Search results
Results from the WOW.Com Content Network
Climate change in Oklahoma encompasses the effects of climate change, attributed to man-made increases in atmospheric carbon dioxide, in the U.S. state of Oklahoma. The United States Environmental Protection Agency has noted: "In the coming decades, Oklahoma will become warmer, and both floods and droughts may be more severe.
Climate changes of 535-536 (535–536 AD), sudden cooling and failure of harvests, perhaps caused by volcanic dust 900–1300 Medieval Warm Period , wet in Europe, arid in North America, may have depopulated the Great Plains of North America, associated with the Medieval renaissances in Europe
Winters are typically cool, relatively dry, and somewhat brief, albeit highly variable. January has a normal mean temperature of 39.2 °F (4.0 °C), but temperatures reach freezing on an average 71 days and fail to rise above freezing on an average 8.3 days, and, with an average in December through February of 6.3 days reaching 70 °F (21 °C), warm spells are common and most winters see the ...
By supporting renewable energy and emission reduction, however, Oklahoma is tiptoeing the climate change line. While agencies and officials support these goals, lawmakers also have tried to ...
Robert Henson is an American author and journalist on topics primarily concerned with the weather and climate change. He grew up in Oklahoma City, surrounded by the wild weather of the US Great Plains. It was a tornado warning that got him interested in atmospheric science at the age of seven.
Oklahoma is well into fall now, but the best part of fall hasn’t even happened yet: vibrant colors of leaves. Typically in Oklahoma, leaves change color in late September and continue to evolve ...
Oklahoma City attorney Bob Burke may know more about Oklahoma history than any other living person. Born in Broken Bow 76 years ago, Burke has both a degree in journalism and a law degree, and he ...
Oklahoma sits at a frequent crossroads between three different air masses: warm, humid air from the Gulf of Mexico; warm to hot, dry air from Mexico and the Southwestern U.S.; and cold, dry air from Canada. Especially from fall to spring, Oklahoma sees frequent air mass changes, which can produce drastic swings in both temperature and humidity.