Fruit The pears used to make perry are typically not the large, sweet varieties eaten as fresh fruit. Perry pears tend to be small and relatively the distinction between table pears and perry pears is similar to the distinction between table apples and cider apples. Perry pears are thought to be descended from wild hybrids, known as "wildings", between the cultivated pear
Pyrus communis subsp.
communis and the now-rare wild pear
Pyrus communis subsp. pyraster. The cultivated pear
P. communis was brought to northern Europe by the Romans. In the fourth century CE,
Saint Jerome referred to perry as
piracium. Wild pear hybrids were, over time, selected locally for desirable qualities, and by the 1800s, many regional varieties had been identified. The majority of perry pear varieties in the UK originated from the counties of Gloucestershire, Herefordshire, and Worcestershire in the West Midlands; perry from these counties made from traditional recipes now forms a
European Union Protected Geographical Indication. Of these perry pear varieties, most originate in parishes around
May Hill on the Gloucestershire/Herefordshire border, where the sandstone-based soil overlying an impervious sub-soil supports the cultivation of pears better than apples. The standard reference work on perry pears was published in 1963 by the
Long Ashton Research Station; since then, many varieties have become critically endangered or lost. Over 100 varieties, known by over 200 local names, were in Gloucestershire alone. These local pears are particularly known for their picturesque names, such as the various 'Huffcap' varieties ('Hendre Huffcap', 'Red Huffcap', 'Black Huffcap', all having an elliptical shape), those named for the effects of their product ('Merrylegs', 'Mumblehead'), pears commemorating an individual ('
Stinking Bishop', named for the man who first grew it, or 'Judge Amphlett', named for
Assizes court judge Richard Amphlett), or those named for the place they grew ('
Hartpury Green', '
Bosbury Scarlet', '
Bartestree Squash'). The perry makers of Normandy grew their own distinctive varieties such as 'Plant de Blanc', 'Antricotin', and 'Fausset'; the perry of
Domfront, which has been recognised with
AOC status since 2002 and PDO status since 2006, must be made with a minimum of 40% 'Plant de Blanc'. Pear
cultivars used for perry-making tend to be small in size, turbinate or pyriform in shape, and too astringent for culinary use. One variety - Barland - was said to be so distasteful that even pigs would not eat it. Specific perry pear cultivars are regularly used to make single-variety perries; this was formerly the usual practice in traditional perry making, meaning that in the past, each parish would have produced its own characteristic and distinctive perries due to the very restricted distribution of many varieties. Blended perries, made from the juices of several varieties, were traditionally disregarded, as they tended to throw a haze, though in modern commercial production this is overcome with filtration and use of a centrifuge. Good perry pears should have higher concentrations of
tannins, acids, and other
phenolic compounds. In addition to producing a sweeter beverage, sorbitol also contributes to increased body and a softer mouthfeel in the finished perry. Compared to apples, pear pressing is made more difficult by the additional presence of specialized cells known as
sclereids, which have thick cell walls that provide extra support and strength to the pear tissue. Because of this inherent perry pear attribute, the addition of enzymes and pressing aids is a commonly used practice for improving perry production.
Orchard management and harvesting : As usual in traditional perry orchards, the trees are of extremely large size. While cultivation of pears has been to some extent modernised, they remain a difficult crop to grow. Perry pear trees can live to a great age, and can be fully productive for 250 years. Pear trees, both domestic and perry varieties, grow incredibly slowly, taking up to, if not over, a decade before they bear enough fruit for harvest. In commercial orchards, standard pear trees were planted at a spacing of . Given the long maturing period of pear trees, they can be difficult to manage against diseases. Their size makes it difficult to apply pesticides, which makes preventing
fire blight, a disease caused by the bacterium
Erwinia amylovora that pears are even more susceptible to than cider apples, quite challenging. These difficulties, along with demand for perry pears having (until recently) taken a decline, have prompted a national collection of perry pear cultivars to be gathered, housed, and cared for at the Three Counties Agricultural Showground at Malvern in Worcestershire, to maintain genetic resources, which has now become the
National Perry Pear Centre at Hartpury. Similar germplasm repositories can be found at the
National Clonal Germplasm Repository in Corvallis, Oregon. Also, key differences between cider and perry production exist in the harvesting and growing processes. Perry trees famously take more time to mature than cider trees. While cider trees may come to bear fruit in three to five years, traditionally managed perry trees typically take much longer, so much so that people say that one plants "pears for your heirs". Even when fully grown, pear trees bear less fruit than apples, which is one reason that perry is less common than cider. When time to harvest comes, pears should be picked before they are ripe and then left to ripen indoors, while apples should be allowed to ripen on the tree. Both apples and pears suffer from
fire blight, which can devastate entire orchards, but pears are also susceptible to pear psylla (also known as
Psylla pyri). Another added complication is that while apples are often harvested mechanically, pears must be harvested by hand, greatly increasing the time and cost of harvesting.
Perry-making technique , Herefordshire, where a large orchard was planted to commemorate the coronation of
Queen Anne – avenues of perry pears from it still survive. The varieties 'Hellens Early' and 'Hellens Green' were named after the house. Traditional perry making is broadly similar to traditional cider making, in that the fruit is picked, crushed, and pressed to extract the juice, which is then fermented using the wild yeasts found on the fruit's skin. Traditional perry making employed
querns and a rack and cloth
press, in which the pulp is wrapped in cloth before being squeezed with a press. Modern perry production can use a
belt press, which is much more efficient for pressing fruit. It works by sending the fruit down a conveyor belt, on which it is then pressed by rollers. The principal differences between perry and cider production are that pears must be left for a period to mature after picking, and the
pomace must be left to stand after initial crushing to lose
tannins, a process analogous to wine
maceration. Additionally, because of the variation in hardness of the fruit, determining if a pear is ready for pressing can be more difficult than determining if an apple is ready for pressing. Also, key chemical compositional differences occur between apples and pears; these factors play a crucial role in prefermentation and fermentation decisions for perry production. Compared to most apples, pears tend to have more sugar and total phenolic compounds. The main sugars in perry pears are
glucose (192 –284 mg/L),
xylose (140–176 mg/g), and
galacturonic acid (108–118 mg/g). Types of sugar that are present in the juice play an important role in yeast activity and determine the success of fermentation. Unlike the juice of apples, pear juice contains significant quantities of unfermentable sugar alcohols, particularly sorbitol. The presence of sorbitol can give perry a residual sweetness, in addition to a mild laxative effect. Pear juices contain rather low levels of amino acids, sources of nitrogen such as aspargine, aspartic acid and glutamic acid. After initial fermentation, many perries go through
malolactic fermentation. On average, compared to apples, pears have higher levels of titrable acidity, most of it being citric acid. In environments with high levels of malic acid, such as grape must in winemaking, malolactic fermentation bacteria convert malic acid to lactic acid, reducing the perception of acidity and increasing complexity of flavour. However, if high levels of citric acid are present, as in pear pomace, malolactic fermentation bacteria catabolise citric acid to acetic acid and oxaloacetic acid, instead of lactic acid. This results in a floral, citrus-like aroma in the final product, lacking the diacethyl odour typical for most products that have undergone a malolactic fermentation. ==History==