Update Sourdough History (#298)

* Update Sourdough History This adds another timeline for the sourdough bread history, adds more information and more references. * Fix a few white spaces.. * Correct capitalization of Van Leeuwenhoek Quoting Wikipedia: https://en.wikipedia.org/wiki/Van_(Dutch) Spelling conventions Collation and capitalisation Collation and capitalisation of names differs between countries. In the Netherlands and Suriname, names starting with "van" are filed under the initial letter of the following name proper, so Johannes van der Waals is filed under "W", as: "Waals, Johannes van der" or "van der Waals, Johannes".[3] The "v" is written in lower case, except when the surname is used as standalone (when the first name or initials are omitted), in which case it is capitalised, as in "de schilder Vincent van Gogh" and "de schilder Van Gogh" ("the painter Van Gogh").[4] In compound terms like "de Van Goghtentoonstelling" ("the Van Gogh exhibition") the "v" is capitalised, unless the connection between the person and the concept is or has become very weak.[5] * Fix line * Improve numbers on time chart - Tausend separator - Negative numbers - Few typos * Fixes * Improve timeline - narrower so it fits on page (text was leaking out), fits mostly but not schking anymore - Different colour for BC as scale is different - Broken line for discontinuity in AD * Reduce line-break width * Move dates around in timeline Makes it neater IMHO * Fix 12000 BC in timeline * Fix typo and add labels Also re-indent text (but only new one..) * reunite can and not * Prevent running validate when pushing on main Rational is as follow: - We ran validate-book on each push on the PR branch anyway - We will run release_book which is a superset of validate * Upload artifacts on each PR (#299) * Upload artifacts on each PR * Use artifact V3 * Build docker image for each PR (#300) This builds a docker image for each PR and then one for the release tagged as :latest. --------- Co-authored-by: Ced <ced@sdf.org> Co-authored-by: Cedric <ced@awase.ostal> Co-authored-by: Paul Duguet <duguet.paul@gmail.com>
2025-11-23 11:31:12 -06:00 · 2023-12-10 02:28:09 +01:00
parent bce4f84040
commit f143834379
3 changed files with 271 additions and 29 deletions
--- a/book/figures/fig-sourdough-history-timeline.tex
+++ b/book/figures/fig-sourdough-history-timeline.tex
@@ -0,0 +1,69 @@
 \begin{tikzpicture}
  \pgfmathsetlengthmacro{\timelinewidth}{(\textwidth-0.5cm)}
  % Define the width of each segment
  \pgfmathsetlengthmacro{\segmentwidth}{\timelinewidth/12}
  % Draw horizontal lines
  \draw[line width=1pt, color=hlorange] (0,0) -- (\timelinewidth/2,0);
  \draw[line width=1pt] (\timelinewidth/2,0) -- (\timelinewidth/2 +1.5*\segmentwidth/3,0);
  \draw[line width=1pt] (\timelinewidth/2 + 2*\segmentwidth/3,0) --(\timelinewidth, 0);
  \draw[line width=1pt] (\timelinewidth/2+1.5*\segmentwidth/3-5,-0.2) -- (\timelinewidth/2+1.5*\segmentwidth/3+5, 0.2);
  \draw[line width=1pt] (\timelinewidth/2+2*\segmentwidth/3-5,-0.2) -- (\timelinewidth/2+2*\segmentwidth/3+5, 0.2);
  % Lines for periods
  \draw[stealth-stealth, line width=1pt] (0,-3.7)
    -- node[midway, timeline_timespan] {Historic breadmaking} ({\segmentwidth * 7.8},-3.7);
