WeatherZine #21
Number 21, April 2000


"What's happening on the Societal Aspects of Weather WWW Site."

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Contents:

[1] Editorial 
      Six Heretical Notions About Weather Policy

[2] Guest Editorial 
      Earthquakes and Weather: Lessons for Policy and Science 
      By Thomas A. Birkland
      
[3] Correspondence 
      Correspondence from our readers

[4] Weather-Related News
      The National Symposium on the Great Plains Tornado Outbreak of 
      3 May 1999
      
[5] New Additions to the WWW Site:
      General Weather Resources
      Emergency Management
      Floods
      Injury and Damage Statistics
      Insurance
      El Nino/La Nina

[6] Subscribe Now!

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[1] Editorial -- Six Heretical Notions About Weather Policy

When in 1996 freshman Representative Dick Chrysler (R-MI) 
proposed eliminating the National Weather Service, he declared 
that the agency was not needed because "I get my weather from 
the weather channel."  Mr. Chrysler's odd view reinforced the 
perspective of many in the weather community that policy makers 
have little understanding of meteorological research and operations.  
On more than one occasion I have heard weather scientists and 
administrators look with envy to the fortunes of the National 
Earthquake Hazards Reduction Program
(www.whitehouse.gov/WH/EOP/OSTP/NSTC/html/USGS/index.html#anchor299544) 
that began in 1977 and continues today with about $100 million in 
annual funding, as well as to the fortunes of programs focused on 
global change, and more recently, on the carbon cycle.  Indeed, the 
seeming low priority placed on the U.S. Weather Research Program, 
as measured by appropriated budgets, gives some plausibility to the
idea that weather has been less successful in the budget process 
than other research communities (see this issue's guest editorial).

The perception that the weather community has been less successful 
than other communities has led me to take a closer look at its role 
in the broader environment of science policies and priorities.   
My initial reaction was that many of the obstacles standing in the 
way of increased resources for the nation's weather enterprise are 
to be found inside not outside the community.  I rapidly realized that 
I was quickly entering what some colleagues might call "heretical" 
territory.  So I thought I'd raise these heretical notions, to 
stimulate debate and discussion, and hopefully to initiate a dialogue 
on important issues facing the community.

To continue to raise these issues, I present below "Six Heretical 
Notions about Weather Policy" that I presented twice last year, 
first to a joint meeting of the National Academy of Sciences Board on 
Atmospheric Sciences and Climate 
(www4.nationalacademies.org/cger/basc.nsf/)
and the Federal Committee for Meteorological Research and 
Supporting Services (www.ofcm.gov/), and then second to the 
Interdepartmental Committee on Meteorological Services and 
Supporting Research.  Here is what I presented.


Purpose:  These "heretical" notions are raised to stimulate debate 
and discussion.  No claim is made as to their relative or absolute 
truth.

The weather community postulates that improved forecasts will 
benefit society.

Thus, the logic about what to do is obvious.

* To improve forecasts we must advance science.

* To advance science we need improved models.

* To test and use improved models we need better observations.

* To assimilate the better observations and run the improved 
  models we need faster computers.

* More funding will enable faster computers, better observations, 
  improved models, and advances in science.

Therefore, more funding for advancements in science, models, 
observations, and computers are necessary and sufficient to 
benefit society.  A corollary is that the greater the rate of 
these advancements, the greater the benefits to society.  This 
logic seems so obvious and inescapable that to many, great 
frustration is sometimes expressed when policy makers in places 
like Congress and the Office of Management and Budget apparently 
fail to grasp its self-evidence.

But how might a well-meaning, but scrutinizing, person 
evaluate this logic?  They might raise some "heretical" notions!!

1. The atmospheric sciences collect more data than is used or 
can be used in either research or operations.  When field programs 
or satellites are funded, subsequent analysis often is not.  This 
circumstance makes it difficult for people outside the community 
(and indeed some inside) to understand why more data is needed, and 
what its ultimate value is in terms of improvements in forecasts 
as well as opportunities foregone.

2. Many claim that the forecasts in the United States are the best 
in the world.  At the same time, some folks claim that the Europeans 
(www.ecmwf.int/) have passed us by.  Some who say that the United 
States is keeping pace with the Europeans argue that we have done 
so because of innovative use of observations (via creative data 
assimilation techniques and use of scarce computer time).  This is 
tantamount to saying that funding limitations have motivated extra 
value from existing resources.  The bottom line: Do we really know how 
"good" forecasts have to be, and at what cost?

