14 research outputs found
Individual Shrink Wrapping of Zucchini Fruit Improves Postharvest Chilling Tolerance Associated with a Reduction in Ethylene Production and Oxidative Stress Metabolites
We have studied the effect of individual shrink wrapping (ISW) on the postharvest performance of refrigerated fruit from two zucchini cultivars that differ in their sensitivity to cold storage: Sinatra (more sensitive) and Natura (more tolerant). The fruit was individually shrink wrapped before storing at 4°C for 0, 7 and 14 days. Quality parameters, ethylene and CO2 productions, ethylene gene expression, and oxidative stress metabolites were assessed in shrink wrapped and non-wrapped fruit after conditioning the fruit for 6 hours at 20°C. ISW decreased significantly the postharvest deterioration of chilled zucchini in both cultivars. Weight loss was reduced to less than 1%, pitting symptoms were completely absent in ISW fruit at 7 days, and were less than 25% those of control fruits at 14 days of cold storage, and firmness loss was significantly reduced in the cultivar Sinatra. These enhancements in quality of ISW fruit were associated with a significant reduction in cold-induced ethylene production, in the respiration rate, and in the level of oxidative stress metabolites such as hydrogen peroxide and malonyldialdehyde (MDA). A detailed expression analysis of ethylene biosynthesis, perception and signaling genes demonstrated a downregulation of CpACS1 and CpACO1 genes in response to ISW, two genes that are upregulated by cold storage. However, the expression patterns of six other ethylene biosynthesis genes (CpACS2 to CpACS7) and five ethylene signal transduction pathway genes (CpCTR1, CpETR1, CpERS1, CpEIN3.1 and CpEN3.2), suggest that they do not play a major role in response to cold storage and ISW packaging. In conclusion, ISW zucchini packaging resulted in improved tolerance to chilling concomitantly with a reduction in oxidative stress, respiration rate and ethylene production, as well as in the expression of ethylene biosynthesis genes, but not of those involved in ethylene perception and sensitivity.This work was supported by grants AGL2011-30568-C02/ALI from the Spanish Ministry of Science and Innovation, and AGR1423 from the ConsejerĂa de EconomĂa, InnovaciĂłn y Ciencia, Junta de AndalucĂa, Spain. Z.M. acknowledges FPU program scholarships from MEC, Spain. S.M. is funded by grant PTA2011-479-I from the Spanish Ministry of Science and Innovation
Not Available
Not AvailableKinnow is a prevalent fruit crop of the mandarin group and belongs to the Rutaceae family. It is nutritionally rich in vitamin C, vitamin B, b-carotene, calcium, phosphorous and other health beneïŹcing compounds. The fruit is grown commercially for fresh consumption and since the processing techniques are less prominent, a plentiful amount of harvested fruit goes for waxing and grading operations. To reduce the post-harvest losses, appropriate processing techniques need to be followed as considerable fruit waste is generated while processing. The foremost fruit wastes viz. peel and seeds are rich source of bioactive compounds and can be utilized for the extraction of aromatic compounds, essential oils and low-methoxyl pectin. Overall utilization of kinnow and its components through various technological interventions will not only enhance the proïŹtability of processing industries but also assist in reducing the pollution load on the environment. The prevailing bitterness in kinnow juice has constrained its processing, value-addition, popularity and acceptability. Limited work has been done on kinnow processing leaving scarce relevant literature published on the post-harvest management. Efforts made by researchers worldwide,
regarding the post-harvest application of kinnow and its by-products for product development, value addition and waste utilization is presented and discussed in this paper. This compiled information is envisioned to encourage the cottage food processing units in order to improvise the overall beneïŹts along with achieving complete utilization of kinnow.Not Availabl
Not Available
Not AvailableKinnow is a prevalent fruit crop of the mandarin
group and belongs to the Rutaceae family. It is nutritionally
rich in vitamin C, vitamin B, b-carotene, calcium, phosphorous
and other health beneficing compounds. The fruit
is grown commercially for fresh consumption and since the
processing techniques are less prominent, a plentiful
amount of harvested fruit goes for waxing and grading
operations. To reduce the post-harvest losses, appropriate
processing techniques need to be followed as considerable
fruit waste is generated while processing. The foremost
fruit wastes viz. peel and seeds are rich source of bioactive
compounds and can be utilized for the extraction of aromatic
compounds, essential oils and low-methoxyl pectin.
Overall utilization of kinnow and its components through
various technological interventions will not only enhance
the profitability of processing industries but also assist in
reducing the pollution load on the environment. The prevailing
bitterness in kinnow juice has constrained its processing,
value-addition, popularity and acceptability.
Limited work has been done on kinnow processing leaving
scarce relevant literature published on the post-harvest
management. Efforts made by researchers worldwide,
regarding the post-harvest application of kinnow and its
by-products for product development, value addition and
waste utilization is presented and discussed in this paper.
This compiled information is envisioned to encourage the
cottage food processing units in order to improvise the
overall benefits along with achieving complete utilization
of kinnow.Not Availabl
Not Available
Not AvailableKinnow is a prevalent fruit crop of the mandarin
group and belongs to the Rutaceae family. It is nutritionally
rich in vitamin C, vitamin B, b-carotene, calcium, phosphorous
and other health beneficing compounds. The fruit
is grown commercially for fresh consumption and since the
processing techniques are less prominent, a plentiful
amount of harvested fruit goes for waxing and grading
operations. To reduce the post-harvest losses, appropriate
processing techniques need to be followed as considerable
fruit waste is generated while processing. The foremost
fruit wastes viz. peel and seeds are rich source of bioactive
compounds and can be utilized for the extraction of aromatic
compounds, essential oils and low-methoxyl pectin.
Overall utilization of kinnow and its components through
various technological interventions will not only enhance
the profitability of processing industries but also assist in
reducing the pollution load on the environment. The prevailing
bitterness in kinnow juice has constrained its processing,
value-addition, popularity and acceptability.
Limited work has been done on kinnow processing leaving
scarce relevant literature published on the post-harvest
management. Efforts made by researchers worldwide, regarding the post-harvest application of kinnow and its
by-products for product development, value addition and
waste utilization is presented and discussed in this paper.
This compiled information is envisioned to encourage the
cottage food processing units in order to improvise the
overall benefits along with achieving complete utilization
of kinnow.Not Availabl