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Telestrator Terrorism:  Fear Messages in the
Television News Coverage of  Hurricane Ivan


A paper submitted to the RTVJ division

of the Association for Education in Journalism and Mass Communication




Nancy McKenzie Dupont
Associate Professor, Department of Communications
Loyola University New Orleans
Box 201, 6363 St. Charles Avenue
New Orleans, Louisiana 70118
(504) 865-3293
[log in to unmask]



Mary Blue
Associate Professor, Department of Communications
Loyola University New Orleans
Box 201, 6363 St. Charles Avenue
New Orleans, Louisiana 70118
(504) 865-3433
[log in to unmask]






Running Head:  Ivan Fear
ABSTRACT
	This paper examines the role fear-inducing messages in the coverage 
of Hurricane Ivan in the New Orleans market.  Content analysis and 
personal interviews were used to gather data.
The research results find that fear-inducing message were common and 
not limited to one kind of message-originator nor one television 
station, which is surprising given that meteorologists admitted that 
they knew the hurricane would not make a direct hit on New Orleans.

	When dangerous Hurricane Ivan entered the Gulf of Mexico and began 
moving northward as a category four storm, the four New Orleans 
television news stations went into high gear.  From Monday, September 
13 through Wednesday, September 15, the stations went to 
extraordinary lengths to inform the public about Hurricane Ivan's 
predicted path.  They interrupted programming, broadcast news 
conferences live, and dispatched reporters throughout the viewing 
area; some of the stations called on their sports anchors to report 
the breaking story.  All of this effort was undertaken even though 
television meteorologists believed Hurricane Ivan would not hit the 
metropolitan area (Arredondo, 2004, Katz, 2004, Thomas, 2004, and 
Wicker 2004).
	The number of people watching television during this coverage was 
huge; at one point, Nielsen estimated that 50 percent of all homes in 
New Orleans were watching television (Walker, September 20, 2004, p. 
5).  To the casual but reasonable observer of the coverage, the 
number of fear-inducing messages would appear to be significant.  For 
example, there was repeated live coverage of public officials 
pleading with citizens to leave the area coupled with predictions of 
heavy rain and high winds that could cause widespread damage.  In 
addition, there were frequent reports of clogged traffic with cars 
stuck for hours.  At one point, WVUE chief meteorologist Bob Breck 
suggested evacuees should wait to leave their homes until the traffic 
situation eased; his suggestion prompted a litany of complaints again 
him and the station from public officials (Walker, September 20, 2004, p. 1).
	This study examines the following questions:  First, did New Orleans 
television stations use fear-inducing messages to capture and keep 
the attention of the audience during three days of extraordinary 
coverage?  Secondly, did fear-inducing messages originate with public 
officials more than from television station personnel 
(meteorologists, anchors, reporters, etc.)?  And finally, were there 
any trends in the transmission of fear-inducing messages, such as a 
difference among stations or in time of day that should be noted?  In 
this paper, the researchers are attempting to answer these questions 
through content analysis.
The 2004 Atlantic Hurricane Season
	The National Weather Service's Climate Prediction Center made its 
final forecast for the 2004 Atlantic hurricane season on August 10, 
and the news was not good.  Using scientific probabilities and 
meteorological jargon, forecasters outlined a 45 percent chance of an 
above-average season for residents of the Gulf and South Atlantic 
coastlines.  The conclusions were based on data gathered from 
sea-surface temperatures in the Atlantic (which were warmer than 
normal), wind shear in the tropics (which was lower than normal) and 
the likelihood of a developing El Nino weather phenomenon (National 
Oceanic and Atmospheric Administration, August 10, 2004).  In 
non-scientific terms, that meant that the government was predicting 
12-15 tropical storms with 6-8 becoming hurricanes and 2-3 becoming 
major hurricanes, which are categories 3-5 on the Saffir-Simpson scale.
	Residents of New Orleans are accustomed to such predictions, as they 
are to massive amounts of media coverage of hurricane precautions and 
dangers.  Because of the major hurricane strikes near New Orleans in 
1965 (Hurricane Betsy), 1969 (Hurricane Camille), 1992 (Hurricane 
Andrew), and 1998 (Hurricane Georges), residents of southeast 
Louisiana pick up free hurricane tracking maps, read special reports 
on hurricane predictions in the New Orleans Times-Picayune and watch 
special programs on hurricane preparedness on the four television 
news channels every year.  New Orleans television stations in 
particular take severe weather seriously:  There are eleven weather 
reporters appearing regularly on television, all classified as 
meteorologists by education and/or training.  	
	Less than a month after National Oceanic and Atmospheric 
Administration (NOAA)'s last season forecast, however, it became 
clear to scientists and television meteorologists that the 2004 
season was worse than predicted.  Eight disturbances reached tropical 
storm status in August alone, breaking the record of seven that were 
observed during August 1933 and August 1995 (National Weather 
Service, September 1, 2004).  The most intense of the storms was 
Hurricane Charley, which moved ashore on August 13 near Cayo Casta on 
the Florida Gulf Coast with maximum winds of 145 miles per hour, and 
it was strong enough to maintain hurricane intensity across as it 
crossed the Florida peninsula west to east. It reemerged in the 
Atlantic and made two landfalls in South Carolina before it merged 
with a frontal zone.  Charley caused an estimated 13-15 million 
dollars in damage and was responsible for ten deaths (National 
Weather Service, September 1, 2004).
	In addition to its destruction, Hurricane Charley had another impact 
on the southeastern coastline.  Forecasters were expecting the storm 
to hit the Tampa-St. Petersburg area, but shortly before landfall it 
intensified from a category two to a category four storm and took a 
hard right turn.  Hurricane Charley hit 70 miles south of Tampa, and 
people in its path were caught off guard.  Meteorologists at the 
National Hurricane Center blamed the media, which they said focused 
