Jaynne de Oliveira Siqueira Lino; Adriana da Silva Santos; Lucas Henrique Maciel; Maiara Tatiane Lima Silva; Antonio Gustavo de Luna Souto; Jaciele Beserra de Lira; Italo HL Cavalcante
Abstract
Using microorganisms can develop into a promising strategy for increasing photosynthetic activity and greater accumulation of assimilates in crops. This study aimed to evaluate the effects of Rhodopseudomonas palustris on fruit yield and quality of ‘Keitt’ mangoes grown under semi-arid environmental ...
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Using microorganisms can develop into a promising strategy for increasing photosynthetic activity and greater accumulation of assimilates in crops. This study aimed to evaluate the effects of Rhodopseudomonas palustris on fruit yield and quality of ‘Keitt’ mangoes grown under semi-arid environmental conditions. The experiment was carried out simultaneously in two mango orchards in Petrolina, Pernambuco, Brazil. The study comprised a randomized block design with treatments distributed in 7 treatments, 4 replications, and 3 plants per plot. The treatments consisted of different strategies for applying R. palustris. These treatments were T1) control treatment; T2) 1.43 × 107 CFU/plant via fertigation; T3) 2.85 × 107 CFU/plant via fertigation; T4) 4.27 × 107 CFU/plant via fertigation; T5) 5.70 × 107 CFU/plant via fertigation; T6) 1.43 × 107 CFU/plant via fertigation + 1.43 × 107 CFU/plant via leaf spray; T7) 2.85 × 107 CFU/plant via fertigation + 1.43 × 107 CFU/plant via leaf spray. The treatments were a pplied monthly, totaling seven applications. We evaluated fruit yield (Mg ha-1), longitudinal diameter, ventral diameter and transverse diameter, fruit mass, pulp firmness, pulp percentage, soluble solids (SS), pH, titratable acidity (TA), SS/TA ratio, and dry pulp mass. R. palustris improved mango yield and fruit quality characteristics regarding longitudinal and transversal diameters and the SS/TA ratio. Mango plants treated with R. palustris at 1.43 × 107 CFU/plant via fertigation (T2) produced 10 Mg ha-1 more than the control group, without loss of fruit quality while considering the European market demand.
Tareque Aziz; Md. Kamrul Hassan; Fakhar Uddin Talukder; Md. Sohanur Rahman
Abstract
The experiment was aimed to investigate the effect of different concentrations of chitosan on shelf life and quality of banana fruit. The single factor experiments were laid out in a completely randomized design with three replications. Experimental treatments included Control, 0.50%, 0.75%, 1.0%, 1.5%, ...
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The experiment was aimed to investigate the effect of different concentrations of chitosan on shelf life and quality of banana fruit. The single factor experiments were laid out in a completely randomized design with three replications. Experimental treatments included Control, 0.50%, 0.75%, 1.0%, 1.5%, 2.0% chitosan. Sabri Banana cultivar is one of the most popular commercial cultivars of banana in Bangladesh. Chitosan treatment caused highly significant variation in respect of the physico-chemical parameters such as color changes, firmness, weight loss, disease severity and shelf life of banana during storage. Considering the effects of different concentrations of chitosan, 0.75% and 2.0% chitosan were found to be the best in respect of all the parameters investigated. Fruits treated with the above concentrations of chitosan, had the longest shelf life (9 days), whereas fruits under control had the shortest shelf life (8 days). The application of chitosan treatment in fresh crops is safe for consumers and for the environment. It can be used to improve postharvest quality and to extend shelf life of banana.
Md. Saidee Rahman; Md. Kamrul Hassan; Fakhar Uddin Talukder; Md. Sohanur Rahman
Abstract
A large amount of oyster mushrooms is wasted every year due to post-harvest losses/decays. An experiment was conducted to observe the effect of low temperature to extend shelf life and nutritional quality of oyster mushroom. The experiment consisted of two treatments including: mushrooms stored at ambient ...
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A large amount of oyster mushrooms is wasted every year due to post-harvest losses/decays. An experiment was conducted to observe the effect of low temperature to extend shelf life and nutritional quality of oyster mushroom. The experiment consisted of two treatments including: mushrooms stored at ambient (25 °C) temperature or stored at 3 °C temperature. The experiment was laid out in a Completely Randomized Design (CRD) with three replications. Parameters investigated were color, firmness, freshness, appearance, flavor, texture, moisture and dry matter contents, weight loss, protein content, disease incidence, disease severity and shelf life. Highest moisture contents (85.3%) and shelf life (11.92 days) were recorded in mushrooms exposed to low temperature, while the highestdry matter content (35.25%), weight loss (15.28%), protein content(24.64%) were detected in mushrooms exposed to ambient temperature and the lowest moisture content (64.75%), shelf life (3.33%) were observed in mushrooms exposed to ambient temperature. Lowest dry matter content (14.97%) and weight loss (4%) were recorded in low temperature-exposed mushrooms. At 3 °C, mushrooms had the best quality especially in relation to weight loss, disease incidence and severity, color, firmness, freshness, appearance, flavor, texture, and dry matter content compared to those exposed to ambient temperature. Storage at 3 °C ultimately resulted in prolonged shelf life.
