Pomology
Zohre Rohi Vishekaii; Ali Soleimani; Mahmood Ghasemnejad; Akbar Hasani
Abstract
Introduction Olive tree, with a thousand years of cultivation history, is one of the most important horticultural crops in Iran and has always played an important economical role for orchardists. In olive orchards traits such as an increased formation of incomplete flowers, low yield of fruits and ...
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Introduction Olive tree, with a thousand years of cultivation history, is one of the most important horticultural crops in Iran and has always played an important economical role for orchardists. In olive orchards traits such as an increased formation of incomplete flowers, low yield of fruits and oil are often found as major problems. It should be noted that these traits are affected by numerous environmental and management factors from which the nutrition status is one of the most important ones. Proper nutrition plays an important role in both olive fruit and oil yield. There is a wide range of fertilizer compounds with different formulas and efficiencies available in the world market, among which nano-products are becoming increasingly popular. However, there is limited information on their efficacy in different plant species. Materials and MethodsIn order to evaluate the impact of fertilizers on olive cultivation, a research was conducted during two successive years from 2019 to 2020 in a commercial orchard on 15 year old olive tree cv. ‘Zard’, in Manjil city of Guilan province. Foliar application included five treatments using two types of fertilizers; nano (nano-chelated nitrogen and potassium: nano-NK) and chemical fertilizers (urea and potassium nitrate; NK). Treatments involved application of two concentrations from each fertilizers sources; 1.02g and 0.81g (nano-N1K1 and N1K1), 1.36 g and 1.08 g (nano-N2K2 and N2K2) of pure nitrogen and potassium, respectively. Foliar application was conducted in four stages bud-swelling, before blooming, pit hardening and shortly after harvest of table olive. Spraying with water was considered as the control. The nano-chelated fertilizers were obtained from Khazra Company, Teheran, Iran (http://en.khazra.ir). Spraying with water was considered as control. The experiment was performed in a randomized block design with three replications. The measurement of leaf nutrient status and its chlorophyll and carbohydrate contents were carried out at two times each growing season; in August (during pit hardening stage) and October (shortly after the harvest of table olive). At the green ripening stage, fruits were collected and weighted to determine fruit yield. At the end of the experiment quantity and quality traits of oil were measured. Results and Discussion The results showed that the trees under N2K2 treatment had the highest yield. In terms of mineral content, both forms of fertilizers increased the concentration of nitrogen and potassium leaf elements compared to the control trees. Chlorophyll content was affected by nano-N1K1 foliar application and carbohydrate content was affected by nano-N1K1 in the pit hardening stage and nano-N2K2 in shortly after the harvest of table olive. Nano-N1K1 treatment with the lower crop load not only increased oil content but also improved quality characteristics of olive oil (free fatty acids, peroxide value, specific ultraviolet absorbance K232, K270 and contents of pigments), total phenol content, antioxidant capacity and fatty acid composition. Generally, the results showed that olive trees responded well to fertilizer feeding. These trees produced better crop and higher quality oil in comparison with control trees. According to the results, fruit yield is better under urea and potassium nitrate treatment, and the quality of olive oil is more stable after nano-chelated nitrogen and potassium foliar application. It seems that the reason for the high amount of fruit yield with N2K2 in comparison to the slow-release property of nano-fertilizers is that using nitrogen and potassium in the form of ordinary chemical fertilizer regulates the biosynthesis, conversion and rapid translocation of assimilates and mineral elements into reproductive structures, which resulted in soaring yield. We assumed that nano-N1K1 foliar spray in the pit hardening stage and shortly after the fruit harvest for table olive might export the assimilation into the fruit to fulfill cell metabolism requirements for oil synthesis. Conclusion The current findings indicated that two of four treatments, i.e. nano-N1K1 and N2K2, could be more effective on olive trees in terms of general fruit and oil attributes. It was remarkable that nano treatment with a lower concentration could provide adequate beneficial effects on quality characteristics of olive oil and is in line with good management strategies regarding the preservation of the environment. To the best of our knowledge, the current work is the first report considering the application of nano-chelated nitrogen and potassium and their is use as a foliar application on olive trees. Additional studies would be necessary to further optimize the concentration and timing of the applications with these new formulations.
