Pomology
Sara Siahmansour; Abdollah Ehtesham Nia; Asdolhossein Rezaei Nejad
Abstract
Introduction
Reduction of water available to the plant leads to many morphological, physiological and biochemical changes in plant cell and plant organs activity will be directly disrupted. In addition to the defense systems in the plant itself, there are other ways to increase plant resistance, ...
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Introduction
Reduction of water available to the plant leads to many morphological, physiological and biochemical changes in plant cell and plant organs activity will be directly disrupted. In addition to the defense systems in the plant itself, there are other ways to increase plant resistance, including the use of plant growth regulators. Salicylic acid is known as one of the common compounds used for environmental stresses and an essential molecular signal in plant fluctuations in response to environmental stresses. This substance has a protective effect and improves the growth process of the plant. This combination stimulates the plant immune system by inducing transcription of a specific group of genes involved in the defense and development of systemic resistance. Physalis is a small fruit of the Solanaceae family that originates in tropical and subtropical regions of South America. This genus has 80 species in the world, of which the famous species Ph. minima L., Ph. angulate L., Ph. philadelphia L., Ph. alkekengi L., Ph. peruviana L., Ph. pubscens L., Ph. ixocarpa L., among these species, Peruviana species is considered due to its unique taste and high yield.
Material and Methods
An experiment was conducted at the Faculty of Agriculture research greenhouse of Lorestan University Khorramabad, Iran. (latitude 33◦ 29` N, longitude 48◦ 22` E, altitude 1125 m) in May 2018. The experimental design was factorial based on completely randomized design with three replications. The treatments consisted of 3 levels of deficit water stress (95, 85, and 75% field capacity) and four salicylic acid concentrations (0, 0.5, 1, and 2 mM). Physalis seedlings were grown into pots containing soil, sand, and manure. In this research, chlorophyll (Chl a, Chl b, total Chl) and carotenoid content, chlorophyll fluorescent parameters (F0, Fm, Fv, and Fv/Fm), fresh and dry weight of fruit, fruit diameter, fruit number, TSS and vitamin C, proline, leaf anthocyanin and shoot soluble sugar, fresh and dry weight of leaf, leaf area, root volume and plant height, were measured.
Results and Discussion
The results showed that the effect of deficit water stress and salicylic acid treatment on the measured traits including photosynthetic pigments, chlorophyll fluorescence, fresh, and dry weight of fruit, number of fruits, amount of vitamin C, proline, soluble sugar, fresh and dry weight of leaves, leaf area, plant height and root volume were significant. Foliar application of salicylic acid at a concentration of 2 mM under water stress under 75% of field capacity increases the concentration of photosynthetic pigments including chlorophyll a (25.69%), chlorophyll b (14.08%), total chlorophyll (6.70%), and carotenoid (7.26%) and increased chlorophyll fluorescence parameters including Fm (5.2%) and Fv (1.92%). Salicylic acid at a concentration of 1 mM had better results on quantitative and qualitative traits of fruit including a number of fruits (2.67%), fresh weight of fruit (10.61%), and dry weight of fruit (0.6%). Under stress conditions of 75% of field capacity, application of 2 mM salicylic acid reduced the concentration of proline (31.2%), soluble sugar (11.69%) and leaf anthocyanin (4.93%). Therefore, according to the results, the best levels of irrigation for breeding Physalis (Physalis pruviana L.) are 85 and 95% of field capacity, and the concentration of 2 mM salicylic acid as a natural modulator has an effective role in reducing the effects of dehydration stress. Stress significantly reduces the maximum efficiency of photosystem II (Fv/Fm). This adverse effect on Fv/Fm may be due to its role in inhibiting electron transfer, as well as destroying the reaction centers in PSII. Accumulation of proline under stress is because proline, as a compatible osmolyte, removes all types of active oxygen and protects the cell, and provides the necessary conditions for the plant to absorb water. Salicylic acid increases the chlorophyll synthesis and protects the chloroplast membrane from stress by removing destructive free radicals by stimulating the biosynthetic of the photosynthetic pigment pathway and reducing the chlorophyllas enzyme. It also prevents the ethylene formation by inhibiting of ACC- synthetase enzyme, which in turn prevents the degradation of chlorophyll. Salicylic acid regulates the various physiological processes such as plant growth and development.
