Matthew Bumbach

Bluegrass band plays in the background, camera focuses on pipe, wallet, and a small in on a weathered wooden table.

Technology and Bluegrass: More Than Just the Electric Banjo

history, music, Technology

By Christy Tidwell and Matthew Bumbach

After Matthew Bumbach’s recent Brown Bag presentation on the history of bluegrass, I found myself thinking about the role of technology in the genre. I’ve long listened to bluegrass myself but have largely taken the technologies involved for granted. I wondered what we can learn about technology by thinking about its role in the arts and also what we can learn about bluegrass specifically by paying attention to its relationship to technology. To find out more, I invited him to discuss the topic.

Christy Tidwell: For any readers who may not be familiar with bluegrass, let’s quickly provide some basic information. How would you define bluegrass in just a couple of sentences? And what is the basic history of the genre?

Matthew Bumbach: Bluegrass music emerged from old time music and hillbilly string bands from the historically isolated region of Appalachia. The primary instruments in the genre are fiddle, mandolin, banjo, guitar, upright bass, and singers. Bluegrass emerged, as a genre, during the 1940s and 1950s and owes a lot of its character to the unique playing and singing of Bill Monroe, Lester Flatt, and Earl Scruggs.

One of Bill Monroe’s first appearances on the Opry.

CT: With that established, I’d like to focus more specifically on the relationship between bluegrass and technology. People often tend to think about technology as high-tech or futuristic, and bluegrass is not seen as either of those things. Historically speaking, what technologies were important for the creation and dissemination of bluegrass music?

MB: That is an excellent question and one that we don’t often discuss when we talk about this genre. Bluegrass could not have developed the way it did without the microphone. In the early days of bluegrass, the entire band would gather around a single microphone in both recording and live performance applications. They would create blend and balance through the use of proximity to the microphone.

The microphone was first invented and introduced to the public in 1877 by Emile Berliner, but it would be decades before we had a microphone that was effective enough to do what the pioneers of bluegrass needed. E.C. Wente invented the condenser microphone (or capacitor microphone) in 1916, a much more sensitive microphone than the earliest moving coil mics from the previous century. It took several more decades for condenser microphones to be study and cheap enough for use by the general public.

I mention the microphone as an indispensable technological advancement in the development of bluegrass music because bluegrass was professional music played by professional musicians. Unlike old time and hillbilly music that was played in churches, porches, and barns, bluegrass music developed in part because it could be played live for large audiences. Virtuosic professional musicians toured the country spreading these new sounds. Furthermore, bluegrass spread through recordings and radio. None of this could have happened without the microphone.

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Black and white photo of a man playing the banjo, with his hand blurred from fast movement.

A Brief History of Bluegrass

Events

On Tuesday, April 20, 2021, at 11 am (Mountain time), Dr. Matthew Bumbach will present a Brown Bag on the history of bluegrass. This free presentation will be held via Zoom, and more information is available on the SDSM&T Humanities & Social Sciences Facebook page.

Bluegrass music is all around us. Though the genre sprung from the old-time music of Appalachia, a historically isolated region, bluegrass has found its way deep into popular culture. With this increased visibility we are beginning to see more inclusion of bluegrass instruments in other genres. These include banjos and mandolins appearing in popular music, choral arrangements of popular bluegrass songs, and larger works for choir and bluegrass band. Some of these works preserve as many characteristics of traditional bluegrass as possible, while others simply borrow bluegrass instruments and apply them to folk song arrangements.

Dr. Matthew Bumbach will present a brief history of the bluegrass genre and map out its recent expansion.

Photo credit: Paul VanDerWerf, “Banjo Blur” (Flickr)
The Future if there is one is Female

Women in Science & Technology III: Now and Into the Future

Women in STEM

In this third entry in our women in science and technology series, we focus on women working right now and on the impacts women can continue to have into the future. Two of today’s entries deal with weather and climate, attesting to the importance of climate to our present and future; two emphasize the relationship between science and the arts; and one illustrates the potential our students here at South Dakota Mines have to build on the accomplishments of past women in STEM and to shape the future.