3. In any case, public funding for the atmospheric sciences is truly 
enormous - approximately $2-3 billion is spend on weather and climate 
research and operations each.  When the weather community says that 
forecasts could improve but only for a small budget increase, one might 
expect a policy maker to reply: "Great, you should be able to handle 
that with existing expenditures!"

4. Much more research is produced than is used, or can be used, in the 
operational forecast process.  Much is "left on the floor."  The 
connections between research and the use of research in operations 
and ultimately in benefits to decision makers is poorly understood
(www.esig.ucar.edu/socasp/zine/15.html#1).  Until the community can 
link a request for more resources with expected effects on forecasts 
and ultimately benefits, securing significant additional funding will 
be difficult. 

5. In any case, improved use and value is in many instances 
constrained by dated products and a lack of understanding of the 
needs of users.  Remember the case of Grand Forks 
(www.esig.ucar.edu/redriver/) when a technically accurate forecast 
was misinterpreted and misused because neither forecasters nor 
local decision-makers understood what it meant.  Scientific and 
technological advances mean little if they are not well 
incorporated into decision making.

6. The weather community is so large and full of overlaps and 
redundancies that no one really knows what the universe looks like.  
It is difficult for a community like the weather community to speak 
with one voice, but at a minimum there should be some knowledge of 
the whole.  And there is the destructive public-private debate over 
roles and responsibilities.  Obtaining such knowledge and resolving 
this debate would greatly enhance credibility when a case is made 
for more support from the public.

So what needs to be done to better serve the interests of the 
weather community, the public, and their elected representatives?  
As a first step these six heresies might be discussed, debated, 
and perhaps even dismissed by the community.  In the process of 
doing so, the community might find itself better prepared to deal 
with the views of well-meaning, but scrutinizing public officials. 

- Roger A. Pielke, Jr.

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[2] Guest Editorial -- 
Earthquakes and Weather: Lessons for Policy and Science

by Thomas A. Birkland
Graduate School of Public Affairs
University at Albany
State University of New York

Scientists who deal with weather impacts are well positioned 
to help decision-makers make more effective policies to prepare 
for future tragedies like Hurricanes Hugo and Andrew, or the 
Midwest flood of 1993. However, my research on the politics of 
extreme events suggests that many weather experts are not highly 
visible in making key decisions on hazard preparedness and 
mitigation. Consequently, policy makers make decisions, 
particularly relating to the social and economic costs of extreme 
events, with relatively little input from the very scientists 
involved in learning the most about these phenomena. 

Extreme events result in significant social and economic costs. 
Much of this cost is attributable to decisions that create greater 
hazard vulnerability, such as building on barrier islands and 
floodplains, and using structural mitigation such as levees, groins, 
and seawalls. These measures result in significant long-term costs 
without creating a proportional increase in the safety of property 
"protected" by these measures.

The scientific community is aware of these problems and a lively 
debate and discussion continues over the most effective 
alternatives to ineffective policies. Nevertheless, other voices 
in Washington often dominate this expertise. I found relatively 
little participation in congressional fact finding from 
meteorological and other experts following significant hurricanes 
as well as between events. This contrasts with earthquake policy, 
in which considerable scientific expertise has been mobilized in 
the aftermath of major events to provide information to Congress 
and other elected officials about earthquake hazards and their 
mitigation. 

In response to Hurricane Andrew, the Federal Emergency Management 
Agency (FEMA) created a Hurricane Program focused on mitigation.  
NOAA established the Weather Research Program to "weatherproof the 
nation," but both the Hurricane and Weather Research programs are 
small and lack the statutory status and congressional attention 
afforded the National Earthquake Hazards Reduction Program (NEHRP). 
Indeed, the NEHRP was the product of the kind of scientific 
coalition and group effort focused on the needs of policy makers 
that should be developed to deal with extreme weather as well.

