June/July 1993 #30
Nonpoint Source
News-Notes
The Condition of the Water-Related Environment
The Management and Ecological Restoration of Watersheds
The Control of Nonpoint Sources of Water Pollution
News-Notes is produced by the Terrene Institute under a grant from the Assessment and Watershed
Protection Division, Office of Wetlands, Oceans, and Watersheds, U.S. EPA.
Notes on Watershed '93
Video Conference Stresses Holistic Watershed Management Approach
Says Utah Report on Watershed '93
editor's note: The March/April 1993 issue of Utah Watershed Review, the eight-page newsletter of the
Utah Nonpoint Source Water Quality Task Force carried this report on the Watershed '93 conference
from a satellite-video participant's point-of-view. Thank-you Jack Wilbur, author of this article and editor
of the Review.
Imagine attending a national environmental conference being held in another part of the
country without leaving your own city.
That was exactly what happened for nonpoint source water quality officials in late March, when
they were able to take part in a satellite conference called Watershed '93.
The water-quality conference originated in Alexandria, Virginia, but was watched live via
satellite by local, state, and federal water quality administrators from across the country.
Speakers at the conference said the holistic watershed approach to water quality management
makes good management sense, good environmental sense, and good community sense.
During a morning panel discussion, state, local, federal, and private-sector representatives
discussed the holistic approach in terms of vision, barriers, and strategies to overcome barriers.
"In the Columbia River area, there is special-interest gridlock," said Billy Frank, a fisherman
from Washington State and representative of the Northwest Indian Fisheries Commission. "It's
not a scientific problem, it's a people problem. We in the West should learn from what's
happened in the East. But we haven't learned a thing. We need to admit we've made mistakes
and start the healing."
INSIDE THIS ISSUE
Notes on Watershed '93
Utah Reports on Video Watershed '93 1
Notes on Water Quality Management
Tribes Join in Public Education Project 3
Ambient Water-Quality Monitoring in the U.S 4
Constructed Wetlands Solve Waste Management 5
Citizens Key to Watershed Planning 8
Notes on Riparian & Watershed Management
Watershed Protection Annual Report 9
Science of Coastal Wetlands Restoration 11
Cost-Effective Watershed Management 14
Trout Unlimited, FS & BLM Join to Restore 16
News From the States & Localities
New Yorkers Lend a Helping Hand 17
Water Quality Districts in Montana 17
News of Coastal Nonpoint Pollution Control
Coastal Nonpoint Outreach Program Begins 18
Notes on the Agricultural Environment
Revised Soil Analysis Handbook Issued 19
Pennsylvania Mandates Nutrient Management 20
North Carolina: Animal Waste No-Discharge Rule 21
EPA Region VII to Hold Hog Waste Workshops 22
Reauthorizing The Clean Water Act
Clean Water Act May Target Agriculture 23
National Perspective on Ag Policy and Water Quality 23
Notes on Environmental Education
NPS Focus Groups in Wisconsin 24
Stream Team Day Camp Guidebooks Issued 25
Cooperative Education Program in Oregon 25
NPS Electronic Bulletin Board (BBS) News
Volunteer Monitoring SIG Opens 27
Announcements
Innappropriate Pollutants in Stormwater 28
Guide to Construction of Stormwater Wetlands Released 28
DATEBOOK 28
THE COUPON 31
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Video Conference
Stresses Holistic
Watershed
Management
Approach,
Says Utah Report on
Watershed '93
(continued)
Summary of Conference Work Sessions
Terrene Institute, which managed the conference, provided the following report: On the
conference's last day, attendees participated in nine work sessions. Louise Wise of EPA's
Office of Wetlands, Oceans, and Watersheds summarized the discussions that took place at
the work sessions:
Groups agreed with the following points:
Let the watershed breathe.
Individual lifestyle changes are necessary.
The young must be educated.
Economic considerations must be taken into account.
Both bottom-up and top-down approaches are necessary.
National leadership is needed.
Groups noted that the following points should have been made during the panel
discussion:
The political will to act is needed.
Information about systems, both economic and scientific, is needed.
Private property rights must be considered.
Groups came up with the following "next steps":
Establish a mechanism to coordinate state/federal/local efforts, using federal
leadership.
Deal with land use controls.
Everyone from the President on down must be educated.
Define problems with longer-term vision.
Take into consideration the watershed's carrying capacity.
Control growth and urban sprawl.
Improve our science foundation and flow of information.
Set national goals for the watershed approach.
Quantify endpoints and measurable milestones.
Establish an 900-number for information (and dollars).
Use existing programs.
Establish a national watershed forum to jump start the approach and solidify policy.
Pass a constitutional amendment to guarantee every citizen's right to a clean
environment.
Attendance at the Virginia conference site was about 1,100 people: 39 percent federal, 13
percent state/regional/provincial, 14 percent local, 3 percent tribal, 6 percent university, 12
percent private sector, 13 percent associations and nongovernmental organizations, and 1
percent non-affiliated. Julia Johnson of Terrene Institute reported, "There were participants
from almost every state and even a few from out of the United States. The downlink sites
were also very popular; there were approximately 47 set up to view the program."
Other panelists echoed the same kinds of concerns. Steve Tedder, a state-level water quality
administrator from North Carolina, said basin-wide planning is necessary. He said a holistic
approach is more consistent, equitable, and efficient.
Martha Prothro, acting assistant administrator of EPA's Office of Water, said personnel have
specialized too much. "We forget these programs mesh together," she said.
Speakers also talked about community involvement. Billy Frank said it is not enough to get special
interests together. Frank said the general public must also support water quality improvement
efforts. "The people do not have any faith in their government anymore. We have to take the
children of our land and educate them on an environmental curriculum," he pointed out.
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During the panel discussion, agency personnel from around the country called in with
questions for the panelists. Most of the questions centered around the same barriers:
government gridlock and lack of cooperation between agencies.
"The last thing I want to do is go to EPA for funding of our watershed management approach,
because then you know who will try to direct everything," said Tedder.
But while state and local officials sometimes resist federal involvement and control of local-level
projects, federal agencies have the "big money" to spend.
Utah's NPS program coordinators agreed, while watching the program, that the level of
cooperation between local, state, and federal agencies seems to be as good or better in Utah as
in the rest of the country.
One source of frustration for program managers may be the slowness of solving the problem.
Nonpoint source pollution is a problem that originates from diffuse sources over long periods
of time. The solution may be as slow in coming.
"It's a long job and it's going to take 100 years to solve it," said Frank. "We just have to do it."
Knowing all the resources available to state and local government agencies for water quality
projects is one way to make the process go faster and smoother, said Prothro. She suggested
state program coordinators should ask themselves if a proposed project is best suited for EPA
Section 319 money or whether it would fit better into the USD A PL-566 program structure. "No
one source of fundingEPA or whatevercan do it alone," she added.
The bottom line, Frank suggested, is taking ownership of the problem at a local level. "If s our
land, our home, and our backyard; we have to make some decisions. We've got to change. The
change has to come. Are we going to have agriculture? Are we going to have forestry? Are we
going to have clean water?"
The Watershed '93 conference was held as a way to let local-level administrators from
throughout the country talk about common issues and compare strategies. Those who watched
and those who attended from Utah said it was worth the time.
Notes on Water Quality Management
Tribes in Harmony on Public Education Project
With the Conservation Partnership
Since January, 1,000 television stations and 5,000 radio stations have been airing a conservation
message from Dances with Wolves co-star Rodney A. Grant, who played "Wind in His Hair,"
urging all Americans to "share the heritage of living in harmony with our natural resources."
The public service announcement is part of the Project Harmony campaign by the Conservation
Partnership, made up of Soil Conservation Service (SCS), National Association of Conservation
Districts (NACD), and the National Association of State Conservation Agencies (NASCA).
Filmed at the edge of the Blackfeet Reservation near Glacier National Park, Grant, in native
dress, invites viewers to call 1-800-THE-SOIL to a receive free information packet. The packet
includes suggestions on how urban dwellers can protect soil and water, a full-color poster of
Grant on horseback, a coloring book, a bumper sticker, and news about the Earth Team
volunteer program (see News-Notes #26, "SCS to the Rescue").
Three tribes offered outstanding assistance in the project: the Blackfeet, and the Salish and
Kootenai from a neighboring reservation assisted in the production of the public information
announcements; a Blackfeet tribal councilman served as a language coach for Grant; the Salish
and Kootenai developed the packet's coloring book; and Salish and Kootenai tribal elders did
translations that demonstrate the diversity of cultures among the many tribes in the United
States. Salish Kootenai College is using the coloring book as a language revival tool.
SCS's Dan Himsworth called the effort "a true collaboration."
"The campaign has been successful beyond imagination," Himsworth continued. "We've
received $3.5 million in donated airtime and more than 19,000 people have called the 800
number." In addition to local radio and TV stations across the country, over 2,000 magazines,
newspapers, and cable TV systems have also received the message. Major media outlets New
Yorker Magazine, CNN, ABC, NBC, and CBS have inquired about the program.
Video Conference
Stresses Holistic
Watershed
Management
Approach,
Says Utah Report on
Watershed '93
(continued)
3
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Grant has become the campaign's spokesperson, appearing at the NACD national conference in
February and at the formal kickoff at the Capitol in Washington, D.C. on March 2, where he
shared the podium with Chief Earl Old Person of the Blackfeet Nation and Representative
Glenn English (D-Okla.), who sponsored the kickoff.
Project Harmony sprang from research done for SCS showing that many people were unaware
of the services offered by SCS. In February 1993, SCS, NACD, and NASCA renewed their
commitment to the Conservation Partnership by signing an agreement stating their shared
vision and guiding principles. The vision of "a productive nation in harmony with a quality
environment" will be guided in part by a commitment to "maintain and enhance our grassroots
delivery system" and a pledge to work together to "empower people to make decisions."
Project Harmony is a step toward those goals.
[For more information, contact: Dan Himsworth, USDA-SCS, 10 East Babcock St., Bozman MT59715.
Phone: (406) 587-6842. FAX: (406) 587-6761.]
Ambient Water Quality Monitoring in the U.S.:
A Progress Report to the Office of Management & Budget
editor's note: An earlier story on the Intergovernmental Task Force on Monitoring Water Quality
(ITFM) outlining its overall mission and scope appeared in the News-Notes April 1992 issue (#20).
ITFM's final report and recommendations are due early in 1995. Elizabeth Jester Fellows, chief of
EPA's Monitoring Branch and chairman of ITFM, told News-Notes on the occasion of our earlier story:
We need a common language and framework for action that will allow each individual
monitoring agency to take advantage of the other agencies, share its own products, and
enable us all to answer the basic questions how healthy are our waters and how well are
our water management programs doing?
The Intergovernmental Task Force on Monitoring Water Quality (ITFM) submitted its first-year
review, evaluation, and a set of 11 conclusions and recommendations to the Office of
Management and Budget (OMB) in December 1992.
Three particular problems were identified in the report:
¦ Many agencies spend billions annually monitoring water quality for a variety of
purposes. Roles, objectives, and responsibilities are not always clearly defined, and
no clear leadership or intergovernmental strategy links these efforts.
¦ Different agencies use different methods to measure the same parameter, often do
not store information about the data that would enable others to use it with
confidence, and keep the data in systems that others find hard to access.
¦ The resulting data are often not comparable and fall short of supporting
management of water resources on a nationwide basis.
The report's principal conclusions and recommendations are:
¦ A nationwide, well-integrated monitoring strategy will enhance the implementation
of defensible water quality programs and management decisions.
¦ Water management programs are changing to focus on multimedia, geographically
based activities; biological and ecological information; and nonpoint source,
wetlands, and sediment concerns. Water monitoring programs must be responsive to
these changing needs.
¦ Better integration of water quality monitoring activities is now achievable because
public and private organizations are more open to cooperation. Also, recent
technological advances have created new opportunities to improve water quality
monitoring.
¦ Monitoring investments will be made more effective through voluntary integration
of existing programs to sharpen monitoring objectives, improve data consistency,
and facilitate more effective interpretation and reporting.
¦ Representatives of all monitoring interests should be invited to participate in
refining and implementing the process, to help define the recommendations, and to
initiate the proposed changes needed to improve monitoring activities.
¦ A coordinated partnership that links organizations at national and regional levels
should be established to oversee the adoption and implementation of a nationwide
water quality monitoring strategy.
Tribes in Harmony
on Public Education
Project With the
Conservation
Partnership
(continued)
4
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Physical, chemical, and biological indicators and associated monitoring designs
should be developed to address specific questions for each monitoring objective and
to measure progress toward achieving the objective.
Participants in the nationwide strategy should use comparable field and laboratory
methods to obtain comparable data over time and space that can be aggregated or
synthesized in regional and national reports.
A permanent information standards and comparability council should be established
at the national level to provide technical support for participating agencies and other
organizations collecting and using water quality information. Adherence to sound
quality assurance and quality control principles is necessary to implement the
nationwide strategy.
Another task group of ITFM should be established to evaluate existing technology to
interpret and assess water quality data, to recommend better ways to access such
technology, and to recommend ways to provide technical assistance for applying the
technology in the national strategy.
