I Am Teaching A Food Preserving Class, Feb 9 & Feb 16 2010

Coming up:

• I am teaching a two-part food preserving and pickling class at Cambridge School of Culinary Arts in Cambridge, MA: February 9 & 16, 2010, 6:30PM-9:30PM.

Click here to register

Here's the course description:

Since the start of recorded history, humans have been preserving food. Refrigeration and freezing have become popular recently, but many interesting alternatives exist.

During class 1, we will explore some or all of the following topics: fermentation of vegetables and fruits (including sauerkraut, pickled root vegetables, kimchi, preserved lemons, etc.); cucumber pickles, relishes, and chutneys; brined meat (corned beef); preserved dairy (yogurt, ricotta cheese); kombucha; salting and drying (dried fruit, dried vegetables, dried meats, potato chips); etc.. Along the way, we will discuss food history; food safety; knife skills; and seasoning.

During class 2, one week later, we will prepare dishes, using some of the preserved foods from class one as ingredients. Menu items may include corned beef reuben sandwiches (with sauerkraut and/or kimchi); traditional Alsatian choucroute; a variety of canapés using chutneys and kimchi; lactofermented cole slaw; broiled chicken with preserved lemons and herbs; baked ricotta; kombucha-poached scallops; etc.

Click here to register

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If you would like to hire me to do a sauerkraut or fermentation event for you, please email or call me (four one five, five nine six, seven six one three). I can tailor-make an event to fit your group or occasion.

These are some of my past public events:

• November 19, 2009: Sauerkraut and fermentation workshop with Pueblo at Project Hope
  
  
• November 17, 2009: Sauerkraut workshop at Slow Food BU
  
  
• October 3, 2009: Sauerkraut demo on Rose Kennedy Greenway in Boston as part of an outdoor festival
  
  
• September 17 & 24, 2009: Two-part pickling and preserving class at Cambridge School of Culinary Arts (two three-hour classes, with a week in between them)
  
  
• August 30, 2009: Sauerkraut workshop as part of Cans Across America in Somerville
  

Reflections On My First Pickling and Preserving Class

Going into my first cooking class as an instructor, I was nervous. The curriculum and some of the recipes were untested. I didn't know exactly how many people would be in the class, where they would be coming from, or how much experience they would have. I also didn't know whether or not I would have any assistants, or even what I would do if I had them!

As it turned out, there were 13 enrolled students; 1 school intern; 1 photographer; and 5 (!) assistants. Everyone in the class was a pleasure to work with, and had great kitchen skills. And the assistants were able and tireless; they increased everyone's enjoyment of the class (mine not least of all!).

We started with a discussion of food preserving. I talked about why it is important for us to be able to preserve food. Then I discussed food safety, and the various factors we can control to prevent food spoilage. This led to a discussion of some of the different methods of food preservation, including freezing, refrigerating, lactofermentation, vinegaring, canning, and drying, with a separate discussion of preserving dairy. Lactofermentation is my favorite preserving method, because it is easy, healthy, safe, and tasty. For more discussion of lactofermentation, check my previous blog post here.

I shared a few thoughts about kitchen organization, including one of my favorite techniques, which is labeling and dating everything that goes into the fridge! My refrigerator houses many mason jars containing homemade things. If I didn't label and date them, I would lose control of my fridge pretty quickly. I date things I buy, too, so that I know when I opened them, and when it might be time to get rid of them.

After that, I did a brief knife technique demo, illustrating the benefits of having a large knife, especially when working with large vegetables like cabbage. I also demonstrated methods for cutting up green peppers, onions, and apples.

After the discussion and demonstration, we moved into the kitchen to work with food. Everyone made some sauerkraut (of course!), then various people made yogurt, kimchi, pickles, other lactofermented vegetables (including parsnips), lactofermented lemons and plums, kombucha, and corned beef; we also made (non-fermented) applesauce and canned it, using the method from the Ball Blue Book. At the end of class, everyone took home their sauerkraut and other lactoferments, to babysit them during the week.

In the second class, a week later, everyone brought back their various krauts, and we admired their diversity and rainbow colors. After a brief strategy session, we divided into teams, and made dishes using all of our preserved foods from the week before. These dishes included yogurt-cucumber salad; lactofermented coleslaw; mayonnaise and Russian dressing; different kinds of canapés and sandwiches involving raw and cooked corned beef, sauerkraut, kimchi, coleslaw, pickles, etc.; kombucha and salty-sweet preserved fruit and drinks; broiled chicken with preserved lemon; choucroute garnie, "the king of sauerkraut dishes"; and a delicious baked ricotta dish with pine nuts, honey, and dried fruit.

