Beer predates wine as one of the oldest known alcoholic beverages (only mead surpasses it in age), and the discovery of the fermentation of grain is closely linked to the transition from a nomadic society to a settled agricultural society during the Neolithic Revolution.
The fermentation of starchy carbohydrates is a more complicated matter, however, than the transformation of grape sugars into alcohol, as a grain’s starch must be converted into sugar before fermentation can begin. Thus, the aim of the brewing process is twofold: the brewer must first derive the wort, a sugar-rich liquid, from malted grain and then the brewer must ferment the wort. Typically, the raw ingredients required for this process are water, yeast, hops, and a starch source. Hops, the dried flower clusters that provide flavor and bitterness to beer, have both preservative and antiseptic qualities that inhibit bacterial growth. This simple formula was detailed as early as 1516, in the Bavarian Purity Law (Reinheitsgebot), which codified the three ingredients authorized for beer production as barley, hops, and water. The action of yeast in fermentation was at the time undiscovered, and wheat, a component of Hefe-Weizen and white beer styles, was reserved for the production of bread.
In the modern brewing process, the first step is to create the malted barley, or malt. Barley—the cereal grain of choice for most beers—is steeped in water for approximately two days to promote germination of the grain. Once the grain begins to germinate, or sprout, it is transferred to compartments with controlled temperature and moisture levels. As the sprout grows to nearly an inch in length, the enzyme amylase is produced. Amylase converts the starchy carbohydrates of the grain into the fermentable sugars
Is there a reason that the above french regions are listed as AOC as opposed to AOP?
A comment on the beer section.
The use of lager vs. ale yeast has no affect on the level of alcohol. The level of attenuation capable of Saccharomyces pastorianus or Saccharomyces cerevisae used in beer is a function of the particular strain of either Saccharomyces used (there are hundreds of strains in each species), available sugar, and brewer decisions. These factors determine the level of alcohol and either may produce high or low alcohol.
To quote Horst Dornbusch(prolific German beer writer), Michael Zepf (PhD in Brewing Science), and Garrett Oliver(Brooklyn Brewery's Master Brewer) from the Oxford Companion to Beer, "There is a common perception that lagers are golden, light on the palate, and lower in alcohol, whereas ales are darker, heavier, and stronger. In fact, there is no truth to this whatsoever. The color of beer has nothing to do with whether it is a lager or an ale and neither does it's alcohol content. There are dark and strong lagers as well as pale and light ales with any combination in between."
This is pretty cool: www.nrib.go.jp/.../nlziten_e.pdf
Would also like to add, traditional sake service temperatures:
Tobikiri-kan – 55C / 134F
Atsu-kan – 50C / 125F
Jo-kan – 45C / 116F
Nuru-kan – 40C / 107F
Hitohada-kan – 35C / 96F
Hinata-kan – 30C / 85F
Jo-on – 20C / 68F
Suzu-bie – 15C / 59F
Hana-bie – 10C / 50F
Yuki-bie – 5C / 41F
health.yahoo.net/.../10-surprising-health-benefits-beer