A training program for personnel of participating agencies should be established to
support the implementation of the strategic plan. The ITFM should proposed a
nationwide training curriculum, including programs for public and volunteer
organizations.
The ITFM is part of the implementation of a 1991 OMB directive to strengthen coordination for
water information nationwide. The ITFM is chaired by the Environmental Protection Agency.
The United States Geological Survey serves as vice chair and provides administrative and
management support. Members of the ITFM currently include eight federal, one interstate, and
seven state agency representatives. To date, over 80 additional federal and state agency
representatives have been involved in the deliberations of the ITFM and its four task groups.
The four groups involve framework, environmental indicators, data collection methods, and
data management and sharing.
The ITFM expects to expand membership of the task force in its second and third years to
include municipalities, industry, academia, and volunteer monitoring groups.
[To obtain copies of the report, contact U.S. Geological Survey, Office of Water Data Coordination, 417
National Center, Reston, VA 22092. Phone: (703) 648-5023.]
In Florida, Constructed Wetlands Solve
Waste Management Needs During Four-Day Race Meet
editor's note: This article appeared in the spring 1993 issue of Aquaphyte, the newsletter of the Cen-
ter for Aquatic Plants and the Aquatic Plant Information Retrieval System (APRIS) of the University of
Florida Institute of Food and Agricultural Sciences. It deals with how a potentially colossal nonpoint
source problem was dealt with (1) by making it a point source and (2) through the carefully designed
use of constructed wetlands and aquatic plants. The results meet state water quality standards, and
the solution could very well pay for itself in the long run. Thank you to Aquaphyte editor Vic Ramey.
Problem:
You produce a large recreational event that draws 100,000 people from all over the world for
only four days out of the year. This many people produce more than one million gallons of
waste during four days. Furthermore, your event is isolated from the city and there are no
toilet facilities nearby, not even a Kwik-Stop store. There are environmental standards for
disposing of this waste, and you cannot break the law.
What do you do?
One possible solution is to run wastewater trunk lines from your facility to a municipal
treatment system. If you're lucky, you're close enough so that this would not be too expensive.
If you're unlucky, and the nearest connection point is several miles away, the expense could be
several million dollars.
Ambient Water ¦
Quality Monitoring in
the U.S.: A Progress
Report to the Office
of Management & a
Budget
(continued)
m
5
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Another solution is to set up a line of portable chemical toilets, which are universally
unappealing and incur significant trucking and other disposal expenses.
Yet another solution is to build a sewage treatment plant on site. However, conventional sewage
treatment plants are expensive to build and operate, and they must be continuously supplied
with waste in order to "feed the bugs" that break down waste; these systems do not work well
with only the occasional "batch loads" of waste produced during infrequent events.
In real life, the National Hot Rod Association (NHRA) has experienced this dilemma: every year
100,000 thrill-seekers attend Gatornationals, a four-day national drag racing event held in
Gainsville, Florida. Until recently, the isolated race track was fully equipped, except for toilet
facilities. Now it even has flushing toilets.
NHRA's solution, in close cooperation with the Gainsville Regional Utilities (GRU), was to
design and build an innovative "constructed wetlands" for primary, secondary, and tertiary
sewage treatment. The system is unique because of its ability to accept sudden and heavy
untreated waste loads after prolonged idle periods. And unlike the many acres of wetlands used
in some places for tertiary wastewater treatment, this entire compact system occupies less than
five acres.
The NHRA/GRU system takes advantage of a new combination of aeration ponds, a gravel
denitrification bed, and flow-through ponds filled with aquatic plants for final "polishing."
The resulting treated water meets required environmental standards and is being used in two
ways. Some is diverted for use in on-site fishponds; some is sent to an automatic sprinkler
system that irrigates an on-site pine plantation.
During racing and other recreational events, the system acts as a wastewater treatment plant;
during the rest of the year, it acts as an aquaculture farm, capable of supporting the commercial
growth of fish, crayfish, shrimp, and other freshwater creatures. The aquaculture products and
the pulp-timber can be sold to help pay for the system's overall construction and operating
costs.
After two years of operation, the NHRA raceway wastewater treatment system has been
declared a success.
The aquaculture part of the system was designed and built under the guidance of researchers
Dr. Jerome Shireman and Douglas Colle, and visiting Polish fisheries experts, husband and wife
Drs. Karol and Wanda Opuszynski, all of the Department of Fisheries and Aquatic Sciences of
the University of Florida.
The Site
The compact five-acre treatment facility operates in four phases and releases treated water on
site.
¦ Phase 1 (Gatornationals phase) During this phase, a primary objective is to minimize odors
by supplying oxygen. During racing events, untreated wastewater flows from restrooms into
the one-half-acre lagoons, which are equipped with large, floating aeration pumps. The aerators
are turned on and allowed to run continuously. During this phase, much of the organic matter
in the wastewater is metabolized by bacteria, but little nitrification is accomplished.
¦ Phase 2 (Nitrification phase) During this phase, ammonia in the wastewater is oxidized to
nitrite and then to nitrate. Continuing aeration increases the population of and suspends
waste-eating bacteria (Nitrosomonas), and helps remove total suspended solids (TSS) and reduce
biological oxygen demand (BOD). (BOD is the amount of oxygen consumed by bacteria as they
convert and use the organic waste materials.) During this phase, too, water alkalinity is reduced
to levels safe enough for fish.
¦ Phase 3 (Denitrification phase) Denitrification is carried out in the gravel denitrification bed
(GDB). During this phase nitrite and nitrate in the water are converted to nitrogen gas, which
disappears into the atmosphere. Sugar is injected into the wastewater to establish and maintain
high bacterial populations for the denitrification reactions.
The GDB is a plastic-lined pit filled to a five-foot depth with one-inch diameter gravel. In the
GDB, water is fed to the bottom of the bed and is distributed throughout the bottom by a
In Florida,
Constructed
Wetlands Solve
Waste Management
Needs During Four-
Day Race Meet
(continued)
6
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network of pipes. The water percolates upward through the rocks and drains at the top. The
water is circulated between the GDB and the aeration lagoons until bacterial action has reduced
the ammonia nitrogen to below 1.0 mg/L and the total nitrogen to less than 10 mg/L.
¦ Phase 4 (Polishing phase) In this phase, treated wastewater is drained from the aeration
lagoons into two long, narrow, flow-through aquatic vegetation ponds. One pond is filled with
the submersed plant, hydrilla (Hydrilla verticillata); the other is covered over with the floating
plant, duckweed (Lemna spp.). (See News-Notes Issue # 22, for a report on another treatment
system using Lemna.)
In these ponds, the treated wastewater is "polished" for use as "make-up water" in the adjacent
aquaculture ponds and for ultimate release into the raceway's spray irrigation system.
One purpose of the vegetation ponds is to reduce the total suspended solids (TSS) of the
wastewater. This is accomplished mainly by the hydrilla, where the large leaf surface area of the
submersed plants acts as a natural filter and provides much more substrate for the beneficial
wastewater cleansing bacteria.
Another purpose of the vegetation ponds is to reduce the nitrogen and phosphorus in the
wastewater. The constantly growing aquatic plants utilize nutrients and greatly reduce nutrient
availability to algae. Reducing algal density makes the water much clearer.
Aquaculture Ponds
For thousands of years, Asian cultures have been using human and animal wastewater to
culture fish and other food animals. Shireman and his researchers say their system is simply a
more modern version of this age-old, completely safe and efficient way of growing food.
While finishing the wastewater to required standards, the aquatic plants are regularly harvested
and fed to the plant-eating fish being grown in the aquaculture ponds. Harvesting the plants
promotes their biomass production, thus further increasing their efficiency for cleansing
wastewater, and making more plants available for aquaculture production.
In the present case, the fish being grown are grass carp (Ctenopharyngodon idella), which in
Florida are used for aquatic weed control and elsewhere are used for food. Hydrilla is a favorite
food of grass carp, and duckweed is a perfect size for growing fingerlings. In addition, blue
tilapia and bighead carp have been raised in these ponds.
However, there is no reason to limit aquaculture to these kinds of fishother fish may be grown
for food or re-stocking programs, or other freshwater animals such as shrimp or crayfish may
be cultured.
Results and Costs
The construction cost of the present facility, approximately $340,000, was less than one-third
that of a conventional system of the same size. In addition, there are no high ongoing costs for
continuous operational preparedness or for full-time personnel. Operating costs have been
estimated at $12,000 per year.
Water Quality Standards
The final polished water that is disposed of on site to grow a pine plantation is of a higher
quality than the standards required by the Florida Department of Environmental Regulation.
These requirements are 20 ppm BOD, 20 ppm TSS, or 90 percent removal, whichever is greater;
and 12 ppm ammonia nitrogen. Chlorine is applied before release to reduce the fecal coliform to
less than 100/ mL.
Aquaculture Value
The grass carp grown in the fish ponds may be sold in Florida for aquatic weed control. At the
common sales price of six dollars for a 10-inch fish, the value of the fish grown in these ponds
has been estimated at $24,000 per hectare.
The system has worked well during two Gatornational events, each of which produced "batch
loads" of more than 1 million gallons of wastewater during the four days of races. By all
measures, this unique and compact "natural" wastewater treatment system must be judged a
success.
In Florida,
Constructed
Wetlands Solve
Waste Management
Needs During Four-
Day Race Meet
(continued)
7
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The University of Florida has produced a 15-minute video about this project. A copy of the
video costs $15.00 (plus 90 cents tax for Florida residents). To order Videotape VT #455, send
check payable to University of Florida, IFAS Publications, IFAS Building 644, Gainsville, FL
32611.
[For more information on this constructed wetlands system, contact Dr. Jerome Shireman, Department of
Fisheries and Aquatic Sciences, University of Florida, 7922 NW 71st Street, Gainsville, Florida 32607.
Phone: (904) 392-9617.]
Citizens Key to Successful Watershed Plans
editor's note: The impressive words of wisdom that follow, first appeared in the March/April 1993
issue of Sound Waves, the bimonthly newsletter of the Puget Sound Water Quality Authority. Thank you
Susanne Hindle, Sound Waves editor.
There is more citizen participation in watershed planning than in any other environmental
planning process in Puget Soundcommunity residents are the backbone of the committees
that develop watershed action plans.
But beyond those who serve on watershed committees, it is difficult to get people involved in
what is designed to be a citizen-driven watershed planning process.
One problem, according to citizens and government officials at a recent watershed conference in
Everett, Wash., is that people do not always understand their roles in the watershed planning
process. Others stay away because they think watershed planning is probably bureaucratic and
solutions are slow to evolve.
"We still have a number of shortcomings," Katherine Baril, director of Jefferson County's
Washington State University Cooperative Extension office, told participants of "Managing Our
Watersheds, the Nonpoint Experience in Puget Sound," sponsored by the Puget Sound Water
Quality Authority, Washington State's Department of Ecology, and the Environmental
Protection Agency. "We lack participatory decisionmaking, political constituency for the plans,
and citizen willingness to lobby government officials for the plans."
Judy Likkel, a citizen volunteer who has organized 165 homeowners along Hood Canal to pay
for their recreational shellfish to be tested, agreed. "Citizen stewardship is in our best interest,"
said Likkel. "But remember that, like our watersheds, stewards have needs, too. It's our
challenge to figure out how to foster stewardship in an ownership-oriented society."
The key to fostering stewardship, noted Arnie Klaus, director of Whatcom County's Puget
Sounders, is to meet people halfway and then some.
"Why is stewardship important? It depends on whom you talk to," said Klaus.
"There are many different reasons people want to get involved. Don't question themuse
them. Get people out there for their reasons, not for yours," he said. "Once you get the people
and they start doing something, then they start to recognize their roles in protecting water
quality as watershed residents."
"You cannot possibly overestimate the amount of interest in the community to get involved,"
added Susan Handley with EPA Region 10. "There may be barriers to getting them involved;
you have to figure out what those are."
Handley said it is best to first provide a nonthreatening way for people to get involved. "This
will raise their comfort level," she said. "And remember that people want to feel competent.
Make them successful in their first effort."
Baril suggested that it might help for planners and watershed planning committee members to
take a step back every once in a while and look at the bigger picture. "It's not about writing
plans," said Baril. "It's about changing behaviors and getting people involved.
Most importantly, Baril added, "We need to remember why we do watershed planning. We do
planning because the forester needs to understand shellfish, we do it to re-evaluate behavior,
and we do it for consensus building. If we don't deal with these issues, we will end up with
cookie cutter plans throughout Puget Sound."
[For more information, contact Katherine Baril, director of Jefferson County W.S.U. Cooperative Extension,
P.O. Box 572, Port Townsend, WA 98368. Phone: (206) 385-9158.]
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Notes on Riparian and Watershed Management
EPA Issues Annual Report 1992 on
the Watershed Protection Approach
EPA's Office of Wetlands, Oceans, and Watersheds has recently released its 1992 annual report
on the watershed protection approach. The report summarizes
¦ EPA's strategy and the progress made in promoting a watershed protection approach
over the last year, and
¦ The steps taken at EPA headquarters to implement the strategy.