Conclusion
According to the results, the application of salicylic acid under low irrigation stress, as a growth enhancer and stress modulator, showed good results and improved physiological traits such as increasing photosynthetic pigments (chlorophyll and carotenoids), Fm, Fv and maximum efficiency of photosystem II and improvement of biochemical traits (proline, soluble sugar and leaf anthocyanin) at a concentration of 2 mM and increase in fruit traits (fresh and dry weight, number of fruits, vitamin C and fruit diameter) at a concentration of 1 mM. Growth and morphological traits also showed an increase in fresh and dry leaf weight, leaf area, plant height at a concentration of 2 mM salicylic acid at low irrigation stress levels. Therefore, salicylic acid can be used to reduce the destructive effects of deficit water stress and increase the quantity and quality of fruit if the Physalis plant is grown in arid and semi-arid regions.
Seyyed Mehran Alavi; Asad Masoumiasl; Naser Zare; Rasul Asghari Zakaria; Parisa Sheikhzade Mosaddegh
Abstract
Introduction: The main habitat of Chavil, Ferulago angulata, in Iran is Zagros area. This plant has a rejuvenating effect and is used to treat digestive diseases and intestinal worms. Because the different explants show different amounts of callogenesis under the effect of different growth regulators, ...
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Introduction: The main habitat of Chavil, Ferulago angulata, in Iran is Zagros area. This plant has a rejuvenating effect and is used to treat digestive diseases and intestinal worms. Because the different explants show different amounts of callogenesis under the effect of different growth regulators, selection of an optimal explant and suitable plant growth regulators combination has a significant effect on the production of callus and their suspension culture. There is no reports on Ferulago angulata callogenesis and its cell suspension culture. Therefore, this study was designed and implemented to optimize callus production and cell suspension culture in this important medicinal plant.
Materials and Methods: Seeds of Chavil were collected from four different habitats in Kohgilooyeh and BoyerAhmad Province in Southwest of Iran include Abenahr, Guayoune, Vezg and Sisakhat. Seedlings obtained from embryo culture were used to prepare the explants. Various explants (leaf, root and stem) were cultured on MS medium supplemented with different concentrations (0, 0.5, 1 and 2 mgl-1) of NAA and BAP. Callus traits were evaluated and from the best culture medium, the best explants and the best PGRs composition for callogenesis of each ecotype were used to cell suspension culture. In order to study the growth rate of cells in suspension culture and plotting the curve of cells growth, two cell density indices and packed cell volume index were evaluated. To determine the cell density index, every 3 days, 10 ml of cell suspension were transferred to the graded falcon and centrifuged at 5000 g for 5 minutes, and the percentage of sediment cells was calculated as the total volume. To determine the packed cell volume index, also every 3 days, 10 ml of culture medium containing cells were transferred to the graded falcon and stored for 30 minutes to precipitate cells and cell masses. Finally, the cell volume was recorded and was calculated as percentage of the total collected medium.
Results and Discussion: According to the callogenesis percentage, the best ecotype is Abenahr and best explant is leaf explant. The highest level of NAA is 2 mgl-1, and the best level of BAP is 2 mgl-1, which causes 100 callogenesis percentage. The best medium for cell suspension culture is MS medium containing 2 mgl-1 NAA and 0.5 mgl-1 BAP for callus was obtained from leaf explant of Abenahr ecotype. Along with these plant growth regulators, 2,4-D was used in combination with BAP to form suspension culture. The results also showed that 2 mgl-1 2,4-D plus 0.5 mgl-1 BAP were useful in producing suspensions. The difference between 2,4-D +BAP and NAA + BAP combinations more cell volumes were observed, and cell suspension was created at a faster rate and in less time, which is an advantage in research work. Growth rate of cell suspension originated from the leaf explant was higher than root explant. In terms of culturing cell suspension, the Abenahr ecotype was favorable compared to other ecotypes. During cell suppression culture of Cyperus aromaticus by applying different levels of NAA, cell growth was increased up to 3 weeks after application, and then decreased. By applying 2,4-D, cell growth also increased until the third week, and after the third week, cell growth declined, which was very low growth rate compared with the NAA. In cell suspension culture of sugar beet, using 2,4-D was much more effective than NAA on all explants. In the present study, 2,4-D was also more effective than NAA for cell suspension culture of Chavil.