  \draw[stealth-stealth, line width=1pt] ({\segmentwidth * 7.8},-3.7)
    -- node[midway, timeline_timespan] {Modern bread} ({\segmentwidth * 12},-3.7);
  % Regularly placed events, not in chronological order
  % since should be placed on top of others on the timeline
  % BC
  \draw[line width=1pt] ({\segmentwidth*3},1.0) -- ({\segmentwidth*3},0.3)
    node[at start, left, timeline_event] {6000~BC: First beer in Egypt};
  \draw[line width=1pt] ({\segmentwidth*5.95},1.5) -- ({\segmentwidth*5.95},0.3)
    node[at start, left, timeline_event] {70~BC:~First water mill};
  % Sourdough in Jordan
  \draw[line width=1pt] (0,-0.3) -- (0,-1.5);
  \draw[line width=1pt] (0,-1.5) -- (0.25,-1.5);
  \node[timeline_event, below, anchor=west] at (0.25,-1.5)
  {\begin{tabular}{@{}l@{}l@{}}
      \num{12000}~BC:&~Sourdough in Jordan\\
                     &~Cultivation of Einkorn\\
    \end{tabular}};
  % AD
  \draw[line width=1pt] ({\segmentwidth*10.50},1.0) -- ({\segmentwidth*10.50},0.3)
    node[at start, above, timeline_event] {\hspace{1.0cm}1950:~Modern Wheat};
  \draw[line width=1pt] ({\segmentwidth*9.60},1.5) -- ({\segmentwidth*9.60},0.3)
    node[at start, above, timeline_event] {1868:~Commercial yeast};
  \draw[line width=1pt] ({\segmentwidth*7.8},2) -- ({\segmentwidth*7.8},0.3)
    node[at start, above, timeline_event] {1680:~Discovery of microorganisms};
  \draw[line width=1pt] ({\segmentwidth*8.80},-1.25) -- ({\segmentwidth*8.80},-0.3)
    node[at start, left, timeline_event] {1785:~Steam mill};
  \draw[line width=1pt] ({\segmentwidth*9.57},-1.75) -- ({\segmentwidth*9.57},-0.3)
    node[at start, left, timeline_event] {1857:~Isolated Yeast};
  \draw[line width=1pt] ({\segmentwidth*9.80},-2.25) -- ({\segmentwidth*9.80},-0.3)
    node[at start, left, timeline_event] {1885:~Electrical mixer};
  \draw[line width=1pt] ({\segmentwidth*11.20},-2.75) -- ({\segmentwidth*11.20},-0.3)
    node[at start, left, timeline_event] {2020:~COVID-19 Pandemic};
  % Indicators for period
  % Draw millenary and century separators
  \foreach \i/\century in {0/-12000, 1/-10000, 2/-8000, 3/-6000, 4/-4000, 5/-2000}{
      % Separators
      \draw[line width=1pt, color=hlorange] (\i*\segmentwidth,0.1) -- (\i*\segmentwidth,-0.1);
      % Events for timeline
      \node[timeline_event, below, text=hlorange] at ({(\i)*\segmentwidth},-0.1) {\num{\century}};
  }
  \foreach \i/\century in {6/0, 7/1600, 8/1700, 9/1800, 10/1900, 11/2000, 12/2100}{
      % Separators
      \draw[line width=1pt] (\i*\segmentwidth,0.1) -- (\i*\segmentwidth,-0.1);
      % Events for timeline
      \node[timeline_event, below] at ({(\i)*\segmentwidth},-0.1) {\num{\century}};
  }
 \end{tikzpicture}
--- a/book/history/sourdough-history.tex
+++ b/book/history/sourdough-history.tex
@@ -33,6 +33,7 @@ organisms inhabit extreme environments, from boiling vents to icy waters.
    divided into months, and extending to the present day,
    marked at midnight. This visualization shows the pivotal steps
    of life and sourdough on earth.}%
  \label{fig:planet-timeline}
 \end{center}
 \end{figure}
@@ -50,23 +51,33 @@ land.
 By December~3, yeasts emerged on land. This laid groundwork for bread-making.