It contains a summary of watershed activities in the field, beginning with the steps that EPA's
regions have taken to support watershed protection and concluding with brief descriptions of
individual watershed projects.
An appendix references pertinent EPA funding sources that could support watershed protection
efforts.
The introduction clearly sums up the rationale behind the watershed protection approach and
EPA's role as follows:
What is the watershed protection approach (WPA)?
The watershed protection approach is an integrated, holistic strategy for more effectively restoring
and protecting aquatic ecosystems and protecting human health (e.g., drinking water supplies and
fish consumption). This approach is a renewed effort by the U. S. Environmental Protection Agency
to focus on hydrologically defined drainage basins watersheds rather than on areas arbitrarily
defined by political boundaries. Thus, for a given watershed, the approach encompasses not only
the water resource, such as a stream, river, lake, estuary, or aquifer, but all the land from which water
drains to that resource. To protect water resources, it is increasingly important to address the
condition of land areas within the watershed because as water drains off the land, it carries with it
the effects of human activities throughout the watershed. By concentrating on natural resources and
systems, it is possible to detect and take remedial action for such problems as declines in living
resources and habitat loss.
The watershed protection approach has three major cornerstones:
1) Problem Identification Identify the primary threats to human and ecosystem health within the
watershed.
2} Stakeholder Involvement Involve the people most likely to be concerned or most able to take
action.
3) Integrated Actions Take corrective actions in a comprehensive, integrated manner once
solutions are determined. Evaluate success and refine actions, as necessary.
This approach places greater emphasis on all aspects of water quality, including chemical water
quality (toxics and conventional pollutants, e.g., fecal coliform and total phosphorus), physical water
quality (e.g., temperature, flow, and circulation), habitat quality (e.g., channel morphology,
composition, and health of biotic communities), and biodiversity (e.g., species number and range).
The approach encompasses all waters surface and ground, inland and coastal. This approach is
not a new centralized program that competes with or replaces existing programs; rather it provides a
framework and new focus for effective integration of ongoing programs. In taking this expanded
approach, EPA must work closely with other stakeholders who have responsibilities in this area.
Why is a watershed protection approach needed?
Although significant strides have been made in reducing the impacts of discrete pollutant sources
and billions of dollars have been spent to build wastewater treatment plants, the nation's aquatic
resources remain at risk. Today's challenges include resolving the significant pollution problems that
come from literally millions of diffuse or nonpoint sources, maintaining safe drinking water supplies,
and restoring and protecting aquatic habitats. These challenges require innovative solutions and, in
a time of dwindling public resources, cooperation among many parties. The watershed protection
approach provides the necessary framework for meeting these challenges. The approach
emphasizes the involvement of all affected stakeholders and stresses the need for teamwork at the
federal, state, and local levels to achieve the greatest improvements with the resources available.
9
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A wide variety of sectors are expressing interest in watershed protection, including all levels of
government, private businesses, academics, environmental groups, and individual citizens. The
watershed protection approach provides comprehensive methods for identifying, tailoring, and
implementing the solutions needed to protect and restore the nation's aquatic resources.
Who can benefit and why?
Everyone individual citizens, the public sector, and the private sector can benefit from a
watershed protection approach. Individual citizens benefit because watershed protection improves
the environment. The public sector benefits because agencies can accomplish more through
cooperation with all stakeholders than they can on their own with limited resources. Participation by
local entities ensures that those who are likely to be most familiar with a watershed, its problems, and
possible solutions play a major part, often a leadership role. Users of the water resources (for
example, industry, agriculture, and recreation) benefit because one of the intents of the approach is
to distribute the burden of water resource protection more evenly among all stakeholders.
In communities across the United States, effective watershed management can lead to more
environmentally sensitive and sustainable economic growth and development. Because watershed
management brings all parties to the table, the potential exists for greater consideration to be given
to protecting and restoring vital natural resources during planning for new development.
What is EPA's role?
EPA's overall goal for the watershed protection approach is to maintain and improve the health and
integrity of aquatic ecosystems using comprehensive approaches that focus resources on the major
problems facing these systems within the watershed context.
To meet this end, EPA has identified the following objectives:
Align EPA programs to support risk-based watershed planning and management.
Promote the use of the approach by its partners in other federal, state, and local agencies.
Address the primary threats to ground and surface waters.
Promote stewardship and a broad understanding of and participation in the approach by the
public.
Effectively measure progress toward restoring, maintaining, and protecting our nation's
waterbodies and aquatic habitats.
In pursuing its overall goal and related objectives, EPA encourages and advances watershed
protection at all levels of government and is actively involved in watershed partnerships when
appropriate. EPA's Office of Water develops technical tools to assist communities in adopting
watershed protection approaches, promotes the watershed protection approach concept through
various outreach activities, and works inside and outside of EPA to align its programs to better
complement the approach.
EPA's Strategy
The report indicates that EPA is pursuing a five-pronged strategy for adopting watershed
management. The components of the strategy are:
¦ Try it out ¦ Measure success
¦ Develop tools ¦ Align programs
¦ Advertise it
An EPA headquarters support team has been convened with representatives from the four parts
of the Office of Water (Office of Ground Water and Drinking Water; Office of Science and
Technology; Office of Wastewater Enforcement and Compliance; and Office of Wetlands,
Oceans, and Watersheds.) The support team is to serve the regions and states, as well as local
and nongovernmental entities, in pursuing watershed protection approaches.
To Order The Report
The title of the publication is The Watershed Protection Approach Annual Report 1992. The
publication number is EPA840-S-93-001. Copies may be ordered from NCEPI, 11029 Kenwood
Road, Bldg. 5, Cincinnati, OH 45242. Or, you can order the report from Cincinnati by FAX:
NCEPI, (513) 891-6685. There is no cost. (Be sure to include both the title and publication
number in orders sent to NCEPI.)
[For general information on EPA's watershed protection approach contact Policy and Communications
Staff, Office of Wetlands, Oceans, and Watersheds, U.S. EPA, 401 M Street Slty Washington, DC 20460.
Phone: (202) 260-9108.]
EPA Issues
Annual Report
1992 on
the Watershed
Protection
Approach
(continued)
10
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EPA Issues Annual
Report 1992 on
The Watershed
Protection Approach
(continued)
editor's note: For more information on EPA's involvement in watershed activities in your area, contact
the appropriate regional contact listed below.
Region 1
Region 4
Region 7
(ME, NH, VT, MA, RI,CT)
(AL,FL,GA,KY,MS,NC,
(IO,KS,MO,NE)
Bill Nuzzo
SC,TN)
Larry Ferguson
(617) 565-3480
Meredith Anderson
(913) 551-7447
U.S.EPA, Region I
(404) 347-2126
Kerry Herndon
JFK Federal Building
Charles Sweatt
(913) 551-7286
Boston, MA 02203
(205) 386-2614
Donna Sefton
Region 2
U.S. EPA, Region 4
(913) 551-7500
345 Courtland Street, NE
U.S. EPA, Region 7
(NY,NJ,PR,VI)
Atlanta, GA 30365
726 Minnesota Avenue
Rick Balla
Region 5
Kansas City, KS 66101
(212) 264-5671
Janice Rollwagen
(IL,IN, Ml, MN, OH, Wl)
Region 8
(National Estuary
Doug Ehorn
(CO, MT,ND, SD, UT, WY)
Programs)
(312) 886-0243
Bill Wuerthele
(212) 264-5170
U.S. EPA, Region 5
(303) 293-1586
U.S. EPA, Region 2
77 West Jackson Boulevard
U.S. EPA, Region 8
26 Federal Plaza
Chicago, IL 60604
999 18th Street, Suite 500
New York, NY 10278
Denver, CO 80202-1603
Region 6
Region 3
(AR,LA,NM, OK, TX)
Region 9
(DE,DC,MD,PA,VA,WV)
Russell Bowen
(AZ,CA,HI,NV,GU,AS)
Vicki Binetti
(214) 655-7140
Cat Kuhlman
(215) 597-6511
Beverly Ethridge
(415) 744-2001
Rich Pepino
(214) 655-2263
U.S. EPA, Region 9
(215) 597-1181
U.S. EPA, Region 6
75 Hawthorne Street
U.S. EPA, Region 3
1445 Ross Avenue
San Francisco, CA 94105
841 Chestnut Street
Suite 1200
Region 10
Philadelphia, PA 19107
Dallas, TX 75202
(AK.ID.OR.WA)
John Armstrong
(206) 553-1368
U.S. EPA, Region 10
1200 6th Avenue
Seattle, WA 98101
Bringing Back Coastal Wetlands:
The Science of Restoration A Review
editor's note: This review was originally published in the February 1993 issue of Marine Notes, the
newsletter of the Maryland Sea Grant College. The authors of the review are are Garry F. Mayer, chief of
the NOM National Marine Fisheries Service Habitat Research and Restoration Division, Restoration
Center, and Peter Hill, a policy analyst and planner at the restoration center. Thank you, Sandy Harper,
editor of Marine Notes.
The tale of wetlands in the United States is a tale of massive loss from salt marshes, seagrass
meadows, and mangrove stands to tidal flats, kelp forests, and coral reefs. Over the last 200
years, wetland acreage in the continental United States has steadily dwindled from some 200
million acres to an estimated 95 million; about one-third of those remaining are coastal in nature.
If human activity has been the cause of much of this wetland loss, a good deal of human
activity, namely in far-reaching scientific efforts, is at work to find out how such diverse
ecosystems can best be restored. At all levels of government, programs to help preserve and
protect these habitats are now in place; moreover, they have been complemented by efforts to
restore or recreate coastal systems that have been destroyed or impaired by human activities.
Restoring the Nation's Marine Environment, published recently by Maryland Sea Grant, covers a
range of ongoing restoration efforts in the United States and abroad. The book discusses
restoration of common coastal habitats salt marshes, tidal flats, seagrass beds, kelp forests,
and coral reefs and of habitats impacted by special problems urbanized estuaries, diverse
habitats impacted by logging, and fisheries habitats destroyed by hydroelectric dam
construction.
11
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Bringing Back Questions remain, however: Just how well do these restored habitats function in comparison
Coastal with the natural habitats? Can we expect them to flourish on their own for decades to come?
Wetlands:
The Science of Tracking the Causes of Loss
Restoration A A variety of factors account for the loss of coastal and estuarine habitats. Agriculture,
Review transportation, construction and general urbanization, industry, logging, and aquaculture all
(continued) physically disrupt the landscape and reduce environmental quality. Habitats are also affected by
clearing, draining, diking, filling, dredging, and shoreline stabilization. Further effects result from
water diversions and other hydrologic alterations, nutrient enrichment, changed water clarity,
toxic substances from spills, and pollutants from chronic point and nonpoint sources. All such
human-induced changes are often compounded by natural occurrences storms, climate
alteration, coastal subsidence, sea level rise, disease, and the appearance of new or exotic species.
Along the nation's coasts from Florida to Virginia to California, studies have identified and
tallied wetland losses. In California, they range from 70 percent to 90 percent. In Washington
State, eight out of 12 Puget Sound estuaries showed losses of 30 percent or more. Heavily
urbanized and industrialized waterways, such as the Duwamish and Puyallup Rivers, exhibited
historic reductions as great as 89.9 percent and 99.6 percent, respectively.
Mangrove and seagrass systems show similar declines. Along the East and Gulf Coasts,
widespread die-offs of seagrass remain serious problems. The Chesapeake Bay and its tidal
tributaries, which once supported between 100,000 and 300,000 acres of eel grass (Zostera
marina) and 14 other species of submerged aquatic vegetation, today contain only about 50,000
acres. Further south, losses continue to mount: scientists estimate that approximately one-third
of the seagrass meadows in coastal Florida have disappeared since the 1940s, while a loss of
almost two-thirds has occurred along the Mississippi coast.
Is Restoration Enough?
Is the science of habitat restoration up to the challenge posed by coastal habitat losses that
occurred in the past and that continue today? There is no unequivocal answer.
Research on the restoration of estuarine and coastal systems dates back only to the late 1950s in
the United States. Large-scale, systematic programs did not begin until the late 1960s and early
1970s, with the advent of U.S. Army Corps of Engineers studies of the feasibility of creating
habitat on dredged material. As a discipline of study, restoration science in coastal and estuarine
systems grew progressively in the late 1970s and burgeoned in the mid-1980s.
Today, there are hundreds of created or restored tidal marshes and mangrove forests nationwide
that support diverse fish and wildlife populations. Between 1989 and 1992, more than 800,000 acres
of wetland fresh- and saltwater habitats were enhanced or restored by federal agencies nationwide.
Whether these created habitats are functionally equivalent to natural habitats, and whether they will
continue to function in this manner into the foreseeable future is still an open question.
As editor Gordon W. Thayer says in Restoring Our Nation's Marine Environment, "In the case of
restored or created wetland habitats, the simple fact that they are green does not necessarily mean
that they have developed into functional habitat providing services to living marine resources and
to man. In fact, there is a growing body of literature to the contrary." When estuarine systems are
lost or degraded, so are the important functions they provide groundwater recharge and flood
abatement, sediment retention and other mechanisms of shoreline erosion control, water quality
improvement, trophic energy (food web) support, substrate and protective cover for fish and
wildlife, recreational opportunities, and aesthetic values.