Conclusion: In general, the Abenahr was the best ecotype among of investigated. The explants in both callus culture and the suspension culture, and the best combination of plant growth regulator in both culture was 2 mgl-1 NAA plus 0.5 mgl-1 BAP.
Azizollah Khandan Mirkohi; Seyyedeh Razieh Waeez Mousavi; Ahmad Khalighi; Rouhangiz Naderi
Abstract
Introduction: Cultivation of ornamental plants in terrariums is common, but the use of flowering plants in such environment is difficult and rarely seen. Common geranium (Pelargonium hortorum L.H.) is the most well-known potted and garden plant in the top of 25 popular world's market rankings. Today, ...
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Introduction: Cultivation of ornamental plants in terrariums is common, but the use of flowering plants in such environment is difficult and rarely seen. Common geranium (Pelargonium hortorum L.H.) is the most well-known potted and garden plant in the top of 25 popular world's market rankings. Today, one of the main goals of commercial producers is the production of the uniform plants in terms of morphological traits such as uniformity in the height that needs some management. To achieve this objective plant genetic potential, managing the growth and environmental factors, restrictions on root environment, water and nutrition to a level that does not affect the quality as well as application of chemical plant growth retardants (PGRs) could be considered. Paclobutrazol (PBZ) commercially known as Bonzi and chlromequat chloride (CCC) known as cycocel are commonly used to control the height of some pot plants. Additionally, Benzyladenine (BA) as a synthetic cytokinin can influence the growth characters of plants. This experiment conducted to evaluate the effect of paclobutrazol, cycocel and benzyladenine on the growth and flowering of geranium as a flowering terrarium plant.
Materials and Methods: The effect of PBZ, CCC and BA evaluated as a factorial experiment based on CRD on the growth and flowering of geranium (Pelargonium hortorum L.H. Bailey ‘Horizon’) as terrarium plant. At first, geranium seeds planted in tray cells as plugs filled by sieved black peat to below 2 mm in early autumn, Oct. 2015. Seedlings were grown in a greenhouse conditions with an average day/night temperatures of 25/20 ± 2 °C, nourished with 1:2 ratio diluted Hoagland nutrient solution as irrigation demand, until 2-4 leaves stage then transferred into terrarium containers (with 20 cm of middle diameter and 15 cm of height). Inside container relative air humidity was about 75±5% and growing environment light intensity (PPF) was about 500 µmole m-2S-1. Irrigation and nutrition also applied at seedling stage in terrarium. Terrarium glass container totally filled to a quarter of volume considering a drainage layer of gravel, activated charcoal, a layer of substrate barrier (plastic net), potting soil containing of 20 vol.% sieved field loam soil, 10 vol.% of fine perlite and 70 vol.% of sieved black peat. PBZ at the levels of 0, 25 and 50 ppm and CCC at the levels of 0, 1000 and 2000 ppm applied one month after transplanting (Feb. 2015) and BA treatment for flowering management applied at the levels of 0, 50 and 100 ppm four months after transplanting (May 2016). Growth and flowering characters evaluated thoroughly while root and shoot fresh and dry weight, photosynthetic pigments of chlorophyll, carotenoids, and anthocyanin index assessed at the end of the experiment.
