Postharvest physiology
H. Soleymani; M. Aelaei; M. Arghavani
Abstract
Introduction
Rose is one of the important cut flowers, which has different types. Extending the vase life of rose-cut flowers is very important in the floriculture industry. Every year, due to the lack of proper storage conditions after harvesting, the efficiency of rose production decreases. ...
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Introduction
Rose is one of the important cut flowers, which has different types. Extending the vase life of rose-cut flowers is very important in the floriculture industry. Every year, due to the lack of proper storage conditions after harvesting, the efficiency of rose production decreases. Therefore, always using materials that help increase the shelf life of cut flowers is valuable. Today, substances that improve the quality of cut flowers are very important. They include materials such as calcium and silver. Nanoparticles are materials with sizes smaller than 100 nanometers. On the other hand, the important role of calcium and silver in improving quality of the cut flowers is interesting for scientists. In this research, the effect of pre-harvest application of calcium nanoparticles along with the post-harvest application of silver nanoparticles on the morpho-physiological characteristics of rose cut flowers (CV: Classic Cezanne) was investigated.
Material and Methods
The current research was carried out during the year 2021 in a commercial rose production greenhouse in Nazarabad city. calcium nanoparticles with different concentrations (0, 5 and 10 mg.L-1) were sprayed on rose bushes every ten days (two months before harvest). After harvesting the flowers and transferring them to the laboratory, silver nanoparticles were added to the flower preservation solution at different concentrations (0, 5 and 10 mg.L-1). After harvesting, the traits (vase life, flower diameter, fresh weight, vase solution uptake, total protein, malondialdehyde and superoxide dismutase) were evaluated on the treated flowers (on days 0, 4, 8 and 12). Experiment was performed as factorial based on completely randomized design, included 9 treatments with 3 replications.
Results and Discussion
Based on the results of analysis of variance of treatment with calcium nanoparticles and silver nanoparticles for the quality of shelf life at the 1% level of Duncan's test, it showed a significant difference. Also, based on the results, the highest amount of vase life is related to the treatment of calcium nanoparticles with a concentration of 10 mg.L-1 with the silver nanoparticle treatment in the time after harvesting was at concentrations of 5 and 10 mg (11 days) and the lowest amount was related to the control treatment (7 days).Vase life increased under the effect of treatment with calcium nanoparticles and silver nanoparticles (10 mg.L-1) and caused an increase of 4 days compared to the control (0 mg.L-1) The treatments decreased the amount of malondialdehyde and also increased the relative amount of absorbed solution, total protein and superoxide dismutase enzyme. Based on the results of this study, calcium and silver nanoparticles improved qualitative traits. The simultaneous treatment of calcium and silver nanoparticles (concentration 10 mg.L-1) compared to the control (0 mg.L-1) caused an increase (14%) in flower diameter, fresh weight (12%), vase solution uptake (46%), superoxide dismutase (21%) and malondialdehyde reduction (37%). Two other important findings emerged from this work: (1) The nanoparticles used in this experiment caused the activation of the enzyme antioxidant system in the treatments (2) The simultaneous treatment of nanoparticles calcium before harvesting and silver nanoparticles treatment after harvesting by activating the antioxidant enzyme system and maintaining the ability to absorb the solution increased the vase life of rose cut flowers. In general, the treatment with calcium nanoparticles at a concentration of 10 mg. L-1 before harvesting and the treatment with silver nanoparticles at a concentration of 10 mg.L-1 after harvesting were the most effective treatments in most traits.
Conclusion
Calcium is one of the most effective factors in increasing the vase life of rose cut flowers. Treatments containing calcium increase absorption of vase solution uptake. The treatment of calcium nanoparticles increases the total protein and superoxide enzyme compared to the control, so that the simultaneous use of silver and calcium nanoparticles increases the vase life of rose-cut flowers compared to the control. Calcium probably activated a chain of reactions by activating the message transmission system and caused the expression of genes involved in the antioxidant system of the samples. silver nanoparticles by affecting the absorption of vase solution uptake and reducing the amount of malondialdehyde and increasing the total protein and superoxide dismutase enzyme compared to the control, increase the vase life of cut flowers. According to the results obtained from the present research, it can be concluded that use of calcium nanoparticles with silver nanoparticles had great effects on most of traits in compared to control treatment. The use of calcium nanoparticles with silver nanoparticles improves the vase life conditions by increasing water uptake and consequently increasing the relative fresh weight.
