PhD Dissertation: Yasemin Ceylan
  • FENS
  • PhD Dissertation: Yasemin Ceylan

You are here

CHANGES IN GROWTH AND MAGNESIUM CONCENTRATION OF WHEAT AND COFFEE PLANTS GROWN UNDER VARIOUS MAGNESIUM AND WATER STRESS TREATMENTS

 

 

Yasemin Ceylan
Biological Sciences and Bioengineering, PhD Dissertation, 2015

 

Thesis Jury

Prof. Dr. İsmail Çakmak (Thesis Advisor), Prof. Dr. İsmail Türkan,

 Assoc. Prof. Levent Öztürk, Assist. Dr. Ümit Barış Kutman, Assist. Dr. Alpay Taralp

 

 

Date &Time: 25th December 2015 –  13.30

Place: FENS G029

Keywords : Magnesium, Drought, Grain Yield, Starch, 26Mg Stable Isotope

 

Abstract

 

Magnesium (Mg) deficiency has become a widespread problem in acidic and sandy agricultural soils, and it is often associated with marginal soil conditions such as drought stress conditions. Impairment in growth and development of sink organs is a common consequence of Mg deficiency. However, mode of action of these impairments is not well understood. This study was conducted to investigate the changes in growth and Mg concentrations of wheat (Triticum aestivum cv. Adana99) and coffee (Coffea arabica cv. Murta) plants that were grown under controlled greenhouse conditions with different Mg supplies and water stress treatments. Growing wheat plants under varied Mg supply showed that foliar application of Mg to low Mg plants improved grain yield by increasing seed weight without affecting seed number per spike. Starch content and Mg concentration of the seeds were increased under foliar application of Mg to Mg-deficient plants. Growth and grain yield of low Mg plants were further reduced when grown under drought stress. An adequate Mg supply was needed to maintain better yield and higher grain Mg concentrations under drought. In experiment with coffee plants, Mg transport within plants was studied after the immersion of the fully expanded youngest leaves in a solution containing stable Mg isotope (26Mg). Transport of 26Mg from treated leaves was greater in plants with adequate Mg supply than the plants with low Mg. The results obtained highlighted the importance of Mg in growth and seed formation and accumulation of Mg in sink organs such as seed and young leaves after foliar treatment of Mg.