Breeding and Biotechnology of Plant and Flower
L. Baghazadeh Daryaii; D. Samsampoor; A. Bagheri; J. Sohrabipour
Abstract
Introduction
Endophytes have symbiosis life within the plant tissues without causing any obvious negative effects. Seaweeds are one of the large and diverse groups of marine plants that play an essential role in marine and oceans ecosystems. Seaweeds show rich diversity of associated microorganisms ...
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Introduction
Endophytes have symbiosis life within the plant tissues without causing any obvious negative effects. Seaweeds are one of the large and diverse groups of marine plants that play an essential role in marine and oceans ecosystems. Seaweeds show rich diversity of associated microorganisms in compare with the other multicellular organisms. Citrus species, are amongst the most important evergreen fruit trees, cultivated in many countries worldwide. There are several obstacles for citrus production in southern of Iran, limiting continuity of citrus production. Lack of suitable soil, salinity and drought stresses are the main challenges threatening citrus industry in southern of Iran. Similar to other citrus species, the production of Mexican lime is threatened by certain biological stresses (such as pests, plant diseases and weeds) and non-biological stresses (such as salinity, drought, floods, cold and heat stress). Endophytes are advantageous group of microorganisms that protect plants from biotic and abiotic stresses. One of the alternative ways to restore normal plant growth may be to use plant growth to stimulate endophytes. Endophytes can play an important role in plant growth. Endophytes from marine environment are gaining special interest because of their existence in the harsh conditions of marines and ocean ecosystem such as temperature, light availability, high salinity and osmotic stress. Endophytes have already been isolated from various marine habitat, including marine plants, marine invertebrates and vertebrates. Among these organisms, seaweeds are one of the most prevalent sources of marine-derived fungi and bacteria for chemical studies. The purpose of this study was the isolation of associated fungi and bacteria endophytes with seaweed species in Persian Gulf to investigate morphological and molecular characterization by using PCR amplifications ITS1-5.8S-ITS4 regions and 16s rRNA gene respectively. Here, we have evaluated the potential of inoculating Mexican lime seedlings with seaweeds fungi and bacteria endophyte combination, (Aspergillus niger+ Bacillus aquimaris OD14), to improve morphological, biochemical, antioxidant and photosynthesis pigments characterizes of Mexican lime in salinity condition.
Materials and Methods
The main aim of this study was to investigate the role of endophytic fungi (Aspergillus niger) and bacteria (Bacillus aquimaris OD14) in improving the growth of Mexican lime seedlings. The seaweed samples were collected from coastal regions of Bushehr province and Qeshm Island. Fungi and bacteria endophytes were isolated and identified base on morphological and molecular methods. Molecular characterization was investigated using PCR amplification of ITS1-5.8S-ITS4 regions and 16s rRNA gene respectively. Mexican lime seeds were sterilized with 0.5% sodium hypochlorite for 20 minutes and then completely distilled three times with distilled water. Seedlings pots containing autoclaved soil were placed in the greenhouse of the Faculty of Agriculture, Hormozgan University. The experiment was arranged as a factorial experiment based on randomized complete randomize design with three replications. Isolated fungi and bacteria by MT420720 and MT278260 accession numbers were used in eight months old Mexican lime seedlings. The suspension was adjusted to a concentration of 1×106 cell per ml for fungi and 1×108 cell per ml for bacteria inoculums. For better contact of seedlings with endophytes, inoculation was performed three times. After three months, salinity stress was applied. morphological (Leave, Stem and Root dry and fresh weight), biochemical (Protein, MDA and soluble sugars), antioxidant capacity (CAT, POD, SOD, APX and Gr activity) and photosynthesis pigments (Chlorophyll a, Chlorophyll b, Total Chlorophyll and Carotenoids) characteristics in treated Mexican lime seedlings and control were analyzed. Analysis of variance of traits was performed using SAS software version 9.4 and the means were compared using LSD method with a probability level of P≤0.05.
Results and Discussion
The results show that most characterizes were significant compare with control. For example, in 6000 µs/cm water salinity, leave fresh weight (203.49%), root fresh weight (347.41%), stem fresh weight (206.81%) and root dry weight (421.95%) were significantly higher compared with control (P>0.001). Endophytes inoculation can significantly improve photosynthesis pigments such as chlorophyll a (65.21%), chlorophyll b (11.9%), total chlorophyll (28.39%) and carotenoids (59.09%) (P>0.001) compare with control. In antioxidant capacity of seedling, CAT, POD, SOD, Gr and APX were analyzed, Endophytes can increase enzymes activity. For biochemical characterizes, in 6000 µs/cm water salinity, endophytes can significantly increase soluble sugars (17.85%) and decrease MDA (35.18%) in inoculated seedlings compare with control (P>0.001).
