Not only was 2013 the
centennial of the 1913 flood, but also of the birth of emergency radio. No
coincidence: It sprang to life during the flood from swift, spontaneous, heroic action of high
school and college ham radio operators in Ohio and Michigan providing emergency
communications
“S.O.S. S.O.S.” With steady hands, despite the roar of surging floodwaters all too audible from his bedroom window, 15-year-old Herbert V. Akerberg, begins tapping the telegraph key of his hastily assembled ham radio apparatus. “Hilltop Business Men’s
association wants city to send boats. Supplies will last until
about tomorrow. Men are hanging on trees. Send supplies. Water is receding. Try
and get us water and gas. People are suffering. Send this to Mayor Karb at
once. S.O.S.”
“S.O.S. S.O.S.” With steady hands, despite the roar of surging floodwaters all too audible from his bedroom window, 15-year-old Herbert V. Akerberg, begins tapping the telegraph key of his hastily assembled ham radio apparatus. “Hilltop Business Men’s
 |
| The raging Scioto River tore through the Broad Street bridge, isolating the west side of Columbus, Ohio, from the rest of the city. Source: Ohio Historical Society |
From that moment Wednesday afternoon, March 26, 1913,
through the long night and into Thursday morning, the high school student does not
leave his battery-powered new-fangled electrical “wireless telegraphy” equipment.
His mother brings meals to him in his room and silently takes away the last
tray so her son could uninterruptedly send appeals for help and report on the
tragic conditions of the submerged west side of Columbus, Ohio— from which no
word had been heard until his youthful fingers begin tapping out Morse Code. As
darkness falls Wednesday evening and pounding rain turns to snow, Herbert
recounts how women and children marooned in trees since Tuesday night are in
danger of freezing in the dropping temperatures.
 |
| Akerberg's first message in the March 26 Columbus Citizen |
His signals, transmitted from his long antenna through the
very air itself, are received by another wireless telegraphy station atop the
Harrison Building in downtown Columbus. Word also gets to newspaper reporters
at the Columbus Evening Dispatch, who
laboriously ford their way by boat through the raging current to the Akerberg
house on Midland Avenue, managing to reach the house Thursday morning and pound
on the door. The group includes two experienced wireless telegraphy operators,
who relieve the exhausted teenager from his all-night vigil and begin transmitting
news of rescues and names of missing persons for the newspaper.
Akerberg’s first message—preserved verbatim in the competing
newspaper Columbus Citizen—is often
cited as the first use of radio technology in a national emergency. Perhaps
that is because Akerberg himself grew up to be a pioneer in radio and
television (among other things, a decade later he invented a mixing panel
for adjusting the levels of three separate studio microphones when recording
performances, and also invented a mobile car radio for a railroad district
superintendent that could send and receive messages when driving 50 miles per
hour).
But the boy was not the only ham radio operator alerting the
world to the horrific flood raging through Ohio and elsewhere in the Midwest. Nor
was he the first that fateful flood week, as ample evidence reveals (sorry to be a myth-buster!).
 |
| Map of Columbus flood district shows levee breaks and direction of current. Long nearly horizontal line is Broad Street. Red X shows approximate position of Akerberg's house on dry land to west of the flood district. Map: Ohio State Board of Health, May 1913. |
Upstart technology,
lawless behavior
Wireless telegraphy seemed like magic.
Ever since 1888, when Heinrich Hertz demonstrated that it
was possible to produce and detect electromagnetic radiation through the air,
Italian-born Marchese Guglielmo Marconi (1874–1937) became possessed with the
idea of creating a practical system of wireless telegraphy: the transmission of
telegraph messages through the air through what was then called “Hertzian
waves” (radio waves) instead of through wires. In December 1901, after several
failures, he dramatically succeeded: from
St. John’s, Newfoundland, he faintly but distinctly heard the repeated Morse
Code symbol for the letter “S” (three dots or short closures of the
finger-operated key that closed the telegraph circuit) transmitted by an
assistant with equipment in Cornwall, England. The news that wireless
telegraphic signals had been bridged the vastness of the Atlantic Ocean was
nothing short of, well, electrifying; for that achievement, Marconi shared the
1909 Nobel Prize in Physics.
By the turn of the twentieth century, the telegraph invented
by Samuel F. B. Morse in the 1840s was a well-established commercial wireline technology.
