My brother John and I share a hobby of brewing lacto-fermented sodas–root beers and ginger ales–which we share among family and friends and occasionally sell at health food conventions. Often we are asked, “Where can I buy this?” Our answer is “Nowhere.” Unless you are lucky enough to run into us at the Weston A. Price Foundation yearly conference, chances are you will never see lacto-fermented soda for sale anywhere.
Our personal reasons for not “expanding our operation” are deeply relevant to the conflict between craft and commerce in food production. Usually I make soda in 5-gallon batches. The process is fairly time-consuming, but it fits in well with other chores and there is no obligation to brew a certain amount at a certain time. Since I enjoy brewing several times a week, I produce a surplus–far more than our own family can drink. To expand to a commercial level, though, would mean changes in the way I brew, because as it stands I can only net about $20 per hour of labor. To be commercially viable, I would need to exploit efficiencies of scale by buying better equipment: a bottle-washing machine, bottler, larger fermentation vessels, etc. Then it is no longer a kitchen hobby; it is a business that must consider shipping, legal licensing, labeling laws, sanitation regulations, accounting and so forth.
The Compromises of Commerce
So far so good. Some people are naturally inclined towards business. There are more and more small foodcrafting businesses these days, and I am happy to pay a premium for their products. But it is more than a matter of hobby versus business–there are certain compromises one must make to bring production past a certain critical volume. The critical volume for fermented foods is especially low, because the product is alive and working. Lacto-fermented soda keeps fermenting in the bottle, for instance, leading to foaming and spraying when you open it, or even dangerous exploding bottles if you leave them out long enough. There is a good reason that mass-marketed soft drinks are dead. In fact it is a necessity in the context of national brands, centralized production and mass distribution. To change the way food is produced and processed inescapably demands changes in the way it is distributed and sold.
The compromises one would have to make to sell fermented soda on an economically viable scale are constant refrigeration and scary warning labels, or pasteurization, or plastic bottles. None is acceptable to us, for ecological and health reasons.
Similar compromises apply to most of the fermented foods that have survived the last century of food industrialization. Pickles and relish are no longer fermented at all, but preserved in vinegar and sterilized with heat in the canning process. Wine is treated with sodium metabisulfite before fermentation to destroy wild bacteria and yeasts that make the results less predictable. Beer is usually pasteurized or microfiltered to kill or remove living yeast. Yogurt survives, but it just isn’t as good after the first day; the same is true of bread. Sauerkraut is usually pasteurized. To be sure there are niche brands, which are still living foods, available in health food stores, but then freezing or refrigeration is necessary. This is rather ironic, since a major motivation for fermenting foods in the first place was to preserve them, in the days before refrigeration.
To make our soda with pleasure and without compromise limits us to a production level of ten to twenty gallons a week. This is sufficient to supply perhaps five or ten households. From this realization, a new (or rather very old) economic model of food production suggests itself.
When Money Reigns Supreme
Anyone who has tried to incorporate all the principles of traditional foods into their diet will find that it is almost a full-time job. If you want to grind your own flour, bake your own bread, make your own yogurt, your own soaked-and-slow-dried nuts, your own relishes and chutneys, your own bone stock, your own sprouts, your own kombucha and ginger beer. . . this is more than the typical beleaguered house husband can handle. One wonders how they did it in the old days. The answer is, they didn’t! For one thing, before the age of the suburbs and the automobile, extended families lived together in the same house, and as often as not, next door to cousins and uncles. Four people cooking for 16 people is a lot easier than one person cooking for four. Moreover, communities were small and close-knit, and there was probably some degree of specialization and sharing among households.
I don’t want to make ginger beer for hundreds of people, most of them strangers, but I would be delighted to make it for a handful of other families whom I know well. Maybe one of them would make fresh-ground slow-rise sourdough bread for me (I never could get that to work). Maybe another would supply me with chutney and fish sauce. Maybe another makes soy sauce. Another brews beer; another wine from their own grapes. Maybe another neighbor has a 30-gallon cauldron for making beef stock; another, a 30-gallon pickling crock. For most traditional foods, the optimum level of production is more than for the nuclear family, but less than what is considered economically viable in today’s money economy.
