Archive for May, 2016
WTVG: Active Shooter Training at UTMC/IISC, 5/4/16
Thursday, May 5th, 2016https://www.youtube.com/watch?v=v2uVairr9_4
WNWO: Active Shooter Training at UTMC, 5/4/16
Thursday, May 5th, 2016The Fort McMurray Wildfire is now threatening the city’s airport and communities well south of the town.
Thursday, May 5th, 2016The massive wildfire has forced the evacuation of all 88,000 people from Fort McMurray and burned down 1,600 structures
Thursday, May 5th, 2016** No known casualties from the blaze itself
** Fatalities were reported in at least one car crash among the evacuees.
** Thousands bunked down in arenas, hockey rinks and oil work camps, often short of fuel and food.
UN/WHO: Workers in fields and factories face an epidemic of heat-related injuries that will devastate their health, income and productivity as climate change takes hold.
Thursday, May 5th, 2016Climate Change and The Workplace
February 2016 was the warmest February in 136 years of modern temperature records. That month deviated more from normal than any month on record.
According to an ongoing temperature analysis conducted by scientists at NASA’s Goddard Institute for Space Studies (GISS), the average global temperature in February was about 0.5 degrees Celsius (0.8 degrees Fahrenheit) warmer than the previous record (February 1998). February 2016 was 1.35 degrees Celsius above the 1951–80 average; February 1998 was 0.88°C above it. Both records were set during strong El Niño events.
The map above depicts global temperature anomalies for February 2016. It does not show absolute temperatures; instead it shows how much warmer or cooler the Earth was compared to a baseline average from 1951 to 1980.
Almost all land surfaces on Earth experienced unusually warm temperatures in February 2016. The warmest temperatures occurred in Asia, North America, and the Arctic. Two of the exceptions were the Kamchatka Peninsula and a small portion of southeast Asia, which saw unusually cool temperatures. Note the clear fingerprint of El Niño in the equatorial Pacific Ocean.
The chart above plots the global temperature anomaly for each month of the year since 1980. Each February is highlighted with a red dot. All dots, red or gray, show how much global temperatures rose above or below the 1951–1980 average. Despite monthly variability, the long-term trend due to global warming is clear and now punctuated by the unusually warm data point for February 2016.
The GISS team assembles its temperature analysis from publicly available data acquired by roughly 6,300 meteorological stations around the world; by ship- and buoy-based instruments measuring sea surface temperature; and by Antarctic research stations. This raw data is analyzed using methods that account for the varied spacing of temperature stations around the globe and for urban heating effects that could skew the calculations. The modern global temperature record begins around 1880 because observations did not cover enough of the planet prior to that time.
For more explanation of how the analysis works, visit the GISS Surface Temperature F.A.Q. page.
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References
- NASA Goddard Institute for Space Studies (2016, March 14) GISS Surface Temperature Analysis (GISTEMP). Accessed March 14, 2015.
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Further Reading
- Climate Central (2016, February 14) What To Know About February’s Satellite Temp Record. Accessed March 16, 2016.
- Mashable (2016, February 14) February obliterated global temperature records: The 5 most important implications. Accessed March 16, 2016.
- Spencer, R. (2016, February 14) UAH V6 Global Temperature Update for Feb. 2016: +0.83 deg. C (new record). Accessed March 16, 2016.
- The Washington Post (2016, March 14) The planet had its biggest temperature spike in modern history in February. Accessed March 16, 2016.
- Weather Underground (2016, March 13) February Smashes Earth’s All-Time Global Heat Record by a Jaw-Dropping Margin. Accessed March 16, 2016.
NASA Earth Observatory images by Joshua Stevens, using data from the Goddard Institute for Space Studies. Caption by Adam Voiland.
- Instrument(s):
- In situ Measurement
5/4/1886, Haymarket Square in Chicago, Illinois: A bomb is thrown at a squad of policemen attempting to break up a labor rally with wild gunfire, killing several people in the crowd and injuring dozens more.
