Bacon and the art of living 8: Magic salt in meat

1 December 1891

Dear Children,

Jeppe is working through his many books on salt.  Books, articles and papers that he collected from around the world on his many travels.  Some were brought to him by travelers from other countries.   He seems to know someone involved in the study of chemistry, microbiology or meat science at every major university in the world.

He knows a lot about salt.  He has visited many of the great salt mines, from Poland to America and it seems as if, everything in between.  He has been to salt works in German West Africa to our north.  He knows Martin’s dad well and even though he has never met Livingston personally, he has been to some of the salt pans that Livingston talks about.  On the one hand the world is big and on the other hand it is remarkably small.

Salt had two key functions in antiquity. One was taste. Exquisite salts were created by artisan salt makers whose trade has been handed down over thousands of years.  Each region produce salts as unique to that region as the different wines from Spain or Italy.  This is to me the supreme function of salt since it is what we love!

Witsand by Misty Cliffs on the Cape peninsular where our story is unfolding. Taken around 1949 by Granny Frick.

The second function of salt is to preserve. It is said to be prophylactic. It guards against infection and spoilage.

Salt is a crystal that contains many elements, but as a matter of practicality and due to the widespread application of sodium chloride in industry, ended up being produced around the world with only these two elements. Both atoms consist of a nucleus with a positive electric charge – an island floating in a sea of electrons which are negatively charged particles. If one brings together one atom of both of these elements, the chlorine atom steals an electron from the sodium atom: the first becomes a negatively charged chlorine atom and the second is transferred into a positively charged sodium atom.

Solid sodium chloride is a crystal of extremely regular structure. The pattern of sodium +/ chlorine – repeats indefinitely in three dimensional space. Just as a side note, this is also the explanation for the name since a negative chlorine is called a chloride. (Laszlo, P, 2001: 110)

In the evenings we are still reading the work of Edward Smith. He listed the following mechanisms to deal with spoilage organisms namely drying, cold, immersion into gases and liquids, coating with fat and gelatine, heat, pressure and of course, salt. (Smith, E, 1876: 22 – 38)

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Lauren, my daughter, investigating salt crystals that form on rocks at the Cape of Good Hope where in the summer temperatures rise to above 35 deg C. During low tide water evaporates, leaving pockets of salt dotted across the rock sheets.

Salt has a major preserving influence on meat. There must be some interaction between the salt and the microorganisms and it can’t always be negative for the bacteria. If this was the case, how would the bacteria responsible for changing the nitrate into nitrite from Dr Ed Polenski’s experiments survive and how would the microorganisms in the ocean deal with different levels of salinity.

Salinity refers to water that contains various concentration levels of salt. The magic of salt happens when it comes into contact with water. When one adds a spoon full of salt to a glass of water, the salt “melts” into the water. When we evaporate the water, the salt forms a crystal.

The sodium chloride (NaCl) comes into contact with a water molecule and the water molecule bestows on the positively charges sodium ion and the negatively charges chloride ion water-sodium and water-chlorine forces of attraction that is at least as strong as the sodium-chlorine force of attraction. This is indeed the case and so, the sodium and chloride ions are pulled apart in water. It “melts away.” (Laszlo, P, 2001: 121)

The sodium and chlorine ions are now separated in the water and have vastly different functions in meat.

The first way that salt preserves is however a general one which is the result of the presence of salt on the outside of the cut of pork. It dispenses its first curing action by removing water from inside the pork muscle. Microorganisms want to live in a wet environment. The drier it is, the less active they will be. (Dworkin, M et al, 2006: 146)

It is important how much water is available. Most bacteria need water activity at the same level as sea water at 25 deg C to flourish. (1) (Dworkin, M et al, 2006: 147)

Drying the environment is not a guarantee to get rid of bacteria. Some bacteria can survive even super saturated saline solutions.  The ones who can survive are the bacteria that can form endospores and have other resting stages. (Dworkin, M, et al, 2006: 147)

This is important. Not just from the perspective of what happens inside meat, but what happens in the environment where the meat is being processed. Endospores are present in soil and any transfer of soil into a processing area can bring about the transfer of bacteria into the meat processing area.  In our time this is a major problem related to home curing of bacon.