Money can facilitate exchange among friends and neighbors, but in essence money is an anonymous form of energy–almost by its definition as a universal medium of exchange. Among friends and neighbors, the usual laws of market economics do not apply. You don’t seek to maximize profit. You don’t raise your prices to the maximum just because you can. You are not doing it for the money; you are doing it for your family and for the neighbors. In an economy of reciprocation and social exchange–that is, in an economy that is not primarily a money economy–“economic efficiency” takes on a different meaning.
The more anonymous the customer, the more money stands as the sole motivating force. In today’s multi-level, automated and standardized food production & distribution system, the consumer is almost totally anonymous to the farmer, the commodity buyer, the processing factory and even the grocer. There is no reason to care about the wholesomeness of the product, except to the extent necessary to conform to whatever regulations are enforced, and whatever the public might find out about. No reason? Oh pardon me, I forgot about altruism. Yes, of course, a company might make products better than they need to be out of an abstract altruism, but when the very real pressures of market competition come to bear, such altruism quickly degenerates into sloganeering and PR. Some version of “caring about the health of the consumer” surely appears in the mission statements of all the major food corporations, including the most egregious violators of the public trust. In other words, it is hard to genuinely care about someone you don’t even know. Compassion in the abstract is almost always a self-deception. Much more reliable is the goodwill and mutual sense of responsibility that exists among neighbors who are bound together into a community, their good intentions enforced by social pressure and the intimacy of long association.
In many areas of life, social mechanisms of enforcing responsible behavior have atrophied as communities have disintegrated. These have been replaced by legal mechanisms. The old mechanisms of social pressure, reputation, etc., have lost their power. No matter how much your neighbors dislike you, your money is still good at Wal-Mart. In today’s anonymous society, we are little dependent on our communities, which have become mere collections of buildings. More and more, we are connected to our neighbors by proximity only. The increasing legalism and litigiousness of America is a symptom of unraveling communities, weakening connections. On a most basic level, we no longer make food for each other. All phases of food production, from the farm to the kitchen, are increasingly the province of strangers who are paid to do it.
You cannot pay someone to care. You can pay someone to act as though they care; you can pay them to follow meticulous guidelines; but you can’t make them really care.
Wholesomeness of food is more than a matter of which methods and processes are used to bring it from soil to table. When caring is codified, the code loses much of its meaning, especially under the influence of powerful corporations. The letter persists while the spirit departs. Many of the best, most conscientious farmers I know eschew the organic certification, because they know that food produced according to the letter of the organic code need not be consonant with the spirit that gave birth to organic farming in the first place.
An alternative path exists: food should not be primarily a commodity. Food is a gift of God’s Good Earth, for which all religious traditions teach gratitude. To subject it to the economic regime of the lowest bidder is to desecrate the gift and insult the Giver. For most of human history, the sharing of food was a significant social act, cementing ties between friends and kin, showing welcome to strangers. Today it has become an anonymous act of commerce.
Other people in other times would no doubt have thought it exceedingly strange, if not downright obscene, for total strangers to grow, process, and even cook nearly all one’s food.
The Proper Role of Money
That is not to say that food should never be bought. Money has its rightful role, even among friends, as an aid to fairness and a means of support. What I am saying, rather, is that the sharing of food should be part of a personal relationship. Money may be involved, but the profit motive should be secondary. In my economic relationships with the local farmers I know, I am happy to pay them a fair price, in hopes that they will be prosperous. My sentiment is partly selfish, because I know that if they are prosperous, they will continue to provide me with good food. But also I simply don’t feel good about eating food that comes through the devaluing of another human being’s labor, especially when I know that human being personally. When a personal relationship exists between food supplier and food consumer, then bargaining becomes a process of each party coming to understand the other’s circumstances to find a mutually fair price, rather than a heartless and shameless exercise of getting the best possible price, which in economics is called “maximizing utility” and in commonsense language is called greed.
In working with my bacterial soda culture, I sometimes get the feeling that the bacteria themselves don’t want to be sold. Similarly, I feel that sauerkraut wants to live in a barrel in the basement. Before you dismiss this as a flight of fancy, consider the uncanny resistance of truly wholesome food to mass production and mass distribution. Most fresh foods, for example, have a limited shelf life, which can only be extended by killing the food through processing, or putting it in suspended animation by refrigeration or freezing. The former response diminishes its healthfulness; the latter has environmental costs. (Also I never have believed that freezing fully preserves the healthfulness of food. It tastes less vibrant, even if all the enzymes are supposedly intact.) Other preservation methods, namely dehydration and fermentation, might arguably work for mass production and distribution, but even here there are problems with storage and shelf life–the food companies’ use of preservatives and pasteurization is not entirely gratuitous. Besides, such foods cannot account for the bulk of one’s year-round diet.