too much on the evacuations of Tampa and St. Petersburg and too 
little on the entire hurricane warning area, which extended south to 
the Florida Keys (Los Angeles Times, August 15, 2004).
Ivan is Born
	Hurricane Ivan had it origins in the classical tropical cyclone 
model, forming off the coast of Africa near Cape Verde and gathering 
strength quickly as it moved east to west across the Atlantic 
Ocean.  It formed on August 31, became a tropical depression two days 
later, a tropical storm a day after that, a hurricane early on 
September 5 and a major hurricane later that same day (National 
Hurricane Center, October 1, 2004).  It caused major damage in 
Grenada, Jamaica, the Cayman Islands, and Cuba.  It entered the Gulf 
of Mexico through the Yucatan Channel as a category four hurricane; 
it had been a category five three previous times (National Weather Service).
	As Ivan moved northward in the Gulf of Mexico, the National 
Hurricane Center predicted consistently that its point of impact 
would be somewhere around the Alabama-Mississippi state line.  But 
the New Orleans metropolitan area was covered in the Center's 
forecast "cone," and by the time hurricane warnings were issued at 
4:00 pm on Tuesday,  September 14, New Orleans Mayor Ray Nagin had 
held two news conferences, had ordered a state of emergency, and was 
predicting 8-12 inches of rainfall in the city (Schleifstein, 2004).
	New Orleans television stations (CBS affiliate WWL-TV, NBC affiliate 
WDSU-TV, Fox affiliate WVUE-TV, and ABC affiliate WGNO-TV) began 
preempting programming early in the day on Tuesday to cover weather 
predictions, evacuation orders, traffic conditions, and public 
official news conferences.  By 9:00 am Wednesday, September 15, all 
four television news stations left network programming to cover 
Hurricane Ivan exclusively until 7:00 pm when three stations began a 
gradual return to regular programming.  WDSU-TV, however, stayed with 
hurricane coverage throughout prime time even after it was determined 
that Ivan would not seriously affect the city of New Orleans (Walker, 
September 20, 2004, p. 5).
	The payoff for the stations was huge.  On Monday evening, the second 
half hour of WWL-TV's Nightwatch newscast got a 33.4 local 
rating.  WDSU-TV was number one in prime time ratings Wednesday night 
when it stayed with live hurricane coverage rather than return to 
network programming (Walker, September 20, 2004, p. 5).  And WVUE-TV 
reported that its aggressive coverage of  New Orleans's evacuation 
problems had received more positive feedback than any other story in 
the station's history (Walker, September 20, 2004, p. 1).
The Meteorologists Remember
	Two months after the coverage of Hurricane Ivan, on November 17, 
2004, four of the city's eleven television meteorologists were 
questioned on their recollections of the coverage.  Those 
participating in the debriefing were Carl Arredondo, chief 
meteorologist at WWL-TV, Dan Thomas, meteorologist at WDSU-TV, 
Crystal Wicker, morning meteorologist at WVUE-TV, and Bruce Katz, 
chief meteorologist at WGNO-TV.
	All said they believed all along that New Orleans would not have a 
direct hit from Hurricane Ivan but they did not want to say that on 
the air.  "We had the prediction correct, but all along we were 
supporting local officials saying it's time to get out of town 
because science is inexact, " said Thomas.  He said he told a friend 
off camera to not evacuate, but on camera "…you err on the side of 
caution" (Thomas, 2004).  But both Arredondo and Katz said they told 
family members to leave town.  The intensity of the storm may have 
been a factor;  "I think with Ivan, too, the thing that got us 
alerted by it was that it was a category five in the Gulf, and we all 
know what hurricanes can do, so in a situation like that you have to 
lean towards an air of caution," said Wicker (Wicker, 2004).
	Journalists or quasi-journalists reporting on the possibility that 
something may happen when they don't believe it will happen could 
lead to charges of providing extensive coverage for the sake of 
getting ratings.  Such a scenario could deteriorate into providing 
fear for the sake of revenue.  Three of the four meteorologists said 
they are aware that weather forecasting can be a ratings booster and 
they have, at times, felt the pressure to perform.  "We all realize 
that when you have a hurricane warning, when you are wall-to-wall, 
people are looking at every station," Katz said.  "In the back of 
your mind you know viewership is higher" (Katz, 2004).  "Every news 
director, every manager is trying to hype the news department so if 
you watch the promos, you're looking at weather promos, especially in 
this market," said Wicker (Wicker, 2004).  But all agreed that hyping 
the weather means walking a fine line.  "I think over time if you 
exaggerate, if you sensationalize, it'll come back and bite 
you.  They'll say, 'He was wrong, and the storm before that he was 
wrong' and you'll have the reputation of 'That guy doesn't know what 
he's talking about'" (Katz, 2004).
	The only real public evaluation of the weather coverage came days 
later when Times-Picayune media critic Dave Walker called WWL-TV's 
morning meteorologist David Bernard "the star of the storm," faulting 
all others with "telestrator terrorism" (Walker, September 20, 2004, 
p. 1).  "Local weathercasters….used their on-screen graphics to 
repeatedly scrawl arrows, lines, and squiggles pointed directly at 
the city of New Orleans, even though that was never the National 
Hurricane Center's track" (Walker, September 20, 2004, p. 1).	
Literature Review
	Barry Glassner's 1999 book The Culture of Fear:  Why Americans Are 
Afraid of the Wrong Things was a popular examination of a topic 
scholars had been studying for years and asked the question, "Does 
modern American society create and perpetuate fears that are not 
real?"  Glassner held public officials and television news culpable 
for creating artificial fears, and he was particularly critical of 
television news magazines which compete with entertainment for prime 
time audiences:		
Producers of TV Newsmagazines routinely let emotional accounts trump 
objective information.  In 1994 medical authorities attempted to cut 
short the brouhaha over flesh-eating bacteria by publicizing the fact 
that Americans are fifty-five times more likely to be struck by 
lightening than die of the suddenly celebrated microbe.  TV 
journalists brushed this fact aside with remarks like 'whatever the 
statistics, it's devastating to the victims'" (Glassner, 1999).