Isa Keramatlou; Saeid Navabpour; Khalil Zainilnejad; Elahe Tavakol; Seyyed Mehdi Hosseini Mazinani
Abstract
Introduction
Low temperature is one of the major abiotic stresses which can cause a significant reduction in olive growth and productivity mainly at late autumn, winter and early spring. Although olive is moderately freezing tolerant, temperatures below a certain threshold -7oC can damage the plant, ...
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Introduction
Low temperature is one of the major abiotic stresses which can cause a significant reduction in olive growth and productivity mainly at late autumn, winter and early spring. Although olive is moderately freezing tolerant, temperatures below a certain threshold -7oC can damage the plant, while at -12oC damage may be serious enough to threaten the life of the tree. Different cultivars of olives have diverse reactions to cold stress and so, the selection of cold resistant cultivars is the most effective method to avoid frost damages. First step to achieve this goal, is indentifying tolerant cultivar and genotypes in olive area growing. Due to extensive and high freezing damage in November 2016, the objective of the present study was to evaluate morphological characteristics and selection of single -tolerant cold trees.
Materials and Methods
The present study was carried out in some cold tolerant olives after freezing event in December 2016 in Eastern region of Golestan province of Iran. After freezing stress Healthy olive trees were identified in tow major olive cultivation regions and then were evaluated in four stages. Thus, this study included: 1- Meteorological data analysis, 2- Evaluation of freezing stress symptoms in olive orchards and identification of single tolerant trees, 3-stugy of single tolerant cold trees in 4 stages. For each genotype, studies on morphological traits (Tree age, location altitude, dip direction and its percentage, previous yield, tree height, canopy height, average of canopy diameter, canopy volume, canopy surface area, trunk perimeter, trunk diameter, trunk cross section area, length of internodes, growth habit, canopy density, canopy defoliation, barksplit ranging, flowering and fruit set) based on CFC / IOOC / 03 and Lodolini et al. (2016) results.
Results and Discussion
History of cold climate in the last two decades showed freezing event several times cause damage to olive orchards. The last freezing stress occurred with the entrance of the cold air to the Golestan province and a sudden drop in temperature to less than 0 degrees Celsius and stability of these conditions for 5-days in the late of November, 2016. The temperature drops below 0 ° C began on November 23 and lasts for 4-days. However, the main damage to the olive orchards is on November 25, when temperature is - 7 ° C. The minimum temperature recorded in the studied regions in November 25, Maravehtapeh, Gonbad, Kalaleh and Minoudasht are -14.2, -12.7, -12.3 and -8.5 ° C, respectively. Symptoms of freezing damage on olive tree can range from shoot tip burns and defoliation up to bark split on branches or trunk. After 4 stages visiting olive orchards, Finally, from 218 primary individual trees, 58 trees were introduced for further evaluation. Location altitude (meters above sea level) of the idividual trees are 81-411 in the CTO-17 and CTO-5 genotypes, respectively. Generally, 93% of all trees identified in sloping land orchards, and the Percentage variation for this trait is 48. 99. Fruit production of selected olives before freezing event in 2016 showed except of 13 trees, 44 of olives was of 2-60 kg/tree. Tree height was 2-6.82 in CTO-35 and CTO-17 genotypes, respectively. However, average of canopy diameter in all genotypes was 2.68. Also, trunk diameter (TD) and trunk cross section area (TCSA) was maximum in CTO-29 and minimum in CTO-9. But the average of this trait was 17.13 cm. Variation between genotype in internode length changed between 1.05 in CTO-20 and 16.2 in the CTO-49. Reduction of internode spaces and shoot growth, even though the total node number is normal resistance of the olive tree to cold is reduced. Leaf defoliation is one of the most important symptoms of freezing event. The study of selected trees showed that 48 trees (83%) did not showed symptoms of leaf loss, and only 10 trees showed less than 50% leaf loss. Except for the CTO-54 genotype, which showed symptoms of bark spliting on one-year shoots, no evidence of bark spliting observed in other selected olives.