The newer wireline technology of the telephone, carrying the actual sound of
the human voice over wires, was rapidly expanding into businesses and homes.
But conquering the airwaves—that was a whole new frontier with potentially a
revolutionary financial model: All you needed were transmitters and receivers
without a whole expensive infrastructure of thousands of poles and tens of
thousands of miles of wires. And unlike telegraph or telephone, which was
strictly point-to-point from one end of a wire to the other, wireless signals
radiated from an antenna in all directions—thus opening a brand new and almost
unimaginable potential of broadcasting from one transmitter to many receivers
at once.
 |
| One of the levee breaks along the Scioto River, March 26. Source: Ohio Weather Library |
Scientists and engineers immediately recognized the technical
possibilities, even if financial backers did not immediately grasp the
commercial possibilities. Moreover, the wireline telegraph and telephone
companies immediately recognized an up-and-coming potential threat, and sought
legislation to limit the new wireless technology.
After plans for a build- this-at-home battery-powered “ham”
radio station were first published in several electrical hobbyist magazines, the
genie was really out of the bottle. Across the nation literally thousands of
putterers and tinkerers—many of them boys (and even some girls) as young as nine—became
enraptured by the sheer challenge and romance of instant communications across
hundreds of miles with equipment they could cobble together from parts carried
at local hardware stores.
Within a decade of Marconi’s first transatlantic signal, the
air waves became a veritable wild West of unregulated behavior, where anyone
anywhere could—and did—transmit and receive on any wavelength at any power. Some
amateur operators had better equipment than the U.S. Navy, which was
increasingly troubled by loud interference with ship-to-shore communications.
Many amateur operators were hardly more than children, giving a bad name to the
whole field in general with their bad Morse code and bad manners, and even outright
rudeness. More than a dozen times, each time with increasing anxiety and
urgency, the commercial wireline interests, ship captains, and others leaned on
Federal legislators to bring order to the airwaves (at the least) and silence
the lawless amateurs (at the best).
 |
| Floodwater released down Broad St. in Columbus by bursting levee was so forceful it toppled houses. Source: Model T Ford Forum |
Heavy hand of Federal
law
Their wish came true in August 1912, when the U.S. Congress
passed “An Act to regulate radio communication,” signed into law a week later by
President William Howard Taft. Slated to take effect before year end, the 1912
Radio Act (as it was called for short) specified various classes of wireless operators
that were now required obtain licenses and operate only at certain power levels
and wavelengths, under penalty of hefty fines and revocation of their licenses.
The new law also specified that the distress call to be used in times of
disaster would be the international signal “S.O.S.,” which letters in Morse
Code consist of three short, three long, and three short (…---… ) [see comment from reader William N. Smith at end].
The fifteenth section of the 1912 Radio Act targeted amateur
operators, although not by name. It specified: “No private or commercial
station not engaged in the transaction of bona fide commercial business by
radio communication or in experimentation in connection with the development
and manufacture of radio apparatus for commercial purposes shall use a
transmitting wave length exceeding two hundred meters, or a transformer input
exceeding one kilowatt.” Since at that time the prevailing belief that the
longer the wavelength the better, amateurs felt being confined to 200 meters or
shorter (frequencies higher than 1,500 kilohertz) as a serious blow. An even
greater blow was the restriction to a transmitter power only a fifth that of
some amateur rigs. Given the technology at the time, the effect of the 1912
Radio Act was to restrict amateurs’ effective range to under 100 miles.
Although some amateurs immediately complied and duly applied
for licenses and modified or dismantled their equipment, others couldn’t
believe the worst had happened and continued to operate their old rigs in open
defiance.
 |
| Hurricane force winds snapped telegraph and telephone poles from Canada to Mexico during Good Friday windstorm. Source: Bell Telephone News, May 1913 |
Then, less than three months after the new radio law took
effect, on Good Friday, March 21, 1913, came the monumental wind and ice storm that
swept the eastern half of the United States from Ontario, Canada, to the Gulf
of Mexico. Its hurricane-force winds snapped telephone and telegraph poles by
the hundreds, and the weight of ice pulled down thousands of miles of wire. The
windstorm instantly and severely crippled telegraph and telephone communications
across great portions of the eastern United States, both preventing the weather
service from gathering information about the megastorm system moving in from
farther west, and issuing timely warnings (see “The First Punch”).
