5 added 200 characters in body
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This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

Amendment 2
Incidentally, I just read that the "thiol" (organic compound containing sulfur) responsible for imparting the "skunk" is 3-methylbut-2-ene-1-thiol, a.k.a. "skunky" thiol.

Source: Chemistry - A European Journal, v7 n21 (November 5, 2001): 4553-4561

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

Amendment 2
Incidentally, I just read that the "thiol" (organic compound containing sulfur) responsible for imparting the "skunk" is 3-methylbut-2-ene-1-thiol, a.k.a. "skunky" thiol.

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

Amendment 2
Incidentally, I just read that the "thiol" (organic compound containing sulfur) responsible for imparting the "skunk" is 3-methylbut-2-ene-1-thiol, a.k.a. "skunky" thiol.

Source: Chemistry - A European Journal, v7 n21 (November 5, 2001): 4553-4561

4 added 200 characters in body
source | link

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1:Amendment 1
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

Amendment 2
Incidentally, I just read that the "thiol" (organic compound containing sulfur) responsible for imparting the "skunk" is 3-methylbut-2-ene-1-thiol, a.k.a. "skunky" thiol.

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1:
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

Amendment 2
Incidentally, I just read that the "thiol" (organic compound containing sulfur) responsible for imparting the "skunk" is 3-methylbut-2-ene-1-thiol, a.k.a. "skunky" thiol.

3 Added data to provide a better answer.
source | link

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1:Amendment 1:
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1: Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

This Wired article may help shed some light on wavelengths and bottle colour.

http://www.wired.com/2013/03/physics-and-green-beer-bottles/

Amendment 1:
Light in wavelengths of 350 nm to 520 nm (upper UV to mid-visible light) is known to cause skunky beer.

Green bottles allow green light (520 nm to 550 nm) to pass through, whereas brown bottles (ranging between 580 nm and 700 nm) block wavelengths known to skunk beer.

Iron and other metal oxides impart the brown tint.

2 Added data to provide a better answer.
source | link
1
source | link