Why is scientific expertise less important in dealing with 
hurricanes? First, scientists and other technical experts often 
find their voices drowned out after a hurricane by the much louder 
and persistent calls for disaster relief and a return to "normal." 
These demands come from residents, development interests, and 
state and local governments that seek disaster relief to restore 
the status quo ante, not a new development mode in which vulnerability 
is reduced. Congress has historically shown more interest in these 
interests than in applying sound science. In my research (published 
in my 1997 book, After Disaster: Agenda Setting, Public Policy and 
Focusing Events), I found that between 1960 and 1996, over 60 
percent of the people who testified before Congress on hurricanes 
hazards did so before a committee on public works. In the earthquake 
case, the single most active committees were those dealing with 
science and technology, with 35 percent of that testimony heard 
by science and technology committees, and the remaining testimony 
spread among a variety of committees. While disaster relief concerns 
dominate both post-earthquake and post-hurricane discussions, 
between large events the earthquake science community has been 
much more active in claiming a place on the policy agenda. In my 
review of congressional testimony I found that, between earthquakes, 
the dominant issues on Congress's agenda related to earthquakes 
focused on scientific and technical matters, while Congress's 
hurricane agenda is dominated by issues of disaster relief and 
structural mitigation, regardless of whether an event is fresh in 
the news or is a more distant memory. 

Second, many scientists simply are not involved in the public 
policy making process because there are often few professional 
rewards that come from participating in policy making. Moreover, 
many scientists are frustrated with the seemingly irrational, 
illogical way in which Congress and other organizations appear 
to do their work. Scientists find that, even when they make the 
effort to provide timely and useful information to Congress, it 
is either ignored or, in some cases, treated with hostility, 
because this participation would slow and perhaps change the 
flow of disaster relief funds and the return to normal. 

Fortunately, there are ways for the "weather hazards 
community" to come together and make its expertise available 
to government and the media to educate all of us about cost 
effective, safety enhancing methods of weather hazard 
mitigation. Such a community would amplify the voices of 
experts, provide strength in numbers, and work with our 
allies to help us press the case for more effective and 
smarter hazard mitigation. Again, an apt model for this 
might be found in the earthquake hazards community. While 
there are many disciplines involved with several aspects 
of earthquake hazards such as soil failure, ground motion, 
and structural responses to earthquakes, the earthquake hazards 
community is led by the Earthquake Engineering Research 
Institute (EERI), which works to translate scientific 
knowledge into practice. The creation of a "Weather Research 
Institute" could serve as the beginning of an effort to elevate 
weather issues to a higher level on the federal government's 
agenda than the current programs. One goal of this effort 
might be the creation of a "National Weather Hazards 
Research Program" parallel to the NEHRP that would gain 
the statutory and scientific authority needed to influence 
weather hazards policy.

Finally, social scientists play an important role in this field, 
particularly in bridging the gaps between the natural sciences 
and the policy making process. EERI has long included social 
scientists who work together with scientists and engineers on 
earthquake mitigation. Connections between natural and social 
scientists are also growing in the weather hazards field, and 
it is vital that all of us who are concerned with weather 
hazards maintain communication to share in what I believe will 
be the daunting but ultimately rewarding task of reducing our 
vulnerability to extreme weather.

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[3] Correspondence -- Correspondence from our readers

Dear WeatherZine: 

The most recent issue was very poignant, indeed.  Whether 
realized or not, the theme of editorial #1 ties together those 
of guest editorials #2 and #3 (see WeatherZine #20, 
www.esig.ucar.edu/socasp/zine/20/).

As a National Weather Service meteorologist, and one who has 
dealt with several of these issues from both sides of the fence, 
I felt compelled to respond.

The Prediction Hall of Fame 
(www.esig.ucar.edu/socasp/zine/20/editorial.html)

Roger Pielke hits the nail on the head with the idea that 
"technically accurate" weather predictions are only as good as 
the proactive actions taken by those
most affected - which requires the "symphony" of communication 
and decision making.   The "over selling" of capabilities is an 
opinion widely held by operational forecasters, and can be 
somewhat justified by the simplistic marketing of Doppler radar 
and supercomputers as "cure-alls" rather than tools to be used 
by the human being.

While technical training for operational forecasters has been 
sufficient, customer service training has been inadequate.  
With the exception of Warning Coordination Meteorologists and 
others who partake in storm surveys, public outreach, or 
verification, operational forecasters are poorly versed in
how the end product is perceived.  Most forecasters do not 
get to meet the local television, radio, and print media - 
and contact with emergency managers is rare.  Some customer 
feedback does arrive via electronic mail or conventional mail, 
but there really is no substitute for meeting customers 
face-to-face.