Progress Comes Slowly
The successful creation, enhancement, or restoration of habitats requires time and constant
attention. While seagrass communities may need as little as three years to become fully
functional, marsh systems may take 15 or more years; mangrove habitats may take 20 to 30
years. Under the most ideal circumstances, coral reefs can take decades to recover, and where
pollution or other stresses are chronic, recovery may be postponed indefinitely. The more
complex and highly developed the habitat, the greater the time and nurturing required to
ensure a successful project.
Despite the complexities of habitat restoration, laboratory and field studies have yielded
techniques that take less time, are less expensive, and are less fraught with uncertainty. For
12
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example, research in Southern California's hypersaline estuaries evaluated factors to enhance
both the rate of establishment and the degree to which functional equivalence is achieved by
restored cordgrass habitat (Spartinafoliosa). The addition of supplemental organic material and
nitrogen to areas planted with cordgrass accelerated Spartina growth and resulted in the
production of taller plants. The addition of supplements is one of the factors needed to support
the light-footed clapper rail, an endangered bird species that occurs in the area. On the other
hand, parallel experiments conducted in East Coast Spartina alterniflora habitats were not
successful.
Collective wisdom says that restoration success, regardless of habitat type, is marked by careful
planning. This means selecting the most promising sites, determining the appropriate
techniques to be used, and meticulous physical (and, if necessary, chemical) preparation of the
sites, followed by timely planting. Follow-up biological activities, such as the removal of
unwanted, competing, or destructive biological forms until the habitats become established, are
also important. Central to any success is identification of restoration goals and the
environmental factors that may limit its success. Equally critical is a well-designed monitoring
plan that remains in place over the life of the restoration, not just the early stages, to track
progress and suggest corrective actions, should they be necessary.
Current studies reinforce the need for these actions. To cite one instance, for selected species of
seagrasses, experimentation has shown that site selection remains a complex problem:
restoration is likely to be more effective in habitats that previously supported seagrasses;
otherwise, substitution of one habitat type for another may result. Experience further
underscores the critical nature of grading potential salt marsh restoration sites with high
precision: slight deviations can cause improper inundation regimes, which, in turn, can
jeopardize the success of a restoration project. Similar care must be taken in dealing with
restoration sites contaminated with bioavailable toxic substances.
Advances in ecological science have enhanced our understanding of the environmental and
ecological parameters needed to measure the progress and effectiveness of restoration efforts.
While the growing sophistication of instrumentation has increased the accuracy and ease of
taking data, monitoring still remains among the most poorly implemented aspects of habitat
restoration. Many government agencies and industries have been unwilling to balance the cost
of multi-year monitoring against savings derived from more successful and efficient restoration
activities that are likely to result from improved scientific understanding.
Restoration Is Only Part of the Answer
According to Thayer, it is essential that a comprehensive evaluation of restoration, mitigation,
and enhancement processes be initiated on a national scale. Research, he says, may demonstrate
that the design criteria for projects need only be improved to approach functional levels of
natural habitats. On the other hand, research may show that we cannot emulate nature as easily
as has been assumed. If this is true, then policies must take this into account. But it is clear that
restoration efforts must continue and even expand. "The goal of no net loss cannot be attained
without active programs of habitat conservation and of restoration and creation that are based
on sound scientific approaches," says Thayer. The alternative is continuing loss of ecological
systems vital to environmental health. We must place a high priority on demonstrating that
habitat restoration and enhancement can be done cost-effectively with present technology.
Evidence of success will translate into support for expanding existing technologies and for
developing new capabilities, such as the application of biotechnology and modern agricultural
science to provide specially adapted plant stocks for large-scale undertakings. Even restoration
failures are useful for identifying habitats that are difficult to duplicate management can then
focus on conservation and land use policy for these irreplaceable habitats.
As a final step, we must educate the public about the capabilities of coastal habitat restoration.
Present expectations regarding the nature of successful restorations, the time required, and the
costs associated often are unrealistic. Regardless of restoration capabilities, it is important for all
of us to understand that the future existence of coastal and estuarine habitats can best be
guaranteed by avoiding habitat loss and degradation.
[This book is the result of a collaborative effort between the University of Maryland Sea Grant College
Program and the U.S. Department of Commerce's National Oceanic and Atmospheric Administration
(NOAA), National Marine Fisheries Service (NMFS). Restoring the Nation's Marine Environment, edited by
Gordon W. Thayer, is 728 pages and costs $45.00. To order the book, call or write Maryland Sea Grant
office, Maryland Sea Grant College, 0112 Skinner Hall, University of Maryland, College Park, MD. Phone:
(301) 405-6376.]
Bringing Back
Coastal Wetlands:
The Science of
Restoration A
Review (continued)
13
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North East Wisconsin Waters for Tomorrow, Inc.
Organizes a Watershed
for Cost-Effective Restoration
EDITOR'S note: The following story was developed from a December 1992 newsletter and other material
prepared by the citizens' nonprofit corporation, North East Wisconsin Waters for Tomorrow, Inc., and
conversations with David White, team leader for the project. The organization was formed with the con-
viction that a management program to deal with the problems of downstream Lower Green Bay could
not be developed as an entity by itself. The organization determined that a total watershed approach is
necessary for the job.
The Genesis of N.E.W. Waters for Tomorrow, Inc.
N.E.W. (North East Wisconsin) Waters for Tomorrow, Inc., is a nonprofit citizens' organization
formed with a belief that cost-effectiveness (i.e. getting the biggest bang for the buck) is an
important criterion in choosing strategies for reducing pollution and meeting desired water
resource management objectives in the Fox-Wolf watershed and lower Green Bay region of
Wisconsin.
The Fox-Wolf watershed is a 6,600 square mile area of northeastern Wisconsin extending into 12
counties. It drains into Lake Michigan's lower Green Bay. Much of the watershed suffers from
problems such as eutrophication and contaminated sediments. In many areas, desired
conditions for recreation and habitat are not realized.
The U.S.-Canada International Joint Commission (IJC), oversees the Great Lakes Water Quality
Agreement that the two countries signed in 1978. In 1985, the IJC designated lower Green Bay
and a section of the Fox River from its mouth to the De Pere Dam, as an Area of Concern (AOC),
one of 43 around the Great Lakes. AOCs are areas where the specific water quality objectives of
the 1978 Great Lakes Water Quality Agreement have not been met. In the case of Lower Green
Bay, human activities have impaired the beneficial uses of the area and reduced its ability to
support aquatic life.
As a result of the 1985 recommendation of the IJC, the eight Great Lakes states and the province
of Ontario committed to developing and implementing Remedial Action Plans (RAPs) to restore
beneficial uses of Areas of Concern within their boundaries. The Remedial Action Plan process
represents an innovative approach to water quality management, an ecosystem-based,
"bottom-up" approach to bring together diverse local interests to tackle problems affecting the
beneficial uses of the water resources of the area. The Wisconsin Department of Natural
Resources (WDNR), with EPA support and intensive local involvement, produced a RAP for
lower Green Bay in 1988.
David White, team leader for N.E.W. Waters for Tomorrow, Inc., has written:
The RAP process in lower Green Bay has continued to the implementation stage. There are
many obstacles to achieving the "desired future state." Recommendations to attain desired
objectives, such as the removal of nutrients causing eutrophication, cleanup of contaminated
sediments, protection and reestablishment of habitat, and enhancement of recreation, require
much effort from many entities, as well as substantial funds. The challenges to
implementation are technical, social, and financial. Attaining the objectives of the RAP
requires significant financial resources, social and political will, and answers to certain
technical questions.
Although many management activities are taking place throughout the watershed, it was
concern for implementation of the Green Bay RAP that led a handful of Green Bay citizens
to initiate North East Wisconsin Waters for Tomorrow, Inc. On the positive side, the
founders felt that the goals and objectives of the Green Bay RAP were sound, as was its
ecosystem emphasis.
However, the group felt that because of the potentially high cost of implementing the RAP,
dollars spent for water resources management must be spent wisely and effectively.
14
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They also concluded that cost-effective decisions needed to be made in the context of the entire
watershed. It was evident that activities throughout the watershed contributed to the problems
in lower Green Bay.
Further, they felt that the many different management efforts in the watershed, planned or
underway, needed to be pulled together and related to one another.
Because little was known about how to most cost-effectively meet the goals and objectives of
water resource management in the region, the founders of N.E.W. Waters for Tomorrow hired
an interdisciplinary analysis team to identify and evaluate cost-effective management strategies.
In addition to several local and national consultants, the analysis team consists of three full-time
members: a resource economist, a civil engineer, and an ecologist. The analysis team has three
objectives:
¦ to identify the most cost-effective measures for desired water resources conditions in
the watershed;
¦ to develop an analytical framework for use in the planning of water resources
management in the watershed; and
¦ to identify the nature and extent of uncertainties relating to water resources
management in the region.
The Analysis Team Approach
The approach has two key aspects:
¦ First, it had to be future oriented. This is because it makes sense to develop a
management strategy that takes into account not only past actions and present
conditions, but future problems likely to arise in a changing socio-economic-ecologic
environment. Also, attaining desired objectives takes time because actions take time
to implement and the ecosystem takes time to respond. The majority of the effort
will therefore be directed toward identifying the most cost-effective measures to
ensure that the objectives can be achieved and maintained.
¦ Second, the analysis must focus on the watershed in its entirety. The analytical
framework is set up to determine the most cost-effective management strategy to
meet desired objectives throughout the watershed.
The effort is directed at management objectives relating to:
1) ambient water and sediment quality (i.e., phosphorus, total suspended solids, and
PCBs);
2) habitat; and
3) water-based recreation.
Ongoing Activities
Currently, the analysis team is busy compiling the needed background information, much of it
from previous efforts. Ongoing work includes summarizing water resource management
objectives, assessing the requirements needed to achieve those objectives, approximating the
sources of water quality problems in the watershed (rural runoff, urban runoff, point sources),
and projecting conditions in the watershed to 2010. The work plan called for completion of this
compilation and preliminary analysis phase by February 1993, and then spending four months
analyzing the cost-effectiveness of different management strategies. The analysis team will
produce a report of the findings of the first year by July 1993. This document will present the
framework, explain the uncertainties, and provide a discussion of cost-effective management
strategies required to meet desired objectives in lower Green Bay.
[For further information, contact David White, Team Leader, N.E.W. Waters for Tomorrow, University of
Wisconsin-Green Bay, Room ES-105E/2420 Nicoiet Drive, Green Bay, Wl 54311-7001. Phone: (414)
465-2170.]
North East
Wisconsin Waters for
Tomorrow, inc.
Organizes a
Watershed For
Cost-Effective
Restoration
(continued)
15
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Trout Unlimited Joins With Forest Service and
Bureau of Land Management to Bring Back the Natives
editor's note: David A.Nolte, a News-Notes reader from Redmond, Oregon, sent us two interesting
and instructive articles the other day. What follows is his story outlining Trout Unlimited's participation in
the Bring Back the Natives program. The program is a combined effort involving the primary managers
of the public lands, the Forest Service, and the Bureau of Land Management, together with the Na-
tional Fish and Wildlife Foundation and other national partners. Nolte is Trout Unlimited's coordinator for
the program. (For an earlier story on Bring Back the Natives see News-Notes #22 June-July 1992).
Thanks, David, for your contributions. David's other contribution to this issue of News-Notes, on the
Crooked River Watershed, can be found under Notes on Environmental Education.
Bring Back the Natives
by David A. Nolte, Trout Unlimited
Funded by the National Fish and Wildlife Foundation, Washington, D.C., this key national
fisheries program is the first national campaign combining Trout Unlimited with two major
federal agencies, the U.S. Department of Agriculture (USD A) Forest Service and U.S.
Department of the Interior (USDI) Bureau of Land Management, with partnerships including
state agencies, local organizations, private businesses, citizens, and landowners. The program is
aimed at restoring the health of riverine systems and the repopulation of native freshwater
species. Currently, the program is funding 47 projects on 47 streams in 15 states. Twenty
projects directly involve Trout Unlimited chapters, including those in California, Idaho,
Nevada, Oregon, Wyoming, and Arizona.
The program operates through a cooperative effort that stresses improved watershed and
ecosystem management and seeks to restore the health of entire riverine systems and their
native species.
The BLM manages more than 270 million acres of public lands, including approximately
175,000 miles of streams and rivers and 4.2 million surface acres of ponds, lakes, and reservoirs.
The BLM needs to expand its habitat enhancement and educational opportunities and work
with a multitude of partners to accomplish management goals of fisheries that strategies such as
Bring Back the Natives offers. Successful implementation of this program will substantially
benefit coldwater fish, such as bull trout, inland redband rainbow trout, cutthroat trout, and
various other salmonids.
Trout Unlimited, in partnership with the BLM, has established an overall program coordinator
position to support the implementation and coordination of Bring Back the Natives projects.
David A. Nolte, a Trout Unlimited member residing in Oregon, has been selected for this
position. Nolte will promote and assist Bring Back the Natives projects that:
¦ Link instream restoration with sound federal land management.
