Lida Issazadeh, Reza Serajamani, MojtabaGhasemi Fahim, Bahram Mirzamasoumzadeh
Young Researchers and Elite Club, Mahabad Branch, Islamic Azad University, Mahabad, Iran
Young Researchers and Elite Club, Science and Research Branch, Islamic Azad University, Ardabil, Iran
Department of Agronomy and Plant Breeding, Ardabil Branch, Islamic Azad University, Ardabil, Iran
Key words: PEG, sugar beet, elements and proline, greenhouse.
Drought stress was one of the major problems to produce farms plants in Iran and the world, as well as a serious threat to the successful production of crops around the world. In other hand, drought stress was main factor to decrease sugar beet performance. According to this issue, an examination was done on 2011 at greenhouse in order to Investigate Polyethylene Glycol on some elements and proline of monogerm genotypes leaf of sugar beet. Examination was done in two-factor factorial frame in a randomized complete block design with three replications. In Factor a (drought level: 1 normal irrigation, 2: Polyethylene glycol 6000 with 30% concentration) and factor b (genotype) was performed. In this study, sodium, potassium, phosphorus and leaf proline were evaluated. The results showed that there was significant difference at 1% probable level between interaction of × genotype in term of sodium, potassium and phosphorus characteristics and there was no significant difference at proline leaf genotypes at 1% probable level. Polyethylene glycol caused to reduce 3.84 % sodium, 42.99 % potassium as well as caused to increase 40.68 % proline and 54.47 % phosphorus. Sodium and potassium among elements had 30908 and phosphorus had 30906 values. . Comparing effects mean sodium, potassium and phosphorus showed that highest values was respectively (normal × genotype 30,906), (normal × genotype 30,906) and (PEG 6000 × genotype 30906) combinations.
Get the original articles in Source: Volume 4, Number 1, January 2014 – JBES