An endospore is “a dormant, tough, and non-reproductive structure produced by certain bacteria. The name “endospore” is suggestive of a spore or seed-like form (endo means within), but it is not a true spore (i.e., not an offspring).

“It is a stripped-down, dormant form to which the bacterium can reduce itself. Endospore formation is usually triggered by a lack of nutrients. In endospore formation, the bacterium divides within its cell wall. One side then engulfs the other. Endospores enable bacteria to lie dormant for extended periods, even centuries. Revival of spores millions of years old has been claimed. When the environment becomes more favourable, the endospore can reactivate itself to the vegetative state. Most types of bacteria cannot change to the endospore form. Examples of bacteria that can form endospores include Bacillus and Clostridium.

Endospores can survive without nutrients. They are resistant to ultraviolet radiation, desiccation, high temperature, extreme freezing and chemical disinfectants. Thermo-resistant endospores were first hypothesized by Ferdinand Cohn after studying Bacillus subtilis growth on cheese after boiling the cheese. His notion of spores being the reproductive mechanism for the growth was a large blow to the previous suggestions of spontaneous generation. Astrophysicist Steinn Sigurdsson said “There are viable bacterial spores that have been found that are 40 million years old on Earth – and we know they’re very hardened to radiation.” Common anti-bacterial agents that work by destroying vegetative cell walls do not affect endospores. Endospores are commonly found in soil and water, where they may survive for long periods of time.”” (Wikipedia. Endospore)

Clostridium is an example of bacteria that can form endospores. It consists of around 100 species that include common free-living bacteria as well as important pathogens. One of these species is clostridium botulinum (Wikipedia. Clostridium)

Clostridium botulinum is an important pathogen.  It forms endospores that can survive almost anything. Remember that salt has little effect on removing this pathogen from an environment.  It also survives without water.

“Botulinum toxin is a protein and neurotoxin produced by the bacterium Clostridium botulinum. It is the most acutely lethal toxin known, with an estimated human median lethal dose (LD-50) of 1.3–2.1 ng/kg intravenously or intramuscularly and 10–13 ng/kg when inhaled. Botulinum toxin (BTX) can cause botulism, a serious and life-threatening illness in humans and animals”. (Wikipedia. Botulinum toxin)

Between 1817 and 1822, Justinus Kerner was the medical officer in southern Germany, in Württemberg. He had seen many people with symptoms of impaired breathing, difficulty in speaking, swallowing and seeing double. Kerner suspected that some type of biological poison related to eating sausages caused the symptoms. He investigated what the people ate and found that all of them ate sausages that were not properly cooked.

Between 1817 and 1822 he published a complete description of what he called “sausage poisoning” or wurstfift. The disease came to be known as botulism. He injected himself with the poison and caused many of the symptoms in himself. Luckily he survived, but he managed to show conclusively the causal relationship between the sausage material and the disease. (Emmeluth, D , 2010: 16, 17) (2)

Water stress, as it is called, is one of the key functions of salt in processing bacon. It becomes very complex, very fast when one relates this to wet cures. However, when we consider dry cute, it is obvious. Salt curing goes in the first place, hand in hand with partial drying techniques, aimed at preserving protein in a more lasting way. (Laszlo, P, 1998: 4)

Salt “extracts” moisture from the meat by the water migrating out of the muscle towards the salt in an attempt to “balance” the salt levels on the outside of the meat with the inside.  Salt at the same time “migrates” into the muscle.

Once inside the muscle, the salt now poses a threat to bacteria found inside the meat through the process of osmosis.   Osmosis is the passage of solvent through a semipermeable membrane in response to different concentrations of solute on the two sides of the membrane. The description comes from the notion that salt or sugar attracts water when it touches the meat.