¦ Emphasize sustainable management, with broad resource benefits.
¦ Implement large, watershed-level projects.
¦ Convey a history of Trout Unlimited interest and involvement.
¦ Include active local partners and cooperators.
¦ Included education of the community and general public about the project and
watershed.
¦ Meet the need for challenge grant funds.
Trout Unlimited chapters are encouraged to seek partnerships with the Bureau of Land
Management and USD A Forest Service for watershed-level projects that meet Bring Back the
Natives program criteria.
[For more information, contact David A. Nolte, TU/Bring Back the Natives Program Coordinator, 6322
N.W. Atkinson Ave., Redmond, OR 97756; Voice and FAX: (503) 548-FISH; Phone: (503) 923-3344):
FAX: (503) 447-8065.
16
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News From the States and Localities,
Where the Action Is
New Yorkers Lend State's Waters a Helping Hand
From the vast waters of Lake Erie to the beaches of Staten Island, from Adirondack Mountain
streams to the busy Manhattan riverfront all across the state, New Yorkers were cleaning
creeks, stenciling storm drains, touring water treatment plants, monitoring rivers, exploring
wetlands, taste-testing drinking water you name it. If it was wet, New Yorkers were doing it.
Why were they doing it? To celebrate the state's ninth annual Water Week, May 3-8.
The statewide celebration's theme was "Lend a Helping Hand to New York's Waters," and it
invited state residents to become active stewards of the state's many and varied waters. Scores
of towns and counties planned educational, stewardship, and celebratory activities, ranging
from a shad festival in Kingston to a symposium in Melville, and a creek cleanup and tree
planting in Eagle Mills. Sponsors of the events ranged from EPA Region 2 to local entities like
the Wading River Civic Association.
A packet of educational materials emphasizing the watershed concept was sent to 25,000
educators, county extension offices, planning boards, civic and environmental groups, scouting
organizations, legislators, municipal officials, concerned individuals, and county Water Quality
Coordinating Committees across the state.
A brochure called "Clean Water...A Community Commitment to Protecting New York's
Watersheds" brought watershed protection down to the local and individual levels, giving
suggestions on preventing nonpoint source pollution.
The packet also contained the "Water Week Bulletin," which described the recently completed
water quality strategies in most of New York's counties. Other brochures and booklets listed
stewardship groups in the state, gave valuable ideas for participating in local government, and
outlined classroom activities.
Accompanying the materials was a letter from Commissioner Thomas Jorling of New York's
Department of Environmental Conservation. In it, he explained, "We all live in a watershed; our
individual and group actions that affect air and land will inevitably affect the water." In the first
week of May this year, New Yorkers all over the state learned how to make those actions
positive ones.
[For more information, contact the Public Participation Section, Division of Water, Dept. of Environmental
Conservation, 50 Wolf Rd., Albany, NY 12233-3501. Phone: (518) 457-0669.
In Montana, Local Water Quality Districts
Make A Splash
editor's note: This story originally appeared in the spring 1993 issue of The Water Column, the news-
letter of the Montana Dept. of Health & Environmental Sciences, Water Quality Bureau.
Two of the most important issues of the 1990s are water quality and the recession. During 1992,
the "Year of Clean Water," people have focused on the need to protect this most precious
resource. At the same time, governments at all levels are faced with recession realities a
declining tax base and increased costs.
Is it possible to protect water quality and turn the economy around? Yes. Sound economic
development in a vibrant, growing community depends on a clean supply of water. The
dilemma is how to safeguard high-quality water when the coffer is empty.
In Montana, creating a local water quality district is one way to meet both challenges. In the
1991 Montana Legislature, Senate bill 136 was passed to allow counties to set up districts to
protect, maintain, and improve water quality. Each district is authorized to set fees to achieve its
objectives.
17
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The Lewis and Clark county commissioners initiated the first local water quality district
encompassing the Helena Valley watershed in February 1992. It was established after four
months of public discussion. The city councils of Helena and East Helena passed resolutions to
join the proposed district.
A 30-day protest period in March allowed the public to register objections to the district.
Meetings were held with many local groups to explain the district and its fee structure. The
Independent Record carried a lively discussion on the issues with arguments for and against the
district. Each person to be assessed a fee received a postcard telling how to register a protest. If
20 percent of the affected public protests the district, the county commission must hold a
referendum election to allow the voters to approve or disapprove the district. By April, fewer
than that had registered a protest. The county commission held a public hearing. After hearing
the views of the public, the commission voted to create the district.
The first order of business was to appoint a board of directors to oversee the district. The board
consists of a county commissioner, and a member from Helena and one from East Helena. It
also includes a member from the city/county board of health, another from the Lewis and Clark
Conservation District, and interested citizens.
The board designs the program and activities of the district and submits them for approval to
the Montana Board of Health and Environmental Sciences. This assures there will be no
duplication of services between state and local programs. It also allows the district to request
authorization to enforce certain aspects of the Montana Water Quality Act.
The Lewis and Clark County Water Quality Protection District has adopted a comprehensive
program that it calls CAP Clean Aquifer Program. This program includes water quality
monitoring, toxic/hazardous material spill remediation, storm water drainage inventory, and
wellhead protection. It also will provide a used motor oil collection center and an education
program for pesticide use reduction and household hazardous waste disposal.
[For more information on Montana's local water quality districts, contact Carole Mackin, Environmental
Specialist, Water Quality Bureau, Cogswell Building, 1400 Broadway, Helena, MT 59620. Phone: (406)
444-2406.]
News on the Coastal Nonpoint Pollution
Control Program
EPA and NOAA Begin Outreach Effort on Coastal Nonpoint Programs
editor's note: News-Notes is continuing the series of articles on the Coastal Nonpoint Control Pro-
grams required by section 6217 of Coastal Zone Act Reauthorization Amendments of 1990 (see News
Notes #28 April 1993 for a description of the program and the guidance documents available from EPA
and NOAA).
EPA and NOAA kicked off their outreach effort on Coastal Nonpoint Pollution Control Program
implementation in May with the first in a series of regional workshops for the 29 coastal states
and territories developing coastal nonpoint programs. These workshops focus on the
requirements of section 6217 of the Coastal Zone Act Reauthorization Amendments of 1990
(CZARA). They are designed to bring together state water quality and coastal zone
management agencies as well as cooperating state agencies such as state agriculture and
forestry departments. EPA and NOAA have scheduled eight regional meetings this summer
throughout the United States.
The initial workshops, conducted in Virginia and Connecticut, provided states with their first
opportunity since the release of the guidance documents in January (see News-Notes #27 March
1993) to give NOAA and EPA direct feedback on issues and concerns. Several common concerns
were voiced by the states. First were concerns about the lack of funding provided by Congress
to support development and implementation of state coastal nonpoint programs. Section 6217
authorizes NOAA to provide funds to states to develop coastal nonpoint programs. The
authorizations in the law provide for $6 million in FY 92, increasing to $12 million for each fiscal
year from 1993 through 1995. Actual appropriations for FY 92 and FY 93 have been only $2
million (to be distributed among all 29 states). Early budget projections for FY 94 suggest that
level of funding will again be provided.
In Montana, Local
Water Quality
Districts Make A
Splash
(continued)
18
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States also raised concerns about how the new coastal nonpoint programs would relate to
states' existing efforts to control nonpoint pollution and manage coastal resources. NOAA and
EPA expect states to rely heavily on existing efforts to meet the requirements of 6217 and hope
to identify and resolve potential conflicts with ongoing efforts throughout the program
development process.
Another area of concern for states is the geographic scope of their coastal nonpoint program.
The statute requires that NOAA, in consultation with EPA, review existing coastal zone
boundaries and evaluate whether they extend inland to the extent necessary to control the land
and water uses that have a significant impact on coastal waters. NOAA provided boundary
recommendations to the coastal states on March 31,1993 (see the April 7,1993 Federal Register
for notice of this action). These recommendations maintain a basic recommendation for coastal
watersheds as outlined in the Coastal Nonpoint Pollution Control Program: Program Development
and Approval Guidance issued in January 1993. Where data indicated significant indicators on
nonpoint source pollution above the coastal watershed boundary, NOAA recommended that
states look beyond the coastal watershed boundary in determining the appropriate 6217
management area.
While a watershed boundary provides the most logical geographic unit for dealing with
nonpoint source pollution, it does not always coincide with political jurisdictions or other areas
that have been delineated for environmental programs. States with existing environmental laws
that apply only to a portion of the state face the difficult task of determining how to network
those laws into their coastal nonpoint programs or extend the coverage to adequately address the
entire 6217 management area. Final determinations on the geographic scope of states' coastal
nonpoint programs will be made as a part of the program development and approval process.
NOAA and EPA are continuing to work toward improving technical assistance to states in the
development of their coastal programs. Prior to beginning the state workshops, NOAA and EPA
conducted a briefing for other federal agencies such as the U.S. Department of Agriculture, U.S.
Fish and Wildlife Service, and U.S. Geological Survey. The briefing outlined the CZARA
outreach strategy and enlisted the support of these agencies in assisting states. This federal
agency coordination will be an ongoing effort of NOAA and EPA. NOAA and EPA are planning
additional workshops later this year for states and other interested parties. These workshops
will focus on specific technical issues associated with implementing management measures to
control coastal nonpoint pollution.
[For more information, contact Stuart Tuller at U.S. EPA, NPS Control Branch (WH-553), 401 M Street, SVK
Washington, DC 20460. Phone: (202) 260-7112. Or contact Marcella Jansen at NOAA, 1305 East-West
Highway, 11th floor, Silver Spring, MD 20910. Phone: (202) 606-4181.]
Notes on the Agricultural Environment
Revised Soil Analysis Handbook
an Aid in Nutrient Management
Both voluntary and regulatory programs for agricultural nonpoint source control are depending
more and more on nutrient management. For example, Iowa has established a minimum level
of nutrient and pesticide management for farms located in the critical treatment areas of projects
cost-shared with 319 funds. And Pennsylvania recently passed a law that will require many
farmers to fashion nutrient management plans (See article on page 20.).
As nutrient management programs are established, more farmers and growers are coming to
rely on soil test results. Soil testing is a must to ensure that management plans are
environmentally and economically effective. According to the Council on Soil Testing and Plant
Analysis' new edition of its laboratory methods handbook, "Increased interest in soil testing is
due in part to the cost of fertilizer materials and to the desire ... to be environmentally correct
in their use of agrichemicals."
To meet the need for reliable and consistent test results, the Council has completely revised its
manual, Reference Methods for Soil Analysis. The new edition emphasizes quality assurance,
having added an entire new section on that topic. In doing so, it anticipates laboratory
accreditation, a national program being developed to improve analytical data quality for
fine-tuning the management of nutrients in crop production and environmental quality.
EPA and NOAA
Begin Outreach
Effort on
Coastal Nonpoint
Programs
(continued)
19
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Last issued in 1980, the new 210-page manual describes 31 procedures in common use in the
United States for determining soil fertility. Environmental concerns prompted the addition of
new sections on soil field sampling, nitrate, heavy metals, and a method for estimating organic
matter that does not use dichromate.
Reference Methods for Soil Analysis may be ordered from the Council on Soil Testing & Plant
Analysis, Georgia University Station, P.O. Box 2007, Athens, GA 30612-0007. The cost is $25.00.
[For additional information, contact: J. Benton Jones, Jr., Secretary-Treasurer, Council on Soil Testing and
Plant Analysis, Georgia University Station, P.O. Box 2007, Athens, GA 30612-0007. Phone: (706)
546-0425, FAX (706)548-4891.]
Landmark Pennsylvania Law
Mandates Nutrient Management
Pennsylvania has passed a first-of-its-kind law to stem the flow of nutrients into state waters
and the Chesapeake Bay. Signed by Governor Robert P. Casey on May 20, the Nutrient
Management Act links livestock density to mandatory nutrient management. The law
represents six years of debate, culminating in a hard-won consensus among environmental and
agricultural interests.
"From the start, various interests were brought around the table," explained Paul Swartz of the
Susquehanna River Basin Commission. "Bringing together representatives of government,
agriculture, and environmental groups made the process more difficult, but the end result was
the cooperation needed for passage and implementation."
The Act's primary purpose is to
establish criteria, nutrient management planning requirements, and an implementation
schedule for the application of nutrient management measures on certain agricultural
operations which generate or utilize animal manure.
Under the Act, farms with more than 2,000 pounds of livestock or poultry per acre are required
to develop and carry out approved nutrient management plans. About 8,000 to 10,000 existing
beef, dairy, hog, poultry, and horse farms in Pennsylvania meet the animal density criteria.
"We need to be doing nutrient management bay-wide on any kind of acreage on which fertilizer
is applied. This is an absolutely wonderful start in the right direction," noted Frances Flanigan,
executive director of the Alliance for the Chesapeake Bay. "Nutrient management goes a
tremendously long way toward addressing the bay's problems in a cost-effective way," she
added.
Ninety percent of the fresh water streaming into the upper bay comes from Pennsylvania's
Susquehanna River, and agricultural runoff is the largest source of nutrients in the river. Under
the Chesapeake Bay Agreement with Maryland and Virginia, Pennsylvania has pledged to
reduce nitrogen flow into the bay by nearly 20 million pounds per year.
