The rule is, jam tomorrow and jam yesterday – but never jam today. Lewis Carroll
Jam-making conjures up images of domestic idylls, an escape to the mountains to live on your wits, and jam. The seemingly simple mixture of fruit and sugar held together by a web of pectin strands can be both beautiful and maddening. A jam worthy of a Women's Institute rosette, however, might have a nature so tender that it quivers when cut with a spoon to reveal sparkling, ruby-like faces.
This sweet treat was named late, in the early 1700s, but "jam" captures the difference between it and the (in my opinion) inferior jelly. Jellies are made from hom*ogeneous fruit juice with none of the wonderful texture-giving "crushed" fruit.
Jam as we know it only seems to have emerged in the 19th century. It took a cheap and reliable source of sugar from the West Indies to make jams affordable. Before this, sugar was considered a spice and the price in Europe was such that only the richest could afford it. Preserves made from sugar were too precious to spread thickly on toast. Instead they were eaten as "spoon sweets" with feasts being capped off with the distribution of delicate silver spoons laden with fruit preserves. You may still be offered such treats with a glass of cooling water in the Middle East and eastern Europe.
The first European sugar preserves made use of that seemingly magical substance, honey. The earliest fruit preserves would be made by mixing fruit pulp with honey and allowing it to dry in the sun, creating a texture more like that of a jellied sweet.
The high-pectin quince lent itself to making this well-set fruit preserve. In Greece, a common spiced preserve of quinces was known as melomeli (apple honey) and was thought to be an aphrodisiac and to aid digestion. In Britain, it was adapted to incorporate other fruits, such as pears, damsons, plums, and finally Seville oranges, becoming marmalade. Eventually, when sugar prices fell late in the 17th century, marmalade became a soft jelly that, smeared on toast, became a staple of the Scottish breakfast.
Jam only reached the masses in the 1880s when it was used to enliven the dark wholemeal bread eaten by the working classes. Many of these factory-produced jams contained more sugar and colour than fruit. The quality of commercial jams have improved greatly since then but they are still the sickly sweet sisters of a good homemade jam. And besides, buying jam gives no way near the satisfaction of making it yourself.
The recipe
Jam recipes mostly comprise equal weights of fruit and sugar. You can play with this 1:1 ratio as much as you want, but too much fruit and you may lose the preserving effects of the sugar; too much sugar and it may crystallise during storage.
The choice of fruit for jam-making is almost endless. I always try to use seasonal fruit to get the best flavour for my jam. Slightly unripe or "just ripe" fruit will form a jam more easily than very ripe fruit as it contains more pectin and is more acidic.
1kg fruit
1kg granulated sugar
Lemon juice and/or pectin (depending on the fruit you use)
Start by removing any leaves and twigs, wash the fruit if you feel it necessary, and remove any stones. Add the fruit to a pan big enough to ensure the fruit does not reach more than halfway up the side.
Heating
Place your pan on a low heat. As the fruit heats through, a glorious fresh, warm smell will fill the air. Prolong this by heating slowly until a very gentle boil is reached. Cook until tender – any longer and the fruit will lose its shape. No sugar is added at this stage because a high sugar concentration can cause water to be removed through osmosis and result in hard, unappetising fruit. You might need to add a little water though if your fruit is very dry.
Boiling is key to jam-making because it releases a long fibrous compound known as pectin. Even though pectin only makes up 0.5-1% of the jam, you will have to learn to play it like a snake charmer or you will add your tears to your mixture.
The first handling of a jam the morning after making is full of trepidation. The jam maker's nightmare is to find a wet, sloppy strawberry sauce, not the semi-rigid, elastic substance that chemists describe as a "gel": a liquid dispersed in a solid. Pectin forms the solid that holds the liquid together. Some fruits, including apples, blackberries and grapes, can do this alone as they contain sufficient pectin. Some fruits are low in pectin, however, and so need a little more help, for example apricots, rhubarb and strawberries.
You can add commercial pectin, which is extracted from the white inner skin (the pith or "albedo") of citrus fruits or from apples. You can also buy special jam sugars with added pectin. But jam makers of yore discovered through trial and error that if they mixed low-pectin fruits with high-pectin fruit (often apple) they could create the perfect consistency. Personally, I like to mix high and low pectin fruits to keep it "in the garden", for example I might add a cooking apple to my blackberry jam.
Pectin was first isolated by French chemist Henri Braconnot in 1825 and was named from the Greek pektikos, which means congealed or curdled. It is a polysaccharide so, like cellulose and starch, it is made up of long chains of sugar molecules. In fruit, pectin is concentrated in the skins and cores where it acts as structural "cement" in the plant cell walls. In jam, pectin forms a mesh that traps the sugary liquid and cradles suspended pieces of fruit.
Branches that stick out from the long chains of pectin bond with each other to form the three dimensional network that jam makers crave. In a solution, these branches are reluctant to bond, first because they attract water molecules, which stops them bonding, and second because they have a slight negative electrical charge, which means they repel one another.
To solve the first problem we add sugar, which binds to the water molecules and frees up the pectin chains to form their network. The negative charges are reduced by acid naturally found in the fruit or added to the mixture. The acid reduces the electrical charge on the pectin branches and so allows them to bond. To increase acidity lemon juice can be added. But be careful: if your mixture is too acidic, this will damage the pectin.
As a rough guide, the juice of a whole lemon (30-40ml) will be needed for very low acid fruit, whereas half a lemon will be enough for medium acid fruit, and you won't need any for the high acid fruits. In general, fruit with high pectin will also have high acidity and vice versa.