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My son, Tristan, investigating the same salt deposits that his sister has been looking at.

In 1748 J. A. Nollet used an animal bladder to separate chambers containing water and wine. He noted that the volume in the wine chamber increased and when the chamber was closed, a pressure developed. He named the phenomenon osmosis from the Greek word meaning thrust or impulse. (Sperelakis, N, 1995: 188)

Most bacteria will not grow at 3% concentration levels of sodium chloride (NaCl). It is important to remember that there are a number of important exceptions to this rule. Some bacteria and archaea (a single cell organism) called halophiles (from the Greek word salt-loving) require NaCl to grow. Moderate halophiles, such as marine bacteria, may show optimum growth at 3% NaCl. They require at least 1.5%. Some bacteria has been found growing in 25% NaCl concentrations.

However, most bacteria stop growing at 3% NaCl. This, besides the lack of available water, is the only other way that salt performs its magic as a preservative for meat.

High salt concentration disrupts membrane and denature many proteins. (Srivastava, S, 2003: 117) Generally speaking salt has the same effect on microorganisms in the meat as it has on the entire piece of meat. Since the sodium chloride (NaCl) concentration outside the microorganism is higher than inside, water flows out of the organism in order to try and restore equilibrium. The effect will be a slowdown in growth and activity. (Wikipedia. Curing – food preservation)

There are other advantages of using salt which becomes clear when one uses wet curing brine as opposed to dry cure.

Wet curing has been used as a technique of curing pork for hundreds of years.  There is a notable description of this process that Jeppe showed me from a historical American document.

In May, 1804, an expedition departed from near St Louis on the Mississippi River, planning to make their way westward, through the continental divide to the Pacific coast. The expedition was known as the Lewis and Clark Expedition or the Corps of Discovery. It was the first American expedition to cross what is now the western portion of the United Sates.

The expedition was commissioned by the man who wrote the Declaration of Independence, President Thomas Jefferson shortly after the Louisiana Purchase from the French in 1803 for $15 million.  This transaction added a territory to the United States that stretched “from the Mississippi to the Rocky Mountains and from Canada in the North to the Gulf of Mexico in the South.” (Wulf, A., 2015: 121-122)  It consisted of a select group of U.S. Army volunteers under the command of Captain Meriwether Lewis and his close friend Second Lieutenant William Clark and was the first overland journey across the whole of the North American continent.

The journey lasted from May 1804 to September 1806. The primary objective was to explore and map the newly acquired territory, find a practical route across the Western half of the continent, and establish an American presence in this territory before Britain and other European powers tried to claim it.

The expedition “brought together all the subjects that interested Jefferson:  he had personally briefed the explorers to collect plants, seeds and animals; they were to report on the soils and the agricultural practices of the Native Americans; and they were to survey the land and rivers.” (Wulf, A., 2015: 121-122)

On 3 April 1804, Clark described how pork was being packed and cured in barrels. He wrote on 17 April that they “completed packing 50 kegs of pork and rolled and filled them with brine”. It is clear that they were not using a dry salt preparation but rather a water-diluted salt mixture and perhaps adding sugar or adding flavourings that would make it taste better than and not as harsh as straight salting.

A keg of pork
A keg of pork

They would have used good kegs as leaking kegs were often responsible for meat spoiling.

It went well and a month after Clark’s pork went into the barrels, Major Rumsey inspected it and condemned only approximately 10% of the meat.

A curing method for pork that was documented in 1776 shows that wet curing must have been practiced for many years before Clark’s description in 1804.