48 hours later, on Easter Sunday, March 23, the dozen deadly
tornadoes killed some 250 people in Nebraska, Iowa, Kansas, Missouri, and
Indiana, and record sustained torrential downpours centered on Indiana and Ohio—precipitating
the turbulent rising waters of the monumental Great Easter 1913 flood.
University students to
the rescue
On Easter Monday, March 24—two days before Herbert Akerberg gets
his apparatus working on the Hilltop—University of Michigan undergraduate B.N.
Berglund in Ann Arbor is busily relaying routine wireless messages to other
wireless stations when he hears a distress signal from an unfamiliar wireless
operator in Fremont, Ohio, southeast of Toledo. “The city of Fremont is under water!” the Ohio operator’s dots and
dashes spell out. “The captain of the
Port Townsend Life Saving Station has drowned trying to rescue people. All
telegraph and telephone wires are down! Wireless is the only communication we
have to the outside world! Whoever hears this, please send us help!”
 |
| 1913 flood in Columbus is reconstructed in this centennial 2013 graphic. Source: The Columbus Dispatch |
Berglund can scarcely believe his ears. Yes, the rain
pounding on the Michigan station roof is heavy, but could it be true that such
a monumental disaster is raging through Ohio?? Shortly, another transmission
arrives from D. A. Nichols at Wapakoneta, Ohio (call letters 8IM according to
the 1914 Wireless Blue Book) in the
western part of the state southwest of Lima, urgently describing how that city is
cut off from the world and the flood is doing great damage.
Convinced of a major flood sweeping the state of Ohio,
Berglund instantly broadcasts a general call at the highest power the Michigan
station could muster to all wireless operators within the flood district: “Anyone with important messages related to
flood sufferers, use the wavelength and power best suited to your set to get
word out to the world! We at the University of Michigan will do all we can to
get help.”
Within a radius of 500 miles of Ann Arbor, amateur wireless stations
large and small hear Berglund’s call and immediately respond. A Mr. Umbarger in
Mansfield (in north central Ohio), Mr. J. B. Hyatt in Mt. Vernon (between Mansfield and Columbus), the Ohio State
University (OSU) wireless station in Columbus, and Mr. McGregor at Springfield
(between Columbus and Dayton) all report their cities inundated and in frantic
need of rescue and basic supplies. Alarmed, Berglund asks the OSU station to
relay a message to Ohio Governor James M. Cox: “One hundred Michigan students in readiness. Can you use them in rescue
work? Signed, University of Michigan.”
 |
| Beginning of article in The Ohio State University campus newspaper The Ohio State Lantern of relaying the two wireless telegraphy messages from University of Michigan and Mt. Vernon to Governor Cox. |
Meantime, in Columbus, OSU student and wireless operator J.A.
Mercer receives an urgent message from J.B. Hyatt about the horrific plight in
Mt. Vernon, also directed to the governor: “Great
flood: 100 lives lost, railroad lines all down; outside world cut off;
thousands of dollars damage; Pennsylvania, Baltimore and Ohio railroads have
miles of track washed out.”
Governor Cox, himself marooned in the Ohio State House and doing business by torchlight (see “The Governor’s Ear”), welcomes the OSU student's contact. He himself has almost no long-distance wireline communication with the outside world aside from a single phone line to Dayton—crippling his knowledge of what areas of his state are severely hit and need resources. So upon receiving a local telephone call from OSU relaying Hyatt’s call for help, Cox immediately commands that provisions and other supplies be started toward Mt. Vernon.
Governor Cox, himself marooned in the Ohio State House and doing business by torchlight (see “The Governor’s Ear”), welcomes the OSU student's contact. He himself has almost no long-distance wireline communication with the outside world aside from a single phone line to Dayton—crippling his knowledge of what areas of his state are severely hit and need resources. So upon receiving a local telephone call from OSU relaying Hyatt’s call for help, Cox immediately commands that provisions and other supplies be started toward Mt. Vernon.