I will definitely be teaching the class again. Watch this space for dates and times. And if you have suggestions, requests, comments, or questions regarding the class, please add them in the "comments" section of this blog post, below.

I Am Teaching Pickling And Preserving

Briefly:

Two class series. First class, we pickle and preserve things in interesting and healthful ways. Second class, we use our delicious preserved stuff as ingredients in all kinds of dishes, plain and fancy.

Click here to sign up.

A 2-class series at the Cambridge School of Culinary Arts in Cambridge, MA.

Thu Sep 17 2009, 6:30PM-9:30PM
Thu Sep 24 2009, 6:30PM-9:30PM
$150

More details:

I will definitely talk about the history of food preserving, preserving as it relates to nutrition, food safety in the context of preserving (aka "how not to poison yourself"), herbs and spices and seasoning, etc. Also knife skills demos, because knife skills are crucial to all kinds of food work, and we will have lots of cabbage to practice on.

I'm thinking that in the first class, everyone will make sauerkraut, and everyone will make applesauce and can it (as an example of canning). Beyond that, we'll divide and conquer to dry some fruits and vegetables and perhaps meats; make some kimchi, preserved lemons, and other vegetable ferments and pickles of various styles; do some dairy ferments including yogurt, kefir, and perhaps some cheese; and make corned beef (using Meat Of Known Origin, of course).

Then in the second class, after all the ferments have fermented for a week, we'll assemble some serious dishes around our stuff!

If you have questions about the class, feel free to ask them in the "comments" section below, or contact me via email.

Please sign up as soon as you know you want to take the class—the school needs to have a headcount, and if they don't get enough registrants for the class, they might cancel it!

Sushi

What exactly is "sushi"?

Is it fish? Is it rice?

Technically, sushi is acidulated rice. When this rice is served with a topping, the assembled dish, confusingly, is also called sushi.

The original sushi topping was raw fish. Today, people use raw and cooked fish, vegetables, raw and cooked meat, egg, and nearly everything else you can think of. The toppings can be placed on or over the rice (nigirizushi or chirashizushi); the toppings and rice can be wrapped in seaweed or in edible paper in various ways (makizushi); or they can be pressed in a box or mold (oshizushi).

The rice is typically sticky short-grained white rice, although other kinds of rice are sometimes used, with varying degrees of success.

Sushi in its oldest form (narezushi) emerged as a by-product of a fish preservation strategy. Raw fish were cleaned and gutted and then packed in cooked rice, and the warm rice was allowed to ferment (or rot, depending on your point of view). The acidity of the fermenting rice preserved the fish. The rice was then either discarded or eaten, depending on how strong it had gotten.

When vinegar became popular, people discovered that they could quickly and conveniently use vinegar to preserve rice, and to mimic the flavor of fermenting rice. So "sushi rice" nowadays is seasoned with vinegar, salt, and sugar, to simulate the properties and flavor of rotting rice!

Served with fresh fish or other ingredients, this vinegared rice is sushi as we know it today, officially known as hayazushi (quick sushi) or Edomaezushi (Tokyo Bay sushi).

Sushi has been popular in Japan for some time. In the past few decades, it has also become very popular in the rest of the world, and has been adapted to suit local tastes and ingredients (tuna, avocado, raw beef, kimchi, Spam, etc.).


Sushi and Health

Sushi has many health-giving qualities. Fermented foods such as soy sauce, fermented rice, and pickled vegetables are excellent and easily-digested sources of vitamins, and they contain enzymes that help digest proteins and fats. Fish, shellfish, and nori (seaweed) contain minerals essential to the human body that may be difficult to get from other sources. Raw seafood contains enzymes and vitamins that are destroyed by the heat of cooking. Fish, egg, and avocado are excellent sources of healthy fats. Finally, fish and egg are great sources of protein.


References

Corson, Trevor. The Story of Sushi: An Unlikely Saga of Raw Fish and Rice. New York: HarperCollins, 2007.

Fallon, Sally. Nourishing Traditions: The Cookbook that Challenges Politically Correct Nutrition and the Diet Dictocrats. Washington, DC: NewTrendsPublishing, 1999.

Katz, Sandor Ellix. Wild Fermentation. White River Junction, VT: Chelsea Green, 2003.

Isenberg, Sasha. The Sushi Economy: Globalization and the Making of a Modern Delicacy. New York: Penguin, 2007.