Postharvest physiology
Simin Garavand; S.F. Mousavi; S.H. Hekmatara
Abstract
Introduction
Gerbera is one of the most important cut flowers that has a short vase life. Like other cut flowers, one of the main concerns after harvesting this flower is reducing its quality. The application of carbon nanotubes as preservative solutions increase water uptake, balances water relations, ...
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Introduction
Gerbera is one of the most important cut flowers that has a short vase life. Like other cut flowers, one of the main concerns after harvesting this flower is reducing its quality. The application of carbon nanotubes as preservative solutions increase water uptake, balances water relations, and increases the vase life of cut flowers. Agglomeration, lack of proper dispersion, and severe hydrophobicity are the disadvantages of carbon nanotubes that prevent optimal dispersion in the solution. In this study, polymers (polyvinyl pyrrolidone (PVP), polyethylene glycol (PEG), and non-ionic surfactant Triton X-100) were used to increase the dispersion of multiwalled carbon nanotubes (MWCNTs). Their effect on the longevity of cut gerbera flowers was also investigated.
Materials and Methods
The experiment was performed as a factorial experiment in a completely randomized design with four replications. Gerbera (Gerbera jamesonii cv. Rosalin) flowers with fully opened ray florets were purchased. During transportation, each cut flower was covered individually with a cellophane sheet and was placed inside a box of paper to minimize water loss. Gerbera stems were placed in a vase solution as pulse treatment for 24h. Treatments included various concentrations of nanocomposite including control (distilled water), MWCNTs-PVP nanocomposite (1 and 2 mg L-1), MWCNTs-PEG nanocomposite (1 and 2 mg L-1), and MWCNTs-Triton X-100 nanocomposite (1 and 2 mg L-1). Distilled water was used for the control treatment. After the cut gerbera flowers underwent pulse treatment, they were placed individually into glass vases filled with distilled water. Throughout the experiment, the vase life, relative fresh weight, water uptake, relative water content of petals and stems, as well as the bacterial population at the end of the stem were measured.
Results and Discussion
The study showed that the MWCNTs-Triton X-100 with a concentration of 2 mg L-1 provided the longest vase life of cut flowers, with a duration of 22.5 days, which was an 8-day increase compared to the control. The other nanocomposites (MWCNTs-PVP and MWCNTs-PEG) also improved the longevity of the cut flowers compared to the control. The nanocomposites in the vase solution affected the relative fresh weight and water uptake of the cut stems. The study found that the water uptake pattern was similar to the fresh weight of the flower, and the water uptake capacity of the stem gradually decreased with time. The MWCNTs-Triton X-100 with a concentration of 1 mg L-1 resulted in the highest amount of water uptake. Cut flowers pulsed with this concentration exhibited the highest relative water content in both petals and stems. The application of MWCNTs-PEG nanocomposite (1 mg L-1) in vase solution increased the relative fresh weight of gerbera cut flowers. Our findings suggest that MWCNTs can increase water uptake, resulting in increased fresh weight in the cut stem. SEM analysis revealed that after the evaluation period, MWCNTs were detected in the stem of cut gerbera and deposited on the stem's internal surface. Our finding showed that the bacterial population at the end of the stem in control treatment during the vase life period was higher than the bacterial population at the end of the stem of flowers treated with MWCNTs-Triton X-100 treatment (2 mg L-1). Therefore, reducing bacterial blockages in the xylem vessels improves the water uptake and vase life of cut flowers.
Conclusion
When gerbera cut flowers are harvested and kept in vase solutions, they face some challenges including wounding and water stress. Continuity of water flow in cut flower stem after cutting is an important factor in determining postharvest quality and longevity of cut flowers. Applying a solution containing well-dispersed MWCNTs is a novel approach for facilitating the entry of this nanotube into plants. The use of a composite of MWCNTs with X-100, PVP, and PEG exhibits excellent dispersion properties in the aqueous media of vase solution. These nanocomposites were successful compounds in increasing water uptake, maintaining fresh weight, and increasing the vase life of gerbera cut flowers. The findings of the present study showed that nanocomposites inhibit bacterial growth. These results suggest that the elimination of barriers to water flow in the cut stem helps to keep the longevity and delayed senescence.
S. Rakbar; Z. Jabbarzadeh; M. Barin
Abstract
Introduction: Gerbera is one of the most important cut flowers in the world and belongs to the Asteraceae family. Due to its diverse and adaptable species for growth with a wide range of climatic conditions, this flower has become a profitable cut flower for growers. Polyamines in plant tissues act as ...