“After the meat has cooled, it is cut into 5 lb. pieces which are then rubbed well with fine salt. The pieces are then placed between boards a weight brought to bear upon the upper board so as to squeeze out the blood. Afterwards the pieces are shaken to remove the surplus salt, [and] packed rather tightly in a barrel, which when full is closed. A hole is then drilled into the upper end and brine allowed to fill the barrel at the top, the brine being made of 4 lb. of salt, 2 lb. of brown sugar, and 4 gallons of water with a touch of salt-petre. When no more brine can enter, the hole is closed. The method of preserving meat not only assures that it keeps longer but also gives it a rather good taste.”  (Holland, LZ, 2003: 9, 10)

The account of Clark is intriguing. If he left the pork for two weeks in the brine, he must have noticed that he took out heavier pieces of meat than he put in when the wet cure method was used.

Wet curing was in wide use by the mid 1800’s. John Yeats wrote in 1871 about salt and sugar curing of pork, “There are two methods of salting; in one the meat is packed in dry salt, in the other it is immersed in brine.”

Not just curing by wet-cure in barrels, wet cure was applied to meat through a variety of injection methods. Yeats writes in 1871 that a certain “Professor Morgan, in Dublin, has recently proposed a method of preservation by injecting into the animal as soon as killed a fluid preparation, consisting, to every hundredweight of meat, of one gallon of brine, half a pound of saltpetre, two pounds of sugar, half an ounce of monophosphoric acid, and a small quantity of spice.” (Yeats, J, 1871: 225)

The plan was widely tested at several factories in South America and by the Admiralty, who had reported that they had good results from the technique. (Yeats, J, 1871: 225, 226)

Edward Smith described another method of injection of brine that he witnessed in his book, Foods in 1873. He accounts the events of a certain “Mr Morgan [who] devised an ingenious process by which the preserving material, composed of water, saltpetre, and salt, with or without flavouring matter, was distributed throughout the animal, and the tissue permeated and charged. His method was exemplified by him at a meeting of the Society of Arts, on April 13, 1854, when I [Edward] presided.” (Smith, E, 1873: 35)

He then describes how an animal is killed in the usual way, the chest opened and a metal pipe connected to the arterial system. Brine was pumped through gravity feed throughout the animal. Approximately 6 gallons were flushed through the system. Pressure was created to ensure that it was flushed into the small capillaries.  Smith reported overall good results from the process with a few exceptions.

The brine mix that Mr Morgan suggested was 1 gallon of brine, ¼ to ½ lb. of sugar, ½ oz. of monophosphoric acid, a little spice and sauce to each cwt of meat. (Smith, E, 1873: 36)

An interesting note that we must return to later was the common use of monophosphoric acid, probably as an added preservative.

When muscle is left in brine, the brine seeps into the meat.  By the mid 1800’s, the use of wet cute has evolved to include some form of injection. A process that would have further added the likelihood of water to have been retained in the muscle tissue.

Johann Fey has been working on a device in the early 1890’s that create compressed air below meat in a curing solution in order to facilitate a more equal absorption of the brine in the meat. (3) (Patents. US474446)

Johann Fey's patent number US474446 A.
Johann Fey’s patent number US474446 A.

The issue of water holding capacity of curing brine’s slowly but surely stared to come to the fore from the mid 1800’s even though it has certainly been a consideration in the meat industry for many years despite the lack of documentary evidence.

This brings us to the next very important function of salt.  Salt increase the water holding capacity of meat.

Remember that we have said that salt exist in water as sodium (Na+) and chloride (Cl-) ions.  We will see how the different ions have different functions in curing, starting with the aid to the water holding capacity of the meat.

“It is the irons that are responsible for this preserving action. An ionic strength of 0.5 or more will cause myofibrils (4) to swell and disintegrate, depolymerizing myosin filaments (threads), and solubilize the myofibrillar protein.

A salt concentration of 2% or more in most meat formulations will achieve the necessary ionic strength. However, even at lower concentrations such as 0.5 – 1.0% as used for many moisture-enhanced fresh meats, the Cl – ion from salt will interact with meat proteins to increase the negative electrical charge on the proteins and increase the water-binding properties of the meat mixture.