The Pennsylvania State Conservation Commission, in conjunction with the state environmental
and agriculture departments, has two years to promulgate regulations to implement the law
and set minimum standards for nutrient management plans. During this period, the
commission must identify best management practices and procedures for determining nutrient
application rates. The aims are to balance nitrogen input from manure or chemical fertilizer
with crop needs and minimize runoff of excess nutrients.
The law establishes an advisory group of 15 members to review the commission's regulations.
The advisory group will consist of:
¦ five farmers,
¦ one feed industry representative,
¦ one commercial agricultural lender,
¦ one fertilizer industry representative,
¦ one local government representative,
¦ one academic agronomist or plant scientist,
¦ one veterinary nutritionist,
Revised Soil
Analysis Handbook
an Aid in Nutrient
Management
(continued)
20
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Landmark
Pennsylvania Law
Mandates Nutrient
Management
(continued)
¦ one representative of environmental groups,
¦ two citizens, and
¦ one hydrologist.
"As a first order of business, the State Conservation Commission is accepting nominations for
the Nutrient Advisory Board," said Conservation Commission Executive Secretary Mike
Krempasky.
Also established under the law is a program to certify nutrient management specialists to
develop management plans. This program may shift how some technical services are provided
to farmers. Government agencies that previously provided free services to farmers will now
take on the role of reviewing and approving plans, although the development of plans will
generally be in the hands of individual farmers or private sector professionals who have been
tested under the state certification program. Local conservation districts or the State
Conservation Commission will have the responsibility of plan review and approval.
Farmers must submit their nutrient management plans for existing farms within one year after
regulations are promulgated and must fully implement them within three years of approval.
Reviewers have 90 days to approve, modify, or deny plans.
Under the law the commission will offer various grants and loans to farmers for putting plans
into action. The Act states, however, that
The three-year implementation schedule shall be extended... two years for substantial
individual capital improvements required under an approved plan .. .if the owner or operator
demonstrates that the cost... cannot be financed through available funding mechanisms; and
... $2 million or more has not been appropriated for grants and loans....
The commission must also develop educational and technical assistance programs to
accompany the regulations. Swartz pointed out that the law is a complement to the educational
and voluntary path that the state has followed up to now. "The bill is significant in being a
regulatory approach to agricultural nonpoint source pollution, but this law doesn't replace
education with regulation; it builds on the voluntary framework of the Chesapeake Bay Program
in the state," he said.
In addition to regulating farm practices, the Act also directs the Department of Environmental
Resources to evaluate the water quality impacts of pollution from storm water, septic systems,
wells, nonagricultural fertilizer use, and atmospheric deposition.
The nutrient management bill was sponsored by state Rep. Jeffrey Coy, who said, "[The law] is
an important part of Pennsylvania's environmental future and the future of surrounding states
and the Chesapeake Bay."
The U.S. Environmental Protection Agency applauded the law. William Matuszeski, director of
EPA's Chesapeake Bay Program said, "I hope it's the first of...a new generation of legislation to
deal with what is emerging as a more and more important problem." And Hank Zygmunt, EPA
Region 3's nonpoint source coordinator commented, "The newly passed nutrient management
law strongly complements Pennsylvania's Nonpoint Source Management Program.
Pennsylvania's NPS program will surely benefit by including this law, which will set standards
for nutrient management plans."
Appropriately, the formal signing ceremony on June 1 took place on the Kopp family farm in
Dauphin County and included a tour of conservation practices used on the 100-cow dairy
operation. The Kopps explained their nutrient management plan and showed visitors the farm's
manure storage facility and terraced fields.
[For more information, contact Mike Krempasky, Executive Secretary, Pennsylvania State Conservation
Commission, P.O. Box 8555, 400 Market St., Harrisburg, PA 17105-8555. Phone: (717) 787-5267.]
North Carolina Adopts Nondischarge Rule
for Animal Waste Management Systems
The North Carolina Department of Environment, Health and Natural Resources, Division of
Environmental Management (DEM) has usually invoked water quality regulations in response to
citizen complaints about water quality problems after degradation has already occurred. DEM
now believes a more proactive mechanism is needed to help farmers plan and operate animal
waste management systems to protect surface and groundwater quality before problems occur.
21
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On December 10,1992, North Carolina's Environmental Management Commission adopted a
water quality rule that governs animal waste management in the state. The goal of the rule is for
all animal management operations (regardless of size) not to discharge into the surface waters of
the state. The rule allows animal waste management systems to be deemed permitted if certain
minimum criteria are met. In addition, feedlots with more than 100 head of cattle, 75 horses, 250
swine, 1,000 sheep, or 30,000 birds must meet special conditions in order to be deemed permitted.
This means that if the criteria or conditions are met and no waste is discharged to surface waters,
then an individual permit is not required from DEM.
As of February 1, existing animal waste management systems and new or expanded animal
waste management systems constructed between February 1 and December 31,1993 must do
the following:
1) register with DEM by December 31,1993, and
2) submit a certification form signed by the owner and a state-designated technical
specialist to DEM by December 31,1997. The certification verifies that the animal
waste management system has been approved as a nondischarging system and that
the minimum operation and maintenance standards can be met.
New or expanded feedlots constructed after December 31,1993, must submit a signed
certification form to DEM before the animals are stocked. This certification indicates that the
minimum design and construction standards for the waste management system have been met
and that the operation and maintenance standards can be met for a nondischarging system. The
standards and specifications are based on those used by the USDA Soil Conservation Service
and the North Carolina Soil and Water Conservation Commission.
Facilities that fail to submit the registration and certification forms on time or fail to follow an
approved plan must obtain an individual permit from DEM and are subject to appropriate civil
or criminal penalties.
[For more information, contact David Harding, NC Division of Environmental Management, P.O. Box
29535, Raleigh, NC 27626-0535. Phone: (919) 733-5083. FAX: (919) 733-9919.]
EPA Region VII To Hold Animal Nutrient
Workshops For Hog Producers
editor's note: Buck Burch is the SCS Liaison to EPA Region VII and the editor of a new newsletter, The
Splash, which offers information on water quality issues in Iowa, Kansas, Missouri, and Nebraska. Con-
gratulations, Buck, on this article on hog producers and nutrient management of interest to News-
Notes readers.
Animal nutrient workshops are being scheduled in each state throughout EPA's Region VII
because of the increasing emphasis on the handling of animal nutrients and water quality
concerns. Program content is directed to hog producers, but anyone interested in the swine
industry is welcome to attend. Program topics include: how the federal Clean Water Act affects
pork producers; how livestock waste management affects the producer; individual state water
quality regulation; design regulations; economics of financing new and existing facilities;
technical assistance; cost-share programs; implementing and operating a waste management
system; public relations, and livestock nutrient management.
Those involved in formulating individual state programs include the National Pork Producers
Council (NPPC), the State Pork Producers Associations, USDA Soil Conservation Service and
USDA Agricultural Stabilization and Conservation Service, state departments of natural
resources or environment, U.S. EPA, farm organizations, state departments of agriculture, and
university extension services.
Earl Dotson, director of producer education for NPPC, Des Moines, Iowa ([515] 223-2600) and
Buck Burch, SCS/EPA liaison, Kansas City, Kansas ([913] 551-7422), are coordinating the
meetings on a regional basis. Meetings in Missouri began in March and will continue in all the
states in the region throughout 1993.
[For more information, contact Buck Burch, SCS Liaison, U.S. EPA, Planning and Evaluation Section, 726
Minnesota Ave., Kansas City, KS 66101. Phone: (913) 551-7422.]
North Carolina
Adopts
Nondischarge Rule
for Animal Waste
Management
Systems
(continued)
22
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Reauthorizing the Clean Water Act
Clean Water Act May Target Agriculture,
Reports Upper Midwest Conference
editor's note: This article appeared in the April 1993 issue of Keeping Current, the water resources
programs newsletter of the University of Wisconsin Cooperative Extension Service. See also the next
story "Agricultural Policy and Water Quality: The National Perspective," which appeared in the same
issue of Keeping Current.
Don't expect movement any time soon on reauthorization of the Federal Water Pollution
Control Act (Clean Water Act), but when movement does occur agriculture will be a prominent
topic of debate. That was the message of Susan Offutt, Executive Director of the Board on
Agriculture, National Academy of Sciences. Offutt spoke March 17 at the LaCrosse, Wisconsin,
conference, Rural Nonpoint Source Pollution in the Upper Midwest. Speaking before a crowd of
about 300 conference attendees from Wisconsin, Minnesota, Iowa, and Illinois, Offutt predicted
that it will be at least a year before Congress will engage in major debate on the act.
The CWA provides for control of point sources of pollution through a permit program based on
treatment and controlled release of effluent, and a nonpoint source program based on a
prevention through land management prescriptions or Best Management Practices.
Offutt said that when the debate heats up over nonpoint source pollution, agricuture will be
scrutinized. Offutt said that EPA reports indicate 60 percent of the nation's threatened surface
waters are affected by farming practices. She added, "Although urban development, marinas,
dam building, and the like contribute to nonpoint source pollution, agriculture is seen by many
people as the most significant source; so it's not a question of whether agriculture will be
singled out but how."
Offutt suggested three possible outcomes for the reauthorization of the Clean Water Act. The
first would be an extension of the current legislation with some enhancement. If that happens,
Offutt predicted it would mean the continuation of financial help for farmers in various
cost-sharing programs like the Conservation Reserve Program. This option, according to Offutt,
is not likely, due to the pressure to reduce the cost of agricultural programs. The second
reauthorization possibility would be extending Coastal Zone Management (CZM) legislative
provisions inland. Extending CZM would encompass not just lands near or adjacent to the
Great Lakes, but inland to cover all lakes, rivers, or other bodies of water. Finally, Offutt's third
option for CWA reauthorization would be to target certain groups or geographic areas. In this
scenario, programs would be largely volunteer with some regulatory provisions.
The three-day conference in La Crosse also featured a number of speakers discussing local
program successes. Topics included rural/farm management, riparian land management
approaches, lake management, models for local involvement, and ways to build public/private
partnerships. The Wisconsin Priority Watershed Program was discussed as part of a special
panel featuring DNR nonpoint Section Chief Rebecca Wallace and Department of Agriculture,
Trade and Consumer Protection unit leader Keith Foye. Wallace and Foye described the
successes and concerns of the Wisconsin model for nonpoint source pollution abatement, which
focussed on state support of local efforts, and the interaction between state government, local
county offices, and the landowner.
Agricultural Policy and Water Quality:
The National Perspective
At the meeting on March 15 -16, the pending debate over reauthorization of the Clean Water
Act and the 1995 Farm Bill set the stage for a national forum called "The Next Generation of
U.S. Agricultural Conservation Policy." Over 500 individuals, agricultural leaders, and special
interest group representatives attended. The Kansas City event featured discussions on water
quality programs, trends in agricultural research, natural resources limits, and perspectives on
farm policy and the environment.
Water quality protection via agriculture policy in the United States is not a minor expenditure.
Currently, [a significant amount] of the $40 billion paid through incentive payments in various
agricultural programs is targeted at protecting water resources. Robert Wayland, Director of the
23
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EPA's Office of Wetlands, Oceans, and Watersheds expects water quality and resource
protection to be the subject of numerous debates during the next year as Congress considers
reauthorization of the CWA. Speaking at the Kansas City meeting, Wayland said, "Look for
agriculture to be included in the debate." Wayland stated that past efforts have protected water
quality, but more needs to be done to protect wetlands, estuaries, and biotic diversity in the
natural community.
Not only will farmers see future changes in policy, but policy makers will feel the impact of
reorganization. Tom Hebert, assistant to the Senate Committee on Agriculture, Nutrition, and
Forestry said, "There's not a day that goes by that we don't discuss reorganization of USDA." A
great deal of discussion has focused on creating a farm service agency where a number of USDA
agencies would be brought together. Hebert pointed out, "There's a feeling on the Hill that there
is a lack of coordination on issues that effect the farmer, especially at the national level."
Change won't come easily for USDA. Both Hebert and Wayland described how a new direction
will require fundamental changes in laws that govern agriculture, many of which have evolved
over the past 60 years.
Notes on Environmental Education
(and having fun at the same time)
In Wisconsin, Focus Groups Produce Straight Talk
on Nonpoint Source Education
editor's note: This article appeared in Keeping Current, published 10 times a year by the University of
Wisconsin Extension. Thank you, Tom Lamm, editor.
Steve Bennett and Dotty Juengst recently joined the ranks of marketers, politicians, and public
agencies who rely on focus groups as a source of information in planning their programs. In
October 1992, Steve and Dotty, who staff the Northeast Wisconsin Water Quality Education
Office, organized a set of four groups to get citizen perceptions about nonpoint source pollution
and their attitudes toward current education efforts. Three of the focus groups included local
residents in three different age groups, while the fourth involved professionals in
communications, the media, and related fields. Steve and Dotty were assisted by a professional
marketing agency in Green Bay. The following are some of the major recommendations offered
by focus group participants:
¦ Avoid using the term "nonpoint source pollution" in a public education campaign.