Fakhar Uddin Talukder; Md. Sohanur Rahman; Md. Kamrul Hassan
Abstract
Litchi is a non-climacteric fruit (Wills et al. 2004) and it deteriorates very fast after harvest. Various technologies have been devised to minimize the post-harvest losses of litchi, one of such technologies is the use of PP bag & low temperature. The objectives of the study were to evaluate the ...
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Litchi is a non-climacteric fruit (Wills et al. 2004) and it deteriorates very fast after harvest. Various technologies have been devised to minimize the post-harvest losses of litchi, one of such technologies is the use of PP bag & low temperature. The objectives of the study were to evaluate the effects of thiLitchi is a non-climacteric fruit and it deteriorates very fast after harvest. Various technologies have been devised to minimize the post-harvest losses of Litchi; one of such technologies is the use of Polypropylene bag and low temperature. The objectives of the present study were to evaluate the effects of thickness of polypropylene bags and low temperature on the storage behavior of Litchi (Litchi chinensis Sonn, var. Bombai). The experiment consisted of two factors including temperature (T1: Ambient temperature, T2: 4ºC temperature); and Polypropylene bags (P1: Control (unwrapped), P2: 50 μm Polypropylene bag, P3: 75 μm Polypropylene bag, P4: 100 μm Polypropylene bag. The experiment was conducted in completely randomized design (CRD) with three replications. The postharvest treatments caused highly significant variation in the shelf life of Litchi. Among the treated and untreated fruits, 75 μm Polypropylene bags at low temperature (4 ºC) exhibited better storage performance. The fruits wrapped in 75 μm Polypropylene bag at 4 °C showed the longest shelf life (23.67 days) followed by 50 μm and 100 μm Polypropylene bags at 4 °C (23.33 days). The shortest shelf life was obtained in the untreated fruits (3 days). It may be concluded that keeping Litchi in 75 μm Polypropylene bag and stored in low temperature (4 ºC) is the best postharvest approach to extend Litchi shelf life without considerable negative effects on fruit quality. For short-term storage of Litchi fruits 75 μm Polypropylene bag at ambient temperature is recommended.ckness of polypropylene bags and low temperature on the storage behaviour of litchi (Litchi chinensis Sonn, var. Bombai). The experiment consisted of two factors. Factor A: Temperature viz. T1: Ambient temperature, T2: 4ºC temperature; Factor B: PP bags (Polypropylene bag) viz. P1: Control (unwrapped), P2: 50 micro meter (µm) PP bag, P3: 75µmm PP bag, P4: 100µm PP bag. The experiment was conducted in completely randomized design (CRD) with three replications. The postharvest treatments showed highly significant variation in the shelf life of litchi. Among the treated and untreated fruits, 75µm pp bag at low temperature (4ºC) treatment exhibited better storage performance. The fruits wrapped in 75µm pp bag at 4°C showed the longest shelf life (23.67 days) followed by 50µm & 100µm pp bag at 4°C (23.33 days) and it was the lowest in the untreated fruits (3 days). More research should be conducted by using other litchi cultivar like Bedana, China-3 etc. It may be concluded that keeping litchi in 75µ PP bag and stored in low temperature (4ºC) is the best to extend its shelf life without affecting the quality. For short-term storage of litchi fruits 75µ PP bag at ambient temperature would be recommended.
Hamed Shokri Heydari; Mohammad Ali Askari Sarcheshmeh; Mesbah Babalar; Taha Ranjbar Malidarreh; Ahmad Ahmadi
Abstract
Peach is a highly corrosive fruit with a short shelf life (less than 7 days at room temperature)susceptible to diseases, pathogens and physical damage. The storage or marketable life ofhorticultural crops can be extended by various treatments applied to them after and/or beforeharvesting. Fruits are ...
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Peach is a highly corrosive fruit with a short shelf life (less than 7 days at room temperature)susceptible to diseases, pathogens and physical damage. The storage or marketable life ofhorticultural crops can be extended by various treatments applied to them after and/or beforeharvesting. Fruits are usually treated with a range of materials [(e.g. salicylic acid (SA)] toimprove their appearance or delay deterioration. In the present study, effects of pre-harvesttreatment of SA (1, 2, and 4 mM) and iron sequestrine (Fe) (5 and 10 mg L-1) on antioxidantcapacity, ion leakage, ethylene production, ascorbic acid and carotenoids content of peachfruit (Prunus persica L. Batsch cv. Za'ferani) were examined. The results showed that Fe andSA treatments are effective methods for alleviating ion leakage, weight loss and ethyleneproduction in peach fruit during cold storage. Application of 4.0 mM SA and 10.0 mg L-1 Fewere the most effective treatments to maintain fruits quality parameters. SA and Fe treatmentsmaintained peach fruits quality parameters until 40 days. These results suggest that the SAand Fe treatment are useful materials with potential postharvest application for reducingethylene production, maintain quality, and improve the health benefits of peach fruit byincreasing its antioxidant capacity.