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Introduction: Gerbera is one of the most important cut flowers in the world and belongs to the Asteraceae family. Due to its diverse and adaptable species for growth with a wide range of climatic conditions, this flower has become a profitable cut flower for growers. Polyamines in plant tissues act as a potent factor in preventing the production of ethylene. Polyamines and ethylene have antagonistic effects (anti-aging and aging effects), so that the balance of these two hormonal groups in plants is very important for plant tissues. The balance between the two opposing regulators leads to a delay or acceleration in the aging process. Mycorrhizal fungi can be useful in hydroponic greenhouse systems, which increase the amount of CO2 in greenhouses by increasing photosynthesis in plants, as well as CO2 emissions in the control environment, which both optimally manage the environment and increase the yield and quality of plant products. Due to the economic importance of cut flowers, it seems necessary to provide treatments (such as the use of putrescine and mycorrhiza) to increase the quality and longevity of this plant. Materials and Methods: This study was conducted in the research and production greenhouses of Urmia University and the research laboratory of the Department of Horticultural Sciences of the Faculty of Agriculture in 2019-2020. This study was performed as a factorial experiment in a completely randomized design with three replications, each replication consistedd of three pots and each pot contained a plant. The factors of this experiment were Mycorrhizal fungi inoculation (with and without inoculation) during the transplanting process to the culture medium near the roots, and putrescine at four concentrations of 0 (control), 1, 2, and 4 mM, were applied two weeks after transplantation, every 15 day-interval for three months. In order to investigate the effects of putrescine and mycorrhizal fungi on some morphological and physiological characteristics of plants, two weeks after the end of treatments, leaf sampling was performed to measure physiological characteristics. Effects of putrescine and mycorrhizal fungi were assayed in some morphological characteristics including leaf number, leaf length and leaf area, fresh and dry weight of leaves and some physiological parameters including chlorophyll index, chlorophyll content (a, b and total) and soluble sugar as well as vase life and petal’s anthocyanin during postharvest time. The SAS software version 9.1 was used to analyze the variance and compare the mean of the studied traits. Comparison of means was performed using the Tukey’s range test method at a probability level of 1 and 5%. Excel (2016) software was also used to draw the graph. Results and Discussion: According to the comparison of means, putrescine, along with mycorrhizal fungi, increased the number of leaves, leaf area, and the fresh and dry weight of the leaves as well as chlorophyll index, chlorophyll a, b and total and carotenoid content of leaves. In this study, inoculation with mycorrhiza reduced leaf length but increased leaf area resulted in that mycorrhiza could increase leaf blade because of increasing cytokinin in plant. Putrescine with mycorrhizal fungi, increased leaf growth, photosynthesis of plant and carbohydrates production. In the literatures, it is reported that, the vase life of cut flowers is a very important point in choosing them as great cut flowers. The results showed, putrescine and mycorrhiza had increased the vase life of gerbera flowers, therefore increased the quality of this plant. Putrescine and mycorrhiza also increased the amounts of anthocyanins in the petals, and by the sixth day, the highest levels of anthocyanins were observed in the petals. Probably, the reason for increasing the anthocyanins on the sixth day is the presence of carbohydrates stored in the flower, which due to the reduced respiration and carbohydrate consumption in this process. Conclusion: Based on the results of the present study, it can be concluded that putrescine, with mycorrhizae, improved growth characteristics as well as increasing the postharvest life and the quality of cut flowers of gerbera. It is also observed that among the different concentrations of putrescine, the concentration of 2 mM had the greatest effect on the growth and physiological parameters as well as vase life of gerbera.
F. Ghorbanalizade; M. Karimi; K. Ghasemi; M. Hatami
Abstract
Introduction: Water hyacinth (Eichornia crassipes) is one of the world’s most prevalent invasive aquatic plants. Due to the environmental and economic concerns associated with the water hyacinth spread, control of this plant seems will be necessary. Composting is promising techniques for controlling ...