Focus group participants thought the term was too complicated and hard to
understand. Most of them had never heard of the term in spite of its use in
Wisconsin by water quality managers for the past 15 years. Media and professional
communications participants didn't like the term and preferred not to use it.
However, most participants could relate to the term "runoff."
¦ Find creative ways to engage youth and school children. To solve our nonpoint source
pollution problems, long-term shifts will be necessary in citizens' ethics and ways of
thinking. Some of these changes take a long time and can be initiated with children in
their formative years. In addition, participants noted that they feel barraged by
massive amounts of junk mail and information, most of which they ignore. However,
when children come home from school with information that their parents can read,
or when they can help with class assignments, the parents become involved too.
Nonpoint source pollution education needs a long-term strategy and a long-term campaign.
Participants used examples such as smoking, drunk driving, and recycling to illustrate the
long-term nature of public education campaigns. With regard to a nonpoint source pollution
education campaign, participants had several suggestions.
¦ First of all, they suggested that a commitment of several years be made to a campaign.
¦ Second, they felt that the campaign should include work with school children and
youth groups and the use of different media sources.
¦ They also felt that the broad topic of nonpoint source pollution needed to be broken
into small, comprehensible messages. These messages should be repeated in
different forms over an extended period of time.
Agricultural Policy
and Water Quality:
The National
Perspective
(continued)
24
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¦ Finally, they felt that a successful campaign had to personally engage people in
dealing with the problem of nonpoint source pollution. This could be accomplished
by providing information on reducing runoff pollution through proper yard care
practices; and by providing opportunities for involvement in stream clean-ups,
water testing programs, and other activities.
[For more information, contact Steve Bennett, Northeast Water Quality Education Specialist, ES317, UW,
Green Bay, Wi 54311-7001. Phone: (414) 465-2317.]
Stream Team Day Camp Guidebooks Produced
by Wendy Burt, City of Olympia, Wash.
Spice up your fun and games this spring and summer. See if your students can do the Puget
Sound Scramble. Challenge your Scout group to the Water Cycle Relay. And don't forget to
check out Backyard Bingo. That's right, Forest, Stream, and Sound: a Guide to Conducting Water
Quality Camps for Children and Families is hot off the press. Whether you're looking for a new
theme or format to liven up your own program, or are just searching for activities to fit a
specific place or group size, the activities matrix can help you out.
This how-to guidebook offers a comprehensive view of the how, what, where, when, and why
for the city of Olympia's innovative Stream Team day camps and family fun days. Held last
summer at Priest Point and Watershed Parks, the city sponsored two three-day environmental
education camps with a water quality focus for eight- to 12-year-olds. The camp was fully
enrolled with 30 campers attending each session. The response was so enthusiastic that the city
will be holding two camp sessions again this June. The camps were funded through the city of
Olympia's Storm and Surface Water Utility and the Puget Sound Water Quality Authority's
Public Involvement and Education Project Fund.
Written by the camp's instructors, Eva Shinagel and Jana Dean, Forest, Stream, and Sound
provides activity descriptions, camp schedules, and many creative and fun ideas for how to run
low cost, high enthusiasm camp activities.
Stream Team Workshops and Videos
The Stream Team program is also featuring six fun and informative workshops in 1993. Four
two-hour workshops have been held so far: Stream Team Program orientation, lake ecology,
common sense gardening, and a session entitled "Mayflies to Midges: Macroinvertebrates of
Streams," which combined monitoring information with a fly-tying demonstration.
Still ahead this year are workshops on wetland ecology (August 19) and urban wildlife (October 14).
The Stream Team has produced a video about Stream Team efforts in the community called The
Future Belongs to Us. They have also taped previous workshops: Floods and Flows; Landscaping
for Healthy Streams; Wetlands, Wildlife and You; Bugs and Water Quality; and Fishwatching.
Stream Team efforts in Lacey and Thurston County are partially funded by grants from the
Washington Department of Ecology Centennial Clean Water Fund. In the city of Olympia, the
Stream Team is funded with revenue from the city's Storm and Surface Water Utility.
[For more information on the Stream Team, write Wendy Burt, Stream Team Coordinator, City of Olympia,
Public Works Department, Water Resources Program, P.O. Box 1967, Olympia, WA 98507.]
Crooked River Watershed (Ore.) Cooperative Education Program
by David A.Nolte, Redmond, Ore.
A watershed education program currently in a startup phase located in Crook County, a rural
county in central Oregon, proposes to educate students and citizens about the Crooked River
watershed through development of public education partnerships between the Crook County
School District and private businesses, landowners, city, county, state, and federal agencies;
through changes in land use management, awareness of watershed issues and riparian/upland
restoration projects designed to support the educational program which, in turn, will enhance
the watershed at a basin level over a long-term period.
Mission Statement
The program will provide an educational curriculum for the Crook County School District that
encompasses classroom and field studies, and work experience for all students and yearly,
25
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renewable, watershed rehabilitation projects designed to enhance the Crooked River basin and
increase public awareness of the watershed's importance.
The Crooked River Watershed Cooperative Education Program (CRWCEP) is designed to
become self-sustaining, initially to reach grades seven to 12 while slowly infusing curricula into
elementary grade levels. It is expected to continue for a minimum of 10 years. A principal
objective of the CRWCEP is to bring professionals from agency, business, and the local
community into the classroom to expose students to "hands-on" real-world learning situations
relating to watershed management, natural resources, and holistic resource management
principles. This program has both technical and financial support of the Bureau of Land
Management, USDA Forest Service, Oregon Department of Fish and Wildlife (ODFW), Crook
County School District, Oregon State University Extension Service, Crook County Soil and
Water Conservation District, local businesses, private citizens, and Trout Unlimited of Oregon.
A matching grant from the National Fish and Wildlife Foundation (NF&WF) is providing
startup funding of $24,100 to match 1:1 with any non-federal contribution. Additional matching
grant monies for FY 93 include Phillips Environmental Partnership Grant (Phillips Petroleum
Corporation) and an Embrace-A-Stream grant from Trout Unlimited.
FY 93 Major Subtasks
¦ Williams Prairie Subtask Twenty-two thousand dollars has been allocated by the
Ochoco National Forest for this subtask (Challenge Cost Share). Currently in NEPA process
with forest ID team established, looking at alternatives. We expect project work to begin in
July. Objectives of this subtask focus on the restoration of a wet-meadow complex, North
Fork, Crooked River.
¦ Ochoco Creek Instream Classroom Subtask The focus of this subtask is to utilize Ochoco
Creek as it flows through the city of Prineville as a convenient living laboratory for students at
Crook County Middle School (CCMS) and Crook County High School (CCHS). The students
will be responsible for developing future management plans, implementation of rehabilitation
projects and monitoring of projects and water quality. The effort required to prepare curricula
and lesson plans will be documented and the processes will serve as a model for further
curriculum revisions to support natural resource systems.
¦ City of Prineville Soil Stabilization Subtask FY 93 tasks include planning, soil testing,
and landscaping plans.
This project involves Cook County High School (CCHS) students with the rehabilitation and
enhancement of a steep-cut hillside. Besides working with the City of Prineville and Les Schwab
Corporation, CRWCEP will be seeking other private businesses and agencies for monitoring
support, financial support, or technical advice. Preliminary prepatory work and planning will
be done by CCHS students.
¦ Ochoco Creek Habitat Improvement (1992-93 in progress) CCHS and Future Farmers of
America chapter, and vocational students are responsible for designing a naturescaping plan,
bank stabilization plantings, tree plantings, interpretative signs, barrier free fishing platform
and composter design & construction to support an ongoing project on Ochoco Creek.
¦ Bureau of Reclamation/CCHS Vandalism Plan (FY 94 startup) A Challenge Cost-Share
grant to CCHS involving Advanced Placement English students to develop an education
outreach plan for CCHS and for the community to address vandalism in and around the
Prineville Reservoir area.
¦ Watershed Education Curriculum Development (FY 93 through 2003). The Crook County
School District (CCSD) staff with CRWCEP education committee guidance will be developing
curricula for watershed education that follows Oregon 21st Century Education Act guidelines,
which provide for Certificates of Advanced Mastery in at least six broad occupational categories
of academic professional technical endorsements including Natural Resource Systems.
CRWCEP plans to assist CCSD in becoming a "center of excellence" in Natural Resource
Systems. The watershed education program will provide students with life skills and hands-on
work related experiences.
1994 Potential Projects
¦ City of Prineville Wastewater Treatment Facility A partnership with the city of Prineville
Wastewater Treatment Facility. This facility, still under construction, has received EPA money
Crooked River
Watershed (Ore.)
Cooperative
Education Program
(continued)
26
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for construction of secondary wastewater treatment facilities tied to the operation of a
municipal golf course. The secondary wastewater is being used for water hazards and golf
course irrigation. This facility would provide an excellent training laboratory for students in the
CRWCEP program.
[For more information, contact David A. Nolte, 6322 N.W. Atkinson Ave., Redmond, OR 97756. Phone:
(503) 923-3344. FAX (503) 447-8-065.]
NPS Electronic Bulletin Board (BBS) News
editor's note: This portion of News-Notes is prepared by Elaine Bloom, Tetra Tech, for the benefit of
the ever-increasing numbers of News-Notes readers who are regular users of U.S. EPA's NPS BBS.
Tetra Tech is the contractor for the operation and content of the NPS BBS.
Nonpoint Source Electronic Bulletin Board System. The NPS BBS, through the user's
personal computer, provides timely, relevant NPS information, a nationwide forum for open
discussion, and the ability to exchange computer text and program files.
Special Interest Group Forums (SIGs or mini-bulletin boards) are dedicated to specific topics and
have all of the features of the main BBS. Currently, the seven SIGs on the NPS BBS are:
Watershed Restoration, Agriculture, Fish Consumption Risk Management, TMDLs, Waterbody
System Support, NPS Research, and Volunteer Monitoring.
To access the NPS BBS, you will need A PC or terminal Telecommunications software (such as
Crosstalk or ProComm) A modem (1200, 2400 or 9600 baud) A phone line.
The NPS BBS phone number is (301) 589-0205. Parameters are N-8-1.
An NPS BBS User's Manual is available: U.S. EPA Nonpoint Source Information Exchange
Computer Bulletin Board System - User's Manual (Publication Number EPA 503/8-92/002.) Copies
may be orderd by mail or FAX from NCEPI, 11029 Kenwood Road, Bldg 5, Cincinnati, OH 45242.
FAX: (513) 891-6685. There is no cost. (Be sure to include both the title and the publication
number in orders sent to NCEPI.)
Volunteer Monitoring Special Interest Group Forum Opens
EPA's Volunteer Monitoring Special Interest Group (VOLMON SIG) Forum is up and open for
business. The VOLMON SIG provides the growing volunteer monitoring community with:
¦ up-to-date news items (including upcoming meetings, new publications, new
programs, new discoveries ... you name it),
¦ special articles on volunteer monitoring topics, and
¦ resource material such as a bibliography and a list of state volunteer monitoring contacts.
But perhaps most important, this SIG was developed to encourage the free flow of ideas among
those engaged in volunteer monitoring nationwide. The target audience ranges from volunteer
monitoring program managers to actual volunteers and folks who just want to know more
about volunteer monitoring.
VOLMON SIG is managed by a program coordinator and a technical monitor.
The program coordinator is Alice Mayio, the Volunteer Monitoring Coordinator in EPA's
Assessment and Watershed Protection Division, Office of Water. She will field questions and
comments about EPA's volunteer monitoring program or suggestions for SIG features.
The SIG technical monitor is responsible for the technical operation of the SIG and for keeping
bulletins, files, and databases updated. The technical monitor can address technical questions
about the operation of the SIG (e.g., how to download a file). She or he will also be updating
files, bulletins, and databases, and generally making sure things go smoothly on the SIG.
Please take advantage of the SIG's features; browse the messages, jump in when you have an
answer to someone else's query, ask your own questions, and investigate our news bulletins,
files, and database.
The SIG contains two online searchable databases:
¦ The Programs Database contains information about volunteer monitoring programs
that are managed or sponsored by state agencies.
27
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¦ The Documents Database contains references for documents of value to volunteer
monitors.
Enjoy the VOLMON SIG, and tell others about the it. The more people use it, the better it will
be. Think of this as an opportunity to exchange ideas and experiences with a nationwide
audience of volunteer monitoring program coordinators, volunteers, academic folks, and
government staff.
To access the VOLMON SIG from the BBS's Main Board, type JOIN at the "Main Board
Command?" prompt. Then choose the VOLMON SIG from the list. If s SIG number 7.
Announcements
Investigations of inappropriate Pollutant Entries
Into Stormwater Systems: A Users' Guide
This users' guide is now available from U.S. EPA's Center for Environmental Research
Information (CERI) in Cincinnati, Ohio. The guide assists municipalities in identifying illicit
connections to municipal stormwater systems. The location and removal of these connections is
a requirement of the NPDES Stormwater Permit program administered by EPA and states.