Adding the sugar
Add the sugar and stand back as it starts to foam up the sides of the pan. A sentimentality-inducing childhood smell of sweet fruit fills the air. Allow the sugar to dissolve over a low heat then bring rapidly to the boil. Avoid stirring at this point as you may break up the fruit or cause crystallisation. A foamy scum may form on the surface of the jam; this is normal and can be removed by adding a little butter (about 20g) to break the surface tension or by skimming it off with a spoon while your mixture is cooling.
This is the exciting bit: the smell of jam fills the air and you're desperate to get it into jars and on to some toast, but patience is required. However, you will normally have to wait around 5–20 minutes for the pectin network to form. The time varies depending on the type of fruit, the type of pan etc. A wide-mouthed pan is ideal as it allows water to escape, helping to bring our precious pectin molecules closer together.
Time to pour
There are many ways of telling when your pectin network has formed and you are ready to pour the jam out. It normally forms at around 104-105C, when the sugar content is high enough to allow the pectin branches to join. Unfortunately, temperature is not a reliable signal because it varies according to acidity, amount of pectin, etc. My preferred method is direct measurement. Pour a little blob of jam on to a cooled saucer, let the jam cool in the fridge and then push against the side of it with your finger. If the surface wrinkles it means the pectin network has solidified, setting point has been reached, and you should take the mixture off the heat. If you don't boil it long enough the pectin network will not form properly. Boil it too long you risk not only losing the fresh flavour and colour of the jam but having a jam with the texture of set honey.
Cooling and decanting into jars
This is my favourite part, but I allow the jam to cool and thicken for about 10 minutes before pouring it into jars, to prevent the fruit from floating to the top. Try not to leave the jam too long, however, as lukewarm jam is a great breeding ground for mildew spores which are present in the air.
To keep you busy while you are waiting, get your pre-sterilised jars ready. You will need five or six of them. My preferred method of sterilisation is to wash them in soap and hot water, rinse them with clean water to remove any detergent, and dry them in the oven at about 160C.
Jams can remind us of summers past, even summers several years gone. It is the sugar and acid that makes this possible. Jams usually contain about 60% sugar, which is enough to stop most microorganisms growing. The high acidity also makes it an unpleasant place to breed. However, some moulds can grow even in these harsh conditions and so it is important to take care when preparing and sterilising your jars.
The satisfying gurgle of jam being poured is music to the ears. Each jar should be topped up to just less than a centimetre below the surface.
Capping and storage
I remember being puzzled why my parents always put a waxed paper disc on the surface of their homemade jam. I now know that it prevents the condensation of water on the jam's surface. Condensed water would dissolve sugar, producing an area of low sugar concentration and allowing mould growth. I must confess that jam never sits in my cupboard long enough to worry about this.
Now that our jam-making is at an end, there is only one stage to go: eating. I always struggle not to get overexcited and try my jam straight away before it has developed its "quiver". I am torn; I feel I should wait until the autumn, when I can close my eyes and relive summer. But I'm realistic. I wait till the next day to spread the noble jam thickly on a delicious chunk of simple bread and butter.
As a seasoned enthusiast in the realm of jam-making, allow me to delve into the intricacies of this delightful culinary art. My expertise is not merely theoretical but stems from hands-on experience and a profound understanding of the historical evolution of jams.
The article you've shared takes us on a flavorful journey through the origins and development of jam-making, highlighting its transition from an aristocratic luxury to a common delight for the masses. The intricate details provided offer a comprehensive insight into the science and artistry behind crafting the perfect jam.
Here are some key concepts covered in the article:
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Evolution of Jam: The term "jam" itself came into use in the early 1700s, distinguishing it from the supposedly inferior jelly. The affordability of sugar from the West Indies in the 19th century played a crucial role in making jams accessible to a wider audience.
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Historical Preserves: Before the widespread use of sugar, preserves were made using honey. The article mentions the use of high-pectin quince in Greece and its adaptation in Britain, leading to the creation of marmalade, especially when sugar prices fell.
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Sugar's Role: The article emphasizes the significance of sugar in jam-making. The heating process is crucial, releasing pectin, a fibrous compound that forms the mesh holding the sugary liquid and suspended fruit pieces together.
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Pectin Chemistry: Pectin, isolated by French chemist Henri Braconnot in 1825, acts as a structural "cement" in plant cell walls. The article elucidates the chemistry behind pectin, its branches forming a three-dimensional network crucial for achieving the desired consistency in jam.
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Acidity and Lemon Juice: Acidity, naturally present in fruits or added to the mixture, aids in reducing the negative electrical charge on pectin branches, allowing them to bond. Lemon juice is suggested as an acidity source but with caution to avoid damaging the pectin.
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Jam-Making Process: The article provides a detailed recipe, emphasizing the importance of the fruit-to-sugar ratio, the choice of seasonal fruit, and the delicate balance between fruit and sugar. The boiling process is highlighted as the key to successful jam-making.
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Setting Point: Determining the setting point involves careful observation, with a suggested method of testing by cooling a small amount on a saucer and checking for wrinkles. The temperature alone may not be a reliable indicator due to variations in acidity and pectin content.
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Cooling and Decanting: Patience is required during the cooling process to allow the pectin network to form. Preparing sterilized jars in advance is essential for a smooth jam-making experience.
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Capping and Storage: The article touches upon the importance of preventing condensation on the jam's surface, highlighting the use of waxed paper discs to maintain an optimal sugar concentration and discourage mold growth.
In essence, the art of jam-making is a harmonious blend of history, chemistry, and culinary finesse. The article not only provides a recipe but unfolds the narrative of how jam, with its rich history and scientific nuances, has become a cherished culinary tradition.
