Difference between revisions of "Pears"

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==Harvesting and Handling==
 
==Harvesting and Handling==
Depending on time of harvest, pears are subdivided into early varieties (which reach eating ripeness on the tree) and late varieties (which reach eating ripeness only postharvest). Pears vary in colour from green through yellow-green to yellow. Some varieties are even red in parts. The low [[fruit]] acid content in many varieties of pear makes them very sweet.  
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Pear [[fruit]] are capable of developing good dessert quality upon ripening only when they are harvested at proper maturity. Pear fruit harvested with improper maturity are more susceptible to physiological disorders and have a shorter storage-life. Immature pear fruit are more susceptible to superficial scald, shriveling and friction discoloration while over mature fruit tend to have higher incidence of core breakdown and CO<sub>2</sub> injury. One of the most satisfactory and easiest ways of determining proper harvest maturity is to measure fruit firmness. Pressure tests using a penetrometer on the pared surface gives an indication of flesh firmness. Firmness decreases with maturation. Different varieties have different firmness at maturity.
 
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Pears picked when green have a turnipy taste and tend to shrivel prematurely. Pre-climacteric pears do not ripen easily and remain green and hard, and have a particularly large number of stone cells grouped around the core.
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The fruit must be handled very carefully, since, in the event of strong pressure or jolting/vibration, the fruit rapidly succumbs to bruising and may start to rot within just a few days. Where possible, the pears should be of uniform size to even out pressure and prevent injury. Size grading is generally performed mechanically. Packaging in (export cartons and) polyethylene bags has beneficial effects on storage and shelf life, but retards cooling.
 
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A characteristic feature of pears is their rapid transition from the ripe to the overripe stage. Thus, whenever a cargo of pears is unloaded in the ripe state, large losses are sure to ensue, since within a few days they will be overripe and will lose market value.
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Quality characteristics and criteria of a properly ripened pear fruit are buttery and juicy texture with the distinct pear aroma and taste of each pear cultivar.<br><br>
 
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Grades include Extra Fancy, Fancy and Unclassified (or Third Grade), primarily based on external appearance.  
Pears are wrapped individually in tissue paper to reduce susceptibility to pressure and impact. They are transported in crates, tubs and cartons. The packaging must allow air circulation for refrigeration purposes. Because of its impact- and pressure-sensitivity, the fruit has to be handled with appropriate care. Packaging in polyethylene bags also has beneficial effects on storage and shelf life, but retards cooling. The fruit must be handled very carefully, since, in the event of strong pressure or jolting/vibration, the fruit rapidly succumbs to bruising and may start to rot within just a few days.
 
 
 
Where possible, the pears should be of uniform size to even out pressure and prevent injury. Size grading is generally performed mechanically.  
 
 
 
Quality characteristics and criteria of a properly ripened pear fruit are buttery and juicy texture with the distinct pear aroma and taste of each pear cultivar.  
 
  
 
==Cooling and Storage==
 
==Cooling and Storage==
Cooling of pears must proceed as rapidly as possible, to prevent degradation of quality. In pears, the heat of ripening is twice that of [[apples]] and approximately four times that of [[oranges]]. It is therefore extremely important to bring the cargo as quickly as possible to the necessary travel temperature. This may be achieved by pre-cooling of the cargo. Where a cargo is not pre-cooled, a large-capacity refrigeration plant is required, as the accumulated heat is very considerable.
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Pears are very sensitive to temperature. The storage-life of ‘d’Anjou’ and ‘Bartlett’ pears has been reported to be 35 to 40% longer at -1 °C than at 0 °C. Most pears are stored at -1 °C with RH of 90 to 95%. Many operators of pear storage rooms use thermocouples in the air and in fruit to determine temperatures at selected areas in the storage. Precise temperature control is needed to prevent freezing when pears are stored at these low temperatures. Rapid removal of field heat and prompt cooling of harvested pears are essential for long-term storage. During the pull-down period, room temperatures of -3.5 °C to -2.0 °C can be used but should be raised to -1 °C as the fruit temperatures approach this temperature. Delay in cooling shortens storage-life. It has been suggested that the core temperature should be reduced to near the holding temperature in 4 days.
 