Foods of the Future
When people ask whether they can buy our soda in the future, we usually say, “No, but we’ll teach you how to make it.” We envision a society where every household has a speciality, be it soda or sauerkraut, soap or stock, bread or soy sauce, that they make in quantities sufficient for five or ten households–precisely the quantity that maximizes efficiency without compromising quality. (It is not much more work to make ten gallons of soda than it is to make one, but to make fifty gallons is an enterprise of an entirely different order.)
We envision a society also where farmers are personally acquainted with the people who eat their produce, or perhaps, for certain products, linked through one degree of separation. This is workable, because almost as if by design, the ideal size for a sustainably operated mixed family farm is sufficient to meet the food needs of 20 or 30 families. Of course, farms might specialize to some degree, so each family might patronize three or four farms; even so, this calculates out to a manageable number of people per farm, few enough that the farmer can know each personally. Personally I believe that true sustainability requires even smaller farms, and more farmers. Maybe almost everyone not living in a city should be a part-time farmer, at least to the extent of tending a vegetable garden or keeping a few chickens.
In such a society, money alone would not guarantee good food. Moving into a new community, you would need to get to know people, build connections, find your niche. Moving to a new community would be a big deal, as indeed it was in yesterday’s small towns and neighborhoods, more demanding than simply finding where the supermarkets and superstores are located. There would be more sharing in life. We would be more dependent on our neighbors, less dependent on strangers living thousands of miles away, and less dependent on corporations governed by the profit motive. Food would recapture its ancient role of social bonding. This would, I believe, be a much happier society than our current one, with its alienation, loneliness and rootlessness.
Artisanal Home Soda Fermentation
So let’s get down to making lacto-fermented soda–the real thing. The first step is simply to realize that it is very easy. The minimum equipment is a glass fermentation vessel and the minimum ingredients are sugar, water and the culture. Mix them together and fermentation happens. To make it really delicious, though, some pointers are in order.
Step 1: Bring approximately 50 percent of your water to a boil and dissolve 1.5 cups of sugar in it for each gallon of soda you plan to make. If you are boiling roots in the water (see below), remove them before adding sugar. The sweet, somewhat viscous liquid you have now is called “syrup.”
Step 2: Pour the syrup and the remaining water into your fermentation vessel. I like to use the scalding hot syrup to sterilize my vessel, but be careful not to pour it in too fast or it could crack. The resulting diluted syrup is still too hot for the culture. You can either wait, or cool the syrup first by letting the pot sit in a sinkful of cold water before adding it to the vessel.
Step 3: Add any other flavorings, such as lemon juice (see below) to the diluted syrup.
Step 4: Making sure the syrup has cooled to body temperature, add about a cupful of culture for each gallon of water. You could add less culture, but the more you add, the greater the head start your beneficial bacteria have over any opportunistic invaders, such as alcohol-producing yeasts.
Step 5: Cover the vessel (it need not be completely airtight, but it can be) and let it ferment. Fermentation rate is highly variable. If you like a sweeter soda, four or five days might be sufficient. If you want to ferment out most of the sugar, allow at least 10 days. Some additives such as mint and honey tend to inhibit bacteria and drastically slow fermentation.
Step 6: Time to bottle! Brewing supply stores carry siphon tubes to siphon the soda directly from carboy to bottle, but if you are fermenting in a jar you can simply pour it into bottles or scoop it in with a glass measuring cup. You must have some way to seal the bottles, either with a bottle capper or stoppered bottles (both available at brewing supply stores). Do not bottle the thick layer of sediment at the bottom of the fermentation vessel.
Step 7: Carbonation. The soda continues to ferment in the bottles, giving off carbon dioxide gas. Since the bottles are sealed, the gas has nowhere to go. In stays in the bottle and makes the soda fizzy. Depending on how fast it is fermenting, 2-5 days is usually enough time to create the optimum level of carbonation. You can always open a bottle and check.
