You just need to clean it up as carefully as you can, wear gloves and dust mask.
Your exposure to Mercury if you clean up carefully is the equivalent to eating a tablespoon of canned Tuna.
If you clean up poorly, without gloves and mask, your exposure is the equivalent to eating a can of Tuna.
Do not use a vacuum cleaner.
http://www.epa.gov/mercury/spills/index.htm#fluorescentNB: CFL's not only use less power, they REDUCE the amount of Mercury in the environment. (see last section below)More from EnergyStar:
Frequently Asked Questions
Information on Compact Fluorescent Light Bulbs (CFLs) and Mercury
July 2008
Why should people use CFLs?
Switching from traditional light bulbs (called incandescent) to CFLs is an effective, simple change everyone in
America can make right now. Making this change will help to use less electricity at home and prevent greenhouse
gas emissions that lead to global climate change. Lighting accounts for close to 20 percent of the average home’s
electric bill. ENERGY STAR qualified CFLs use up to 75 percent less energy (electricity) than incandescent light
bulbs, last up to 10 times longer, cost little up front, and provide a quick return on investment.
If every home in America replaced just one incandescent light bulb with an ENERGY STAR qualified CFL, in one
year it would save enough energy to light more than 3 million homes. That would prevent the release of
greenhouse gas emissions equal to that of about 800,000 cars.
Do CFLs contain mercury?
CFLs contain a very small amount of mercury sealed within the glass tubing – an average of 4 milligrams. By
comparison, older thermometers contain about 500 milligrams of mercury – an amount equal to the mercury in
125 CFLs. Mercury is an essential part of CFLs; it allows the bulb to be an efficient light source. No mercury is
released when the bulbs are intact (not broken) or in use.
Most makers of light bulbs have reduced mercury in their fluorescent lighting products. Thanks to technology
advances and a commitment from members of the National Electrical Manufacturers Association, the average
mercury content in CFLs has dropped at least 20 percent in the past year. Some manufacturers have even made
further reductions, dropping mercury content to 1.4 – 2.5 milligrams per light bulb.
What are mercury emissions caused by humans?
EPA estimates the U.S. is responsible for the release of 104 metric tons of mercury emissions each year. Most of
these emissions come from coal-fired electrical power. Mercury released into the air is the main way that mercury
gets into water and bio-accumulates in fish. (Eating fish contaminated with mercury is the main way for humans to
be exposed.)
Most mercury vapor inside fluorescent light bulbs becomes bound to the inside of the light bulb as it is used. EPA
estimates that the rest of the mercury within a CFL – about 14 percent – is released into air or water when it is
sent to a landfill, assuming the light bulb is broken. Therefore, if all 290 million CFLs sold in 2007 were sent to a
landfill (versus recycled, as a worst case) – they would add 0.16 metric tons, or 0.16 percent, to U.S. mercury
emissions caused by humans.
How do CFLs result in less mercury in the environment compared to traditional light
bulbs?
Electricity use is the main source of mercury emissions in the U.S. CFLs use less electricity than incandescent
lights, meaning CFLs reduce the amount of mercury into the environment. As shown in the table below, a 13-watt,
8,000-rated-hour-life CFL (60-watt equivalent; a common light bulb type) will save 376 kWh over its lifetime, thus
avoiding 4.5 mg of mercury. If the bulb goes to a landfill, overall emissions savings would drop a little, to 4.0 mg.
EPA recommends that CFLs are recycled where possible, to maximize mercury savings.