Katherine Hayhoe – selected by Frank Van Nuys

Canadian-born Katherine Hayhoe is a well-known figure in climate activism circles, in large part because of her down-to-earth and engaging skills as a science communicator. After completing a B.S. in physics and astronomy at the University of Toronto, she switched to atmospheric science for her M.S. and Ph.D. at the University of Illinois-Champaign. She is currently a professor of Political Science at Texas Tech University, where she also co-directs that institution’s Climate Center. In addition to more than 125 peer-reviewed publications, Hayhoe has contributed to climate change studies by the National Academy of Sciences and the Intergovernmental Panel on Climate Change. As an evangelical Christian, Dr. Hayhoe has tried to bridge the gap between science and religion, particularly on climate change. Between 2016 and 2019, she hosted and produced a PBS web series, Global Weirding: Climate, Politics, and Religion

Nathalie Miebach – selected by Matt Whitehead

Nathalie Miebach is an artist who uses weather data to create sculptures and collaborative musical scores. In her sculptures she uses basket weaving techniques, assigning different reed thickness, colors, and other objects to specific types of weather data, often focusing on extreme weather events such as hurricanes. As she says in her TED talk, “Weather is an amalgam of systems that is inherently invisible to most of us. So I use sculpture and music to make it, not just visible, but also tactile and audible.” Science is important, but if it cannot be communicated to others and understood – both intellectually and emotionally – its importance is limited. Miebach’s work helps communicate science to a broader audience and also shows that art and science can be understood together. Learn more about her work at her site, and check out her TED talk about her art using weather data below.

Laurie Spiegel – selected by Matthew Bumbach

Laurie Spiegel (b.1945) is a computer graphics specialist who has worked at Bell Laboratories since 1973. She is also a classical composer, guitarist, and lutist. Spiegel has found a way to combine her passions through the medium of electronic music both as a composer and as a programmer. Though she is a well-known composer and performer, she is most celebrated as the creator of the program Music Mouse.

Music Mouse demonstration

Music Mouse is an “intelligent” algorithmic music composition software. With a built-in knowledge of chords use, scale conventions, and stylistic practices, the software allows the user to create real-time compositions by simply moving the mouse. Spiegel has used the software for several compositions, including Cavis muris (1986) and Sound Zones (1990).

Laurie Spiegel ‎- The Expanding Universe (1980)

Laurie Spiegel’s revolutionary work in the field of technology has led to countless innovations. Her influence as a composer and performer, however, has propelled electronic music forward at warp speed. While science, technology, engineering, and mathematics (STEM) profoundly impact our world, Laurie Spiegel’s ground-breaking career illustrates the potential impact of arts integration (STEAM).  

Kiley Westergaard – selected by Karen Westergaard

Without even knowing it, we rely on scientists for information in our everyday lives. We take products, and our scientists behind the scenes, for granted. Behind the scenes, a female scientist tests and labels our products, ensures they are safe, quality products for us to use. She’s behind that nutrition label on your food products. At her lab, she tests for the protein, the fat, the fiber, all the items on your nutrition label. She then generates the product nutritional label so that you know what you are consuming. For instance, those trending seltzers right now? She’s testing each seltzer and creating the nutritional label for each. Ever wonder how long a certain food lasts before it becomes rancid? She’d know. She tests products for that too. That’s why you have the convenience of product expiration labeling. Worried about consuming products with GMOs? She’s got that too. She tests products like corn and soybeans to determine if they are genetically modified. She’s the reason you can find products labeled non-GMO. Worried about your food containing traces of chicken, beef, pork, alligator, kangaroo, goat, or rabbit? With meat speciation, she tests to ensure the product that reaches your home is safe to consume and is labeled accurately. Ever think about who’s behind the scenes? Scientists like you. Scientists like Kiley Westergaard, Chem ’19, SD Mines.

If you missed them, check out our first and second entries in this series, too!