Weather Forecast Limitations Point to Need for More Research 
and Modernization: The Challenge Continues 
(www.esig.ucar.edu/socasp/zine/20/guest.html)

The juxtaposition of these editorials illustrates a growing 
disconnect between the direction of NOAA/NWS policymakers and 
that of service evaluators, both inside and outside of NOAA.  
Simply put, we are pitting automation against human 
interpretation.

In a post-mortem from the Washington Post (January 26), some 
were quoted as saying "...the Eta [forecast model] had it right."  
It was also implied that the Eta model forecasts storms such as 
these better than most models.  What wasn't said was that the 
Eta also has a known bias toward rapid cyclogenesis - which 
means that forecasters need to exercise caution and look at 
what is really going on before accepting the Eta - or any - 
model solution.

Drs. Baker and Anthes make a strong claim for the need for 
more research based on the perceived failure to predict, 
with sufficient lead-time, the winter storm
of January 25, 2000.  Though it is unquestionable that more 
atmospheric research is needed, singling out this particular 
event is misguided.


That fact is, the perceived forecast bust could have been 
ameliorated with directed human actions - since there was a 
9-hour lead-time.  NWS warning services don't end with product 
issuance.  In fact, the product issuance often is the last 
thing to be completed.

Conference calls involving state emergency management offices, 
state transportation offices, and state school systems, and 
military support (i.e., The National Guard) can be initiated 
by NWS offices prior to official warning issuance to allow rapid 
deployment of those personnel necessary to keep a local region 
from "shutting down".

With rapid deployment and readiness comes a sense of preparedness.  
Thus, despite the fact that today's media are hungry for 
sensational reporting, the headlines for this event could very 
well have read "Storm a Surprise for Some (lead headline)...but 
highway crews were ready"  (sub headline).

The best models in the world can't do this; human decision-making 
under time pressure can.  Such decision-making requires a 
strong confidence in predictive abilities - borne of the forecaster 
selection process referred to by Dr. Stewart.

For years, verification and customer service efforts were 
de-emphasized - largely due to attention given the entire 
modernization effort.  Recently (some would say at long last) 
verification and customer service have been given their due. 
Unfortunately, the balance has been shifted toward pure 
verification: the touting of numerical improvements in warning 
accuracy (also known as POD), critical success index, and lead 
time.  Even the initial rise in false alarms after implementation 
of Doppler Radar has begun to decrease.

However, the true measure of forecast and warning utility is the 
fair perception of the end user.  Forecasters often believe 
they have succeeded with short-fused, and in some cases long-fused, 
warnings when, upon further evaluation, the end users did not 
have enough time or resources to take preventive action.

Dr. Stewart makes oblique reference to what I call forecast alchemy: 
the combination of computer models with forecaster skill - and 
a "sixth sense" that occurs through observing - the sky, wind, 
air mass type, etc.  This alchemy is then applied to the 
climatological nuances of the local area to issue the best possible 
forecasts and warnings.

For these reasons, there will always be a need for local forecast 
offices - be they public or private - as well as humans to 
fill them.

Barry S. Goldsmith
Senior Forecaster
National Weather Service 
Tampa Bay, FL

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[4] Weather-Related News -- 
The National Symposium on the Great Plains Tornado Outbreak of 
3 May 1999

The National Symposium on the Great Plains Tornado Outbreak of 
3 May 1999: Toward a Unified Approach of Understanding, Prediction, 
Warning, Response and Recovery will be held April 30 through May 3, 
2000, at the Westin Hotel and Resort, Oklahoma City, Oklahoma. For 
the registration form, agenda, list of participants, and other 
information about the symposium, please see the web site at 
geowww.ou.edu/~kkd/may3.htm.

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[5] New Additions to the WWW Site:

General Weather Resources


Natural Hazards.org  (www.naturalhazards.org/) This site provides 
easy access to information about all types of  natural hazards, 
including hurricanes, tornadoes, drought, El Nino/La Nina, and 
snow and ice. Information about the locations and seasons of 
greatest risk is provided. Links to carefully selected web sites 
and educational products for purchase are also included.


Emergency Management

StormReady  (www.nws.noaa.gov/stormready/index.htm) There are 
relatively few uniformly-recognized standards dealing with the 
specifics of hazardous weather response operations. Recognizing 
this need, the National Weather Service has designed a program to 
help cities, counties, and towns implement procedures to reduce 
the potential for disastrous, weather-related, consequences. By 
participating in "StormReady," local agencies can earn recognition 
for their jurisdictions by meeting criteria established by the NWS 
in partnership with federal, state, and local emergency management 
professionals.