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When pears are packed in cartons before cooling, cartons should be stacked to provide exposure of the sides to airflow. Pears lose moisture rapidly; hence, it is advisable to hold the RH > 90%. Polyethylene liners are effective in controlling moisture loss. Intermediate temperatures of 2.5 to 10 °C are harmful to some pear cultivars. ‘Bartlett’ pears stored at this temperature have dry texture and inferior flavor.<br><br>
Pears are less prone to internal breakdown than [[apples]].  
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Winter pear varieties can be stored in CA at -1°C for up to 4 months (Bosc & Comice) or 6 months (Anjou) while maintaining their capacity to ripen and attain good flavour and texture. Summer pears, including William's Bon Chrétien and Comice, are extremely sensitive to high temperatures, and special effort should be made to maintain the cold-chain.  
 
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Pears are very sensitive to temperature. The storage-life of d'Anjou and Bartlett pears has been reported 35% to 40% longer at -1°C than at 0°C. Intermediate temperatures of 2,5°C to 10°C are harmful to some pear cultivars. 'Bartlett' pears stored at this temperature have dry texture and inferior flavour.  
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Susceptibility to freezing injury is determined not only by the degree and duration of freezing conditions but also by the physiological state of the fruit.<br>
 
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Fruits may suffer freezing injury whilst on the tree, in store or during transit. Exposure to freezing conditions tends to be more damaging to harvested fruits than those still on the tree.<br>
Optimum storage conditions are a temperature of -0,5°C (for early Packham's Triumph) or -1°C for other cultivars.
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After slight freezing, the skin may show irregular areas of brown discoloration. Internal freezing injury results in watersoaking, flesh-browning and/or discoloration of the vascular strands. Such symptoms are not diagnostic, however, since other disorders can produce a similar effect. Severely frozen fresh leaks on thawing, becoming soft and brown. After subsequent storage, cavities may develop in the injured tissue. Affected pears fail to ripen. Even in the absence of obvious symptoms, fruits which have been exposed to freezing temperatures are weakened and their storage life is curtailed.
 
 
Winter pear varieties can be stored in CA at -1°C for up to 4 months (Bosc & Comice) or 6 months (Anjou) while maintaining their capacity to ripen and attain good flavour and texture.  
 
 
 
Summer pears, including William's Bon Chrétien and Comice, are extremely sensitive to high temperatures, and special effort should be made to maintain the cold-chain.  
 
 
 
 
 
Precise temperature control is needed to prevent freezing when pears are stored at these low temperatures.
 
With freezing injury the [[fruit]] takes on a glassy, water-soaked appearance. Cutting the fruit in half reveals that the water-soaked part of the flesh of the fruit is located just beneath the skin. The rest of the pulp is unusually dry and sometimes cracked. Freezing injury may set in at a temperature anywhere below freezing point (approx. -2°C). Susceptibility to injury is determined not only by the degree and duration of freezing conditions but also by the physiological state of the fruit.  
 
  
 
==Mixed loads==
 
==Mixed loads==
Pears generate ethylene and so should not be shipped with ethylene-sensitive commodities such as [[kiwifruit]] and persimmons.
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Pears generate ethylene and so should not be shipped with ethylene-sensitive commodities such as [[kiwifruit]] and [[persimmons]].
  
 
==Cautions==
 
==Cautions==
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[[Category:Fruit]]
 
 
[[Category:Perishables]]
 
[[Category:Perishables]]
 
[[Category:Products]]
 
[[Category:Products]]

Latest revision as of 07:55, 14 June 2012

Infobox on Pears
Example of Pears
Pears.jpg
Freshness facts
Optimum carrying temperature -1,0°C to -0,5°C
Highest freezing point -1,6°C
Acceptable product temp. at loading into containers Max. 2°C above carrying temperature
Optimum humidity 90 to 95%
Ventilation setting for containers 25 m³/hr
Storage life 1-3 months Bartlett (William's Bon Chrétien)
3 months Beurre Bosc
3-4 months Comice
3-6 months Packham's Triumph
4-6 month d'Anjou
Climacteric / non-climacteric Climacteric
Ethylene production High
Ethylene sensitivity High
Modified / controlled atmosphere 0-3% CO2; 1%-3% O2
Potential benefits Excellent
Availability
Australia/New Zealand
South Africa
South America
February - July
February - July
January - June

Pears

Harvesting and Handling

Pear fruit are capable of developing good dessert quality upon ripening only when they are harvested at proper maturity. Pear fruit harvested with improper maturity are more susceptible to physiological disorders and have a shorter storage-life. Immature pear fruit are more susceptible to superficial scald, shriveling and friction discoloration while over mature fruit tend to have higher incidence of core breakdown and CO2 injury. One of the most satisfactory and easiest ways of determining proper harvest maturity is to measure fruit firmness. Pressure tests using a penetrometer on the pared surface gives an indication of flesh firmness. Firmness decreases with maturation. Different varieties have different firmness at maturity.