This is an essential role of the chloride ions in meat systems because the interaction with meat protein that swell the protein structure is responsible for allowing the proteins to hold more of the weakly bound water within and between their structure. The increased retention of water by the protein structure in the presence of chloride ions has a major impact on cooking yields, juiciness, tenderness, and mouthfeel when the product is consumed.” (Tarte, R, et al, 2009: 6, 7)

“The chloride ion is much more important than the sodium iron for achieving increased water binding by meat proteins.” (Tarte, R, et al, 2009: 6, 7)

The next direct benefit of salt to the curing process is in the area of colour development. “This is because the chloride ion from salt (Cl-) has been reported to accelerate cured color formation in cured meat by increasing the rate of nitric oxide formation from nitrite.” (Tarte, R, et al, 2009: 7)

In my previous letter, I have discussed the importance of the taste of the salt. It is the sodium ion that is responsible for the salty taste in salt. The sodium ion not only gives sodium chloride its salty taste, but it is also responsible for a heightened intensity of all others flavours. Despite extensive research, no alternative to sodium has been found.

It is important to note that other minerals and metals present in natural salt deposits alter the taste of salt slightly so that salt becomes the most important curing agent in pork.  It is possible for the Woodys team to produce a bacon, as unique as the Marula fruit to the great African land.  In the bacon that we produce, we can capture the spirit of the Bushman and the winds that blow across the vast salt pans of Betuanaland.

Salt crystals that form on rocks at the Cape of Good Hope where in the summer temperatures rise to above 35 deg C. During low tide water evaporates, leaving pockets of salt dotted across the rock sheets.
Salt crystals that form on rocks at the Cape of Good Hope where in the summer temperatures rise to above 35 deg C. During low tide water evaporates, leaving pockets of salt dotted across the rock sheets.

I intend discussing these matters with David Graaff when he visits Denmark in a few weeks time.  More importantly, I will be discussing this matter with Oscar and the Woody’s team.  Selecting the right salt will be one of the most important choices we can make in designing our bacon.

Its almost Christmas.  I miss the mountains and the winds of the Cape.  I miss you all dearly!  Send my regards to all!

Your Dad.

 Bacon and the art of living Home Page

Notes:
(1) “It is now generally accepted that the water requirements of micro-organisms should be described in terms of the water activity (Aw) in the environment. The parameter is defined by the ratio of the water vapour pressure of food substrate to the vapour pressure to pure water at the same temperature: Aw = P/Po

Where P is the vapor pressure of the solution and Po is the vapor pressure of the solvent (usually water).

The concept is related to relative humidity in the following way: RH = 100 x Aw

Pure water has a Aw of 1.00;
A 22% NaCl solution (w/v) has an aw of 0.86;
A saturated NaCl has an Aw of  0.75
(Jay, JM, et al. 2005: 45)

Microbial growth in the range of water activity between 0.998 and 0.6 (Dworkin, M et al, 2006: 146)

What is the effect of other ingredients on Aw? So many great discoveries still ahead!

(2) In 1895, Emile van Emergem, professor of bacteriology at the university of Ghent, in Belgium, identified the microorganism causing sausage poisoning as Clostridium botulinum.

In 1897 there was a botulinum outbreak after a funeral dinner where smoked ham was served as the main course. Emile was called to find the cause.

For the bacon industry, this is an organism that should be tested for on a monthly basis by micro swabbing. Salted, smoked and vacuum packed products can contain the organism if it has been improperly prepared. Forms of the organism exist that can resist heat treatment. (Emmeluth, D , 2010: 19)

(3) John patented his device in 1892.

(4) “A myofibril (also known as a muscle fibril) is a basic rod-like unit of a muscle.[1] Muscles are composed of tubular cells calledmyocytes, also known as muscle fibers, and these cells in turn contain many chains of myofibrils. They are created during embryo development in a process known as myogenesis.