Conclusion
The results showed that the use of endophytic fungi and bacteria can increase the growth of Mexican lime seedlings under salinity stress. Thereby it can be used as an effective tool for growing salinity-sensitive plants in saline conditions.
Breeding and Biotechnology of Plant and Flower
L. Baghazadeh Daryaii; D. Samsampoor; A. Bagheri; J. Sohrabipour
Abstract
Introduction
Fungal Endophytes have symbiosis life within the plant tissues without causing any obvious negative effects. Seaweeds are one of the large and diverse groups of marine plants that play an essential role in marine and oceans ecosystems. Seaweeds show rich diversity of ...
Read More
Introduction
Fungal Endophytes have symbiosis life within the plant tissues without causing any obvious negative effects. Seaweeds are one of the large and diverse groups of marine plants that play an essential role in marine and oceans ecosystems. Seaweeds show rich diversity of associated microorganisms compare with the other multicellular organisms. Citrus species, are amongst the most important evergreen fruit trees, cultivated in many countries worldwide. There are several obstacles for citrus production in southern of Iran that limiting continuity of citrus production. Lack of suitable soil, is one of the main challenges threatening citrus industry in southern of Iran. Similar to other citrus species, the production of Mexican lime is threatened by certain biological stresses (such as pests, plant diseases and weeds) and non-biological stresses (such as salinity, drought, floods, cold and heat stress). Here, we have evaluated the potential of inoculating Mexican lime seedlings with seaweeds fungi endophyte, Aspergillus niger, to improve morphological, biochemical, antioxidant and photosynthesis pigments characterizes. Endophytes are advantageous group of microorganisms that protect plants from biotic and abiotic stresses. One of the alternative ways to restore normal plant growth may be to use plant growth to stimulate endophytes. Endophytes can play an important role in plant growth. Endophytes from marine environment are gaining special interest because of their existence in the harsh conditions of marines and ocean ecosystem such as temperature, light availability, high salinity and osmotic stress. Fungi have already been isolated from various marine habitat, including marine plants, marine invertebrates and vertebrates. Among these organisms, seaweeds are one of the most prevalent sources of marine-derived fungi for chemical studies. The purpose of this study was the isolation of associated fungi with seaweed species in Persian Gulf to investigate morphological and molecular characterization by using PCR amplifications ITS1-5.8S-ITS4 regions and primitive assessment of their potential as bio-fertilizer.
Materials and Methods
The main aim of this study was investigation the role of endophytic fungi (Aspergillus niger), in improving the growth of Mexican lime seedlings. Cladophoropsis membranacea, green seaweed, was collected from coastal region of Bushehr province. Fungal endophytes were isolated and identified based on morphological and molecular methods. Molecular characteristic was investigated using PCR amplification of ITS1-5.8S-ITS4 regions. Mexican lime seeds were sterilized with 0.5% sodium hypochlorite for 20 minutes and then completely distilled three times with distilled water. Seedlings pots containing autoclaved soil were placed in the greenhouse of the Faculty of Agriculture, Hormozan University. Isolated fungi by MT420720 accession number was used as bio-fertilizing agents in eight months old Mexican lime seedlings. The suspension was adjusted to a concentration of 1×106 cell per ml. For better contact of seedlings with fungi, inoculation was performed three times. After three months, morphological (trunk diameter, stem length, root length and width, leaf and branch number, leaf, stem and root dry and fresh weight), biochemical (Protein, MDA and SPAD), antioxidant (CAT, POD, SOD, APX and Gr enzymes activity) and photosynthesis pigments (Chlorophyll a, Chlorophyll b, Total Chlorophyll and Carotenoids) characterizes in treated Mexican lime seedlings were analyzed. The experiment was arranged in randomized complete design with three replications. Analysis of variance of traits was performed using SAS software version 9.4 and the means were compared using LSD method with a probability level of P≤0.05.
Results and Discussion
The genera of Aspergillus was the most frequent isolates of the isolated fungi. The results show that most traits were significant compared with control. For example, leaf number (144.42%), root fresh weight (144.13%), stem fresh weight (94.85%) and root width (105.55%) were significantly higher compared with control (P>0.001). Fungal inoculation can significantly improve the photosynthesis pigments such as chlorophyll a (10.98%) and carotenoids (40.62%) (P>0.001) compared with control. In antioxidant capacity of seedling, CAT, POD, SOD, Gr and APX enzymes were analyzed. Fungal inoculation can increase the enzymes activity. For biochemical traits, fungal inoculation can significantly increase SPAD number and decrease MDA in inoculated seedlings compare with control (P>0.001).