 Jump 140~million years to December~14, and dinosaurs arose. Just a couple
-of days after their appearance on December~17 the super continent pangea
+of days after their appearance on December~17 the super continent Pangea
 started to rift apart, reshaping the continents into their current form.
 The dinosaurs reigned until December~29 when they faced extinction.
 Another 25~million years later, or our timeline's 2~days after the dinosaur
 extinction, humans appeared.
 A few hours later after the arrival of humans, a more subtle culinary
-revolution was unfolding. By  \num{12000}~BC, just 5 seconds before our metaphorical
+revolution was unfolding. By \num{12000}~BC, just 5 seconds before our metaphorical
 midnight, the first sourdough breads were being baked in ancient Jordan. A blink of
 an eye later, or 4~seconds in our time compression, Pasteur's groundbreaking work
 with yeasts set the stage for modern bread-making. From the moment this book
-began to take shape to your current reading, only milliseconds have ticked by~\cite{Yong_2017}.
+began to take shape to your current reading, only milliseconds have ticked
 by~\cite{Yong+2017}.
 Now delving deeper into the realm of sourdough, it can likely be traced to aforementioned
 Ancient Jordan~\cite{jordan+bread}. Looking at the earth's timeline sourdough
 bread can be considered a very recent invention.
 \begin{figure}[!htb]
 \begin{center}
  \input{figures/fig-sourdough-history-timeline.tex}
  \caption[Sourdough history timeline]{Timeline of significant discoveries and
  events leading to modern sourdough bread.}%
  \label{fig:sourdough-timeline}
 \end{center}
 \end{figure}
 The exact origins of fermented
 bread are, however, unknown. One of the most ancient preserved
 sourdough breads has been excavated in Switzerland~\cite{switzerland+bread}.
@@ -103,18 +114,18 @@ was extended due to the increased acidity.
 Quickly, similar processes were discovered when brewing beer
 or making wine. A small tiny batch of the previous production
 would be used for the next production. In this way, humans created
-modern bread yeasts, wine yeasts, and beer yeasts. Only in 1680,
+modern bread yeasts, wine yeasts, and beer yeasts~\cite{egypt+beer}.
-the scientist Anton van~Leeuwenhoek first studied yeast microorganisms
+
-under a microscope. Over time with each batch, the yeasts and bacteria
+Over time with each batch, the yeasts and bacteria
 would become better at consuming whatever they were thrown at.
 By feeding your sourdough starter, you are selectively breeding
 microorganisms that are good at eating your flour. With
 each iteration, your sourdough knows how to better ferment the flour
-at hand. This is also the reason why more mature sourdough starters sometimes
+at hand. This is also the reason\footnote{It is crazy if you think about it.
-tend to leaven doughs faster~\cite{review+of+sourdough+starters}. It is crazy if you
+People have been using this process despite not knowing what was going on for
-think about it. People have been using this process despite not
+thousands of years!} why more mature sourdough starters sometimes tend to
-knowing what was actually going on for thousands of years! The
+leaven doughs faster~\cite{review+of+sourdough+starters}.  The sourdough in
-sourdough in itself is a symbiotic relationship. But the sourdough
+itself is a symbiotic relationship, but the sourdough
 also adapted to humans and formed a symbiotic relationship with us.
 For food and water, we are rewarded with delicious bread. In exchange,
 we shelter and protect the sourdough. Spores from the starter
@@ -122,39 +133,122 @@ are spread through aerial contamination or insects like fruit flies.
 This allows the sourdough starter to spread its spores even
 further all around the world.
-Brewers would start to experiment with utilizing the muddy leftovers
+Evidence suggests early grain grinding in northern Australia around
-of the beer fermentation to start making doughs. They would notice
+\num{60000}~BC, notably at the Madjedbebe rock shelter in Arnhem
 Land~\cite{aboriginal+grinding+stones}.  However, a more significant
 advancement occurred later, as documented by the ancient Greek geographer
 Strabo in \num{71}~BC\@.  Strabo's writings described the first water-powered
 stone mill, known as a \emph{gristmill}. These mills advanced flour production
 from a few kilograms up to several metric tons per day~\cite{history+mills}.