Conclusions
Although olive is the most cold-hardy of the subtropical fruit trees, some varieties can withstand low temperatures better than the other. Although temperatures at which olive trees can be damaged vary, depending on climatic conditions, temperatures at or below -7°C are often critical. The most important symptoms were leaf defoliation, bark split, and limb dieback. Finally, because of different influence of environmental factor in different regions, evaluation of location, yield and morphological traits showed some of cold tolerant olive in different region had a similar behavior, thus by supplementary molecular studies, it can be hoped that among recognized trees, cold resistant cultivars with acceptable yields were introduced.
Rahmatollah Gholami; Isa Arji
Abstract
Introduction: Olive (Olea europaea L.) is an ever-green and drought-tolerant tree grown on regions with limited water resources to produce oil and table products. Due to existing appropriate environmental conditions in our country for its growing, and also considering public desperate needs to ...
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Introduction: Olive (Olea europaea L.) is an ever-green and drought-tolerant tree grown on regions with limited water resources to produce oil and table products. Due to existing appropriate environmental conditions in our country for its growing, and also considering public desperate needs to its oil product, olive is economically considered to be an important fruits to be cultivated. The problem of supplying sufficient water for irrigation olive orchards, due to serious threats of ongoing drought and reduction in water resources, is one of the main limiting factors on the way to develop olive industry in country. Accordingly, some suitable approaches like using tolerant cultivars, mulches, reduction of plant transpiration, plant growth regulators, and recently evaluating proper time for irrigation have been examined to increase efficiency of water use. According to this approach, irrigation schedule is designed mainly based on maintaining plant’s water status internally and regarding maximum level of water potential at particular stages of plant cycling, especially at time of lowest sensitivity of fruit growth to drought stress.
So far, many studies performed over effects of drought stress and water deficit on vegetable growth of olive under pot conditions. With respect to establishing olive orchards on different regions of country and appearing serious drought threats, it is imperative to investigate the effects of regulated irrigation deficit on all bearing fruit trees. Hence, determining the insensitive stages of fruit growth toward regulated irrigation deficit has been received great attentions in terms of economical yield. The purposes behind doing the current study were to investigate and compare effects of different regulated deficit irrigations on vegetative and reproductive parameters of olive grown under field conditions.
Materials and Methods: This study was aimed to investigate the effect of regulated deficit irrigation regime on vegetative, oil yield and oil content and water use efficiency of zard cultivar under field condition. This experiment was conducted in Javanmiri region (Geographical characters was longitude of 58˚, 45΄ E and latitude of 35˚, 34΄ N and the height of sea level 1215m) located in Kermanshah province. An experiment was conducted based on a randomized complete block design with three replications. Adult olive zard cultivar was uesd. Each experiment unit consists of three trees. Vegetative and reproductive traits were evaluated according to I.O.O.C. descriptors. five irrigation regimes including of full irrigation (as control), regulated deficit irrigation (100% of full irrigation during growing season and no irrigation during pit hardening), irrigation in three stages (before flowering, pit hardening and before harvesting), 60% of full irrigation (continuous deficit irrigation) and no irrigation (Rainfed). To evaluate the effect of irrigation regimes, some vegetative traits including current season growth and current season diameter, dry and fresh oil content, fruit mass percent, oil and fruit yield and water use efficiency were measured. Collected data were analyzed using SAS program.
Results and Discussion: Obtained results showed that the highest oil and fruit yield were observed at full irrigation and regulated deficit irrigation (100% of full irrigation during growing and no irrigation during pit hardening, but the lowest one found at Rainfed. The water use efficiency of oil yield of T3 was higher than 100ETc and other treatments.
In the arid and semi-arid as well as sub-tropical regions, water shortage is a normal phenomenon and seriously limits the agricultural potential. Therefore, under irrigation or rain-fed conditions, it is important for the available water to be used in the most efficient way. Regulated deficit irrigation is an optimizing strategy under which crops are allowed to sustain some degree of water deficit and yield reduction. During regulated deficit irrigation the crop is exposed to certain level of water stress either during a particular period or throughout the growing season. The main objective deficit irrigation is to increase water use efficiency (WUE) of the crop by eliminating irrigations that have little impact on yield, and to improve control of vegetative growth (improve fruit size and quality).