Wednesday, May 4th, 2016Liberia and Guinea discharge final Ebola patients in latest flare-up and begin 42 days of heightened surveillance
Wednesday, May 4th, 2016Zika Virus: Peru reports 9 imported cases, 4 locally acquired infections (including the sexual transmission case from Lima), and 3 that are under investigation.
Wednesday, May 4th, 2016Canada: Alberta is racing to evacuate thousands of people as an uncontrolled wildfire burns near Fort McMurray
Wednesday, May 4th, 2016CDC: Protecting Workers from Occupational Exposure to Zika Virus
Wednesday, May 4th, 2016CDC and OSHA Issue Interim Guidance for Protecting Workers from Occupational Exposure to Zika Virus
For Immediate Release: Friday, April 22, 2016
Contact: Media Relations,
(404) 639-3286
The Centers for Disease Control and Prevention (CDC) and the Occupational Safety and Health Administration (OSHA) today issued new guidance and information for protecting workers from occupational exposure to Zika virus.
- Interim guidance for outdoor workers, healthcare and laboratory workers, mosquito control workers, and business travelers to protect against occupational exposure to Zika virus
- Interim guidance and recommendations for employers to use to protect their workers
- Interim guidance and recommendations for workers to consider to protect themselves from mosquito bites and exposure to an infected person’s blood or other body fluids
CDC will continue to update this guidance as new information related to Zika virus transmission and related health effects becomes available, based on the accumulating evidence, expert opinion, and knowledge about the risk associated with other viral infections. Please visit http://www.cdc.gov/zika/vector/index.html for the most updated maps showing the approximate and potential locations of the two species of mosquitoes that are associated with Zika transmission.
Background:
Zika virus is primarily spread through the bites of infected mosquitoes. There is no vaccine to prevent Zika virus infection, and there is no specific treatment for people who become infected. Although Zika virus is primarily spread by infected mosquitoes, exposure to an infected person’s blood or other body fluids may also result in transmission. Outdoor workers may be at the greatest risk of exposure to Zika virus. Some workers, including those working with insecticides in areas of active Zika transmission to control mosquitoes and healthcare workers who may be exposed to contaminated blood or other potentially infectious materials from people infected with Zika virus, may require additional protection. Although there are no reports of transmission of Zika virus from infected patients to health care personnel or other patients, minimizing exposure to body fluids is important to reduce the possibility of such transmission. CDC has previously recommended Standard Precautions in all health care settings to protect both health care personnel and patients from infection with Zika virus as well as from blood-borne pathogens (e.g., human immunodeficiency virus [HIV] and hepatitis C virus [HCV]).
Outdoor workers
Recommended employer actions
- Inform workers about their risks of exposure to Zika virus through mosquito bites and train them how to protect themselves.
- Visit the CDC Zika website frequently for the most updated information.
- Provide insect repellents containing EPA-registered active ingredients and encourage their use.
- Provide workers with, and encourage them to wear, clothing that covers their hands, arms, legs, and other exposed skin. Consider providing workers with hats with mosquito netting to protect the face and neck.
- In warm weather, encourage workers to wear lightweight, loose-fitting clothing that covers exposed skin. This type of clothing protects workers against the sun’s harmful rays and provides a barrier to mosquitoes. Always provide workers with adequate water, rest, and shade, and monitor workers for signs and symptoms of heat illness.
- Get rid of sources of standing water (e.g., tires, buckets, cans, bottles, barrels) whenever possible to reduce or eliminate areas where mosquitoes can lay eggs. Train workers about the importance of eliminating standing water at the worksite.
- If requested by a worker, consider reassigning workers who indicate they are or may become pregnant, or male workers who have a sexual partner who is or may become pregnant, to indoor tasks to reduce their risk of mosquito bites.
Recommended worker actions
- Use insect repellents containing EPA-registered active ingredients.