In other similar cases, Glassner demonstrates how alarm grows today 
much as it did during and following the 1938 "War of the Worlds" 
broadcast when radio listeners believed the earth was being attacked 
by Martians.  Then, as now, journalists expressed alarm, "experts" 
commented, and anecdotal evidence was valued above scientific 
evidence.  The result was that people tuned in to their fears and 
ignored the obvious explanation that the story was being told for 
dramatic effect.
	In Creating Fear:  News and the Construction of Crisis, social 
scientist David Altheide agrees with Glassner that America is 
experiencing a postjournalism period in which audiences have come to 
expect entertainment from their news.  As a result, the art of 
interviewing has changed dramatically.  No longer do journalists seek 
interviews or "sound bites" for the purpose of obtaining information; 
such "sound bites" would run too long on the air and would take away 
from the visual and dramatic elements of the story.  "Sound bites" 
have become quick answers to questions and sources of emotions in 
journalistic story-telling, and people who want to present their 
message on television have learned to adapt to the formula (Altheide, 2002).
	Issues, says Altheide, become linked with emotion, which are 
psychologically linked with fears.  Following the theory of symbolic 
interactionism, the topic becomes the signifier and fear becomes the 
signified.  In one quick step, the entire culture becomes involved in 
the fear mechanism.  He argues that private life and public issues 
have melded into popular culture, making fear messages more common in 
the mass media.  His data support his view:  fear messages have 
increased in his sampling of the mass media from 1992 to 2002 (Altheide, 2002).
	A television news audience is not privy to the judgments used to 
select and present stories, but they may have expectations.  In All 
the News That's Fit to Sell:  How the Market Transforms Information 
Into News, James T. Hamilton asserts that audiences have clues about 
what they will see and hear when they tune into a television news 
broadcast.  "These expectations are the brand images consumers have 
about these products," he writes (Hamilton, 2004, 126).  Those 
expectations are built by the news departments, who select and write 
news stories based on demographics, he writes.  To do otherwise might 
be economic suicide because of the large cost involved with doing a 
story.  News must fit consumer tastes (Hamilton, 2004, 137).
	Put together Altheide's data and Hamilton's observations and you 
have a new guiding theory for television news research:  if audiences 
want fear messages, that may be one explanation of their 
presence.   The question of why the public would find value in fear 
messages could open a new line of inquiry.
A comprehensive study of television weather has not been published in 
a communication journal since 1982. Bogart (1968) found that 
television weather reports were preferred by more than half of the 
sample, and concluded "It must be the personality of the 
weathercasters who make this mundane subject come to life." Tan 
(1976) determined that television was used more often (53 percent of 
the respondents) than any other medium to obtain weather information. 
However, even though respondents used television more often, only 41 
percent considered it their preferred source for weather.  Hyatt et. 
al. (1978) tested recall of television weather reports, and concluded 
that the "amount of weather information retained from a forecast 
seems to be minimal indeed." Gantz (1982) attempted a study of 
accuracy, as well as redundancy, in weathercasts in Indianapolis. The 
data from this research suggested that forecasts frequently vary from 
station to station.   Since weather technology, budgets and personnel 
have changed significantly since 1982, these studies are of little value.
While no previous research could be located that specifically 
discussed the use of fear in television weather forecasting, 
countless studies have been conducted on the use of fear appeals 
since the early 1950s.  Articles on the use of fear most relevant to 
the current study can be placed in two categories:  the use of fear 
in persuasive messages such as public speeches and advertising, and 
studies of the use of television news images that induce fear in viewers.
Studies of Fear Appeals in Persuasive Messages. Most of the research 
on the study of the use of fear in persuasion grows out of an 
experiment conducted by Janis and Fishbach in 1953.  They used three 
different intensities of fear appeals in a communication on dental 
hygiene.  Results indicated that though all three forms were equally 
effective in teaching factual content, the greatest conformity was to 
the position advocated in the "minimum" threat communication.  The 
"moderate" threat communication was somewhat less effective.  The 
"strong" fear appeal was the least effective for producing conformity 
to the recommended actions.  (Janis and Fishbach 1953)
	As a result of this study, most subsequent research has assumed the 
principle that the greater the threat, the less opinion change in the 
direction advocated.  However, extensive research in this area has 
demonstrated that the relationship between fear arousal and 
compliance is complex.  Some studies have suggested variables that 
have an effect on this basic relationship.
	Higher levels of fear can be used when the message is presented by a 
highly credible source.  (Boster and Mongeau 1984).  A higher level 
of fear can also be used when the message provides reasonable 
solutions to prevent the fearful consequences.  According to research 
in advertising, a receiver asks two questions when evaluating a fear 
appeal:  1) How effective are the recommendations in preventing the 