Conclusion: According to the results of this research, it can be concluded that regulated deficit irrigation had a significant effect on reproductive traits. Using regulated deficit irrigation improved pomological characteristics of olive including oil and fruit yield under drought stress and helped to save irrigation water in olive orchards.
Rahmatollah Gholami; Ali Asghar Zeinanloo; Fardin Ghanbari
Abstract
Introduction: Germplasm and reservation of genetical resources is the principal of plant breeding. Different techniques have been used to characterize olive diversity. Morphological criteria such as leaf, fruit, seed and growth behavior have been used to evaluate olive diversity, to determine the origin ...
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Introduction: Germplasm and reservation of genetical resources is the principal of plant breeding. Different techniques have been used to characterize olive diversity. Morphological criteria such as leaf, fruit, seed and growth behavior have been used to evaluate olive diversity, to determine the origin of olive trees as well. An evaluation of phenotypic diversity was used to discriminate olive cultivars with distinct morphological and pomological characters. Iran is one of the origins of olive in the world and it has considerable variation across Iran. Recently olive cultivation and orchard development has been encouraged in Iran. In this developmental project of olive culture, it is necessary to provide agreeable genotypes for cultivation.
Materials and Methods: The present experiment was carried out to identify and evaluate local olive genotypes in Kermanshah province during 2004-2005. Those were located in six locations in Kermanshah province. Their morphological characters and oil content were investigated according to IOOC descriptor. Local genotype identification in this regions was based on morphological characters (Vegetative and reproductive) such as leaf, fruit, seed and growth behavior evaluated at four different growth phases, including onset of dormancy, flowering, fruit set and fruit growth in 39 local olive genotypes olive trees.
Results and Discussion: The results of this study showed that there was a great variation among genotypes in Kermanshah province. Those variations was observed within and between regions. Significant correlation was observed between the fruit weight, with leaf width, stone weight and percentage of flesh, also significant correlation were observed between oil percentage in fresh fruit weight, with internode length and leaf width. Factor analysis showed that five factors with eigen values greater than one, explains the 69.62 percent of diversity. Among these factors, two biggest factors justified a high degree of diversity and genotypes were better than the other factors that were superior in terms of oil content and fruit weight. Generally it can be concluded that genotypes of Kermanshah province wide variety and traits are also high correlated with fruit weight and oil content and can properly use these genotypes and traits in breeding programs. Olea europaea L. represents one of the most important trees in the Mediterranean basin and the oldest cultivated plant. Among cultivated plants, the olive is the sixth most important oil crop in the world, presently spreading from the Mediterranean region of origin to new production areas, due to the beneficial nutritional properties of olive oil and to its high economic value. The Mediterranean basin is the traditional area of olive cultivation and has 95% of the olive orchards of the world. From the Mediterranean basin, olive cultivation is presently expanding into other regions. wide range of distribution, it is becoming increasingly urgent to identify plants into different ranges of distribution in the world to avoid cases of homonymy, synonymy and mislabeling so that a reliable classification of all varieties can be achieved without unnecessary confusion. In this paper, along with morphological characteristics the acquisition of additional information on biochemical markers is essential. This aspect represents a fundamental and indispensable step to preserve the main olive varieties and also to safeguard minor genotypes, in order to avoid a loss of genetic diversity. This research has focused on using morphological markers to characterize and identify olive varieties. Identification of different varieties using morphological characters (vegetative and reproductive) is one of the aims of the modern horticulture, because such a technique would greatly facilitate breeding programs and germplasm collection management.