Florida Alliance for Safe Homes (FLASH)  (www.flash.org/)  
FLASH is a non-profit, public/private coalition dedicated to 
promoting and encouraging family and home safety. FLASH strives 
to bring together the best minds, the latest research, and the 
most practical techniques to help make homes safer from natural 
disasters. Its goal is to help Floridians minimize deaths, 
injuries, suffering, property damage, and economic losses caused 
by hurricanes, lightning, tornadoes, or wildfires.  It encourages 
them to build, buy, and use buildings that are safe from disaster, 
to know the risks that natural hazards present, and to understand 
ways of reducing these risks.

Regional Disaster Information Center, Latin America and the Caribbean  
(www.crid.or.cr/crid/eng/crid/criden.htm)  The mission of the Regional 
Disaster Information Center is "to promote the development of a 
prevention culture in the Latin American and Caribbean countries, 
through the compilation and dissemination of disaster-related 
information, and the promotion of co-operative efforts to improve 
risk management in the Region."  To accomplish this mission, the 
Center has launched this web site in English and Spanish, providing 
on-line access to over 12,000 bibliographic references, publication 
and distribution of materials on disaster-related topics, and technical 
advice and training for the establishment of disaster information units.

Organization of American States publications 
(www.oas.org/usde/publications.htm)  The Organization of American 
States offers the following three on-line publications:

* Disaster, Planning and Development: Managing Natural Hazards to Reduce 
Loss (www.oas.org/usde/publications/Unit/oea54e/begin.htm) This publication 
presents general principles for integrating hazard management into 
development planning and project formulation, as well as a set of 
guidelines for applying the methodologies of hazard management. 

* Primer on Natural Hazard Management in Integrated Regional 
Development Planning (www.oas.org/usde/publications/Unit/oea66e/begin.htm)  
This publication covers most of the major natural hazards and many 
of the current tools (including GIS and remote sensing) available 
to assess and deal with these risks. Reduction of Vulnerability to 
Floods in River Basins 
(www.oas.org/usde/publications/Unit/oea26b/begin.htm)

* Specialists in the environment, planning, and flood mitigation 
attended presentations of case studies, discussed experiences with 
and strategies for reducing the impact of floods on the selected 
economic sectors, and recommended activities appropriate for hemispheric 
cooperation. The conclusions and recommendations of this seminar 
are presented in this publication. 


Floods

Venezuela Flash-flood and Landslide Disaster 
(dprsj35.er.usgs.gov/public/webb/ven_1/)  This U.S. Geological Survey 
slide show concerning the Venezuelan flash flood and landslide 
disaster of December 1999 consists of a series of 42 photographs, 
maps, satellite images, and a table of rainfall data. Photographs 
show landslides, flash-flood deposits, damaged roads, houses, 
apartment buildings, and other structures.


Injury and Damage Statistics

Selected Sources of Data on Disasters and Disaster Costs 
(www.Colorado.EDU/hazards/sites/costs.html)  What constitutes a 
"disaster"? What constitutes a "cost"? Do we want to look at 
insured losses or all losses? How can we be sure that loss 
estimates are accurate for individual disasters and/or that 
they are comparable across disasters? How can we possibly
compare the relatively high property losses in developed 
countries with the relatively high social costs (such as deaths, 
injuries, and homelessness) in developing nations? Which 
indirect costs should be included? To respond to these questions, 
the Natural Hazards Center at the University of Colorado recently 
added this page to its Web site.  The page does not provide 
statistics but rather links readers to sources of such information.


Insurance

The Insurance Information Institute  (www.iii.org/home.html)  
The Insurance Information Institute (III) Web site provides 
information about insurance issues related to disasters and 
hazards mitigation measures, as well as statistics on disaster 
losses including hurricanes, floods, and tornadoes.

El Nino/La Nina

Comprehensive Bibliography on the El Nino Phenomenon  
(www.coaps.fsu.edu/lib/biblio/enso-bib-intro.html)  This bibliography 
is searchable by author's name and can also be browsed page by page.

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Environmental and Societal Impacts Group
National Center for Atmospheric Research
US Weather Research Program

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