NaCl Toksitesine Maruz Kalan Fasulye Fidelerinde Kemik Tozu Solüsyonunun Koruyucu Rolünün Belirlenmesi

Kemik tozu kalsiyum ve bitki gelişiminde önemli rolleri olan bir çok inorganik elementi içerir. Bu çalışmada, tuz stresi altındaki fasulyenin morfolojik ve biyokimyasal parametreleri üzerine kemik tozu solüsyonu uygulamasının etkisini aydınlatmak amaçlanmıştır. Bitkiler 24 gün boyunca 20/25°C’de yetiştirildi. 14 günlük fidelerin yetişme ortamlarına üç farklı konsantrasyonda %1, %1,5 ve %2 kemik tozu solüsyonu uygulaması yapıldı. Daha sonra 24 günlük bitkiler büyüme parametrelerin belirlenmesi için hasat edildi. Tuzluluk, kök ve gövde uzunluğunu indirgedi. Ancak kemik tozu solüsyonu kök ve gövde uzunluklarını, protein ve fotosentetik pigment içeriklerini önemli derecede arttırdı. Bunlara ilave olarak kemik tozu solüsyonu uygulaması tuz stresinin ciddi derecede artırdığı H2O2 ve lipid peroksidasyon düzeyini indirgedi. Sonuç olarak, kemik tozu solüsyonunun tuzluluğa karşı bitki büyümesini ve verimliliğini artırmak için kullanılabileceği söylenebilir. Bu çalışma tuz stresine karşı organik kalsiyum kaynağının kullanılması açısından ilk araştırma olacaktır

Determination of Protective Role of Bone Powder Solution in bean seedlings exposed to NaCl toxicity

Bone powder contains calcium and a lot of inorganic elements having an important role in plant growth. In this study, it was aimed to elucidate the effect of bone powder solution application on morphological and biochemical parameters of bean under salt stress. Plants were grown during 24 day at 20/25°C. Bone powder solution was applied to growth medium of 14-day seedlings. Afterward, 24-day plants were harvested in order to determine the growing parameters. Salinity decreased the lengths of rot and stem. However, bone powder solution markedly increased the root-stem lengths, contents of protein and photosenthetic pigment. In additional to these, bone powder solutions application reduced levels of H2O2and lipid peroxidation seriously inreased by salt stress. In conclusion, it is said that, bone powder solution may be used to increase the growth and fertility of plants against salt stress. This study will be the first investigation in use of the organic calcium source against salt stress

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