Conclusion: According to the results of this research, it can be concluded that there is a great variation among different genotypes. Variation was observed within and between regions. High correlation between the fruit weight and leaf width, stone weight and percentage of flesh was observed, also high correlation between oil percentage in fresh fruit weight, with internode length and leaf width were observed. Factor analysis showed that five factors with eigen values greater than one, explains the 69.62 percent of diversity. Among these factors, two biggest factors justified a high degree of diversity and genotypes were better than others of the factors that were superior in terms of oil content and fruit weight. Generally it can be concluded that olive genotypes of Kermanshah province can properly use in breeding programs
Reza Gholami; Norollah Moallemi; Esmaeil Khaleghi; Seyyed Mansour Seyyednejad
Abstract
Introduction: Olive tree (Olea europaea L.) is one of the most important fruit crops that, has a huge economic price. The plant is significant in the Mediterranean countries and Iran for table olive and oil. The nutritional requirements of olive are much lower than those of other fruit trees, but shortfall ...
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Introduction: Olive tree (Olea europaea L.) is one of the most important fruit crops that, has a huge economic price. The plant is significant in the Mediterranean countries and Iran for table olive and oil. The nutritional requirements of olive are much lower than those of other fruit trees, but shortfall in these needs costs tree important physiological disorder. Fertilization, especially Potassium and micronutrients is a cultivation technique that strongly affects the productivity of olive trees. The amount of oil and fruit quality is effected by the correct nutrition. Leaf spraying is an important tool for correcting food deficiencies and improving the quality of the fruit of the planted olive trees under unsuitable conditions, which provides nutrients directly and as soon as possible to the branches and leaves, or fruit. Studies have shown that leaf feeding with potassium, boron and zinc can be useful for increasing the qualitative and qualities characteristics of fruit in most products, especially in arid and semi-arid regions. Thus, the present study was aimed to assessing the effect of zinc sulphate, boric acid and potassium sulphate foliar application on oil content and the qualitative and quantitative characteristics of fruit of three olive, “Caillet”, “Koroneiki” and “Mission” cultivars in unfavorable temperature conditions in Ahwaz.
Materials and Methods: This study was carried out to investigate the effect of foliar spraying of Potassium, Boron and Zinc on the oil content and the qualitative characteristics of the fruit of three olive, “Caillet”, “Koroneiki” and “Mission” cultivars in the olive orchard of Shahid Chamran University in 2016. Spray treatments were included T0 (Distilled water as control),T1 (1000 mg/l boric acid + 1000 mg/l potassium sulfate + 1000 mg/l zinc sulfate) and T2 (2000 mg/l boric acid+2000 mg/l potassium sulfate +2000 mg/l zinc sulfate ) which applied on olive cultivars in four time including a week before the full bloom (the second half of March), two weeks after the full bloom (the first half of April), at pit hardening (the first half of June of the month) and at the stage of oil synthesis and accumulation (first half of July). The research was performed in a factorial experiment based on a randomized complete block design with three replications thirty fruits from each tree were harvested, then the qualitative characteristics of fruit such as fruit fresh weight, pit fresh weight, fresh weight of the pulp, pulp/pit ratio, length and diameter of fruit and pit and also, to determine the amount of nutrients in the fruit and dry weight of the pulp, the samples were placed an oven for 48 hours at 80°C. After drying, the dry weight of the pulp was calculated, then the samples were completely powdered with the milling machine and the Kjedahl method was used Nitrogen, from a Flame Photo Meter to measure Potassium concentration and Atomic Absorption Spectrophotometry method was used for measuring Zinc and Boron of the available in fruit. Data analysis was performed using SAS software and mean of comparison was done by Duncan's multiple range test at 5% probability level.
Results and Discussion: The results indicated that the foliar spray had a significant effect on fruit fresh weight, fresh and dry weight of pulp, the ratio of Pulp/Pit weight, Oil content and amount of K, N, B and Zn of fruit, also fruit and pit dimension, but no significant difference in pit fresh weight were observed. Maximum oil content was 23.69% in Koroneiki cultivar sprayed with T1 treatment. Minimum oil content was 19.62% in Mission cultivar treated with distilled water. The highest and lowest rates in most of the studied traits were related to ‘Mission’ cultivar sprayed with T2 treatment and ‘Koroneiki’ cultivar treated with distilled water. The highest oil content was 23.69% in Koroneiki cultivar treated with T1 treatment. The highest amount of fresh weight of fruit (2.48 g) and pulp fresh weight (1.83 g) were obtained in ‘Mission’ cultivar treated with T2.It can be argued that food is responsible for activating cell division in addition to photosynthesis and organic matter transfer, Boron. Zinc and Potassium nutrients are treated trees, interfering with cell division and the synthesis of acid nucleic and increasing the formation and transfer of carbohydrates and by activating carbohydrate enzymes during fruit growth and development, improve the trait fruit.