Trenor, Casson. Sustainable Sushi: A Guide to Saving the Oceans One Bite at a Time. Berkeley: North Atlantic Books, 2008.

Tsuji, Shizuo and Yoshiki. Japanese Cooking: A Simple Art. Tokyo: Kodansha, 1980. Wikipedia: Sushi

Sandor Ellix Katz: Fermentation Workshop

Sandor Ellix Katz hosted a fermentation workshop on Friday, 8 May 2009, as part of the Boston University Future of Food conference. Here are my notes from that workshop, rearranged a bit, with some interpolation.

Sandor is the author of Wild Fermentation and The Revolution Will Not Be Microwaved, and is a self-declared “fermentation revivalist”. The Revolution Will Not Be Microwaved has influenced my own thinking about food and food systems more profoundly than anything else I’ve read or seen; each page is better and more fascinating than the last, and the book is a masterful blending of intimacy and rigor. Many of the concepts in the book landed so well and deeply in my brain that I can no longer remember how I looked at things before I read the book.

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In the workshop, Sandor described fermentation, for our purposes, as the transformative action of microorganisms. He points out that fermentation is very easy to achieve, and we are all familiar with it: it is the path of least resistance for a piece of cabbage left out on the counter, for instance.

So if your goal is to ferment a cabbage into a puddle of slime, you don’t need to do anything in particular. If, on the other hand, you seek something edible, you must employ some art. This art is the deliberate manipulation of environmental conditions to favor desired microorganisms—conscious fermentation, if you will.

He made a further distinction between cultured fermentation, which involves the intentional introduction of microbes for the purposes of fermentation; and wild fermentation, which relies on whatever microbes may already be present on your vegetables and in your air, and sometimes a pinch of serendipity. Adding some of your old yogurt to milk in order to make a new batch of yogurt, is an example of cultured fermentation. Chopping up cabbage, salting it, and leaving it to its own devices is an example of wild fermentation.

Historically, the need to preserve food has led people to ferment food, including vegetables (sauerkraut and friends), dairy products (yogurt-type things, cheese, sour cream, some kinds of butter), grain products (bread, porridges, and some alcoholic brews), and meats (sausages, hams).

Since the 19th century, canning, refrigeration, and freezing have emerged as alternative methods of food preservation. They are convenient in some respects, but nutritionally speaking, they are a step backwards from fermentation.

Refrigeration and freezing do not increase food nutritiousness, and can degrade it slightly; canning degrades it significantly. Canning uses heat to kill any bacteria present in the food, and while this gives canned food a potentially very long shelf life, it also reduces heat-sensitive vitamins like C and some of the Bs, along with enzymes. In some sense, canning is the opposite of fermentation, since canning involves eliminating bacteria entirely, while fermentation involves guiding and benefiting from the work of the bacteria.

Fermentation can enhance the nutritional value of food, often in ways that we are only now beginning to understand. Among the potentially healthful compounds created via fermentation are B-vitamins; isothiocyanates (possible carcinogenesis inhibitors); dipicolinic acid (which may help in the elimination of heavy metals from the body); and nattokinase (which may counteract cardiovascular disease and Alzheimer’s). The fermentation bacteria themselves aid digestion and the immune system.

Beyond that, fermentation can be used to make water drinkable, by shifting its bacterial balance and introducing small amounts of alcohol. Similarly, fermentation allows us to eat foods that would otherwise be problematic; for instance, eating a big pot of soybeans leads to serious indigestion, but soy is easy to digest in its fermented forms like miso, soy sauce, natto, tempeh, and fermented tofu. Furthermore, fermentation can break proteins into their constituent amino acids, increasing their usefulness to our bodies. Fermentation can transmogrify lactose, which many people cannot digest. And fermentation can make minerals more bioavailable.

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Sandor talked about raw (unpasteurized) milk. An interesting note is that pasteurization was originally developed for the commercial wine-making industry. The old way of making wine was to juice the grapes and hope for the best; the new way was to juice the grapes, sterilize the juice, and then add specific yeasts, in order to have control over the direction of its fermentation.

Sandor characterized milk pasteurization as “an excellent salvage protocol for milk from animals raised under substandard conditions”—animals feeding on inappropriate diets, standing knee-deep in their own excrement, and/or forced to overproduce milk by means of artificial hormones. That describes most of the cows in the US.

Wendell Berry, noted poet-farmer, spoke of the correlations between the modernization of agriculture and the deterioration of society.

