of urea in a 59FeEDTA solution stimulated leaf penetration and translocation of 59Fe within wheat plants

Updates to this page

Published 1 January 2014