Mehdi Hadadinejad; Kamran Ghasemi; Amir Ali Mohammadi
Abstract
Blackberry is a highly perishable fruit and its quality decreases very quickly during postharvest period. In this research, two types of container including: oriented poly styrene (OPS), a petroleum-based material, and oriented poly corn starch (OPCS), a bio-based material, was analyzed over 14 days ...
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Blackberry is a highly perishable fruit and its quality decreases very quickly during postharvest period. In this research, two types of container including: oriented poly styrene (OPS), a petroleum-based material, and oriented poly corn starch (OPCS), a bio-based material, was analyzed over 14 days to determine their effects on shelf life of thornless blackberry. Packages were placed in freezer (0˚C), refrigerator (4˚C) and room (25˚C) temperatures in a factorial format based on completely randomized design. Results showed a strong positive correlation between fruit weight and marketability (R2 = 0.726). It was confirm that fruit weight loss and shriveling can be an important reason for marketability reduction in blackberry. Blackberries were survived for 14 days at 0˚C, 8 days at 4˚C and only 3 days at room temperature. A downward trend was observed for pH, TA and TSS during the storage as well as for fruit taste and visual color. Fruits TSS was decreased regardless of the packaging materials and storage. Blackberries that were kept in OPS had significantly higher marketability and lower weight loss in comparison with OPCS that caused a reduction in fruit visual color and marketability. Results indicated that OPCS permeability caused higher fruit weight loss in comparison with other treatments. Blackberries in OPCS container had the highest amount of phenolic components following 14 days at 0˚C, which was significantly more than amount of phenolic components of fruits in OPS container. Compared to OPS, OPCS container did not make any improving in its characteristics to reduce fruit water loss that can be possible by using Nano clay particles.
Siamak Kalantari; Mohsen Hatami; Mojtaba Delshad
Abstract
Sensitivity of tomato fruits to chilling injury limits its storage and marketability. This study investigated the effect of hot water treatment (HWT) on reducing the consequences of chilling injury (CI) with respect to quality attributes of tomatoes during storage. Tomatoes were harvested at three ripening ...
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Sensitivity of tomato fruits to chilling injury limits its storage and marketability. This study investigated the effect of hot water treatment (HWT) on reducing the consequences of chilling injury (CI) with respect to quality attributes of tomatoes during storage. Tomatoes were harvested at three ripening stages: mature green, pink, and red; dipped in hot water at 45°C for 15 min; and stored at three storage temperature conditions: 5°C, 13°C, and a simulated condition (SC: 3 days at 25°C and then at 5°C) representing the time between harvest and consumption by consumer. Quality analysis was carried out at the beginning of the experiment and every 10 days of storage 3 days of shelf life evaluation. Fruit color, lycopene content, weight loss, and CI were evaluated during the experiment. HWT reduced CI in mature green tomatoes but had little effect in pink and red fruits. It also caused delay in surface color development and reduced weight loss. During storage, heated mature green fruits often had significantly more lycopene content but low a* compared with unheated ones, whereas in heated red fruits, both a* and lycopene content were lower than unheated ones. This study showed that HWT could be used to reduce CI in mature green tomatoes, but not in pink and red fruits.
Farid Moradinezhad; Mehdi Khayyat
Abstract
We examined the effectiveness of intermittent warming (IW), hot water (HW), salicylic acid (SA), and calcium chloride (CaCl2) on the postharvest life of pomegranate fruit cv. ‘Shishe-Kab’ and extending fruit shelf life during cold storage (3°C). Fruit were subjected to cycles of 1 d at ...
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We examined the effectiveness of intermittent warming (IW), hot water (HW), salicylic acid (SA), and calcium chloride (CaCl2) on the postharvest life of pomegranate fruit cv. ‘Shishe-Kab’ and extending fruit shelf life during cold storage (3°C). Fruit were subjected to cycles of 1 d at 17 ± 1°C every 6 d of storage at 3°C under IW conditions. Pre-storage treatments were HW (50°C) for 3 min, SA (2mmol L-1), or a combination of SA (2 mmol L-1) and CaCl2 (2%) solutions for 3 min at 20°C. Weight loss was not affected by HW or chemical treatments, but firmness decreased significantly in HW-treated fruit when they were subjected to IW. The lowest quantity of unmarketable fruit was observed in fruit treated with a combination of SA and CaCl2, regardless of whether stored in cold storage (CS) or exposed to IW. Regardless of HW and chemical treatments, IW significantly albeit slightly increased shelf life and reduced fruit decay compared with the control. However, the longest fruit shelf life (19 wk) was obtained with a combination of HW, SA, and CaCl2 compared with the control (11 wk), especially under long-term cold storage.