Step 8: Stopping fermentation. Now we have a problem, because if the soda continues to ferment the bottles will foam over or spray when opened. The bottles might even explode if left out long enough. So when carbonation is sufficient, it is time to stop fermentation by putting the bottles in the refrigerator. Not enough room? A cold basement will work too, slowing down fermentation but not quite stopping it. Usually soda will keep just fine in the basement for a month or more.
Step 9: Drink it! Lacto-fermented soda is an excellent thirst quencher and contains beneficial lactic acid, vitamins, enzymes and beneficial lactobacilli that can inhabit your gut, where they protect you against pathogenic bacteria and yeast.
Sidebars
Lacto-fermented sodas can be made commercially on a small scale. Illustrated here are two examples from Down Under. Phoenix Ginger Beer from New Zealand (left) is brewed from water, honey, ginger, lemon juice and yeast. Bundaberg Ginger Beer from Australia (right) is brewed from water, sugar, ginger and yeast but contains “food acid” and “preservatives.” The Phoenix Ginger Beer wins the taste test and proves that quality soft drinks can be made on a commercial scale.
HOMEMADE SODA BASICS
The Vessel: A one- or two-gallon glass jar is fine, but if you want to make larger quantities you’ll need a glass carboy, readily available at brewing supply stores for under $20. The five-gallon size works best. For a few cents you can also purchase a water lock, which bubbles merrily away as your soda ferments. All utensils should be clean, but antiseptic cleanliness is unnecessary. Usually we rinse the vessel a few times with water and sterilize it with the hot syrup for next batch.
Other Equipment: You will need bottles with good stoppers–a strong, tight cork, a beer bottle top, or a stopper held down with a wire. These are available at brewing stores and also at places like the Container Store. You will also need a funnel or siphon for transferring the soda from the vessel into bottles.
The Water: Do not use chlorinated tap water, as this will inhibit fermentation. Most filtered or bottled water works fine. If you must use straight tap water, boil it to evaporate off the chlorine.
The Sugar: We have gotten good results with sucanat, rice malt, maple sugar, jaggery, honey, and apple cider. The flavor from rapadura or molasses is too strong for most people. Honey is delicious but is best used as a flavoring rather than the main sugar source, because apparently honey inhibits bacterial growth. Even at half strength, honey soda can take months to finish. You can use fruit juice, but for some reason commercial canned fruit juice, even organic brands, produce noxious results. Fresh-pressed apple cider produces delicious soda, although it will probably be slightly alcoholic (1-2%) due to natural yeasts on the apples. Remember that most of the sugar will be converted into lactic acid in the fermentation process. Use about 1.5 cups of sugar per gallon of water.
The Culture: You can use a bottle of soda from the last batch as culture, or you can make your own from scratch. Dice fresh ginger root into tiny cubes and put a tablespoon of it into a mason jar 3/4 full of water, along with 2 teaspoons white sugar. Add another 2 teaspoons each sugar and ginger every day for a week, at which time it should become bubbly with a pleasant odor. If it gets moldy, dump it and start over. Even a small amount of culture will start a batch of soda going, but it’s best to use at least a cup per gallon so that these beneficial lactobacilli can dominate before less desirable microorganisms have a chance.
Flavorings: The water used to dissolve the sugar need not be just water! You can use any herbal decoction to make soda with the flavor or medicinal qualities you are seeking. For example, to make ginger beer, boil sliced ginger root in the water, about one thumb’s-length per gallon of soda, for twenty minutes. Peppermint, spearmint, or other mint can also be used to flavor soda. Put the mint in boiling water, turn off the heat immediately, cover and steep. Lemon juice is a good addition to almost any soda flavor and seems to help preserve the syrup before fermentation gets going. Use approximately two lemons per gallon of soda, depending on juiciness. One of the favorite beverages in colonial America was root beer. Any roots can go into root beer, but the essential ones for flavor are sassafras and sarsaparilla. Sassafras in particular lends a pungent aroma and beautiful reddish color to soda, and is readily available throughout the Eastern US. Common medicinal roots like burdock, chicory, dandelion, and so forth tend to impart a strong mediciney “herbal” flavor to the soda. It’s the sassafras or sarsaparilla that make people say “Yum!”
This article appeared in Wise Traditions in Food, Farming and the Healing Arts, the quarterly magazine of the Weston A. Price Foundation, Spring 2003.
