Ordinance No. 82-79 f� CITY OF TIGARD, OREGON
i Rry ORDINANCE NO.
AN ORDINANCE ADOPTING THE AIR, WATER AND LAND RESOURCE QUALITY ELEMENT OF THE
TIGARD COMPREHENSIVE PLAN; AND DECLARING AN EMERGENCY.
WHEREAS, the City of Tigard finds it necessary to revise its Comprehensive
Plan periodically to improve the operation and implementation of that Plan; t
and
WHEREAS, the Tigard Planning Commission has recommended the adoption of a
citywide Comprehensive Plan Element on Air, Water and Land Resource Quality,
after holding a public hearing regarding the same; and
WHEREAS, the proposed Air, Water and Land Resource Quality Element has been
reviewed by the Committee for Citizen Involvement of the City of Tigard; and
WHEREAS, the proposed Element has been the subject of comments from the City's
Neighborhood Planning Organizations (NPO'S) and individual citizens; and
WHEREAS, after considering the comments of the Planning Commission, the
Committee for Citizen Involvement, Neighborhood Planning Organizations and
individual citizens, the Council believes that the Air, Water and Land
Resources Quality Element of the Tigard Comprehensive Plan should be adopted
in the form set forth in Exhibit "A" attached hereto and, by this reference,
made a part hereof:
NOW, THEREFORE,
THE CITY OF TIGARD ORDAINS AS FOLLOWS:
Section 1: The Air, Water and Land Resources Quality Element of the Tigard
Comprehensive Plan, as set forth in Exhibit "A", consisting of a title page
and thirty pages of text be, and the same hereby is, adopted as a part of the
citywide Comprehensive Plan of the City of Tigard.
Section 2: In revising and compiling the Tigard Comprehensive Plan, the
Planning Director is authorized and directed to edit the Plan as necessary to
provide a readable text; however, the Director shall not edit or change any
policy or implementation strategy adopted in Exhibit "A" and shall present all
portions of the edited Comprehensive Plan to the City Council for its approval.
Section 3: In order to provide a uniform date for the effectiveness of this
series of Comprehensive Plan revisions to be adopted by the City Council in
1982, an emergency is declared and this portion of the Comprehensive Plan
shall become effective on January 1, 1983.
PASSED: By vote of all Council members present, after being
read by number and title only, this14 day of-2- ,,,,4.- 1982.
Recorder - City Tigard
APPROVED: By the Mayor, this day of ����c�6 Pv , 1982.
Mayor - City of Tigard��,
ORDINANCE NO. 82- *7q
(File O333A)
AIR,, WATER
LAND RES URCES
%apm%LITY
Comprehensive Plan Report
CIT Y OF TIGARD
WASHINGTON COUNTY,OREGON
ADOPTED BY CITY COUNCIL
DECEMBER 13, 1982
ORDINANCE 82-79
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AIR, WATER AND LAND RESOURCE QUALITY
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COMPREHENSIVE PLAN REPORT
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TIGARD PLANNING AND DEVELOPMENT DEPARTMENT j
OCTOBER 1982
REVISED DECEMBER 10, 1982
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CITY COUNCIL PLANNING COMMISSION
Wilbur Bishop - Mayor Frank Tepedino - President
Cliff Speaker
John Cook
Donald Moen
Tom Brian Richard Helmer
Nancie Stimler Mark Christen
Ken Scheckla Roy Bonn
Bonnie Owens
Deane Leverett
Phil Edin
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PROJECT STAFF
Bob Jean - City Administrator F
William A. Monahan - Director of Planning and Development
Jeremy Coursolle - Associate Planner
Liz Newton - Associate Planner
Frank Currie - Public Works Director
Patt Martin - Word Processing
Loreen Wilson Office Manager
ADOPTED BY TIGARD CITY COUNCIL DECEMBER 13, 1983
ORDINANCE NO. 82-79
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TABLE OF CONTENTS
INTRODUCTION
AIR QUALITY 2
NOISE 11
WATER 17
LAND RESOURCES 20
FINDINGS, POLICIES, &
IMPLEMENTATION STRATEGIES 22
BIBLIOGRAPHY 28
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Page 1
INTRODUCTION
This report provides a technical background inventory and problem
ide-ttification for the Tigard Comprehensive Plan in relation to LCDC Statewide
Planning Goal #6 - Air, Water and Land Resouces Quality.