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Introduction: Water hyacinth (Eichornia crassipes) is one of the world’s most prevalent invasive aquatic plants. Due to the environmental and economic concerns associated with the water hyacinth spread, control of this plant seems will be necessary. Composting is promising techniques for controlling water hyacinth. Humic acid is the fraction of naturally occurring organic materials, which derive from the decomposition of plant and animal residues. Humic acid plays important roles in plants through stimulation of root growth and increase of water and nutrient uptake by plants. In this study, we evaluated the effect of water hyacinth compost and humic acid on the vegetative and reproductive characteristics of gerbera flowers
Materials and Methods: The present study was conducted as a factorial experiment in a completely randomized design with three replications. The first factor was water hyacinth compost (0, 25, 50, 75 and 100% v/v) and the second factor was humic acid (0, 250 and 500 mg L-1). The peat moss + perlite (2:1 v/v) was considered as a control treatment. To prepare water hyacinth compost, the water hyacinth was collected from a river in Sari, Mazandaran, Iran. Water hyacinth leaves were exposed to direct sunlight for eight hours to wither then chopped to fine pieces and eventually was spread on the surface. The thickness of leaves is five-centimeter. One centimeter thickness of animal manure was added on top of the water hyacinth leaves and then a layer of ash and lime respectively added. This step was repeated until the height of the layer reached to one meter, finally the top layer was covered with dry leaves of native trees and black polyethylene sheets. The mass was mixed up every 15 days to get a better result (uniform decomposition). Finally, after three months, the compost was prepared. Gerbera (cv. Artist) seedlings with uniform size (15 cm) were planted in plastic pots at different levels of compost. Humic acid was used once every ten days. The average day and night temperature in the greenhouse during the experiment was 17±2 and 23±2ºC, respectively, and the average greenhouse humidity was 65 to 75%. Flowering time, number of flowers, number of leaves, stem length, flower stem diameter, flower disk diameter, fresh and dry weight of shoots and roots, phenol content, total chlorophyll and carotenoids, concentrations of nitrogen, phosphorus, potassium and calcium in the leaves, ion leakage of petals and vase life were evaluated.
Result and Discussion: According to the results of the effect of compost, humic acid and their interaction on most of the studied characteristics were significant. The highest number of flowers with 117% increase compared to the control treatment was related to 50% compost + 500 mg L-1 humic acid. In this treatment, the time of flower emergence occurred 40 days earlier than the control. The highest chlorophyll content with 155.52% increase compared to control was observed in 25% compost + 500% humic acid. Mineral elements in the leaf of the Gerbera plant were significantly affected by growth media and humic acid. The highest nitrogen content was found in 50% compost + 500 mg L-1 humic acid (a 50% increase compared to control). The highest potassium content was observed in 50% compost + 250 mg L-1 humic acid. The highest concentrations of calcium were found in the leaves of plants grown in 50% compost + 500 mg L-1 humic acid. The highest vase life with a 71.67% increase compared to the control treatment was related to plants that were grown in 25% or 50% compost+ 500 mg L-1 humic acid. The lowest ion leakage was recorded in 50% compost + 500% humic acid with 56.79% decrease compared to the control. In the present study, most of the growth media and humic acid significantly affected most of the Gerbera plant parameters. The best results were obtained from 25% and 50% compost +250, 500 mg L-1 humic acid. Due to proper drainage, increased water retention, a pseudo hormonal compound such as auxin and increased absorption of elements, compost improve the chemical and physical structure of growing media. Also, high leaf nitrogen content was observed in most compost-containing substrates. This element plays a key role in vegetative growth. The concentration of nitrogen and phosphorus in compost is usually 5 to 11 times higher than soil which is gradually delivered to the plant and increases the growth and flowering of the plant. Humic acid plays important roles in plants through stimulation of root growth and increase of water and nutrient uptake by plants. In our study the application of humic acid at 250 and 500 mg L-1 significantly increased concentration of nitrogen, phosphorus, calcium and potassium as compared with control. It has also been reported that humic acid provides growth regulators to regulate and control hormone levels in plants and stimulates the production of plant enzymes and hormones, which ultimately increases the vegetative and reproductive growth of the plant.
Conclusion: The results of this study showed that water hyacinth compost with humic acid due to improving the root environment and increasing the absorption of nutrients, increased quantitative, qualitative and vase life characteristics of Gerbera in comparison with control (peat + perlite). 50% compost was introduced as the best treatment in combination with concentrations of 250 and 500 mg L-1 of humic acid.
F. Kamiab; H. Mohammadi
Abstract
Introduction: Narcissus is one of the most important ornamental plants in the world. The deficiency of microelements is a major problem limiting the production of ornamental plants under high-pH soils in most regions of Iran. Cu and Mn are essential microelements for the growth and development of plants ...