fearful outcome? And 2) Am I capable of enacting the 
recommendations?  So a persuader can use a higher level of fear 
appeal if the audience is provided with a reasonable solution for the 
prevention of the fearful consequences.
	Rogers' (1983) Theory of Protection Motivation argues that a fearful 
response is dependent on two factors:  the perceived magnitude of the 
noxiousness of the threat and the perceived probability of being 
effected by the threat.  When evaluations of these two dimensions are 
high, a greater fearful reaction occurs which triggers a greater 
motivation to protect oneself.
	Another condition influencing the reception of a fear appeal is 
whether or not the risk information is specific.  The receiver is 
likely to process and remember more specific information.  So 
concrete and explicit risks to the receiver are more likely to have 
an impact on the receiver's recall and consequent attitudes, beliefs, 
and behaviors than are vague, abstract, or uncertain 
risks.  Therefore, a higher level of fear may be used when specific 
risk information is also included.
	Finally, fear appeals are often short-lived.  Researchers have found 
that the effects of fear appeals begin to dissipate within 
twenty-four hours, and one study reports that fear levels decreased 
only ten minutes after exposure to a fearful message.  For this 
reason, it may be necessary to use a high level, rather than a 
moderate level of fear, assuming that a residual level of fear may be 
sustained to influence the receiver.  One researcher suggested that 
if one desires any enduring change in beliefs or behaviors, receivers 
must be periodically reexposed to the fearful stimuli. (Smith 1982)
	Advertising can make audiences fearful of a variety of situations – 
from contracting AIDS to smelling bad.  Many types of fears are 
evoked in ads, including physical, social and psychological.  Studies 
have shown that audiences are more likely to remember ads that use 
fear appeals than those using positive, upbeat appeals.  (Hyman and 
Tansey 1990) However, again, the research shows that high levels of 
fear can cause receivers to feel helpless and without control over 
the situation, thus decreasing attention and effectiveness of the message.
Studies of Fear-Inducing Television News Images. Recently, research 
in the use of fear has moved into the area of television news 
coverage.  These studies are different from the earlier research in 
at least one significant way. They do not examine the fear present in 
a message as a "fear appeal," which assumes an intent to persuade on 
the part of the originator of the message.  Instead, the researchers 
discuss messages as "fear-inducing," which places the responsibility 
for the perception of fear on the audience.  A television news story 
may cause a viewer to be fearful even though the news reporter was 
not specifically attempting to persuade the audience by using fear as 
an appeal.
	Young (2003) examined the implications of fear to the perceived 
importance of news stories.  Subjects who were put in the role of a 
news editor were asked to evaluate news clips for an evening news 
broadcast.  Results indicated that the more noxious and the more 
likely to have a personal impact, the more likely a story was 
considered important.
	Newhagen (1998) found that television news images that induced anger 
were the most likely to be remembered by subjects, but news images 
that induced fear were significantly likely to be remembered as well.
	Most studies of fear-inducing messages in television news centered 
on the effect of reporting crime stories on the level of fear of 
crime on viewers.  For example, Lowry, Nio, and Leitner (2003) found 
that network television news variables account for almost four times 
the amount of variance in people's perceptions of crime as the most 
important problem facing the country than did the actual crime 
rate.  They also found the sheer amount of time devoted to crime 
coverage was much more influential than the number of crime stories; 
story rank was unimportant.  Gross and Aday (2003) found that by 
emphasizing certain issues such as crime, local television news has 
the effect of leading audiences to think about those issues more than 
others. And a study by Romer, Jamison, and Aday (2003) showed that 
across a wide spectrum of the population and independent of local 
crime rates, viewing local television news is related to increased 
fear of and concern about crime.
	The studies discussed here can provide guidance for the current 
research.  In addition, they demonstrate the need for research on the 
fear-inducing content of television weather reports, particularly 
during catastrophic weather events such as hurricanes.
Hypotheses and Method
	The researchers examined the role of fear and fear-inducing messages 
in the coverage of Hurricane Ivan in the New Orleans 
market.  Specifically, the goal was to determine if fear-inducing 
messages were more common among a certain type of message originator 
(meteorologists, anchors, reporters, public officials, and the 
general public), if fear-inducing messages were more common on one 
station over another, and if fear-inducing message increased or 
decreased as the coverage went forward.
	Four 30-minute periods were recorded on Wednesday, September 
15:  12:00-12:30 pm, 1:00-1:30 pm, 5:00-5:30 pm, and 10:00-10:30 
pm.  All four stations were recorded during the periods.  The 
researchers selected these time periods because they provided a 
day-long sample, and all but one were at regular news times (Noon, 
5:00, 10:00 pm).    The 1:00-1:30 pm time was selected because the 
broadcasters had heavily promoted that new hurricane coordinates 
would be forthcoming from the National Hurricane Center at the top of 
the hour.
	
