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   ارزیابی عملکرد میوه و روغن ارقام زیتون در مناطق جنوبی و غربی ایران  
   
نویسنده عجم گرد فریدون ,تسلیم پور محمدرضا ,حاجی امیری ابوالمحسن ,زینانلو علی اصغر ,غلامی رحمت اله
منبع نهال و بذر - 1403 - دوره : 40 - شماره : 1 - صفحه:95 -73
چکیده    عملکرد پایین میوه و روغن مهمترین چالش تولید زیتون در مناطق جنوبی وغرب ایران است. این پژوهش با هدف شناسایی و انتخاب ارقام سازگار و پرمحصول زیتون، در استان های فارس (کازرون) خوزستان (باغملک) و کرمانشاه (ریجاب) انجام شد. بدین منظور در هر استان در سال 1392 باغ سازگاری در قالب طرح بلوک های کامل تصادفی با ده رقم، سه تکرار و چهار درخت از هر رقم احداث و ارزیابی صفات رویشی و زایشی در  سال های 1401 و 1402 انجام شد. رقم ها شامل آمیگدالولیا، آوان، تخم کبکی، دکل، دوستی، دهقان، شیراز،کنسروالیا، کیوپ و ماوی بودند. نتایج کازرون نشان داد، رقم کیوپ بالاترین عملکرد میوه (22 کیلوگرم) و بالاترین عملکرد روغن (3 کیلوگرم) در هر درخت را داشت. نتایج باغملک نشان داد، ارقام کیوپ و کنسروالیا به ترتیب با عملکرد 30 و 25 کیلوگرم میوه و 9.2کیلوگرم روغن به ترتیب بالاترین عملکرد میوه و روغن در هر درخت را داشتند. در ریجاب ارقام شیراز، دکل، تخم کبکی، کیوپ و کنسروالیا به ترتیب بالاترین عملکرد میوه و روغن را داشتند. همچنین روغن در ماده تر ارقام زیتون در ریجاب 5.1تا 2.2 درصد بیشتر از کازرون و باغملک بود و رقم آوان 25 تا 29 درصد روغن در ماده تر داشت. ارزیابی کلی ارقام زیتون در مناطق کازرون، باغملک و ریجاب نشان داد،  سه رقم کیوپ، کنسروالیا و ماوی در هر سه منطقه از سازگاری مطلوب و عملکرد میوه و روغن بالا برخوردار بودند.
کلیدواژه زیتون، صفات رویشی، درصد روغن، درصد روغن در ماده تر، درصد روغن در ماده خشک
آدرس سازمان تحقیقات، آموزش و ترویج کشاورزی, مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی صفی آباد, بخش تحقیقات زراعی و باغی, ایران, سازمان تحقیقات، آموزش و ترویج کشاورزی, مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی استان فارس, بخش تحقیقات زراعی و باغی, ایران, سازمان تحقیقات، آموزش و ترویج کشاورزی, مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی استان کرمانشاه, بخش تحقیقات زراعی و باغی, ایران, سازمان تحقیقات، آموزش و ترویج کشاورزی, موسسه تحقیقات علوم باغبانی, پژوهشکده میوه های معتدله و سردسیری, ایران, سازمان تحقیقات، آموزش و ترویج کشاورزی, مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی استان کرمانشاه, بخش تحقیقات زراعی و باغی, ایران
پست الکترونیکی gholami.rahmat@yahoo.com
 
   evaluation of fruit and oil yield of olive cultivars in southern and western regions of iran  
   