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Introduction: Narcissus is one of the most important ornamental plants in the world. The deficiency of microelements is a major problem limiting the production of ornamental plants under high-pH soils in most regions of Iran. Cu and Mn are essential microelements for the growth and development of plants as they are involved in many physiological reactions. Fe is involved in the synthesis of chlorophyll and many enzymes, respiration, and nucleic acid metabolism. Cu is a cofactor for numerous enzymes and is also involved in ethylene biosynthesis and activity, respiration, photosynthesis, regulatory proteins, cell membrane metabolism, and hormone signals. The deficiency of microelements, especially Fe, influences productive and reproductive growth of ornamental plants. Thus, this experiment aimed to evaluate the uptake rate of Cu and Mn nano-chelates and their effects on some morphological and physiological Characteristics of ‘jonquil’ narcissus.
Materials and Methods: This study was carried out in the research garden of Agriculture Faculty of Rafsanjan University in 2015 in factorial experiment based on randomized complete block design with two factors of Fe at four levels of 0, 1, 2 and 3 (g/l) and Cu at three levels of 0, 1 and 2 (g/l) in three replications. The weight of the cultivated bulbs were about 8-10 g. They were planted in eight rows spaced 20 cm with on-row spacing of five cm at the depth of 15 cm in each plot in August. According to soil analysis, 40 tons of manure and 100 tons of urea per ha were applied. The nano fertilizer was purchased from Nano-research Biozar Company. Foliar application was done three times: 1- when the plants had three leaves, 2- before flowering and 3- after flowering at 45-day intervals. Different parameters were recorded including plant height, number of leaves, width and length of leaves , number of main bulb, main bulb weight and diameter, , bulblet diameter and weight, flowering stem height and diameter, number of florets, florets diameter, fresh and dry weight of florets, flower vase life, Cu and Fe concentration, protein, chlorophyll and total soluble solids. Foliar spraying was done three times at the intervals of 45 days.
Results and Discussion: The results showed that the concentration of Cu and Fe in the leaves were enhanced with increase in the rate of each nano-chelate, implying high uptake rate of these nano-chelate by leaves in this plant. The application of Fe (2g/l) and Cu (0.5 g/l) resulted in the highest vegetative growth such as plant height, number of leaves, leaf width and length, number of main bulb, main bulb weight and diameter , and bulblet diameter and weight. High pH in experimental soil caused low absorption of micro elements in this condition. This deficiency was compensated with foliar application of nano-chelates and as a result, the Fe and Cu involved processes were improved in them. On the other hand, enhanced Fe and Cu concentrations in leaves could cause more photosynthesis and higher level of assimilation in plants. Likewise, these elements influence some enzymatic activity such as peroxidase, catalase and cytochrome oxidase; consequently, more vegetative growth was observed. Reproductive growth such as flowering stem height and diameter, number of florets, floret diameter and fresh and dry weight and flower vase life were improved in this experiment. The control of abiotic stress is one of the most important roles of Cu and also it is cofactor of superoxide dismutase that has been known as a free radical scavenger in plants that could increase quantitative and qualitative traits of flower. This treatment resulted in the highest amount of protein, chlorophyll and total soluble solids in the leaves of narcissus. Fe is one of the essential elements for chlorophyll synthesis. It also has an important role in activating nitrate reducates enzyme that uses ammonium to synthesize proteins. Cu is involved in the synthesis of proteins and enzymes that have major roles in such processes as respiration, photosynthesis, phenol metabolism, lignifications and ouxin regulation in plants. Thus, the results of this experiment showed that these nano-chelates were absorbed considerably by leaves of narcissus and they are suitable for foliar application. It should be noted that higher concentration of this fertilizer in this experiment has toxic effects. It is suggested that 2g/l Fe plus 0.5 g/l Cu were used to improve vegetative and reproductive growth of ‘jonquil’ narcissus, especially in high-pH soils.
M. Amani Beni; A. Hatamzadeh; A. Nikbakht; M GH; S. Nikkhah Bahrami; S. Davarpanah
Abstract
Tuberose flower (Polianthes tuberosa L.) is an important commercial cut flower in the world, however the short vase life is one of its major problems. So, an experiment was carried out by using five different levels of humic acid (HA) mixed with sucrose and seven different levels of silver nanoparticles ...
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Tuberose flower (Polianthes tuberosa L.) is an important commercial cut flower in the world, however the short vase life is one of its major problems. So, an experiment was carried out by using five different levels of humic acid (HA) mixed with sucrose and seven different levels of silver nanoparticles (SNP) mixed with sucrose in vase solution on tuberose cut flowers cv." Single". The results indicated that there were significant differences between treatments. The decline of fresh weight in flowers treated with 25, 50 and 75 mg L-1 HA was fewer compared to other levels. Also, the effect of HA on vase life and water uptake index was significantly higher in 25 mg L-1 HA (2.25 days more than control). SNP treatments increased the water uptake, fresh weight, total protein and declined lipid peroxidation amount compared to the control flowers. The results also showed that flowers which were treated with 1 mg L-1 SNP had 2.87 days vase life more than the control flowers. To sum up it can be demonstrated that suitable levels of HA and SNP improved better morphological and physiological properties and eventually increases the vase life of cut tuberose flowers.