Each researcher coded the results according to the following 
variables:  Station, Time period, Fear-inducing level, and Message 
origin.  A message was defined as a complete story from the anchor 
lead-in of an element until the completion of that element.  In 
general, the unit of measure began again every time the coverage 
returned to an anchor on set or changed anchors on set.  For example, 
one unit equaled anchor to live report and back to anchor, anchor to 
package and back to anchor, anchor toss to meteorologist and back to 
anchor, and an anchor conducting an interview until the end of the 
interview.  The exception of this was the few instances in which the 
control of the information flow left the journalist (anchor or 
reporter) and was turned over to someone else, as in the case of a 
lengthy live interview or live coverage of a press conference.  In 
those cases, the live remarks were coded as separate message units.
Each researcher coded 143 cases independently.  Fourteen of those 
cases were selected using a random number generator to test for 
intercoder reliability.  The test produced an agreement rate of 85 
percent (i.e. disagreement in two of 14 cases).  Neither of the cases 
produced a disagreement of more than one category.  The researchers 
then entered the agreed-upon data and negotiated an agreement in 
those few cases of disagreement.
	Three of the variables were self-explanatory, but the Fear-inducing 
message variable required definitions:
Factual (no fear level):  A message was defined as factual if it 
contained mostly objective information.  Examples are coordinates 
from the National Hurricane Center, evacuation orders issued by 
governments, school and work closings, preparation tips, shelter 
listings, traffic conditions, evacuation routes, and curfew 
orders.  Facts that are in and of themselves fear-inducing 
(e.g.:  flash flood warnings), were coded as having some level of fear.
Low fear level:  A message was defined as low fear level if it 
contained low fear-inducing information and speculation.
Medium fear level:  A message was defined as medium fear level if it 
contained some fear-inducing information and speculation that did not 
directly apply to the television coverage area (e.g.:  high 
winds/waves on the Alabama or Mississippi coastlines).
High fear level:  A message was defined as high fear level if it 
contained little or no objective information and was made up mostly 
of speculation/danger warnings pertaining to the immediate coverage 
area.    Examples are telestrator maps showing impact at New Orleans, 
or showing the hurricane turning towards New Orleans, pleas for 
immediate evacuation, visuals of deteriorating weather conditions, 
speculation (as opposed to scientific prediction) of flooding and 
high winds in the city, and speculation on what will happen if the 
storm veers off of its predicted path.
	Since the coverage of Hurricane Ivan was so extensive (on Wednesday, 
September 15 alone, the coverage extended from early morning until at 
least 7:00 pm),  and since the meteorologists interviewed agreed that 
they believed the hurricane would not come ashore at New Orleans, the 
researchers expected the following:  Fear-inducing messages would be 
present in a significant number, lower fear levels originating with 
meteorologists, and lower fear levels later in the day as the 
hurricane approached its predicted target (and New Orleans moved into 
a low probability for landfall).  Casual sampling of the coverage had 
produced anecdotal information about the high number of dire 
predictions of hurricane damage from public officials; the 
researchers wanted to test significance in that area.  In addition, 
the researchers were curious about whether there were different 
levels of fear-inducing messages among the four news 
stations.    Five hypotheses are offered:
H1:   The frequency of fear-inducing messages will be larger than the 
frequency of factual messages.
H2:  The frequency of fear-inducing messages will be larger among 
public officials than among broadcast professionals (meteorologists, 
anchors, and reporters).
H3:  Fear-inducing messages will be lower among meteorologists than 
among all other message originators.
H4: The number of fear-inducing messages from members of the public 
who are interviewed by reporters will be significant.
H5: The frequency of fear-inducing messages will be larger on the 
station that brands itself  "Your Weather Authority" (WVUE).
H6: The frequency of fear-inducing messages will decrease throughout 
the day as the threat to New Orleans lessens.
	All of the data collected and examined was nominal.  The results 
were analyzed with SPSS using a combination of frequency tables and 
chi-square computations.
Results
H1:   The frequency of fear-inducing messages will be larger than the 
frequency of factual messages.
H1 was tested using a frequency table with no-fear messages, compared 
to the three categories for fear-inducing messages (low fear level, 
medium fear level and high fear level).
  	