Results and Discussion: Both growth retardants PBZ and CCC led to a significant reduction in plant height in high concentrations. Thus, the effect of PGRs on plant height was significant, while the effect of BA and its interactions by PGRs on this trait was not considerable. Effective treatments on this trait were PBZ in concentration of 50 ppm and then CCC in 2000 ppm. In particular, the use of these concentrations without BA treatment led to the shortest plants. Comparison of plants cultivated in the pot and terrarium conditions showed that the growth conditions had a considerable and significant impact on plant height and growth. Stem diameter, number of leaves and leaf area significantly reduced by PBZ compared to the control, but CCC did not show a significant effect on these traits. Smaller stem diameter occurred through 25 ppm of PBZ together with 50 ppm of BA. Application of PBZ especially at 25 ppm resulted in a significantly reduced number of plant leaves and leaf area compared to the control and application of CCC. Application of CCC at the level of 2000 ppm combined with BA of 50 ppm caused to a significant increase of leaf area compared to the control. Results on the number of lateral branches showed that application of PGRs had no effect on this character, while restriction of growth in terrarium conditions led to decrease in the number of lateral branches. Number of lateral branches raised by application of BA and CCC, while less number of branches observed with PBZ treatments especially at the level of 25 ppm. Chlorophyll and anthocyanin content of leaves decreased by both retardants. Days to flowering shortened by PBZ treatment of 50 ppm and slightly by CCC treatment of 1000 ppm in terrarium conditions. In general, flowering process accelerated via these treatments, while PBZ of 25 ppm and CCC of 2000 ppm delayed the flowering of plants compared to the control. The acceleration effect of 50 ppm PBZ was superior to the effect of 1000 ppm of CCC. The effect of BA on flowering time was insignificant despite of initial prospect. Finally, the photosynthetic pigments, leaf area and stem diameter increased because of BA, while flowering characters not influenced by means of BA. In general, 50 ppm of PBZ and without BA treatment was able to improve production characters of geranium plants in terrarium conditions.
Conclusions: The goal of this research was managing the growth and flowering of geranium in the restricted terrarium conditions by PGRs. It was found that treatment of plants by 50 ppm of PBZ could properly control the plant height and whereas positively accelerated flowering without and negative side effects on the plant performance. It seems that a good hormonal balance performed by this concentration of PBZ compared to CCC and BA. Early flowering is a positive quality trait for the most flowering ornamental plants. However, BA application itself and in interaction with CCC could enhance the photosynthetic pigment contents and thus improved the growth characters but it could not influence flowering traits even though delayed the flowering, significantly. Restriction of the root area via planting in terrarium could considerably limit the vegetative growth characters and delayed the flowering compared to the potted plants.
Esmaeil Chamani; Zahra Eftekhari; Alireza Ghanbari; Hamid Reza Heydari; Mousa Arshad
Abstract
Introduction: Fritillaria imperialis L. is an ornamental and medicinal plant native to mountainous regions of Iran. This plant genetic resource is in danger of extinction, Because of grazing livestock and pest outbreaks. Therefore, micro propagation of Fritillaria through in vitro regeneration is essential ...
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Introduction: Fritillaria imperialis L. is an ornamental and medicinal plant native to mountainous regions of Iran. This plant genetic resource is in danger of extinction, Because of grazing livestock and pest outbreaks. Therefore, micro propagation of Fritillaria through in vitro regeneration is essential for conservation and commercial production. Thymol and Carvacrol are one of the main essential oil compounds in family Lamiaceae.
Material and Methods: Fritillariaimperialis L. bulbs in dormancy stage obtained from mountainous regions of Lorestan in Iran and were placed in cold room at +4 °C for 4-6 weeks. Then, Bulbs were surface-sterilized with 70% ethanol for 45 s followed by immersion in 5% (v/v) NaOCl solution for 20 min with gentle agitation, and then rinsed three times in sterile double distilled water. Present study was conducted in two separate experiments. In first experiment, effect of different concentration of Thymol and Carvacrol and in second experiment, different concentration of NAA and BA on in vitro characteristics of Fritillaria was evaluated. Explants (1× 1 cm) prepared from the lower third of scales with basal plate and were placed in MS basal medium supplemented with different concentrations of Thymol (50, 100, 150 and 300 ppm), Carvacrol (10, 100, 500 and 100 ppm), BA (1, 2 and 4 mg/l) and NAA (1, 2 and 4 mg/l).All cultures were incubated in a growth chamber at 24±2°C, and a photosynthetic photon flux of 40-60 μmol m–2 s–1 was provided by cool white fluorescent lamps with a 16-h photoperiod. This experiment wascarried out in completely randomized designs with fivereplications.