 These early mills featured horizontal paddle wheels, eventually termed
 \emph{Norse wheels} due to their prevalence in Scandinavia.  The paddle wheels
 connected to a shaft, which, in turn, linked to the central runner stone for
 grinding. Water flow propelled the paddle wheels, transferring the grinding
 force to the stationary \emph{bed}, typically a stone of similar size and
 shape. This design was straightforward, avoiding the need for gears. However,
 it had a limitation: the stone's rotation speed relied on water volume and
 flow rate, making it most suitable for regions with fast-flowing streams,
 often found in mountainous areas~\cite{mills+scandinavia}.
 In the year \num{1680}, a remarkable scientist by the name of
 Antonie~van~Leeuwenhoek introduced a groundbreaking innovation that would
 forever alter our understanding of the microscopic world and ultimately bread
 making.  Van~Leeuwenhoek, a master of lens craftsmanship, possessed an
 insatiable fascination with realms invisible to the naked eye. His pioneering
 work birthed the first modern microscope.  What set Van~Leeuwenhoek apart was
 the exceptional quality of his lenses, capable of magnifying tiny
 microorganisms by an astounding factor of \num{270}.  Driven by an unrelenting
 curiosity to unveil the unseen, he embarked on a journey of exploration. He
 scrutinized flies, examined lice-infested hair, and ultimately turned his gaze
 toward the tranquil waters of a small lake near Delft.
 In this serene aquatic habitat, he made astonishing observations, discovering
 algae and minuscule, dancing creatures hitherto hidden from human perception.
 Eager to share his revelatory findings with the scientific community,
 Van~Leeuwenhoek faced skepticism, as it was difficult to fathom that someone
 had witnessed thousands of diminutive, dancing entities—entities so tiny that
 they eluded the human eye.
 Undeterred by skepticism, he continued his relentless pursuit of the unseen,
 directing his lens towards a brewer's beer sludge. In this obscure medium,
 Van~Leeuwenhoek made history by becoming the first human to lay eyes upon
 bacteria and yeast, unraveling a previously concealed world that would
 revolutionize our understanding of microbiology~\cite{Yong+2017+Leeuwen}.
 At the same time brewers would start to experiment with utilizing the muddy
 leftovers of the beer fermentation to start making doughs. They would notice
 that the resulting bread doughs were becoming fluffy and compared
 to the sourdough process would lack the acidity in the final product.
-A popular example is shown in a report from 1875. Eben Norton Horsford
+A popular example is shown in a report from \num{1875}. Eben Norton Horsford
 wrote about the famous \emph{Kaiser Semmeln} (Emperor's bread rolls).
 These are essentially bread rolls made with brewer's yeast instead
 of the sourdough leavening agent. As the process is more expensive,
 bread rolls like these were ultimately consumed by the noble people
 in Vienna~\cite{vienna+breadrolls}.
 As industrialisation began the first steam-powered grain mill was developed by
 Oliver Evans in \num{1785}. Evans' design incorporated several innovations,
 including automated machinery for various milling processes, making it more
 efficient than traditional water or animal-powered mills. His steam-powered
 mill marked a significant advancement in industrial technology for bread
 making~\cite{evans+mill}.
 \begin{figure}[ht]
  \includegraphics[width=\textwidth]{sourdough-stove}
  \caption{A bread made over the stove without an oven.}%
  \label{sourdough-stove}
 \end{figure}
-Only in 1857, the French microbiologist Louis Pasteur discovered
+The biggest advancement of industrial breadmaking happened in \num{1857}.
 The French microbiologist Louis Pasteur discovered
 the process of alcoholic fermentation. He would prove that
 yeast microorganisms are the reason for alcoholic fermentation
-and not other chemical catalysts. What would then start is
+and not other chemical catalysts. He continued with his research and
-what I~describe as the 150 lost years of bread making. In 1879
+was the first person to isolate and grow pure yeast strains.