The purpose of Goal #6 is: "To maintain and improve the quality of the air,
water and land resources quality of the state.
All waste and process discharges from future development,
when combined with such discharge front existing
developments shall not threaten to violate, or violate
applicable state or federal environmental quality statutes,
rules and standards. With respect to air, water and land
resources of the applicable air sheds and river basins
described or included in state environmental quality
statutes, rules, standards and implementation plan, such
discharges shall not (1) exceed the carrying capacity of
such resources, considering long range needs; (2) degrade
such resources; or (3) threaten the availability of such
resources."
In this goal the words "waste and process discharges" refer to "solid waste,
thermal, noise, atmosphere or water pollutants, contaminants, or products
therefrom. Also included in this definition are indirect sources of air
pollution which results in emissions of air contaminants for which the state
has established standards." (Source: Statewide Planning Goal M. All point
and nonpoint pollution sources and areas are catalogued and monitored by the
State Department of Environmental Quality (DEQ) which has responsibility to
ensure that the carrying capacity of the area resource is not exceeded.
Jurisdiction Coordination
ORS 197.180 and DEQ's Coordination Program approved by LCDC require that
DEQ-issued permits, facility plans, and construction grants for new or
expanded facilities will not be approved or become effective until DEQ i
received evidences from the responsible local planning authorities that the
proposal is compatible with local land use provisions.
Applicants for DEQ permits, grants, etc. must obtain a local "Statement of
Compatibility." This statement issued by the local planning agency (City of
Tigard Department of Planning and Development) must certify that the proposal
is compatible with LCDC the Statewide Planning Goals. If DEQ receives a
negative local statement of compatibility they will not take action; the
permit or approval will not be issued or if the permit was issued
conditionally already, it will not become effective.
If the local statement of compatibility is positive, DEQ will test the
proposed action for compatibility with state and federal environmental quality
requirements and relevant provisions of Goal #6 and Goal #11 (Public
Facilities and Services).
Page 2
This coordinating system essentially places the responsibility for evaluating
land use decisions for any proposed DEQ action under local control and places
the responsibility for evaluating the more technical environmental issues
tinder DEQ control.
AIR QUALITY*
Tigard is within Portland's airshed described as the Portland Air Quality
Maintenance Area (AQMA) which is a designated non-attainment area. Within the
Portland AQMA, the Metropolitan Service District (MDS) is the lead agency
responsible for pollution reduction programs aimed at carbon monoxide (CO) and
photochemical oxidants (Ox), of which the primary element of concern is ozone
(03). The responsibility of pollution reduction programs with total
suspended particles (TSP) is the Department of Environmental Quality (DEQ).
MSD and DEQ inventory pollutants and make recommendations for controls and
strategies to the Air Quality Advisory Committee, composed of representatives
from the jurisdictions, interests groups and the public at large within the
AQMA.
Ambient Air Standards
Federal and state standards for air quality have been developed for various
pollutants consistent with health and welfare concerns. (See Figure I)
Federal standards are established by the Environmental Protection Agency (EPA)
and are divided into two (2) classes, primary and secondary.
Primary standards are designed to protect the public health with a builtin
margin of safety. Secondary standards are somewhat stricter and are designed
to protect the public welfare from adverse effects such as visibility
reduction, soiling, material damage and nuisances. When the secondary
standard is identical to the primary standard, it has been determined that the
primary standard will also be protective of welfare. (See Table I)
Air Pollution
Major air pollutants include total suspended particulates, sulfur dioxide,
carbon monoxide, photochemical oxidants, nitrogen dioxide, and hydrocarbons.
Total suspended particulates consist of solid and liquid particles of soot,
dust, aerosols, and fumes ranging from 0.1 to 100 microns and averaging about
2 microns in size (1 micron = 1/2,540"). Suspended particulates originate in
combustion sources, motor vehicles, industry process losses, dust, field and
slash burning, and natural sources such as ocean spray and wind-raised dust.
Suspended particulates aggravate chronic lung disease, heart and lung disease
symptoms; and causes damage to various types of materials as well as
visibility reduction.
t' Sulfur dioxide is a colorless, pungent, irritating gas from oil and coal
4� combustion and industry process losses. It aggravates asthma, heart and lung
disease, particularly for the elderly; irritates lungs ; is corrosive to metals
and marble; and causes plant damage.