	Fear


Frequency
Percent
Valid Percent
Cumulative Percent
Valid
No fear
52
36.4
36.4
36.4

Fear
91
63.6
63.6
100.0

Total
143
100.0
100.0





No-fear messages appeared at a frequency of 36.4 percent, compared 
with fear-inducing messages at a frequency of 63.6 percent, therefore 
H1 is supported.

H2:  The frequency of fear-inducing messages will be larger among 
public officials than among broadcast professionals (meteorologists, 
anchors, and reporters).
H2 was tested using a chi-square computation of fear-inducing 
messages by message origin: broadcast professionals (meteorologists, 
anchors, and reporters) and public officials.









	Fear * Origin Crosstabulation



Origin
Total


B'cast pros
Public officials

Fear
No fear
Count
46
6
52


Expected Count
43.9
8.1
52.0

Low fear
Count
30
11
41


Expected Count
34.6
6.4
41.0

Medium fear
Count
33
3
36


Expected Count
30.4
5.6
36.0

High fear

Count
11
2
13


Expected Count
11.0
2.0
13.0
Total
Count
120
22
142

Expected Count
120.0
22.0
142.0

Chi-square=6.055, df=3, significance=.109

Broadcast professionals were more likely than public officials to 
produce fear-inducing messages.  Therefore, H2 is not supported.



H3:  Fear-inducing messages will be lower among meteorologists than 
among all other message-originators.  H3 was tested with a chi-square 
computation of fear level compared to message origin, with 
meteorologists compared against all others (all other categories were 
collapsed creating meteorologists and all others).



