2.9.09

Yesterday In Pizza

In today's episode of Yesterday In Pizza, I ask this question: Why did we end up with this giant bubble-o-'za? Granted, it was part of the experimental appetizer round we made with leftover dough, but still... Only three minutes in the oven, and suddenly we'd given birth to something truly perplexing.

Alas, I have no answer. We couldn't figure it out. Any thoughts?

1 comment:

Cathy said...

I found this ...
Discussion: Crust Bubbling

Dough/crust bubbling is a problem that has plagued pizzerias for decades. Of course, not all pizzerias consi­der it a problem. Some actually like bubbles because they feel their customers like them. However, many operators abhor bubbles, especially the large kind that move cheese and toppings off an entire slice or, worse yet, off half the pizza.

To eliminate bubbles it helps to know what happens during baking. Here’s how it works. Dough contains thousand of air cells created during fermentation or proofing. These air cells are separated from one another by cell walls. At the onset of baking, the air cells expand slightly due to a burst of yeast activity, a process called oven spring. Following oven spring, the starch in the cell walls gelatinizes, or absorbs surrounding moisture. Gelatinization, in turn, causes the protein (i.e., gluten) in the cell walls to lose moisture. The reduction of moisture in the protein causes it to retract and become less elastic. This results in pinpoint holes forming in the cell walls. Following that, the protein coagulates and, thereby, firms up—giving the crust its firm cellular structure. Following coagu­la­tion, steam develops in the cells and vents out the pinpoint holes and, eventually, out the top of the crust. To see evidence of where steam vents out the top of the crust, scrape away the cheese and sauce from a properly proofed, properly baked pizza and you’ll see many small holes in the top of the crust, which served as steam vents.

For the pinpoint holes to form in the cell walls, the walls must be of the proper thickness and contain the proper amount of moisture. When dough is improperly proofed—that is, either under-risen or over-risen—the cell walls are of the “wrong” thickness. In under-proofed dough they are too thick. In over-proofed dough they are too thin.

When holes fail to form in the cell walls, the steam generated during baking cannot dissipate properly from the cells. As a result, it builds up within each cell, forcing the cell upward and eventually ripping the cell walls. In effect, instead of dissipating through an open cellular network and out the top of the crust, as happens with properly proofed dough, the steam rips open the cellular structure in a chain reaction—rupturing one cell wall after another and, eventually, forming one large cell.

There’s a difference between bubbles formed from under-proofing versus over-proofing. Bubbles from under-proofing tend to be flat but large in diameter. If unpopped, they can blow up an entire pizza. This is the process by which pita or pocket bread is made. Bubbles from over-proofing tend to be high but smaller in diameter. They rise up like little ping-pong balls and eventually form a hole at the top, at which time they stop expanding. They almost always burn. Most pizza bubbling problems are of the under-proofed type.

To resolve a bubbling problem, dough fermentation must be adjusted accordingly. To stop bubbling caused by under-proofed dough, increase the amount of fermenta­tion. To stop bubbling caused by over-proofed dough, reduce the amount of fermentation.

In addition to proper proofing, it has been found that reducing the amount of water in a dough formula can help with reducing bubbling when dealing with the under-proofed type. The reduction in moisture aids in creating the pinpoint holes in the cells walls.