The fruit must be handled very carefully, since, in the event of strong pressure or jolting/vibration, the fruit rapidly succumbs to bruising and may start to rot within just a few days. Where possible, the pears should be of uniform size to even out pressure and prevent injury. Size grading is generally performed mechanically. Packaging in (export cartons and) polyethylene bags has beneficial effects on storage and shelf life, but retards cooling.

Quality characteristics and criteria of a properly ripened pear fruit are buttery and juicy texture with the distinct pear aroma and taste of each pear cultivar.

Grades include Extra Fancy, Fancy and Unclassified (or Third Grade), primarily based on external appearance.

Cooling and Storage

Pears are very sensitive to temperature. The storage-life of ‘d’Anjou’ and ‘Bartlett’ pears has been reported to be 35 to 40% longer at -1 °C than at 0 °C. Most pears are stored at -1 °C with RH of 90 to 95%. Many operators of pear storage rooms use thermocouples in the air and in fruit to determine temperatures at selected areas in the storage. Precise temperature control is needed to prevent freezing when pears are stored at these low temperatures. Rapid removal of field heat and prompt cooling of harvested pears are essential for long-term storage. During the pull-down period, room temperatures of -3.5 °C to -2.0 °C can be used but should be raised to -1 °C as the fruit temperatures approach this temperature. Delay in cooling shortens storage-life. It has been suggested that the core temperature should be reduced to near the holding temperature in 4 days. When pears are packed in cartons before cooling, cartons should be stacked to provide exposure of the sides to airflow. Pears lose moisture rapidly; hence, it is advisable to hold the RH > 90%. Polyethylene liners are effective in controlling moisture loss. Intermediate temperatures of 2.5 to 10 °C are harmful to some pear cultivars. ‘Bartlett’ pears stored at this temperature have dry texture and inferior flavor.

Winter pear varieties can be stored in CA at -1°C for up to 4 months (Bosc & Comice) or 6 months (Anjou) while maintaining their capacity to ripen and attain good flavour and texture. Summer pears, including William's Bon Chrétien and Comice, are extremely sensitive to high temperatures, and special effort should be made to maintain the cold-chain.

Susceptibility to freezing injury is determined not only by the degree and duration of freezing conditions but also by the physiological state of the fruit.
Fruits may suffer freezing injury whilst on the tree, in store or during transit. Exposure to freezing conditions tends to be more damaging to harvested fruits than those still on the tree.
After slight freezing, the skin may show irregular areas of brown discoloration. Internal freezing injury results in watersoaking, flesh-browning and/or discoloration of the vascular strands. Such symptoms are not diagnostic, however, since other disorders can produce a similar effect. Severely frozen fresh leaks on thawing, becoming soft and brown. After subsequent storage, cavities may develop in the injured tissue. Affected pears fail to ripen. Even in the absence of obvious symptoms, fruits which have been exposed to freezing temperatures are weakened and their storage life is curtailed.

Mixed loads

Pears generate ethylene and so should not be shipped with ethylene-sensitive commodities such as kiwifruit and persimmons.

Cautions

CO2 levels above 3% are injurious and may cause cavitation, brown core, surface pitting, core cracking or flesh discoloration. O2 levels below 1% may cause brown core, black skin spots or alcoholic off-flavours.

Storage disorders

Alcohol formation, Alternaria rot, Aspergillus rot, Bitter pit, Black rot, Blue mould, Botryodiplodia rot, Breakdown, Brown heart, Brown rot, Brown spot, Bruising, Bulls eye rot, Carbon dioxide injury, Cladosporium rot, Deep scald, Freezing injury, Fusarium, Grey mould rot, Mucor rot, Phytophthora, Pink mould rot, Powdery mildew, Rhizopus rot, Ribbon scald, Russeting, Scab, Sclerotium rot, Soft scald, Sooty blotch, Superficial scald, Water core, White rot.