	Fear * Origin Crosstabulation



Origin
Total


Meteorologists
All others

Fear
No fear
Count
9
43
52


Expected Count
11.6
40.4
52.0

Low fear
Count
10
31
41


Expected Count
9.2
31.8
41.0

Medium fear
Count
10
27
37


Expected Count
8.3
28.7
37.0

High fear
Count
3
10
13


Expected Count
2.9
10.1
13.0
Total
Count
32
111
143

Expected Count
32.0
111.0
143.0


Chi-square=1.329, df=3, significance=.722

The cell distributions in this crosstabulation are similar to those 
that would be expected by chance alone.  H3 is not supported.

H4: The number of fear-inducing messages from members of the public 
who are interviewed by reporters will be significant.

This test measured messages from members of the public compared with 
all other message originators.





	Fear * Origin Crosstabulation



Origin
Total


All others
Members of public

Fear
No fear
Count
52
0
52


Expected Count
51.6
.4
52.0

Low fear
Count
41
0
41


Expected Count
40.7
.3
41.0

Medium fear
Count
36
1
37


Expected Count
36.7
.3
37.0

High fear
Count
13
0
13


Expected Count
12.9
.1
13.0
Total
Count
142
1
143

Expected Count
142.0
1.0
143.0


Chi-square=2.885, df=3, significance=.410
	The comparison of message from members of the public and messages 
from all other message originators shows no significant 
difference.  Therefore H4 is not supported.



H5:  The frequency of fear-inducing messages will be larger on the 
station that brands itself  "Your Weather Authority" (WVUE).  H4 was 
tested using a chi-square computation comparing the stations to two 
fear-level categories, factual and low fear-inducing and high 
fear-inducing combined.




	Fear * Station Crosstabulation



Station
Total


WVUE
All others

Fear
No fear
Count
14
38
52


Expected Count
12.0
40.0
52.0

Low fear
Count
8
33
41


Expected Count
9.5
31.5
41.0

Medium fear
Count
5
32
37


Expected Count
8.5
28.5
37.0

High fear
Count
6
7
13


Expected Count
3.0
10.0
13.0
Total
Count
33
110
143

Expected Count
33.0
110.0
143.0



Chi-square=6.523, df=3, significance=.08

There is a low significance in this computation, therefore H5 is not 
supported.




H6:  The frequency of fear-inducing messages will decrease throughout 
the day as the threat to New Orleans lessens.
H6 tested time periods compared to fear-inducing messages.