Myofibrils are composed of long proteins such as actin, myosin, and titin, and other proteins that hold them together. These proteins are organized into thin filaments and thick filaments, which repeat along the length of the myofibril in sections calledsarcomeres. Muscles contract by sliding the thin (actin) and thick (myosin) filaments along each other.

Actinomyosin motors are important in muscle contraction (relying in this case on “classical myosins”) as well as other processes like retraction of membrane blebs, filiopod retraction, and uropodium advancement (relying in this case on “nonclassical myosins”).”

Blausen_0801_SkeletalMuscle

(Wikipedia. Myofibril)

References

Bittreman, M. 2010. Salted. Ten Speed Press.

Bud, R and Warner, DJ. 1998. Instruments of science. The science museum, London and the National Museum of American History.

Dworkin, M et al. 2006. The Prokaryotes: Vol. 1: Symbiotic Associations, Biotechnology, Applied Microbiology. Springer Science and Media, Inc.

Emmeluth, D . 2010. Botulism. Infobase Publishing.

Holland, LZ. 2003. Feasting and Fasting with Lewis & Clark: A Food and Social History of the early 1800’s. Old Yellowstone Publishing, Inc.

* Jay, JM, et al. 2005. Modern Food Microbiology. Springer Science + Business Media, Inc.

Laszlo, P. 1998. Salt, Grain of Life. Columbia University Press.

Smith, Edwards. 1873. Foods. Henry S King and Co.

Stringer, R and Johnston, P. 2001. Chlorine and the environment, An Overview of the Chlorine Industry. Kluwer Academic Publishers.

*Sperelakis, N. 1995. Cell Physiology: Source Book. Academic Press

*Srivastava, S. 2003. Understanding Bacteria. Kluwer Academic Publishers.

Tarte, R, et al. 2009. Ingredients in Meat products. Springer Science + Business Media, LLC.

Wulf, A.  2015.  The Invention of Nature: The Adventures of Alexander von Humboldt, the Lost Hero of Science.  John Murray.

Yeats, J. 1871. The technical history of commerce; or, Skilled labour applied to production. Cassell, Petter, and Galpin

http://www.google.com/patents/US474446

http://www.britannica.com/EBchecked/topic/174678/Henri-Dutrochet

http://en.wikipedia.org/wiki/Curing_(food_preservation)

http://en.wikipedia.org/wiki/Lewis_and_Clark_Expedition

http://en.wikipedia.org/wiki/Myofibril

http://en.wikipedia.org/wiki/Endospore

http://en.wikipedia.org/wiki/Clostridium

http://en.wikipedia.org/wiki/Botulinum_toxin

Pictures

Figure 1:  https://www.facebook.com/pages/Historic-Cape-Town-Pictures/172728429409395

Figure 2:  Lauren and salt by Eben  (2015)

Figure 3: Tristan and salt by Eben (2015)

Figure 4:  Holland, LZ, 2003:  9

Figure 5:  http://www.google.com/patents/US474446

Figure 6:  Salt at the cape of Good Hope by Eben (2015)

Figure 7:  http://en.wikipedia.org/wiki/Myofibril

Side note:

Two very interesting aspects of this post.

1.  The 1st picture was taken at the same place where the cover picture for this blog was taken.  The one in 2012 or 2013 and the other in 1949.  It was a complete coincidence that I included it.  I did not realize where it was taken.  I just liked the image when I found it and it related back to the Cape of Good Hope that in the story, I miss and where I currently live.

2.  Is Mr Morgan that Edward Smith talks about in 1854 the same person that Yeats describes in 1871 as Professor Morgan, from Dublin,  17 years later?  Probably.  I am not sure if the methods described are exactly the same. Chances are that Mr. Morgan became Dr and Professor Morgan and that he refined his techniques.

The method of injection through the arterial system is one that is still practiced at select butcheries in Germany in 2014.  There is even a butcher in Cape Town who still use this method.