-the first machines and centrifuges were developed to centrifuge
+Soon later in \num{1868} in the Fleischmann brothers Charles
-pure yeast. This yeast would be extracted from batches of sourdough.
+and Maximilian were the first to patent pure yeast strains
 for bread making. The yeasts offered
 were isolated from batches of sourdough. By \num{1879} the machinery was built
 to multiply the yeast in large centrifuges~\cite{fleischmann+history}.
 The pure yeast would prove to be excellent and turbocharged
 at leavening bread doughs. What would previously take 10~hours
 to leaven a bread dough could now be done within 1~hour.
-The process became much more efficient. During World~War~II
+The process became much more efficient. What ultimately made making large
-the first packaged dry yeast was developed. This would ultimately
+batches of dough possible, was the invention of the electrical kneader.  Rufus
-allow bakeries and home bakers to make bread much faster.
+Eastman, an American inventor, is often credited with an important advancement
-Thanks to pure yeast, building bread making machines was
+in mixer technology. In \num{1885}, he received a patent for an electric mixer
-possible. Provided you maintain the same temperature,
+with a mechanical hand-crank mechanism.  This device was not as advanced or as
-your yeast would always ferment exactly the same way.
+widely adopted as later electric mixers, but it was an early attempt to
 mechanize mixing and kneading processes in the kitchen using electricity.
 Eastman's invention represented an important step in the development of
 electric mixers, but it wasn't as sophisticated or popular as later models
 like the KitchenAid mixer. The KitchenAid mixer, introduced in \num{1919}, is
 often recognized as one of the first widely successful electric mixers and
 played a significant role in revolutionizing kitchen appliances for home
 cooks~\cite{first+mixer}~\cite{kitchenaid+history}.
 During World~War~II the first packaged dry yeast was developed. This would
 ultimately allow bakeries and home bakers to make bread much faster and more
 consistently. Thanks to pure yeast, building industrial bread making machines
 was now possible. Provided you maintain the same temperature, same flour and
 yeast strains fermentation became precisely reproducible. This ultimately lead
 to the development of giga bakeries and flour blenders. The bakeries demanded
 the same flour from year to year to bake bread in their machines.  For this
 reason, none of the supermarket flour you buy today is single origin.  It is
 always blended to achieve exactly the same product throughout the years.
 Modern wheat, specifically the high-yielding and disease-resistant varieties
 commonly grown today, began to be developed in the mid-20th century. This
 period is often referred to as the \emph{Green Revolution.}
 One of the key figures in this development was American scientist Norman
 Borlaug, who is credited with breeding high-yield wheat varieties,
 particularly dwarf wheat varieties, that were resistant to diseases and could
 thrive in various environmental conditions. His work, which started in the
 1940s and continued through the \num{1960}s, played a crucial role in
 increasing wheat production worldwide and alleviating food
 shortages~\cite{green+revolution}.
 As fermentation
 times sped up, the taste of the final bread would deteriorate.
@@ -168,7 +262,7 @@ of true nerds would continue making bread with sourdough.
 Suddenly people started to talk more often about celiac disease
 and the role of gluten. The disease isn't new; it has first
-been described in 250 AD~\cite{coeliac+disease}. People
+been described in \num{250}~AD~\cite{coeliac+disease}. People
 would note how modern bread has much more gluten compared
 to ancient bread. The bread in ancient times probably was much flatter.
 The grains over time have been bred more and more towards containing a higher
@@ -208,8 +302,9 @@ During the California Gold Rush, French bakers brought the sourdough
 culture to Northern America. A popular bread became the
 San Francisco sourdough. It's characterized by its unique
 tang (which was previously common for every bread). It
-however remained more of a niche food. What really expedited
+however remained more of a niche food while industrial bread
-the comeback of sourdough was the 2020 COVID-19 pandemic.