	Fear * Time Crosstabulation



Time
Total


Noon
1pm
5pm
10pm

Fear
No fear
Count
12
11
13
16
52


Expected Count
12.7
11.3
14.2
13.8
52.0

Low fear
Count
10
8
12
11
41


Expected Count
10.0
8.9
11.2
10.9
41.0

Medium fear
Count
10
8
9
10
37


Expected Count
9.1
8.0
10.1
9.8
37.0

High fear
Count
3
4
5
1
13


Expected Count
3.2
2.8
3.5
3.5
13.0
Total
Count
35
31
39
38
143

Expected Count
35.0
31.0
39.0
38.0
143.0


Chi-square=3.707, df=9, significance=.930
There is no significant difference among the stations as to the 
number of fear-inducing message presented, therefore H6 is not supported.
Discussion/Conclusions
	Early on September 16, Hurricane Ivan came ashore near Gulf Shores, 
Alabama, as a category 3 storm.  Southeastern Louisiana was spared 
the brunt of the storm, and suffered only 7.9 million dollars in 
damage compared to the 8 billion dollars in damage to Alabama and 
Florida (Yerton, 2004).  Louisiana residents declared themselves lucky.
	Most would agree that fear of catastrophic hurricanes is the 
appropriate emotion for those living in coastal areas.  The fact that 
New Orleans residents are told that they are statistically overdue 
for a major hurricane strike compounds that level of fear.  In this 
study, the researchers are not suggesting that an absence of fear 
would be expected during hurricane coverage; however, the foremost 
goal of any news broadcast should be to inform the public and not 
frighten the audience unnecessarily.  But in today's marketplace, the 
quest for high ratings may overtake the goal of providing objective 
information and inducing fear may be an easy way to capture and keep 
an audience.
	The research results indicated that the highest number of 
fear-inducing messages during the television coverage came from 
reporters.  This could be explained by the fact that reporters are 
traditionally doing live reports from the heart of the activity, 
providing scenes that are inherently frightening.  If they find 
themselves in areas of low storm activity, they move either of their 
own volition or as directed by the assignment desk.  It is logical 
that scenes would appear frightening to viewers when they are 
provided by reporters who have every reason to be frightened themselves.
	With reporters in harm's way, the people they interview should 
produce a high level of fear on their own, yet this research did not 
bear that out.  This unsupported hypothesis might suggest even 
further a hyping of the information by broadcast professionals as 
opposed to the general public.  However, the number of messages 
originated from the public at large was small in comparison to other 
message-originators.  A different time period, particularly earlier 
time periods before Hurricane Ivan got close to land, could have 
produced an entirely different result in coverage of the same storm.
	Anchors were more likely to present factual information than would 
be expected by chance alone.  In their duties of voicing over 
graphics and edited video, they rely on facts gathered in the 
newsroom and written for them to read over the air.  They may have 
less of an opportunity to ad lib than do other broadcasters, and that 
may tend to make them less likely to speculate in a fear-inducing 
manner.  They are also the traditional question-askers putting them 
in a position of searching for facts rather than succumbing to emotion.
	Surprisingly, meteorologists were no more likely to present a no 
fear message than any other message originator, including other 
broadcasters, public officials, and members of the public.  It should 
be remembered that in post-Hurricane Ivan interviews, four 
meteorologists who covered the storm said they always thought the New 
Orleans area was not in any danger.  If that is true, what was the 
motivation to present fear-inducing messages?  In addition, this 
research shows that there was no major difference between the number 
of fear-inducing messages produced early in the day as opposed to 
later in the day when it was obvious the storm would hit 
Alabama.  Again, what was the motivation to present fear-inducing 
messages when the viewing area was clearly out of danger?  The answer 
to both of those questions could be the quest for high 
ratings.  Another possible explanation could be that reporters, 
photographers, meteorologists, and anchors, who have given their all 
in covering the approach of the storm, may continue looking for any 
slight change in the projected path and may cover the story longer 
than necessary.  Hurricane Charley was an example of a storm that 
missed the target the media had set for it.  On the other hand, 
WDSU-TV was rewarded for its efforts to continue looking for a story 
by some of the highest ratings of the two-day period.
	This study indicates public officials were the source of more 
fear-inducing messages than broadcast professionals.  The question 
about public officials was based on the researchers' observation the 
day before that the television stations were broadcasting news 
conferences live and that many of the public officials' statement 
were frightening.  Some of their live statements included information 
about the availability of enough body bags and advice on taking an 
axe into one's attic to escape rising water through the roof of one's 
house.  Although in the time periods studied, public officials 
presented more factual information than fear-inducing messages, a 
recording on the previous day might have produced vastly different results.
	Finally, the number of fear-inducing messages originating from 
members of the public during reporter interviews was 
significant.  This observation can be directly linked to the number 
of fear-inducing messages from reporters.  Their job is to be sent 
into harm's way, and there is a high probability that they will 
interview people on the scene who are either frightened or have 
reason to communicate warnings to others.  The likelihood is low that 
someone living or working in a non-threatened area would be 
interviewed during day-long hurricane coverage.
Recommendations for future study
	The researchers hope to use this study as a guide for future 
examinations of fear-inducing messages in television weather 
forecasting.  Suggestions for possible additions include the following:
1.	"Fear-inducing" is a construct that needs to be further 
defined.  Should it just be a frightening image that is coded 
fear-inducing, or should the threat to personal safety be a factor?
2.	 The coding method of messages could be restructured.  For 
example, if any part of the weather forecast had a fear-inducing 
element, the entire message had to be coded as fear-inducing.  During 
this coverage, weather segments were lengthy with many messages 
imbedded.  Revising the definition of a message could provide more 
information.
3.	Providing viewers with live "wall-to-wall" coverage is not only 
expensive in terms of salaries and overtime for personnel, few 
commercials are run –  causing a revenue shortfall, and national 
spots are not aired since network programming is preempted.  The 
factors station managers use to determine when to "go live" and an 
approximate cost of that decision would provide information important 
to the research.
4.	Even in a metered market, the accuracy of ratings during 
catastrophic weather events is questionable. Many families with 
meters many be ordered to evacuate, others may decide to leave on 
their own volition.  In addition, electrical power outages and cable 
television outages occur almost immediately.  On September 16, 2004, 
Nielsen did not report ratings for New Orleans because less than 350 
meters were in operation.  How does this factor effect a station's 
decision to stay on the air with live coverage?
	In all potentially life-threatening weather events, accurate 
objective information is essential to the public interest. 
Fear-inducing messages may capture and keep the attention of the 
audience during these events, but again, the foremost goal of any 
news broadcast should be to inform the public and not frighten the 
audience unnecessarily.
	
	
	


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