OSU operator Mercer remains at his radio key for 70 hours
straight without sleep, eventually collapsing. But by then reinforcements in
the form of wireless operators from Ohio National Guard and the U.S. Army
Signal Corps—with five portable wireless sets from the War Department—have finally
been able to get trains through to the stricken region.
Two hundred miles north of Columbus in Ann Arbor, the University of
Michigan station also remains manned round the clock. For seven straight days from
Monday, March 24 through noon the following Monday, March 31, Berglund and
three other students take rotating shifts, handling messages among all many
points in the flood districts and to and from the Western Union telegraph
service. Newspaper reporters who could not travel into the flooded areas set up
camp inside the Michigan wireless telegraphy station to gather news printed
later that day.
Birth of emergency
radio
In recounting his experiences in the April 1913 issue of the
wireless telegraphy magazine Modern
Electrics, Berglund concludes: “As a class I wish to praise the amateurs.
They have shown to the world that wireless can be of the greatest service when
called upon.”
 |
| Article in March 27 Plain Dealer reporting Rep. S.J. Bulkley's declaration to support a bill in Congress for emergency radio on land. |
Nor was that perspective lost on The Powers That Be. Indeed, it was clearly an idea whose time had come all across the country.
Almost instantly, members of Congress became fans instead of foes of wireless telegraphy. Floodwaters were still cresting on Wednesday, March 26—and young Herbert Akerberg in Columbus had only just begun his own transmissions from Hilltop—when Rep. S. J. Bulkley of Cleveland declared that the Ohio delegation to Congress would join in the introduction of a special session of Congress asking the War Department to submit estimates and plans for extending wireless telegraphy to the interior of the nation. After all, Bulkley pointed out in an article published in the March 27 issue of the Cleveland Plain Dealer, the Navy already ran extensive ship-to-shore wireless telegraphy communications along the Pacific and Atlantic coastlines as well as for communications with Alaska and Hawaii. How hard could it be?
That same day, in an article published by the Council Bluffs (Iowa) Nonpareil, G. W. Stewart (head of the physics department at University of Iowa) declared: "Wireless stations at such times as the Omaha-Council Bluffs disaster would be invaluable." Speaking on behalf of the hundreds dead and thousands injured and displaced from 10 tornadoes that swept across Nebraska and Iowa from the same ferocious storm system Easter night (see "'My Conception of Hell'"), Stewart asserted that a movement should be started to get a network of wireless stations across the entire nation.
Almost instantly, members of Congress became fans instead of foes of wireless telegraphy. Floodwaters were still cresting on Wednesday, March 26—and young Herbert Akerberg in Columbus had only just begun his own transmissions from Hilltop—when Rep. S. J. Bulkley of Cleveland declared that the Ohio delegation to Congress would join in the introduction of a special session of Congress asking the War Department to submit estimates and plans for extending wireless telegraphy to the interior of the nation. After all, Bulkley pointed out in an article published in the March 27 issue of the Cleveland Plain Dealer, the Navy already ran extensive ship-to-shore wireless telegraphy communications along the Pacific and Atlantic coastlines as well as for communications with Alaska and Hawaii. How hard could it be?
That same day, in an article published by the Council Bluffs (Iowa) Nonpareil, G. W. Stewart (head of the physics department at University of Iowa) declared: "Wireless stations at such times as the Omaha-Council Bluffs disaster would be invaluable." Speaking on behalf of the hundreds dead and thousands injured and displaced from 10 tornadoes that swept across Nebraska and Iowa from the same ferocious storm system Easter night (see "'My Conception of Hell'"), Stewart asserted that a movement should be started to get a network of wireless stations across the entire nation.
The next day, the Plain
Dealer itself ran a short editorial “Wireless on Land” supporting his cause:
A vessel sinking in the midst of
the Atlantic, can, no matter how desperate her plight, make known her distress
to the world and send forth her call for help. An inland region overwhelmed by
a disaster greater than any sea horror, has been compelled to remain almost
inarticulate. The question naturally arises as to why the wireless telegraph,
which is of such utility at sea, should not be established on land, that there
may be no place in the United States beyond its reach. … The lesson of the Ohio
floods certainly proves that the subject is worth thought and investigation.