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Bacon and the art of living: Prologue

 

 

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“Bacon, that magical delicacy!  Cured pork meat, mostly smoked, with a reddish, pinkish colour and a distinct taste.”  I have always loved it.

The Dutch East Indian Company (VOC) established a trading station at the Cape of Good Hope to supply water, fresh vegetables and meat to passing ships on their long voyage between the East and Europe (Heinrich 2010: 10).  Since this time bacon has been a prized commodity at the tip of the great African continent (Heinrich 2010: 32).

When the VOC’s Jan van Riebeek established the trading posit in 1652, pork meat was in short supply on account of the pigs that came with Van Riebeek found it hard to adapt.  They died within months of landing and piglets did not live longer than a few days. (Heinrich 2010: 31, 32)

Imported bacon has since those days been better than local, heavily salted pork.  As the local bacon from Van Riebeek’s day (Heinrich 2010: 32), the Combrinck bacon had to be soaked in water for 16 days before it could be eaten.

My dad was a local magistrate.  Together we would undertake a weekly trip to the Combrinck & Co butchery in Woodstock to buy bacon.  According to him Combrinck was taught how to make bacon by Othmar Scheitlin who started the butchery.  He knew and liked Scheitlin a great deal.

Scheitlin was born in Switzerland.  When he turned 18, he left home.  He traveled through France, Holland, England and Germany, got a job as a cabin-boy and worked his way to the Cape of Good Hope.  Here he set up the pork butchers shop in Woodstock where Jacobus Combrinck was a foreman and later took the business over when Sceitlin returned to Switzerland with his family (Linder 1997: 270; Simons 2000: 7).

My dad would make the hour long journey from our home to Papendorp, as Woodstock was known in those days, once a week to buy quality pork and this would always include bacon!  He would tell me that the only thing Scheitlin and Combrinck could not do well was curing bacon!

The good bacon was made in Holland, Germany, Poland, Denmark and England with sweet Wiltshire Cure and imported by Scheitlin.  I remember my dad buying it.  Every time he took his money out, he would tell Jacobus Combrinck or whoever manned the cash register in a “lecture like voice”, “Quality, quality, I don’t mind paying for quality, young man!”

I was 6 years old when Combrinck & Co moved to an area in Cape Town called the Shamble.  To shop number 4.  The move happened in the 1870’s.

The quality of the bacon did not improve and the stench of the Shamble where the cities animals were slaughtered, would make me intensely dislike the weekly trips with my dad.

They would slaughter the animals and bury the offal on the beach so that the tide would carry it away.  At night, one could hear what sounded like hundreds of homeless dogs fighting over scraps of food on the beach.  By day there was the unbearable stench and the flies.  Millions of flies. (Simons 2000: 13, 14).

My great grandfather on my fathers side fled to Holland from Denmark after the civil war between the Protestants and the Catholic’s.  In Holland he was trained as a miller and limiting opportunities in Holland motivated a petition to the VOC to be sent to the new colony as a baker.  On my mom’s side, my great grandfather came to the Cape as a soldier of fortune, trained in Waldeck, Germany, hired out to the VOC by the prince of Waldeck and sent to the Cape to protect it from the locals and enemy nations.

The family on my mom’s side were at this time living in the Orange Free State and the Zuid-Afrikaansche Republiek, the ZAR.

The scene was set for the adventure of a lifetime.

Oscar Klynveld was farming with milies, cattle and pigs.  His farm was in the old Boer republic of the ZAR, in the Potchefstroom district.

I knew him from visiting friends in the Fredefort district, close to Parys.  We became friends when I helped him one year to get his chickens to the different kooperasie stores in the district in time for Christmas when his ossewa fell into a ditch during a terrible storm.  We distributed his chickens and bread flower and became friends for life.

I have always been irritated by the thought that the bacon produced in the Cape was of such inferior quality.  Bacon was still being imported from the Britain and Europe to the Cape and sold to the locals and passing ships who were prepared to pay high prices for it.