Conclusion
The results showed that the use of entophytic fungi increased the growth of Mexican lime seedlings. Thereby it can be used as an effective tool for growing salinity-sensitive plants such as Mexican lime in saline conditions.
Ali Rezaei; Mohammadtaghi Ebadi; Hassan Pirani
Abstract
Introduction: Organic production is one of the important aspects in the medicinal plants industry and the use of organic fertilizers is very important in this topic. Seaweeds are important marine living resources with tremendous commercial applications and many commercial products from seaweed extract ...
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Introduction: Organic production is one of the important aspects in the medicinal plants industry and the use of organic fertilizers is very important in this topic. Seaweeds are important marine living resources with tremendous commercial applications and many commercial products from seaweed extract are used in agriculture and horticulture. Seaweed extracts can be used in liquid form as a foliar spray, soil drench or in powder and granular forms as soil conditioners and manure. Using seaweed extracts as fertilizers can improve plant productivity, because they contain growth-promoting hormones. Several studies have also shown that the seaweed extracts can suppress plant diseases and insect pests. Nowadays, seaweed extract is used as an organic fertilizer in order to increase the quantitative yield of medicinal plants and also resistance to environmental stresses. Summer savory is one of the medicinal and spice plants that has a high area under cultivation in our country for food and medicine. Various studies on its essential oil had been shown that it contains high amounts of phenolic compounds like Carvacrol, γ-Terpinene, Thymol, p-Cymene, β-Caryophyllene, Linalool, and other terpenoids.
Materials and Methods: In order to study the effect of different levels of seaweed fertilizer on the growth characteristics, plant material yield, essential oil percentage of summer savory, an experiment was conducted as a randomized complete block design with 3 replications at the Faculty of Agriculture, Tarbiat Modares University (TMU) during 2017. The treatments included: 0 (control), 2.5, 5 and 10 ml/liter seaweed fertilizer that they were used as a foliar application for three times in the growing season. According to the meteorological data, the area had an average rainfall of 246 mm and a semi-arid climate. In order to determine the physical and chemical properties of the soil, soil sampling and testing were done. To prepare the field, the soil tillage operation was carried out using a 40 cm depth plow. Then, plots with a 2 × 2 meters at a distance of half a meter from each other were prepared. The seeds used in this experiment were prepared from Varamin landrace, which is mainly cultivated by farmers in Tehran and Alborz provinces. Sowing operation was carried out manually. In each plot, 7 rows (30 cm spacing between rows) were cultivated and all of the plots were irrigated in the same conditions. The organic fertilizer (Bioalgax) used in this experiment was based on an extract of seaweed (Ascophyllum nodosum), which was obtained from the Kimitec company, Spain. This fertilizer is a natural source of phytohormones such as cytokinins, auxins, and gibberellins and also, it has some minerals. After reaching the height of 20 cm (eight weeks after planting), spraying of the fertilizer solutions was applied three times during the growing season at intervals of 10 days. The foliar application was carried out at sunset time by using a manual sprayer. The harvest was carried out at full flowering stage and 3 plants of each plot were harvested. The studied traits were: plant height, stem diameter, the number of branches, leaf length, and width, shoot fresh and dry weight, root fresh and dry weight, SPAD index, essential oil yield and content.
Results and Discussion: The results showed that different concentrations of seaweed fertilizer had a significant effect on the number of branches, shoot dry weight, root fresh and dry weight, leaf width and plant height at 1% probability level. They also had a significant effect on the shoot fresh weight, essential oil percentage, and yield at 5% probability level. On the basis of the results, the highest number of branches (35.44), leaf length and width (43.22 and 8.07 mm), stem diameter (5.00 mm), root fresh and dry weight (15.17 and 6.42 g), shoot fresh and dry weight (181.01 and 37.69 g) and SPAD index (48.13) were obtained from 10 ml/liter seaweed fertilizer and the lowest amounts were observed in control treatment. The maximum plant height (54.66 cm) and the highest percentages and the yield of essential oil (2.51% and 6.28 g/m2) were also obtained from 5 ml/liter seaweed fertilizer. According to the results, the response of summer savory to the use of seaweed fertilizer was positive and it could be placed in the fertilization program of farmers.
