بررسي تأثير تنش شوري روي صفات فيزيولوژي و بيوشيميايي ژنوتيپ‌‌هاي مركبات

Effect of Salinity Stress on Physiological and Biochemical Traits in Citrus Genotypes

مركبات جزء گیاهان حساس به شوری هستند، اما میزان تحمل ارقام مختلف در این گروه به شوری متفاوت است. در این پژوهش با هدف شناسایی ژنوتیپ‌‌های مركبات متحمل به شوری، آزمایشی گلخانه‌ای به صورت فاكتوریل در قالب طرح كاملاً تصادفی در سه تكرار انجام شد. تیمارها در چهار سطح كلرید سدیم (صفر، 2، 4 و 6 دسی‌زیمنس بر متر) روی دانهال‌های شش‌ماهه 10 ژنوتیپ ناشناخته مركبات همراه با نارنگی كلئوپاترا و سیتروملو، به‌ترتیب به‌عنوان شاهد متحمل و حساس به شوری بوده است. بستر حاوی نسبت‌های برابر از پرلیت، ماسه و خاك باغچه بودند. صفات اندازه‌گیری شده شامل: وزن‌تر و خشك اندام‌های هوایی و ریشه، میزان نسبی آب‌برگ، تعداد روزنه، كلر و سدیم برگ و ریشه، كلروفیل كل، پرولین، پراكسیداسیون لیپیدها و فعالیت آنزیم پراكسیداز بوده است. نتایج نشان داد كه اثر متقابل ژنوتیپ و سطح شوری در میزان نسبی آب‌برگ، تعداد روزنه و سدیم ریشه اختلاف معنی‌داری نداشت ولی صفات دیگر در سطح 1 درصد و میزان كلروفیل كل در سطح 5 درصد معنی‌دار شدند. با افزایش سطوح شوری، كمترین میزان تجمع سدیم برگ در ژنوتیپ G9 با 28/0 درصد و بیشترین مربوط به ژنوتیپ G6 با 53/0 درصد تعلق داشت. بیشترین میزان كلر برگ در ژنوتیپ G6 با 1/3 درصد و كمترین در ژنوتیپ G11 با 7/1 درصد بدست آمد. همچنین در ژنوتیپ G9، مقدار پراكسیداسیون لیپیدها با مقدار 14 میلی‌مولار، نسبت به سایر ژنوتیپ‌ها افزایش كمتری داشت. از میان ژنوتیپ‌‌ها، ژنوتیپ G9 تحمل بیشتری در برابر تنش شوری از خود نشان داد كه از آن می‌توان در برنامه‌های به‌نژادی بهره جست.

Introduction: Citrus (L.) is a large genus that covers several major cultivatedspecies, including Citrussinensis (sweet orange), C.reticulata (tangerine and mandarin), C. limon (lemon), C.grandis (pummelo), and C. paradisi (grapefruit).Citrus is one of the world’s important fruit crops and grown inmost areas with suitable climates between latitude 35◦N–35◦S. InIran, citrus industry is of paramount importance. Citrus species have been classified as salt-sensitive crops, although their relative tolerance can be influenced by climate, fertilization, soil type, irrigation method and rootstock. Citrus rootstocks differ in their ability to exclude Cl−and/or Na+from the scion. Many authors have contrasted the relative abilities of rootstocks to restrict movement of salts to the scions. The rootstocks Cleopatra mandarin (C. reshni), Rangpur lime (C. limonia) and Severiniabuxifolia (Poir) Tenore were relatively effective in restricting Cl−transport to scions, whereas the rootstocks Swingle citrumelo and Carrizo citrange were found to be less restrictive. Although the mechanism by which some rootstocks reduce concentrations of ions in the scion is still unknown, it seems to depend on the vigor of the scion and on water requirements. There are a number of reports demonstrating that both scion and rootstock may influence Cl−accumulation in leaves. Several papers reported that accumulation of Na+ in shoots seemed to be more dependent on rootstock–scion combinations. Since, citrus species are different in salt tolerance and use of tolerant rootstocks can decrease salinity damages, sothis study was conducted to identify tolerant genotypes among unknown types from the Kotra Citrus Research Station, Citrus and Sub-Tropical Fruits Research Center (Ramsar). Materials and Methods: The experiment was –arrangedin afactorial, based on completely randomized design in three replications with two plantsin each experimental unit in Iran Citrus Research Institute.Treatment included 10 citrus natural genotypes along with two varieties of Cleopatra mandarin (tolerant plant) and Swinglecitrumelo (sensitive plant) with six-month old and four salinity levels of sodium chloride: 0(control), 2, 4 and 6 dsm-1, for 16 weeks in the greenhouse condition. Effect of salinity on fresh and dry weight of shoot and root, relative water content (using upper leaves), stomatal density (with counting of stomata using microscope), concentration ofCl (with titration method of silver nitrate) and Na (by flame photometry) in roots and leaves, content of total chlorophyll (using acetone 80%), proline (spectrophotometry at wavelength of 520 nm), lipid peroxidation (spectrophotometry at wavelength of 532 nm) and activity of peroxidase enzyme (spectrophotometry at wavelength of 470 nm)were investigated. Data analysis was done by SAS 9.1 software. Results and Discussion: The results indicated that, the interaction of genotypes and salinity levels hadnot significant difference in relative water content, stomatal density and Na+concentration - in roots but, other traits except total chlorophyll content which was significant at 5% level, were significant at 1% level. Shoot fresh and dry weight of genotypes No. 4 and 6 were significantly (P <0.01) reduced. Root fresh and dry weight in genotypes G 4, G7 and G 6, compared to control, significantly decreased (P <0.01). With increasing the salinity, leaf Na+ content was the lowest in genotype G9 at 0.28% and was the highest in genotype G6 at 0.53%. The highest and the lowest leaf Cl contentwereobtained in genotypes G6 and G11 at 3.1% and 1.7%, respectively. Prolin content significantly (P < 0.01) increased in genotype G10 and Cleopatra mandarin than others. Total chlorophyll content significantly (P < 0.05) decreased in genotypes G6,G3 and G4. Swinglecitrumelo and genotype G5 had significant increase in POD activity. Genotype G9 had the lowest lipid peroxidation (14 mM) in comparison with the other genotypes. Conclusion: In general, genotypes G4, G6 and G7 were more sensitive to salinity stress and had more Cl in their leaves which decreased plant growth. Genotypes G9, G10, G11 and G12 showed less damage in their leaves. In genotypes G9, G10, G11 and G12, lipid peroxidation and leaf Cl were lower than others. Based on the results, genotype G9 was better than others in terms of salinity tolerance. After Cleopatra mandarin and genotype G3, this genotype had the lowest Cl and Na concentration in leaves, respectively. So, genotype G9 can repel Cl from the leaves which is very important for salinity tolerance and also G9 could be considered as a tolerant genotype in citrus breeding program.