Sh. Amini; M. Arab; majid rahemi; A.R. Rahimi
Abstract
This research was carried out in order to evaluate the influence of different concentrations of ethanol and methanol (0, 4, 6 and 12%) and two pulse treatments (12 and 24 hour) on longevity of cut standard-carnation (Sensi cultivar) in a factorial based on randomized completely design with three replications, ...
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This research was carried out in order to evaluate the influence of different concentrations of ethanol and methanol (0, 4, 6 and 12%) and two pulse treatments (12 and 24 hour) on longevity of cut standard-carnation (Sensi cultivar) in a factorial based on randomized completely design with three replications, at Tehran University, Aboreyhan Pardis, horticulture department, during 2010. The results showed that the effect of alcohol treatments and interaction effect of alcohols and pulse on vase life were significant (at what level?????), whereas solution uptake and relative fresh weight were not affected by mentioned treatments. The highest (17.33 day) and lowest (11 day) amount of carnation vase life were obtained by ethanol 12% at pulse of 12 hours and control treatments, respectively. Ethanol 6% at pulse of 24 hours, ethanol 12% and methanol 6% at pulse of 12 hours were more effective in increasing the longevity of carnation than other pulse, while in other treatments, no significant differences were observed between the pulse times. Moreover, the highest of ethylene production obtained by control, while ethanol 4% and 6% at pulse of 24 hours, ethanol and methanol 12% at pulse of 12 hours and methanol 6% at both time of pulse markedly decreased the production of ethylene and lead to significantly increase in vase life. The relative extension of flowers and relative fresh weight had a positive correlation with vase life, while solution uptake had non correlation or negative correlation with other treats.
Mohammad javad Nazari deljou; Neda Allahverdizadeh
Abstract
To study the effect of foliar application of humic acid on morpho-physiological traits, nutrients uptake and postharvest vase life of cut marigold, an experiment was conducted with five levels of humic acid (0, 250, 500, 750 and 1000 ppm) based on completely randomized design with three replications. ...
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To study the effect of foliar application of humic acid on morpho-physiological traits, nutrients uptake and postharvest vase life of cut marigold, an experiment was conducted with five levels of humic acid (0, 250, 500, 750 and 1000 ppm) based on completely randomized design with three replications. Based on the results, in compared with control, leaf number and leaf area, total phenol and aerial and root dry weight significantly influenced by humic acid. Accordingly, the highest flower number in compare with control plants was observed in 250 and 500 ppm concentrations. Also, foliar application of humic acid showed a significant effect on phosphorous and calcium uptake (P
M. Hassanpour Asil; M.R. Hassani
Abstract
Gladiolus is one of the flowers that used on cut flower and garden plants. An experiment was conducted to study the effects of chemical treatments on the vase life of gladiolus cut flower cv. ‘Rose supreme’ with ten chemical treatment using complete randomize design with 3 replications. Gladiolus ...
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Gladiolus is one of the flowers that used on cut flower and garden plants. An experiment was conducted to study the effects of chemical treatments on the vase life of gladiolus cut flower cv. ‘Rose supreme’ with ten chemical treatment using complete randomize design with 3 replications. Gladiolus cut flower was harvested when the 2-3 lowest bud had start showing color then cut flower were treated by different preservative solution as: sucrose (4%), 8-hydroxy quinoline citrate (100, 200, 300 mg L-1), citric acid (150 mg L-1), gibberellic acid (50, 100, 150 mg L-1), aluminum sulfate (100, 200, 300 mg L-1) and distilled water (control) for 24 h then transferred in distilled water and kept in the temperature of 22 ºC. Effect of applied treatment was evaluated by different characteristic like vase life, water uptake, chlorophyll content, floret diameter, total soluble solid of petal, floret opening, and fresh weight of flower. Results showed that treatment of sucrose + citric acid + 8-hydroxy quinoline citrate extend the vase life (2.79 day than control), water uptake, flower diameter, total soluble solid of petal, floret opening, fresh weight and and treatment of sucrose + citric acid + gibberellic acid maintain chlorophyll content of leaf and improve vase life of gladiolus.