Furthermore, that weekend, after the floodwaters had receded
and left the state of Ohio knee-deep in mud and ruin, U.S. Congressman William
Graves Sharp of Elyria (and later ambassador to France under President Woodrow
Wilson), addressed a large gathering at Grays Armory in Cleveland, declaring:
“The recent flood disaster has brought the need of wireless telegraphy to a
prominent place in the minds of the public.” Sharp advocated the use of
wireless telegraphy as a means of summoning aid, as well as the use of
“aeroplanes” to deliver mail and supplies to areas isolated by wrecked railroad
lines or bridges.
That same weekend, in Illinois, the Moline Daily Dispatch noted in a March 29 editorial titled "Why Not?' that "Congressman C. M. Thomson of Chicago has formulated a bill to put the government into the wireless telegraph business. The idea was suggested to him by the recent disasters, in Omaha and in Indiana and Ohio. With wire lines all down, help cannot be summoned and much valuable time is lost." The newspaper editor endorsed the idea, "disaster or no disaster" and advocated that the Federal government should attach it to the postal service, and that the wireline services should forget aerial wires on poles and run them underground.
Happy centennial, emergency radio!
That same weekend, in Illinois, the Moline Daily Dispatch noted in a March 29 editorial titled "Why Not?' that "Congressman C. M. Thomson of Chicago has formulated a bill to put the government into the wireless telegraph business. The idea was suggested to him by the recent disasters, in Omaha and in Indiana and Ohio. With wire lines all down, help cannot be summoned and much valuable time is lost." The newspaper editor endorsed the idea, "disaster or no disaster" and advocated that the Federal government should attach it to the postal service, and that the wireline services should forget aerial wires on poles and run them underground.
Happy centennial, emergency radio!
Meantime, if amateur operators were to be effective in major regional
disasters akin to the 1913 flood that spanned thousands of square miles,
something had to be done to augment each station’s limited range.
 |
| Happy centennial, American Radio Relay League! The ARRL will commemorate its centennial at its national convention July 17-19, 2014. |
Almost exactly a year after the flood, in early March 1914,
engineer Hiram Percy Maxim came up with the idea to organize the informal
system of relaying messages as amateurs had long been doing ad hoc, through
creating an organization called American Radio Relay League (ARRL). It was an idea whose time had come, and instantly spread. Within two
months, the organization was operating, with scores of radio clubs around the nation
eager to participate. By September, ARRL published a map of the U.S. showing
237 relay stations in 32 states and Canada. That fall, Maxim went to
Washington, D.C., to meet with the Commissioner of Navigation of the U.S. Department
of Commerce to secure special wavelengths and establish ARRL in official
circles. In December 1915, the ARRL began publishing a monthly magazine called QST. Both the ARRL and QST are still going strong today. Thus,
this year 2014 is the ARRL’s own centennial.
Meantime, in March 1915, there was another flood in the Ohio
River valley—thankfully not anywhere near the magnitude of the colossal
disaster of two years earlier, nor did it disable wireline communications. But
it was alarming enough that J. F. Dillon, the Department of Commerce’s radio
inspector in charge at Cleveland, supervised the operation of commercial and
amateur stations in the flood district to cooperate with authorities to
expedite the relaying of emergency messages. Dillon also inspected many
stations with a view to organizing chains of stations for emergency
communications should a 1913-scale calamity befall the area again. Upon his
recommendations, several special licenses for special wavelength and signal
power were granted to amateur stations.From then on, amateur radio operators were
integral to emergency radio communications, including during the Mississippi
River flood of 1927 and the Ohio River valley flood of 1937.
 |
| The ARRL's Amateur Radio Emergency Service (ARES), is crucial to communications in natural disasters through its agreement with the Federal Emergency Management Agency (FEMA).. |
In 1984, the Federal Emergency Management Agency (FEMA)
signed a memorandum of understanding with the ARRL for amateur radio operators
to provide electronic communications for state and local governments in times
of disaster. Meantime, the Federal Communications Commission (FCC) has licensed
over 600,000 U.S. amateur radio operators, some 80,000 of whom have registered
their availability for emergency communications in disasters through the ARRL’s
Amateur Radio Emergency Service (ARES), founded in 1935.