Conclusions: The results of this study indicated that the spraying of the leaves of olive fruit trees, especially with T2 treatment (2000 mg / L of potassium sulfate, zinc sulfate and acid-boric), had the most positive effect on the increase of fruit properties compared to other treatments ,and increased the qualitative and quantitative traits of the fruit. Also, the results indicated that the cultivar had an influence on the characteristics of the fruit and by creating appropriate environmental conditions, especially the supply of nutrients during the growth stage of the fruit. Finally, the Mission cultivar has best response to T2 treatment by spraying of potassium, zinc and boron. There were significant differences between mission cultivar treated with T2 and other cultivars on fresh fruit weight, fresh and dry weight of pulp and fruit oil percentage, as well as the concentration of nutrients in fruit. The improvement in fruit characteristics should be due to the formation of more fruits, larger fruit and more fruit weight due to the role of Zinc and Boron in cell division and prolongation of the cell and increasing the volume of intercellular space in mesocarp cells. Conversely, Koroneiki cultivar showed the least reaction to spraying. Therefore, the characteristics of fruits are different in different cultivars, and the type of cultivars and soluble concentrations are effective on the quality of yield, which implies that leaf application can be used to increase the quality of olive fruit in hot areas.
Mahmood Azimi; Ali Asghar Zeinanloo; Karim Mostafavi
Abstract
Introduction According to statistics presented by FAO in 2011, the world area under olive cultivation has been estimated about 9 million and six hundred thousand hectares from which Iran shares approximately 103 thousand hectares. Tarom region in Zanjan province is one of the important olive cultivation ...
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Introduction According to statistics presented by FAO in 2011, the world area under olive cultivation has been estimated about 9 million and six hundred thousand hectares from which Iran shares approximately 103 thousand hectares. Tarom region in Zanjan province is one of the important olive cultivation in which 12600 hectare has been devoted to olive planting. A growing trend could be seen if the cultivation area regarding the fertile and non- fertile olive orchards along with amount of production were compared during the last decades which may be attributed mainly to favorable climatic condition for olive cultivation in the region. Temperature as the most important environmental factor affects flowering and fruiting of olive trees. Temperatures that stimulate olive fruiting, and sub-zero temperatures which cause damage to olive tree or fruit yielding are of great importance in determining the adaptability of olive trees. Regarding the quality of olive oil, fruit characters such as: cultivar, ripening and climatic conditions are considered as main characters too. To determine the adaptable cultivars for any region and microclimates many experiments have been carried out worldwide. In Iran, Zard and Roghany local olive cultivars selected for northern parts of Iran with the most area under cultivation in Rudbar and Tarom regions but the Dezful cultivar has been released for southern regions of the country. This study was carried at Tarom Olive Research Station, Zanjan, Iran and aimed to evaluate the vegetative and reproductive traits of some domestic and foreign olive cultivars and to determine the adaptability of them to the studied area.
Materials and Methods At the beginning of the study, age of the olive trees varied between 4 to 6 years and all the trees were in the reproductive phase. Plantation system was also 8 × 8 meters with trickle irrigation systems. The cultivars were: Amigdalolia, Arbequina, Abusatl, Bladi, Picual, Roghany, Zard, Koroneiki, Konservolia, Leccino, Mary, Mastoidis, Manzanilla, and Mission. The experiment was conducted based on a RCBD layout with three replications considering four trees for each plot. Vegetative characters (tree vigor, growth habit and crown density), flower traits (number of flower per inflorescence, number of inflorescence per shoot, perfect flower) and fruit characters (fruit weight, length and diameter of fruit, stone weight, flesh to stone ratio, oil percent in dry fruit weight and yield per hectare) as well as susceptibility of crown trees to wind and susceptibility to cold, along with the cumulative yield of 5-year were measured. For statistical analysis the SAS software was used and means comparisons were performed using Duncan Multiple Range Test.