+was on the rise. What really expedited
 the comeback of sourdough was the \num{2020} COVID-19 pandemic.
 Flour and yeast became scarce in the supermarkets. While
 flour returned yeast couldn't be found. People started
 to look for alternatives and rediscovered the ancient
--- a/book/references.bib
+++ b/book/references.bib
@@ -98,6 +98,75 @@
  howpublished = {\url{https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6077754/}}
 }
@article{fleischmann+history,
  author       = {Fleischmann History},
  title        = {History of Fleischmann's},
  howpublished = {\url{https://www.fleischmannsyeast.com/our-history/}},
  note         = {Accessed: 2023-12-04}
 }
@article{evans+mill,
  author       = {Jeremy Norman},
  title        = {Oliver Evans Builds the First Automated Flour Mill: Origins of the Integrated and Automated Factory},
  howpublished = {\url{https://www.historyofinformation.com/detail.php?entryid=3567}},
  note         = {Accessed: 2023-12-04}
 }
@article{first+mixer,
  author       = {United States Patent office},
  title        = {Eastman Mixer for cream, eggs and liquors},
  howpublished = {\url{https://patents.google.com/patent/US330829}},
  note         = {Accessed: 2023-12-04}
 }
@article{egypt+beer,
  author       = {Smithsonian Magazine},
  title        = {World’s Oldest Industrial-Scale Brewery Found in Egypt},
  howpublished = {\url{https://www.smithsonianmag.com/smart-news/worlds-oldest-industrial-scale-brewery-found-egypt-180977026/}},
  note         = {Accessed: 2023-12-04}
 }
@article{kitchenaid+history,
  author       = {KitchenAid},
  title        = {KitchenAid Brand History},
  howpublished = {\url{https://www.kitchenaid.com/100year/history.html}},
  note         = {Accessed: 2023-12-04}
 }
@article{aboriginal+grinding+stones,
  author       = {First Peoples - State Relations},
  title        = {Fact sheet: Aboriginal grinding stones},
  howpublished = {\url{https://www.firstpeoplesrelations.vic.gov.au/fact-sheet-aboriginal-grinding-stones}},
  note         = {Accessed: 2023-12-04}
 }
@book{history+mills,
  title     = {Archaeological Evidence for Early Water-Mills. An Interim Report},
  journal   = {History of Technology},
  number    = {10},
  author    = {Wikander, Örjan},
  year      = {1985},
  pages     = {151--179}
 }
@book{mills+scandinavia,
  title     = {Waterwheels and Windmills: Five machines that changed the world},
  author    = {Mark, Denny},
  year      = {2007},
  pages     = {36}
 }
@article{green+revolution,
  author       = {Borlaug, Norman},
  title        = {Contributions of conventional plant breeding to food production},
  journal      = {Science},
  volume       = {219},
  number       = {4585},
  pages        = {689-693},
  year         = {1983},
  doi          = {10.1126/science.219.4585.689}
 }
@article{switzerland+bread,
  author    = {Pasquale Catzeddu},
  title     = {Flour and Breads and their Fortification in Health and Disease Prevention},
@@ -105,7 +174,7 @@
  year      = {2011}
 }
-@book{Yong_2017,
+@book{Yong+2017,
  place     = {London},
  title     = {I contain multitudes: The microbes within US and a grander view of life},
  publisher = {Vintage},
@@ -114,6 +183,15 @@
  pages     = {5--9}
 }
@book{Yong+2017+Leeuwen,
  place     = {London},
  title     = {I contain multitudes: The microbes within US and a grander view of life},
  publisher = {Vintage},
  author    = {Yong, Ed},
  year      = {2017},
  pages     = {39}
 }
@article{egyptian+bread,
  title     = {Investigation of ancient Egyptian baking and brewing methods by correlative microscopy},
  volume    = {273},