Results and Discussion: Analysis of variance showed that Thymol and Carvacrol were not effective on number of new bulblets but had significant effects on bulb diameter, number and length or roots, number and length leaves and callus induction and diameter of callus obtained from scales (P< 0.05). The highest rate (3 bulblets) of bulblets formation was obtained fromMS medium supplemented with 50 ppm Thymol that showed significantly difference from other treatments. Medium containing 10 ppm Carvacrol gave the highest Bulblet formation (2.5 bulblets) between Carvacrol treatments. Investigation of rooting was done by assessment of the number and length of roots. Mean comparison of the effect of cultivar type on root number showed that the largest number of roots per explant was obtained fromMS medium containing 50 ppm Thymol. Lowest number of roots observed in mediums supplemented with 300 ppm Thymol and 100 ppm Carvacrol. The best medium for increasing the root length per explant (10.90 cm) was MS medium supplemented with 100 ppm Carvacrol, while the least increasing in root length per explant observed from culture mediums contained 300 ppm Thymol and 100 ppm Carvacrol. Also, the largest number of leave formation obtained from culture medium supplemented with 50 ppm Thymol that significantly higher than other treatments. Statistical analysis (ANOVA) of the data showed that high frequency callus induction and formation occurred in MS mediums contained 50, 100 and 150 ppm Thymol and 10 ppm Carvacrol and culture mediums supplemented with 300 ppm Thymol and 1000 ppm Carvacrol showed least callus induction. In contrast, largest callus diameter observed in culture mediums supplemented with 300 ppm Thymol and 500, 100 ppm Carvacrol.
Statistical analysis of results showed that different concentrations of BA and NAA had significant effects on bulblets number and bulblets diameter (P
A. Khazaei; N. Moshtaghi; Saeid Malekzadeh Shafaroudi; Kamal Ghous
Abstract
Introduction: Jujube (Ziziphus jujuba) is one of the most important fruit trees in Asia which has been planted from 3,000 years ago in China for medicinal purposes. Jujube belongs to the Rhamnaceae family. The Jujube fruit is used in fresh and dry forms. The fruit is full of vitamin C and has anticancer ...
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Introduction: Jujube (Ziziphus jujuba) is one of the most important fruit trees in Asia which has been planted from 3,000 years ago in China for medicinal purposes. Jujube belongs to the Rhamnaceae family. The Jujube fruit is used in fresh and dry forms. The fruit is full of vitamin C and has anticancer and medicinal effects. This tree can grow on salty and dry lands in Iran. Therefore, increasing the cultivation area of Jujube can be effective for soil conservation. In the last 20years, cultivation of Jujube is is considerable in Iran specially in the South Khorasan Province and 98 % of total production of Jujube in Iran belongs to this province. The low rate of seed germination and low production of shootlets are the most important problems in Jujube proliferation, so micropropagation of this plant through tissue culture was considered.
Materials and methods: In this study, Cangan ecotype of Jujube was used for multiple shoot regeneration. At the end of May, apical buds of shoots were cut from mature trees of the Research Collection of Jujube at Sarbishe, Birjand, South Khorasan Province in Iran. The buds were disinfected with 70% ethanol for 1 min and 2% sodium hypoclorite for 25 min. Then the buds were rinsed with distilled water for 25 min completely. Apical buds were placed on Murashige and Skoog (MS) medium supplemented with different concentrations of BA (0.5, 1, 1.5, 2 mg/L) in combination with IBA or NAA (0, 0.1, 0.2, 0.4 mg/L). After one month, the shoots with 3-5 cm length were transferred to rooting media (1/2 MS + IBA or IAA : 0.5, 2, 5, 10 mg/L). The data were recorded after shooting and rooting and were analysed in the facorial experiment.
Results and Discussion: The results of variance analysis and mean comparisons showed that there are differences between different levels of IBA and BA alone for the number of shoots and their length (P