Every year, April 18—celebrated as the birthday of the
International Amateur Radio Union (IARU), founded in 1925—is known as “World
Amateur Radio Day,” which each year has a different theme. Last year (2013), in
time for the centennial of both the 1913 flood and the birth of emergency
radio, the theme for World Amateur Radio Day was “Amateur Radio: Entering its Second Century of Disaster Communications,” commemorating Herbert Akerberg’s use of amateur radio to do yeoman duty in Columbus in calling for help during
the Great Easter 1913 flood—symbolizing the work of a host of other dedicated amateurs, many of whom were just teens.
Amateur radio still needed today?
In today’s world of ubiquitous cell phones, wireless
internet access, and social media, do amateur radio operators still have a
useful role?
“Certainly!” declares Hans van Groenendaal in his online article
“Second century of disaster communications” and explains:
Immediately after a disaster, such
as an earthquake or a tsunami, if the formal communications systems are not
destroyed, they crash due to extreme overload. Radio amateurs with a
transceiver and some copper wire get communication going from just about
anywhere in no time. Earthquakes in Japan, India and Hawaii have proved that
the first communication from a stricken area comes from radio amateurs. This
agility is possible because radio amateurs are widespread and can set up their
own radio relay links to meet whatever conditions exist at the time.
Not mentioned is another important consideration: emergency
ham radios may be compact, mobile, and battery powered and thus able to keep transmitting and
receiving even if regional power is lost in a massive power failure—a situation
that would render many cell towers and internet servers just as mute today as
the downing of the telegraph and telephone wires and electric power plants did
during the Great Easter storm system of 1913.
Happy centennial, ARRL!
Reader comment: E-mail message received from William N. Smith on April 25, 2014: "One of the issues is H.V, was the first individual 'reported' not operating. Next is he was in the disaster, not receiving outside. SOS is a pro sign usually written with a line above it. The program here won't allow me to post it as such. S.O.S would be dit dit dit (space) di-dah-di-dah-di-dah (space) dah-dah-dah (space) dit-dit-dit (space) di-dah-di-dah-di-dah. As with many things there are large numbers of people involved and a team effort is made. Marconi built his radio with no less than 12 of Tesla's patents."
T.E.B. reply: That is an excellent distinction that H.V. Akerberg was actually reporting from within the flooded district (although it appears his house was on a rise, perhaps effectively an island surrounded by floodwaters) instead of receiving from the outside, as the University of Michigan students may have been. H.V. also slogged out into the waters to gather personal reports and messages that he then radioed; and indeed, his messages were relayed by other amateur radio stations. His may not have been the only amateur radio station operating within the flood region, however, as J.B. Hyatt was reporting from flooded Mt. Vernon (before his batteries died). Moreover, on April 23, 2014, during research of The Pittsburgh Gazette Times on microfilm at the Carnegie Library, I found that wireless telegraphy was attempted from the Carnegie Institute of Technology (now Carnegie Mellon University) in Pittsburgh, trying to communicate with the steamer Admiral Dewey that the city launched at noon on Friday, March 28, 1913, with supplies and aid bound for Zanesville, Ohio (see clipping at left from PGT March 29, 1913 p. 3). A week later, in reviewing my photocopies of The Daily Times that served Davenport, IA and Moline, IL, I found an article describing how Hugo Martens in Chicago tried for three hours in vain to raise the military operator at Fort Omaha on Monday night, March 24, for news about tornado-devastated Omaha. Upshot: wireless telegraphy was more widespread and important both outside and throughout the entire disaster area, and my research is still a work in progress... Again, thank you for your thoughtful feedback.
Reader comment: E-mail message received from William N. Smith on April 25, 2014: "One of the issues is H.V, was the first individual 'reported' not operating. Next is he was in the disaster, not receiving outside. SOS is a pro sign usually written with a line above it. The program here won't allow me to post it as such. S.O.S would be dit dit dit (space) di-dah-di-dah-di-dah (space) dah-dah-dah (space) dit-dit-dit (space) di-dah-di-dah-di-dah. As with many things there are large numbers of people involved and a team effort is made. Marconi built his radio with no less than 12 of Tesla's patents."