- Wear clothing that covers hands, arms, legs, and other exposed skin. Wear hats with mosquito netting to protect the face and neck. Wear socks that cover the ankles and lower legs.
- In warm weather, wear lightweight, loose-fitting clothing that covers exposed skin. This type of clothing protects workers against the sun’s harmful rays and provides a barrier to mosquitoes. Drink plenty of water, take rest breaks in shaded areas, and watch for signs and symptoms of heat illness, including in coworkers.
- Get rid of sources of standing water (e.g., tires, buckets, cans, bottles, barrels) whenever possible to reduce or eliminate areas where mosquitoes can lay eggs.
- CDC recommends special precautions for pregnant women in areas with Zika transmission. Talk to your supervisor(s) about outdoor work assignment(s) if you are or may become pregnant, or, for male workers, if your sexual partner is or may become pregnant. Additional CDC information on Zika virus and pregnancy can be found on CDC’s website.
- If symptoms develop, seek medical attention promptly. Discuss any possible exposure to mosquitoes or infections spread by mosquitoes with a healthcare provider.
Healthcare and laboratory workers
- Employers and workers in healthcare settings and laboratories should follow standard infection control and biosafety practices (including universal precautions) as appropriate, to prevent or minimize the risk of Zika virus transmission.
- Standard precautions include, but are not limited to, hand hygiene and the use of PPE to avoid direct contact with blood and other potentially infectious materials, including laboratory specimens/samples. PPE may include gloves, gowns, masks, and eye protection.
- Hand hygiene consists of washing with soap and water or using alcohol-based hand rubs containing at least 60 percent alcohol. Soap and water are best for hands that are visibly soiled. Perform hand hygiene before and after any contact with a patient, after any contact with potentially infectious material, and before putting on and upon removing PPE, including gloves.
- Laboratories should ensure that their facilities and practices meet the appropriate Biosafety Level (BSL) for the type of work being conducted (including the specific biologic agents – in this case, Zika virus) in the laboratory.
- Employers should ensure that workers: Follow workplace standard operating procedures (e.g., workplace exposure control plans) and use the engineering controls and work practices available in the workplace to prevent exposure to blood or other potentially infectious materials.
- Employers should ensure workers do NOT bend, recap, or remove contaminated needles or other contaminated sharps. Properly dispose of these items in closable, puncture-resistant, leak-proof, and labeled or color-coded containers. Workers should use sharps with engineered sharps injury protection (SESIP) to avoid sharps-related injuries.
Mosquito control workers
- When working outdoors, follow the same precautions recommended above for general outdoor workers for protection against mosquito bites. Workers performing tasks related to mosquito control, such as entering areas with dense mosquito populations (ponds and other locations of standing water), may need additional protection (additional protective clothing, enhanced skin protection), depending on their job tasks.
- Workers who mix, load, apply, or perform other tasks involving wide-area (or area) insecticides may need additional protection to prevent or reduce exposure to hazardous chemicals.
- Workers conducting mosquito control operations with insecticides may require respirators, which must be used in accordance with the respirator selection, medical clearance, fit-testing, and other requirements of OSHA’s Respiratory Protection standard.
Business Travelers
- Follow CDC guidance for travel to areas with active Zika transmission
- Employers should consider allowing flexibility in required travel to areas with active Zika transmission for workers who are concerned about Zika virus exposure.
- CDC recommends that pregnant women not travel to areas with active Zika virus transmission.
- Consider delaying travel to areas with active Zika virus transmission, especially for workers who are or may become pregnant or whose sexual partners may become pregnant.
- Even if they do not feel sick, travelers returning to the United States from an area with Zika should take steps to prevent mosquito bites for 3 weeks so they do not pass Zika to mosquitoes that could spread the virus to other people.
CDC will continue to update its guidance related to occupational exposure to Zika and related health effects based on the accumulating evidence, expert opinion, and knowledge about the risk associated with other viral infections. For updates, visit: www.cdc.gov/zika
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