We sat down with artist and science communicator Jill Pelto to learn more about her background and fieldwork, her artistic process, and why she sees art as the key to connecting more audiences to science.
Watch the original film on relief efforts by the Workers Progress Administration to help communities along the East Coast of the United States recover from the "whirling, shrieking vortex of high wind and heavy rain" caused by the massive hurricane of 1938.
In his book, Cloud Dynamics, Robert Houze quotes Mark Twain’s Huckleberry Finn:
“The fifth night below St. Louis, we had a big storm after midnight, with the power of thunder and lightning, and the rain poured down in a solid sheet.” (Houze, Cloud Dynamics, Academic Press, 1993). The likelihood is that Twain's story was recounting a common occurrence in the Midwest summer: what we know today as the mesoscale convective system or MCS, a conglomeration of thunderstorms that often reach a peak in the middle of the night.
Well, it’s that time of year again. The National Weather Service in Miami has issued an unofficial warning for falling iguanas the week of Christmas.
If you know me, it’s no secret that my love of tornadoes runs deep. Ever since I saw my first funnel cloud at two years old, I’ve wanted to be a meteorologist. I knew I didn’t want to be a broadcaster, I wanted to do “behind-the-scenes” research on tornadoes.
What is a secret though is that I’m deathly afraid of tornadoes.
On January 14th-15th, 1972, a National Weather Service (NWS) cooperative observer (COOP) site located in Loma, Montana recorded a 103F degree temperature change (-54F to 49F) within twenty-four hours, thereby breaking the previous record of 100F recorded on January 23rd-24th, 1916 in Browning, Montana.
What if weather observations were made differently in each country, or even by State or region?
We compare observations to understand weather phenomenon in order to predict future conditions and document historical ones. If each location took their observations differently, we would never be able to understand what we are looking at.
Before today’s technology was available, skilled technicians plotted cloud and atmospheric observations on weather maps by hand. New observations arrived over telegraph or Teletype, and the plotter would create a new map each time. The information arrived in an alphanumeric code, and the plotter would have to decode and record the correct data at the location of each station. The information had to be entered quickly in order for the plotted map to be current. It also had to be entered in a universally accepted format, and it had to be legible so that the analyst could use the plotted map.
On May 30, at exactly 5 P. M., Eastern Standard Time, a great throbbing sigh, followed by a ringing cheer, went up from the multitudinous assemblage gathered at Bettis Field, Pa., for it was then that, in the words of the program, the first racing balloon "leaped into space."
Get a view of the balloons and pilots from the six countries competing in the Gordon Bennett International Balloon race in 1929.
For a first hand account of the race of 1928, read then Lieutenant William Eareckson's story of the winning balloon ride.
Film from the Prelinger Archives in San Francisco
Even tall tales have their facts, but in historical fiction the myriad factual details often far outshine the story itself. In the ever popular books of Laura Ingalls Wilder, the telling details turn out to be the truly epic—and real—weather of the past. Recent research led by Barbara Mayes Boustead (University of Nebraska—Lincoln) has begun documenting how Wilder’s book The Long Winter, isn’t just good history wrapped into a great novel. It’s also valuable climate data.
Sunlight and shadowing alter the groomed snow surfaces used for ski racing in a variety of ways. The impacts of sun and shade can be seen on everything from the way the course is prepared and how the cameras are positioned for television broadcasting all the way down to the ski chosen for the race and the type of wax placed on that ski.
With a height of 8,848 m, Mount Everest is the highest mountain in the world. For over a century, it has been the subject of exploration for both scientific and recreational purposes. This exploration began in earnest with the British expeditions during the early part of the twentieth century.
Meteorologist Janice Huff takes a look at some of the most common weather myths around and shares some great weather knowledge while she's at it.
Do you have a favorite myth or saying that you've debunked? Discuss in the Weather Band community.
The first gravitational waves ever recorded appeared in 2015. They propagated outward from the merger of two black holes; altering the fabric of space and time around them, and confirming another of Einstein's predictions.
A new tool tracking lightning across the northern hemisphere is helping to change our understanding of the phenomenon called "thundersnow." Technically defined as, "a compound of the words ‘thunder’ and ‘snow’ used informally to describe an observation of snow at the surface that occurs with lightning and thunder" by the AMS Glossary of Meteorology, thundersnow occurs rarely and has been difficult to record. But data from the recently launched Geostationary Lightning Mapper promises to change all that.
Scandinavian history is one rich with battles, raids, and trade; all of which were impacted by weather conditions of the northern latitudes, especially the formation and break up of ice floes throughout the Northern and Baltic seas. This is a closer examination of one weather event that changed the course of Danish and Swedish history.
A bit of health advice that was published especially for the weather weenies of 1928:
"Heliotherapy is much more than a bath in sunlight," says Dr. Clarence L. Hyde. Treatment with artificial lights, while it may reproduce the rays, cannot equal actual sunlight treatment which is accompanied by changing air currents, differences in atmospheric temperatures and humidity, and constant variations in the sunlight itself.
Can the past reveal the future of hurricanes? The record-breaking hurricane season of 2020 has been only one reminder of the critical role that hurricane modeling plays in saving lives and reducing impacts. Looking backwards in time may provide some new clues for how to move forward with identifying how hurricanes form and propagate within a changing climate.
Vincent Schaefer's 1955 study on changes in atmospheric conditions between the base of a mountain and its peak was only one small facet of Project Skyfire. Originally aimed at reducing lightning caused fires in timber forests in the western United States, this project created a number of fascinating projects, including Schaefer's extensive research into cloud seeding.
“There is no such thing as bad weather, only different kinds of good weather”
-John Ruskin
Those of us who believe the truth of Ruskin’s words may not see all weather phenomena as good, but we do revel in it all, fascinated by the atmosphere’s daily march wherever we live.
This paper from 1948 describes the laboratory experiment that Vincent Schaefer created for seeding a supercooled cloud and converting it to ice crystals. This was part of his work at the GE Research Laboratory in Schenectady, New York and provided the foundation for weather modification and cloud seeding experiments.
A few events to look forward to on weather, weather research, and observation trainings:
Join the National Weather Service Boston Office for an overview of how to get involved with weather and citizen science initiatives. This is focused on New England, but many of the opportunities apply across the country. You can also contact your local forecasting office for special initiatives in your area, or see below for ongoing events.
In this fascinating talk, Matthias Steiner and his team take a look at weather hazards for emerging modes of air transportation in urban landscapes, like Uber's proposed aerial taxis, and Airbus' Urban Air Mobility planning.
Recognizing that this is not something out of a Jetsons' cartoon, the research team has analyzed how current weather observations can support the future of small scale air travel. And whether the capabilities actually exist to bring these futuristic ideas into reality.