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Sandor observed that along with the War on Terror and the War on Drugs, we are waging another war that is seldom explicitly named—the War on Bacteria. The battlefields range from our (antibacterial) handsoap to our (antibacterial) socks to our cows (injected with antibiotics) to our (pasteurized) milk. It is a war that we can’t possibly win; and if we did win it, we would be in trouble. In the meantime, we are being hoisted by our own petard. We are selectively breeding harmful new bacteria, harming our own bodies, and destroying our planet.

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There are a surprising number of fermented foods we sometimes forget are fermented. Sandor invited us to imagine a stroll through Zabar’s, the famous gourmet deli in New York City. Olives, (most) cheeses, sausages, corned beef, pastrami, ham, pickles, sauerkraut, and so on are fermented. We don’t usually think of bread as being a fermented food, but without the activity of yeast, bread would not be bread. Coffee, (most) tea, chocolate, and vanilla depend on fermentation. Most of the condiments we know and love, from ketchup to vinegar to Worcestershire sauce to fish sauce, also rely on fermentation in one way or another.

Fermentation has in fact always accompanied culture and agriculture. Some of the earliest human writings have mentioned fermentation—hence it is likely that fermentation dates back to prehistory. And more recently, fermented foods have played key roles in specific cultures.

Fish sauce has been used in Asia for millennia, and was used in ancient Rome, where it was so important that it was used as a form of currency (garum).

The original kefir grains, legend has it, were brought from Allah to humankind by Mohamed.

Other culture-specific ferments can provide a test to distinguish insiders from outsiders—or, at the very least, are acquired tastes. Natto, for instance, is a trademark Japanese soy ferment that is stringy, slimy, smelly, and notoriously unappealing to most non-Japanese. Iceland has hákarl, a fermented shark preparation that I will charitably describe as “pungent”. More than one group of people has a beverage made by chewing a plant, spitting the chewed plant and saliva into a large vessel, and leaving it all to ferment.

In his volume The Raw and the Cooked, the French anthropologist Claude Lévi-Strauss distinguishes among raw food, rotten food, and “cooked” food (including fermented food), and characterizes cooked food as the triumph of the human over the rotten.

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Enough theory. Time to ferment!

After noting that English does not have its own word for “fermented vegetables” and settling on the borrowed German word sauerkraut, Sandor demonstrated his method:

1. Chop up your vegetables. Use cabbage, carrots, onion, whatever. You can use anything you would consider eating raw (so no potatoes). You can use herbs and spices if you like.
   
   
2. Add salt. In his book, he suggests 3 tablespoons of salt for 5 pounds of cabbage. He emphasizes that this is not a prescription, just a possibility. According to Sandor, commercial sauerkraut operations use between 1.5% and 2.5% salt, by weight. The salts in my cabinet right now range from 10g/T (for kosher salt) to 18g/T (for coarse sea salt). Doing the math, 30-54 grams of salt for 2300 grams of cabbage puts us in the 1.5%-2.5% range.
   
   The salt pulls the water out of the vegetables, via osmosis; narrows the variety of bacteria that can grow, favoring lactic acid bacteria; slows down the action of all the bacteria, including the lactic acid bacteria; and makes the vegetables crunchier by hardening the pectins they contain.
   
   
3. Mix it all, and squeeze it with your hands. The squeezing accomplishes two things: it helps the salt pull the water out of the cells in the vegetables, and it softens up the vegetable fibers a bit.
   
   
4. Pack it tightly into pint-jars. Use your hand or some other instrument to push it down so that the liquid rises above the top of the vegetables, to forestall surface mold (by “drowning” it).
   
   
5. Leave the jars out at room temperature for as long or as short a time as you like. Every day or so, open the jars and push down on your kraut so that the liquid rises (again, to prevent mold).

If mold grows on it, skim it off.

Taste your sauerkraut regularly, and eat it whenever you think it’s ready!

Sauerkraut is a good choice for a first fermentation project—it is easy, it is satisfying, it is delicious, it has a high success rate, and it doesn’t require any special equipment.

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Sandor was signing copies of Wild Fermentation at the workshop. If you are interested in fermenting food, I definitely recommend this book—even if you can’t get it signed!

You can also visit his website at http://www.wildfermentation.com/.

As a final note, Sandor encouraged us to consider that fermentation is a great activity for farmers and food artisans, allowing them to take inexpensive, perishable raw materials (cabbage, milk) and transform them into more expensive, more durable products, while at the same time building the local economy and increasing local food security and self-reliance.