Results and Discussion: Results showed that among evaluated cultivars, the number of flowers per inflorescence in most cultivars except Leccino, Baladiand Koroneiki were the same level. Manzanillaand Mission had the highestflowers per inflorescence but Leccino and Baladi had the lowest number of flowers per inflorescence. Arbequina, Koroneiki, Baladi, Zard, Konservolia, PicualandRoghany in comparison with other cultivars had high perfect flowers. Konservolia, Zard, Koroneiki, Arbequinaand Abusatl had the highest yield. Theyield of these cultivars was 4265, 3498, 3104, 2625, 2273and2101kg per hectare, respectively. The cumulative yield of abovementioned cultivars in5-year were 22472, 17490, 15520, 13125, 11365and10505 Kg/ha, respectively. Amigdalolia, Konservolia, Baladiand Mastoidis cultivars had the highest oil content in dry matter basis. Also Mari, Koroneiki and Arbequina cultivars had the highest oil content. Fruit weight of Amigdalolia, Abusatl and Konservolia cultivars were more than 8 gr. More over Picual, Zard, Mission and Manzanilla cultivars fruit weight were between 5 and 6 gr. Konservolia, Abusatl, Manzanilla, Amygdalolia, Picual and Mastoidis had the highest flesh to stone ratio. The flesh to stone ratio of these cultivars was 10.09, 9.35, 9.04, 8.16, 7.45 and 7.05 respectively.
Conclusion: Konservolia as a double purpose cultivar was the first olive cultivar choice of this research. Konservolia as compared with other cultivars had the highest yield. In addition,it is reported that this cultivar tolerated cold temperatures (low temperatures)during years of 2006 and 2007.Konservolia with large fruit and a high ratio of flesh to stone can be a substitute for the Zard olive cultivars in Tarom area. Zard, Koroneiki and Arbequina were the other selected of these studies. Zard is a native cultivar. Now, this cultivar is the first priority of Tarom region, because is a double purpose cultivar. Moreover studies showed that Zard in comparison with other native cultivars had high oil quality.
Mehdi Mackvandi; Saadat Shahpory; Ali Akbar Ramin
Abstract
The effects of postharvest application of 1-methylcyclopropene (1-MCP) and calcium chloride dip or their combination on storage quality of mature-green olives (Olea Europaea cv. mission) were examined. The experiment was conducted using a completely randomized design with three replications, in a factorial ...
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The effects of postharvest application of 1-methylcyclopropene (1-MCP) and calcium chloride dip or their combination on storage quality of mature-green olives (Olea Europaea cv. mission) were examined. The experiment was conducted using a completely randomized design with three replications, in a factorial array. The effects of treatments were evaluated by recording: chlorophyll (SPAD), quantum efficiency of photosystem II (Fv/Fm), skin color and flesh firmness. Results showed that, non-treated fruits (control) softened within 14 days (2 weeks) after harvest, While, postharvest treatment with 1-MCP significantly reduced the fruit softening and color changes. Furthermore, 1-MCP had only minor effect on quantum efficiency of photosystem II (Fv/Fm). The CaCl2 treatments showed a significant reduction in fruit softening, but had no effects on chlorophyll (SPAD), quantum efficiency of photosystem II (Fv/Fm) and fruit color. It was concluded that the combination of 1-MCP and CaCl2 had synergistic effect on preventing of fruit softening. Hence, olives remained firmness for 35 days at 20oC with minimum softening.
Hojatollah Rostami; Seyyed Jalal Tabatabaie; Fariborz Zare Nahandi; Jafar Hajilou
Abstract
Boron toxicity is one of the most important disorders for plant cultivation in the arid and semi-arid regions. Boron accumulation usually occurs in deeper soil layers due to leaching and therefore improvement of such a soil in this situation is difficult. An experiment was conducted to find out the effect ...