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I’d love to know more about using Burdock root in soda making.
What an excellent article! I agree with all of your points, it was a great read, and I am excited to begin brewing my own soda. Thank you for sharing!
so your soda is alcoholic?
and I don’t understand lacto, when your culture cones from airborne yeast.
but nice to know the different flavours you can add. Thanks. 🙂
Lacto- refers to the lactic acid which is a by-product of the microbiotic activity and is the preservative in lacto-fermented products.
DO you use a ginger bug? I am seeing tons of tutorials that are using yeast which is a turn off for me. I like the idea of the ginger bug I read about on a blog..
If you read the paragraph ‘The Culture’ in the article, that will answer your question.
I successfully made the starter for the Nourishing Traditions ginger beer recipe. I added the bug to the remaining ingredients in a pot and put plastic wrap on top (it wasn’t a completely tight seal). About a week later a couple small blueish white mold spots grew on the top of the liquid.
Has the mold contaminated the batch or can I just remove it and continue with the process?
Thanks for that — nicely done.
I’ve just started into the wonderful and healthy world of lactic fermentation by doing some sauerkraut. It’s been fermenting about 1 week (in a tropic climate using an evaporation cooling method to keep it from getting too warm) and although I know it’s not finished yet, it has a wonderful tangy taste, so I’ve decided to put it in the fridge to eat and make another batch tomorrow that I will let go longer to build up good level of vitamins and probiotics.
I’ll also start a culture for making beverages, using the ginger and sugar method. I keep seeing that approach mentioned, so the masses must be right.
Hi awesome article and love the fact that you stay true to the “home brewed” instead of going commercial.
Quick question at fermentation stage are you using an airlock? I only ask because I have used an airlock and didn’t get the carbonation at bottling. I believe liquid sugar (non fermenting) is added in some recipes at bottling to give that fizz. I like mine with a little fizz but have never done a batch bigger than 5l. Burped my fermenting bottle daily to avoid explosion, so I am guessing I would do the same with a bucket that can hold say 20l of soda.
Thanks for a great article
A LITTLE MORE REFINED AND DETAILED INSTRUCTIONS FOR THE NEWBIE’S… I HAVE SEVERE STOMACH INFLAMATION… HAD E-COLI / FOOD BORNE – botulism
I am very interested in making ginger beer. In fact, I’ve made it before and am getting back into lacto-fermentation lately based on all of my research and readings.
My biggest concern is botulism of course. I started making a ginger bug (“the culture”) and used my high-end pH meter to test the solution and it was at 5.4. To me, this means that there is a chance that botulism could grow in the bug, divide and release it’s neurotoxin before the bug is added to the soda solution which has a lower pH and would kill the spores…but not the already released neurotoxin. Certainly, this would be super improbable, given how remarkably rare botulism is…however botulism is found in the soil and ginger IS a root. Soooo….
Is their a factor that I’m not taking into consideration that would prevent the risk of botulism in the making of ginger beer? I’m hoping the answer is YES because I’m excited to make some and I’m fairly certain none of your readers want to have a botulism scare.
The conditions for botulism to grow are not present in home cultures. the acid is formed from the lactic acid starter and will use all the sugar, creating conditions where botulism cannot go. it’s also not canned, so it can get some air in, this will also prevent it.
also, there’s some misunderstanding of cultures it seems resulting from this extremely basic article. a ginger bug is natural yeasts and using it to make a fermented product most certainly can result in alcohol depending on the rate of speed the yeast works, how much sugar is in it etc. a lacto-culture is one derived from lactic acid producing bacteria and you can get that from milk cultures or buy it from veggies cultures, usually from the internet.
use of a culture does require cooking the product in some cases to kill natural bacteria and yeasts so it does not interfere with the desired product. this is way different than sauerkraut for example which does not require cooking or a starter culture. the bacteria is present already. same for cucumbers etc.
My mum always made this in the 60s but she used dried powdered ginger and only fed it with sugar each day. She did not add more ginger. Do you know if this would have had the same beneficial effects?
She called the culture a “ginger beer plant” and she saved some for the next batch and just kept growing it indefinitely in the fridge.
How does this relate to a “friendship cake”? Is that the same principle?
EXCELLENT article. Covers a lot of what I’ve long felt. Thanks so much.
Does regular organic apple cider have fermentation benefits? Thanks!