Authors ajamgard f. ,taslimpour m. r. ,hajiamiri a. ,zeinanloo a. a. ,gholami r.
Abstract    low fruit and oil yield are the most important challenges of olive production in the southern and western regions of iran. for identifying and selecting high-yielding olive cultivars adapted to the environmental conditions of these regions, this research was carried-out in fars (kazeroun), khuzestan (baghmalek), and kermanshah (reejab) provinces. for this purpose, in each province in 2013, an orchard was established with 10 olive cultivars, four trees of each cultivar, using randomized complete block design with three replications. the vegetative and reproductive traits were measured and estimated in 2022 and 2023. the 10 olive cultivars included: mavi, keup, avan, tokhm kabki, dosty, shiraz, dehghan, dakal, amygdalolia and konservolia. the results showed that in kazeroun cv. keup had the highest fruit yield (22 kg tree-1) and oil yield (3 kg tree-1). in baghmelek cv. keup and cv. konservolia had the highest fruit yield (30 and 25 kg tree-1, respectively), and oil yield (2.9 kg tree-1). in reejab, cv. shiraz, cv. dakal, cv. tokhm kabki, cv. keup and cv. konservolia had the highest fruit yield, respectively. also, oil content in fresh matter of the olive cultivars in reejab was 1.5 to 2.2 percent higher than in kazeroun and baghmalek. keywords:  olive, vegetative traits, oil content, oil content in fresh matter, oil content in dry matter. introductionlow fruit and oil yields are the most important challenges for olive production in the southern and western regions of iran. warm weather, dry air and high evaporation in the southern regions of iran including; fars, khuzestan and kermanshah provinces, cause a decrease the quantity and quality of olive fruit and oil yileds. high temperature stress reduces flower formation and proportion of perfect flowers (zeinanloo et al., 2015), photosynthesis and assimilation (nissim et al., 2020), oil accumulation (zeinanloo et al., 2015; conde et al., 2008), and fruit and oil quality (khaleghi et al., 2015). cv. koroneiki has high fruit yield and oil content in the north of iran. its oleic acid content is more than 70 percent, however, it has very low fruit yield and oil content (less than 6%) in the southern part of iran, and its oleic acid content is reduced to less than 40 percent (ajamgard and zeinanloo, 2013). therefore, it is very important to select adapted olive cultivars with high fruit yield and oil content for the establishment of new olive orchards in these regions. this research was carried-out to select adapted olive cultivars with high fruit yield and oil content for fars, khuzestan and kermanshah provinces. materials and methodsto identify and select adapted and high-yielding olive cultivars for the southern and western regions of iran, this research was carried-out in the provinces of fars (kazeroun), khuzestan (baghmalek), and kermanshah (reejab) provinces. for this purpose, in each province in 2013, an orchard was established with 10 olive cultivars, four trees of each cultivar, using randomized complete block design with three replications. the vegetative and reproductive traits were evaluated in 2022 and 2023. the 10 olive cultivars included: mavi, keup, avan, tokhm kabki, dosty, shiraz, dehghan, dakal, amygdalolia and konservolia. the distance between the trees was 6 × 6 meters. in reejab, terracing was created due to the slope and rocky nature of the land, and agricultural soil was used to fill the holes during planting.the soil texture in baghmalek and kazeroun was clay-loam with the depth of agricultural soil of more than one meter. the trees were irrigated using drip irrigation system with four drippers of four liters hour-1. olive trees were pruned in the second year after planting. fertilizers applied based on soil test and trees requirements was carried out according to the results of the soil test. vegetative and reproductive traits including; tree height, trunk-cross sectional area, annual growth of  branch, flower number in cluster, perfect flower percentage in cluster, fruit weight, fruit yield tree-1, fruit flesh percentage, oil content of fruit, oil content in fresh matter, oil content in dry matter and oil yield trees-1, were measured and estimated. results and discussionthe results showed that in kazeroun cv. keup had the highest fruit yield (22 kg tree-1) and oil yield (3 kg tree-1). in baghmelek cv. keup and cv. konservolia had the highest fruit yield (30 and 25 kg tree-1, respectively), and oil yield (2.9 kg tree-1). in baghmalek, cv. avan had the highest oil content in fresh and dry matter of fruit. in reejab, the average size of the trees was 47% smaller than baghmalek and 23% smaller than kazeroun.  in reejab, stones of fruit were smaller and the percentage of fruit flesh was higher than the other two regions. also, in reejab, cv. shiraz, dakal, tokhm kabki, cv. keup and cv. konservolia had higher fruit yield than other cultivars, respectively. the oil content in fresh matter of olive cultivars in reejab was 1.5 to 2.2% higher than in kazeroun and baghmalek. cv. avan, in reejab, reached a record of 29 percent of oil content in fresh matter. zeinanloo et al. (2015) reported that cv. koroneiki had high fruit yield and oil content in the north of iran. however, this cultivar had very low fruit yield and oil content (less than 6%) in the southern part of iran (ajamgard and zeinanloo, 2013). according to the results of this research, selection of adapted olive cultivars with high fruit yield and oil content for fars, khuzestan and kermanshah provinces is very important. referencesajamgard, f. and shafiei, z. a. 2007. collection and evaluation of olive (olea europaea l.) germplasm of khuzestan province. iranian journal of horticultural science and technolog, 7(4), pp.229-242.conde, c., delrot, s. and gerós, h. 2008. physiological, biochemical and molecular changes occurring during olive development and ripening. journal of plant physiology, 165(15), pp.1545-1562. https://doi.org/10.1016/j.jplph.2008.04.018nissim, y., shloberg, m., biton, i., many, y., doron-faigenboim, a. and zemach, m. 2020. high temperature environment reduces olive oil yield and quality. plos one, 15(4), pp.1-24. doi: 10.1371/journal.pone.0231956zeinanloo, a. a., arji, i., taslimpour, m., ramazani malak roodi, m. and azimi, m. 2015. effect of cultivar and climatic conditions on olive (olea europaea l.) oil fatty acid composition. iranian journal of horticultural science, 46(2), pp.233-242. doi: 10.22059/ijhs.2015. 54619
Keywords olive ,vegetative traits ,oil content ,oil content in fresh matter ,oil content in dry matter.
 
 

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