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Boron toxicity is one of the most important disorders for plant cultivation in the arid and semi-arid regions. Boron accumulation usually occurs in deeper soil layers due to leaching and therefore improvement of such a soil in this situation is difficult. An experiment was conducted to find out the effect of boron on the vegetative and physiological aspects of olive trees. Six concentrations of boron (0.2, 10, 20, 30, 40 and 50 mg/l) and two cultivars (Amygdalia and Konsevolia) were used in this experiment. The experiment was arranged in a completely randomized design with four replications. The results showed that with increasing levels of boron dry weight of leaves, stems and roots compared with controls in both cultivars declined. Amygdalia cultivar in the high concentration of boron was unable to grow and decrease in the production of new leaves was significant but Konsevolia cultivar high concentrations of boron also could grow, although the growth of this cultivar was as well significantly reduced. Efficiency of photosynthesis (Fv/Fm) in both cultivars decreased with increasing boron levels. However, Amygdalolia showed a more reduction than Konservolia. Boron toxicity symptoms appeared 45 days after the start of the experiment in concentrations (30, 40 and 50 mg/l) in Amygdalolia cultivar. However, 75 days after the Amygdaloia cultivar symptoms were observed at concentrations 40 and 50 mg/l. The results showed that olive can have a good resistance to boron toxicity, although much of this resistance is largely dependent on the cultivar.
Rahmatollah Gholami; Isa Arji; Mohammad Grdkanh
Abstract
In order to determine the effect of irrigation interval and mulch on growth of olive an experiment was carried out in Dallaho Olive Research Station at Sarepole. A split plot experiment was used based on a completely randomized design with three replications and two factors (mulch and irrigation interval). ...
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In order to determine the effect of irrigation interval and mulch on growth of olive an experiment was carried out in Dallaho Olive Research Station at Sarepole. A split plot experiment was used based on a completely randomized design with three replications and two factors (mulch and irrigation interval). Each experiment unit consists of 4 trees. Land preparation was done in February 2005 in a 6048 squared meter area then tree planted. Pruning operation was done in next year. Mulch treatments for experiment were control, polyethylene and organic materials and irrigation treatments period for experiment were 3, 6 and10 days interval. Some growth traits including height, trunk diameter and current season growth were measured at the end of growth season. Collected data were analyzed with MSTATC program. Results showed that organic materials mulch and interval irrigation treatments had significant differences in height, trunk diameter and current season growth so that organic materials mulch and 3 days interval irrigation treatments increased height, trunk diameter and current season growth of olive trees. The interaction effect between mulch and irrigation treatments was significance. So that 3 days interval irrigation and organic materials mulch had the highest height, trunk diameter and current season growth. 6 days interval irrigation supplemented with mulch treatment had more significant effect on these traits compared to 3 days interval irrigation alone.
Shima Alaei; Enayatollah Tafazoli
Abstract
Salinity is a limiting factor for plant growth and crop production. A study was conducted to determine the salt tolerance of olive (Olea europaea cv. Roughani) and its effects as combined with application of kinetin and cycocel plant growth regulators on Na and K distribution. The experiment was carried ...
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Salinity is a limiting factor for plant growth and crop production. A study was conducted to determine the salt tolerance of olive (Olea europaea cv. Roughani) and its effects as combined with application of kinetin and cycocel plant growth regulators on Na and K distribution. The experiment was carried out in a completely randomized design with factorial arrangements with four replications. Accumulation of Na and K in aerial parts and roots of plants were determined. The results indicated that increasing salinity level caused a increase in Na content but a decrease in K/Na ratio. Sodium concentration was higher in roots. At 200 mM salinity leaf and shoot Na and increased significantly at 5% level. Also at 100 and 200 mM salinity, Leaf K decreased significantly at 5% level. K/Na ratio at 50,100 and 200 mM salinity level decreased. Application of 250 mg/l kinetin at the 200 mM salinity increased leaf Na that was significantly different at 5% level ,DNMRT. Application of 500 and 1000 mg/l cycocel, decreased shoot K (at the 100 mM salinity) and leaf K (at the 0 and 50 mM salinity). The decrease was statistically significant (p