©2014 Trudy E. Bell
Next time: An Unnecessary Tragedy: The Johnstown Flood
Selected references
The most
detailed account I have found so far of the University of Michigan amateur
radio operators is “The Wireless Amateur in Times of Disaster,” Modern
Electrics, April 1913, page 218.
Coile, Russell
C., “The Role of Amateur Radio in Providing Emergency Electronic Communication for Disaster Management,” New York City
Amateur Radio Emergency Communications Service, February 2, 2013, excerpts
the text of the FEMA memorandum of understanding with ARRL.
DeSoto, Clinton B., wrote several key works. For general history and context as well as scattered references to the 1913 flood, see his book Two Hundred Meters and Down: The Story of Amateur Radio (West Hartford, Conn.: The American Radio Relay League, Inc., 1936). For later work of amateur radio operators during the 1937 flood, see his nine-page article “In the Public Interest, Convenience and Necessity: A Detailed Account of the Amateur Emergency Work in the Flooded Ohio River Valley: January 21st–February 5th,” QST April 1937.
Galbreath,
Charles B., “Herbert V. Akerberg,” History
of Ohio (in five volumes), (Chicago and New York: American Historical
Society, 1925) Vol. III, pp. 172–173 has the most detailed biography I have
found among all the sketchy and contradictory biographies of Akerberg and
accounts of what he did during the 1913 flood. Galbreath reports that “for
about three days and nights, practically continuously for seventy-two hours,
young Akerberg remained on duty at his radio set” (p. 173) but no start or end
dates are indicated. The March 27 issue of the Columbus Citizen, which gave the full text of Akerberg’s S.O.S.
text, clearly indicates his message was received “Wednesday afternoon”, i.e.,
March 26, a claim repeated on page 10 and also in an article the same day on
page 6 in the competing Columbus
Dispatch. That latter article specifically states that “Wednesday afternoon
he rigged up his apparatus and was able to send out a number of messages” but
“his outfit, gotten together hurriedly, was not working well until Wednesday
night.” Even the content of Akerberg's own message indicates he was transmitting late Wednesday, as he stated the water was receding, and any earlier than then it would have been cresting or even rising. It is very possible that Akerberg did remain on station for 72 hours
from Wednesday through Saturday, but by then there were so many amateur
operators already communicating that it is highly doubtful that he was the
first, not even in Columbus. That fact does not, however, diminish the important local role the 15-year-old boy played in securing help for the submerged west side of the city.
Hinds,
Condrade C., Columbus and the Great Flood
of 1913: The Disaster that Reshaped the Ohio Valley (Charleston, SC: The
History Press, 2013) is a centennial book published sometime last year of which
I was unaware until I stumbled on it while researching this installment. I have
not yet seen a copy; it can be previewed and ordered online
.
Lippmann,
Stephen, “Boys to Men: Age, Identity, and the Legitimation of Amateur Wireless
in the United States, 1909–1927,” Journal
of Broadcasting & Electronic Media 54(4), 2010, pp. 657–674 explores
the “boy problem” and the interference of juvenile ham radio operators in the
context of early 20th-century society.
“The Ohio
Flood,” Radio Service Bulletin, No.3, March 1915, page 7, is a too-brief three-paragraph account of J.F. Dillon’s inspections of
amateur radio stations with an idea of organizing a chain of stations for
emergency radio communications in times of disaster.
Ohio State
University, The, The Ohio State Lantern (student
newspaper), April 2, 1913, printed the full text of the offer of help from the
100 University of Michigan students.
van
Groenendaal, Hans, “Second century of disaster communications” online article
for EngineerIT (January 17, 2013 ) is
here.
White, Thomas
H., United States Early Radio History is
fundamentally a thorough reference book online. Relevant
to this post on the birth of emergency radio is section 12 “Pioneering Amateurs(1900–1917).” The full text of “An Act to regulate radio communication” of August 1912 is here.
Bell,
Trudy E., The Great Dayton Flood of 1913,
Arcadia Publishing, 2008. Picture book of nearly 200 images of the flood in
Dayton, rescue efforts, recovery, and the construction of the Miami Conservancy
District dry dams for flood control, including several pictures of Cox.
(Author’s shameless marketing plug: Copies are available directly from me for
the cover price of $21.99 plus shipping, complete with inscription of your choice;
for details, e-mail me.)