War and roomers of war were again in the air by the late 1800’s.  I was 26.  The Anglo Boer War of 1881 made me realise that Britain wanted to control the trade route to India at all costs.  They also wanted to control the recently discovered Diamonds from Kimberly and the gold from the Transvaal.  They would never relinquish them!

Unlike most of my countrymen, I did not see any possibility for victory against the might of the British Empire.  Instead, the thought started to develop that we must think past the war and strengthen ourselves economically.  No matter who’s flag was flying in the Cape!  “God only help those who help themselves!” was another one of my dad’s many sayings.

This was the point that Oscar and myself have been discussing at his farm when I told him about the bacon and he told me about his pigs.  How one sow produced many piglets compared to cows and sheep who had few babies in a year.  A picture started to form in our minds.

We made the decision that we would make and sell quality bacon.  Nothing else would do. Sold across our land and to passing ships, the best bacon on earth!

When it seemed imminent that war would break out sooner rather than later, we started to market our plan to carefully selected friends and family.  We needed support for the venture.

A meeting was held in Oscar’s voorkamer on the farm(1).  It was a bitterly cold night.  A hand full of burgers came.  Oscar’s wife, Trudie, expecting their 3rd daughter was there.  My Ava was there.  James and Willem, Oscars two brothers came and Anton his father-in-law.

Oscar’s dad was a minister in the Dutch Reformed Church.  He opened the meeting with scripture reading and prayer and said a few words.

We decided that since my kids were in primary school already in Cape Town, and Oscar’s kids were much smaller, that I have to go.  Travel to Europe and Britain and learn the art of curing bacon!  Oscar would stay behind, muster the support and prepare for our factory in Cape Town.

We decided not to go to England straight away.  On the one hand there was the fear that war could break out any day and this would jeopardize our quest.  On the other hand, since my ancestors came to the Cape of Good Hope from Denmark and since an old spice trader advised us to visit Copenhagen first, the decision was made to start there.

The next thing I knew, cold Free State wind was in my face and I raced back to the Cape through Bloemfontein.  I spend a last week-end with my Ava and the kids.

We hiked up our beloved Table Mountain.  It was the mountain that brought us together.  As kids we would spend hours and days exploring its majestic cliffs.  As teenagers we both acted as guides, taking European and American visitors to the top.

We climbed one of our favourite routes.  At the top we sat for a long time, looking down on a growing city.  A small mountain stream ran all the way from a crack in the mountain where a gorge has been formed by geological activity that non of us understood, through the city basin, past the VOC castle and into the sea.  I wished the moment would last forever!

Before I knew it I was off to a waiting steam ship in the Cape Town harbour and the adventure of a lifetime!

What follows is the collection of letters I sent to friends and family from Europe and later, from the Cape Colony.

We set out to discover the art of curing bacon.  In the process we all changed.  During the quest, we not only had to learn the art of curing meat, we came face to face with ourselves and who we are.  Our deepest fears and hopes.  We learned about love, family, great friendship, trust, comradery, courage and following an unlikely dream.

These letters tell both the story of bacon and the art of living.

Bacon and the art of living Home Page

 

Heinrich, Adam R.  2010.  A zooarcheaelogical investigation into the meat industry established at the Cape of Good Hope by the Dutch East Indian Company in the seventeenth and eighteenth centuries, The State University of New Jersey.

Linder, Adolphe. 1997.  The Swiss at the Cape of Good Hope. Creda Press (Pty) Ltd

Simons, Phillida Brooke. 2000. Ice Cold In Africa. Fernwood Press

Notes:

(1)  Woodys prepared for their own factory in 2011.  It was the culmination of a process that started on a flight between Johannesburg and Cape Town in January 2011 where Oscar and Eben decided to re-think the entire Woodys strategy and gear themselves for a much bigger company.  Oscar and Eben has been joined by Willem on the Woodys Executive by this time.  The first step of the plan was a transition from contract packers to an own factory.