The document was developed by the Storm and Combined Sewer Program of EPA's Risk
Reduction Engineering Laboratory in Edison, NJ. It is available from CERI at no cost while
supplies last. To order, contact CERI's Document Distribution Section by phone:(513) 569-7562;
or FAX: (513) 569-7566; or write: U.S. EPA-CERI, Document Distribution, 26 W. Martin Luther
King Dr. (G-72), Cincinnati, OH. Be sure to reference document number EPA/600/R-92/238.
Guide to Construction of Stormwater Wetlands Released
The Metropolitan Washington Council of Governments has produced a manual that presents
integrated and comprehensive design criteria for the construction of stormwater wetland
systems in the mid-Atlantic region. The manual, authored by Tom Schueler of the Anacostia
Restoration Team (see News-Notes #21), reviews four basic design variations for stormwater
wetlands and reviews factors that improve pollutant removal capability.
Design of Stormwater Wetland Systems covers
¦ sizing stormwater wetlands
¦ creating deep-water cells
¦ developing pondscaping plans
¦ reducing maintenance
The manual also includes a review of wetland performance monitoring data and a revised
native plant guide for pondscaping.
[Design of Stormwater Wetland Systems: Guidelines for Creating Diverse and Effective Stormwater
Wetlands in the Mid-Atlantic Region is available from the Metropolitan Washington Council of
Governments, 777 North Capitol St., NE, Suite 300, Washington, DC 2002-4201 for $25. Make checks
payable to MWCOG.]
This DATEBOOK has been assembled with the cooperation of our readers. If there is a meeting or
event that you would like placed in the DATEBOOK, contact the NPS NEWS-NOTES editors. Due
to an irregular printing schedule, notices should be in our hands at least two months in advance to
ensure timely publication. A more complete listing can be found on the NPS BBS.
Events
7th Annual Watershed Conference: Citizens and Clean Water, Springfield, MO. Contact: Watershed Committee,
The Ozarks, Inc., 300 West Brower, Springfield, MO 65802-3817. (417) 866-1127. FAX: 866-1918. Sponsored
by the Watershed Committee of the Ozarks, Inc.
¦ avoiding secondary environmental impacts
¦ enhancing wildlife habitat
¦ creating community amenities
Datebook
Meetings and
1993
July
7-9
28
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Datebook (Continued)
1993
July
16-18
August
2-13
8-11
9-13
12-13
14-19
15-18
29-9/2
September
9-11
10-12
12-17
14-15
19-21
19-24
23-24
23-24
1st National Youth Environment Summit: Partners for the Planet Branching Out, Cincinnati, OH. Contact: (800)
473-0263. Hosted by 14 organizations and agencies including EPA, FFA, USD A, and Kids for a Clean
Environment.
Environmental Management of Water Resources Projects Seminar, Denver, CO. Contact: American Water
Foundation, 1616 17th Street, Suite 376, Denver, CO 80202. Sponsored by the American Water Foundation.
Lectures and discussions will be held 8/2-8/5 in Denver and will address EIS, regulations and laws
(including NEPA), multi-objective environmental planning, recreation, industrial wastewater, hazardous
wastes, and public opinion/advocacy. 8/6-13 will be a study tour beginning in Las Vegas where
environmental issues relating to the development and management of the Colorado River will be discussed.
The tour will continue through Arizona and will feature the recently constructed Central Arizona Project.
The tour will end at the Coachella Valley Water District of Southern California.
48th Annual Meeting of the Soil and Water Conservation Society, Fort Worth, TX. Contact: Karen Howe. Phone
1-800-THE SOIL. Will include North American Summit on Soil and Water Conservation.
Prairie Ecosystems: Wetland Ecology, Management and Restoration, Jamestown, ND. Contact: Dr. Ned Euliss,
U.S. Fish and Wildlife Service, Northern Prairie Res. Center, RR1, Box 96C, Jamestown, ND 58401.
Texas Synergistic Conference on Constructed Wetlands, Nacogdockes, TX. Contact: American Water
Foundation, 161617th Street, Denver, CO 80202. (303) 628-5516. FAX: (303) 628-5469. Sponsored by the
American Water Foundation. Co-sponsors are Pineywoods RC&D and the College of Forestry, Stephen F.
Austin University.
International Symposium on Soil and Plant Analysis, Olympia, WA. Contact: Benton Jones, Jr., 183 Paradise
Blvd., Suite 108, Athens, GA 30607. (706) 548-4557.
Opportunities for Agroforestry in the Temperate Zone Worldwide, Ames, IA. Contact: Carole Seifert, Iowa State
University, Continuing Education, 102 Scheman Building, Ames, IA 50011-1112. (515) 294-1400.
Innovations in Ground Water Management and Effluent Use Management, Tucson, AZ. Contact: Herbert B.
Osborn, General Chairperson, 2341S. Lazy A. Place, Tucson, AZ 85713. (602)883-4517. American Water
Resources Association 29th Annual Conference and Symposium.
Western Wetlands and Riparian Areas - Public/Private Efforts in Recovery, Management, and Education, Salt Lake
City, UT. Contact: Susan Foster, Thorne Ecological Institute, 5398 Manhattan Circle, Suite 120, Boulder, CO
80303. (303) 499-3647. FAX: (303) 499-8340. Sponsored by the Thorne Institute, USEPA Region 8, CO
Department of Natural Resources, MT Department of Natural Resources and Conservation, ND Water Users
Association, UT Department of Wildlife Resources, and WY Game & Fish Department. Topics include: research,
delineation, and inventory efforts; outreach/education;management strategies; restoration, creation, and
enhancement techniques; financial incentives; regulations and policies; and partnerships for protection.
Building an Alliance for the Future: Linking Seniors to Environmental Action, Washington, DC. Contact: EASI, 51
Main Street, P.O. Box 368, The Plains, VA 22171. (703)253-5821. FAX: 253-5811. Sponsored by the
Environmental Alliance for Senior Involvement. This leadership conference will highlight successful
programs to build on volunteer opportunities for older persons who are concerned about protecting the
nation's environment.
ICUSD '93 - 6th International Conference on Urban Storm Drainage, Niagra Falls, Ontario, Contact: Jiri
Marsalek, 6th ICUSD, National Water Research Instit., P.O. Box 5050, Burlington, Ontario, Canada, L7R
4A6. (416) 336-4899. FAX: 336-4989.
Texas Water Commission 8th Annual Groundwater Protection Seminar, San Antonio, TX. Contact: Brad Cross,
Community Support Section, TWC, P.O. Box 13087, Austin, TX 78711-3087. Phone: (512) 475-4594. Topics:
protection of groundwater, wellheads, and aquifers; resource management; changing government agency
roles; and interstate and international issues.
A New Era for the Western Public Lands, Boulder, CO. Contact: Katherine Taylor, Campus Box 401, Boulder,
CO 80309-0401. Phone: (303) 492-1288. FAX: (303) 492-1297. Will explore the changing context of public
lands policy, conflicts between public values and private rights, and emerging ideas about integrated
management of resources within ecosystems and watersheds. Cost $250, with discounts available for
government, academics, and nonprofit groups. Sponsored by University of Colorado Natural Resources
Law Center and the Law Review.
1st International IAWPRC Conference on Diffuse (NPS) Pollution: Sources, Prevention, Impact and Abatement,
Chicago, IL. Contact: Dr. Vladimir Novotny, IAWPRC Conference, Dept.Civil & Envir. Engineering,
Marquette University, 1515 West Wisconsin Ave., Milwaukee, WI53223. (414) 288-3524. FAX: (414) 288-7082.
4th Annual Utah Nonpoint Source Water Quality Conference, Logan, UT. Contact: Denise Stewardson,
Conference & Institute Div., Utah State University, Logan, UT 84322-5005. (801) 750-1713.
6th Annual Symposium of the Arizona Hydrological Society: Emerging Critical Issues in Water Resources of Arizona
and the Southwest, Casa Grande, AZ. Contact: Peter Livingston, CH2M Hill, Inc., 5210 E. Williams Circle,
Suite 550, Tucson, AZ 85711-4486. (602) 748-9144. FAX: (602) 748-1316.
29
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Datebook (Continued)
1993
September
28-29
October
2-7
2
4-8
27-29
November
1-3
7-10
December
11-15
13-14
Symposium on Agricultural Nonpoint Sources of Contaminants: Focus on Herbicides, Lawrence, Kansas. Contact:
Larry Fergusun, U.S. EPA, 726 Minnesota Ave., Kansas City, KS 66101. Phone (913) 551-7447. Sponsored by
EPA and USGS.
2993 Water Environment Federation Annual Conference, Anaheim, CA. Contact: Maureen Novotne, WEF,
Technical & Educational Serv., 601 Wythe St., Alexandria, VA 22314-1994. (703) 684-2400.
Publicizing the Management and Permitting Issues for Urban Planning and Stormwater, Anaheim, C A. Contact:
Christine McKallip, WEF, 601 Wythe Street, Alexandria, VA 22314-1994. (703)684-2400. FAX: (703)
684-2492. Sponsored by the Water Environment Federation.
Marine Water Quality Monitoring, Anaheim, CA. Contact: Christine McKallip, WEF, 601 Wythe Street,
Alexandria, VA 22314-1994. (703)684-2400. FAX: (703) 684-2492. Sponsored by the Water Environment
Federation.
International Symposium on the Ecological Effects of Arctic Airborne Contaminants, Reykjavik, Iceland. Contact:
Debra Steward, Technical Resources, Inc., 3202 Tower Oaks Blvd., Suite 200, Rockville, MD 20852.
1993 Rocky Mountain Ground Water Conference, Albuquerque, MN. Contact: Michael E. Campana, Dept. of
Earth & Planetary Science, University of New Mexico, Albuqurque, NM 87131-1116. (505)277-3269. FAX:
(505) 277-8843.
4th National Pesticide Conference: New Directions in Pesticide Research, Development, Management, and Policy,
Richmond, VA. Contact: Dr. Diana Weigmann, VA Polytech, VA Water Resources Res. Center, 617 North
Main St., Blacksburg, VA 24060-3397. (703) 231-5624 or 231-6673. Sponsored by the VA Water Resources
Research Center, Research Division of VA Polytechnic Institute and 17 cosponsors.
NACD Urban and Community Conservation Symposium: Partnerships for Livable Communities, Minneapolis,
MN. Contact: Debra A. Bogar, NADC Northeastern Region, P.O. Box 320, Leeds, MA 01053. (413) 585-8895.
FAX: (413) 585-8897. Sponsored by National Association of Conservation Districts, National Association of
State Conservation Agencies, USEPA, and USDA Soil Conservation Service, Forest Service, and Extension
Service. Topics include: stormwater, forestry, water quality, land use, wetlands, waste management,
alliance building, and education programs and issues.
55th Midwest Fish & Wildlife Conference - New Agendas in Fish and Wildlife Management: Approaching the Next
Millennium, St. Louis, MO. Contact: Wayne Porath, MO Dept. of Conservation, 1110 S. College Avenue,
Columbia, MO 65201. (314) 882-9880.
Integrated Resource Management and Landscape Modification for Environmental Protection, Chicago, IL. Contact:
ASAE, 2950 Niles Road, St. Joseph, MI 49085-9659. (616) 429-0300.
Calls For Papers Deadlines
August
September
November
The International Land Reclamation and Mine Drainage Conference and the 3rd International Conference on
Abatement of Acidic Drainage, April 25-29,1994, Pittsburgh, PA. Contact: Debbie Lowanse/Bob Kleinmann,
U.S. Bureau of Mines, P.O. Box 18070, Pittsburgh, PA 15236. (412)892-6708. FAX: 892-4067. Co-hosted by
U.S. Bureau of Mines, Office of Surface Mining, U.S. EPA, and Tennessee Valley Authority. Topics: acid mine
drainage prediction, chemical and biological treatment of AMD, geotechnical engineering in mined areas,
mine closure/bond release, mine chemistry, mine hydrology and groundwater protection, mine soil
productivity, mine subsidence, mine waste management and characterization, regulations and policy
issues, reclamation of derelict/abandoned mined lands, revegetation case studies, slope stability/erosion
control, wetlands on mined lands, and wildlife/habitat restoration.
Tenth Thematic Conference on Geologic Remote Sensing, San Antonio, TX, May 9-12,1994. Contact: Nancy
Wallman, ERIM Conferences, P.O. Box 134001, Ann Arbor, MI 48113-4001. (313) 994-1200) ext. 3234. FAX:
(313) 994-5123. Sponsored by the Environmental Research Institute of Michigan. Focuses on geologic remote
sensing and GIS with special emphasis on mineral and hydrocarbon exploration, and environmental and
engineering applications.
Responses to Changing Multiple-Use Demands: New Directions for Resources Planning and Management,
Nashville, TN, April 17,1994. Contact: Ralph H. Brooks, General Chairperson, Tennessee Valley Authority,
Water Management, Evans Bldg., Rm. 1W 141, Knoxville, TN 37902. (615) 632-6770. American Water
Resources Association Annual Spring Symposium. Topics will include water use trends, water-resources
forecasting, hydrologic modeling, GIS tools, water pricing policies, water allocation, water law, BMPs,
environmental impact mitigation, reservoirs, and hydropower licensing.
30
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