*Source: 1981 Oregon Air Quality Annual Report, Department of Environmental
Quality.
TABLE 1 Page 3
Ambient Air Quality Standards for Oregon
Federal Standards
Primary Secondary Oregon
Pollutant Averaging Time (Health) (Welfare) Standard j
3* 3 3
Total Annual Geometric 75 ug/m 60 ug/m 60 ug/m
Suspended Mean
Particulate 24 hours(1) 260 ug/m3 150 ug/m3 150 ug/m3
Monthly (2) _ - 100 ug/m3
Ozone(4) 1 hour 235 ug/m3(3) 235 ug/m3(3) 235 ug/m3(3)
Carbon Monoxide 8 hours(1) 10 mg/m3** 10 mg/m3 10 mg/m3
1 hour (1) 40 mg/m3 40 mg/m3 40 mg/m3
Sulfur Dioxide Annual Arithmetic 80 ug/m3 - 60 ug/m3
Average
24 hours(1) 365 ug/m3 - 260 ug/m3
3 hours - 1300 ug/m3 1300 ug/m3
Nitrogen Annual Arithmetic 100 ug/m3 100 ug/m3 100 ug/m3
Dioxide Average
Hydrocarbons 3 hours(l) 160 ug/m3 160 ug/m3 160 ug/m3
(None thane) (6-9 a.m.)
Lead Monthly - - 3 ug/m3
Calendar Quarter 1.5 ug/m3 1.5 ug/m3 -
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NOTES:
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* Micrograms of pollutant per cubic meter of air.
** Milligrams of pollutant per cubic meter of air.
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(1) Not to be exceeded on more than one day per year. G
(2) 24-hour average not to be exceeded for more than 15 percent of
the samples in a calendar month.
(3) A statistical standard, but basically not to be exceeded
more than an average one day per year based on the most
recent three years or data.
(4) The state standard was revised on January 22, 1982•
Source: Air Quality Annual Report - 1981, DEQ.
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Page 4
Carbon monoxide is a colorless, ordorless gas which is highly toxic. It comes
from incomplete combustion sources, most frequently from motor vehicles.
Carbon monoxide interferes with the blood's ability to carry oxygen, causing
heart difficulties; it also reduces lung capacity and impairs mental abilities.
Ozone is a colorless, odorless, toxic gas. Ozone arises from photochemical
processes in the atmosphere by reaction between oxides of nitrogen and
hydrocarbons in the presence of sunlight, and is generally a consequence of
industrial and combustion sources and motor vehicles. It can cause eye
irritation, damage to lung tissue and lung functions, material damage and
plant damage.
Nitrogen dioxide is a reddish-brown gas toxic in high concentrations. It is
formed by conversion of nitric oxide from motor vehicles, combustion sources
and industrial sources. It increases chronic bronchitis and irritae�s lungs.
Hydrocarbons are a large family of compounds consisting of hydrogen and
carbons. They are generated by motor vehicles, evaporated fuel losses,
industry and combustion process. Hydrocarbons actively participate in oxidant
formation and cause plant damage. Methane, a particular hydrocarbon, is
produced naturally by the decay of organic matter and is not significant in
oxidant formation.
While Oregon has a reputation for having a relatively clean environment, there
are four areas of the state designated as not being in attainment with federal
air quality standards for one or more pollutant. The Portland-Vancouver area
is one of these designated areas. The Portland-Vancouver Air Quality
Maintenance Area (AQMA) is not in attainment with the 8-hour carbon monoxide
standard and the ozone standard and contains subareas that are not in
attainment with the secondary total suspended particulate standard.
However, for most of western Oregon, air quality in 1981 was the best it has
been in six years. Total suspended particulate, carbon monoxide and lead
levels declined, although one severe and abnormal heat wave during the year
caused several violations of the ozone standard.
TABLE II*
Status of Attainment Plans for Areas
Exceeding Federal Air Quality Standards
Area Pollutant
Total Suspended Carbon
Particulate Monoxide Ozone
Portland-Vancouver AQMA
Plan Adoption Date 12-80 Expected 7-82 Expected 7-82
f Projected Attainment Date 1987 1985 1987
Source: Air quality Annual Report - 1981, Oregon State Department of
Environmental Quality.
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J Portland Mon-Attainment and Air Quality Maintenance Area
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Page 5
In the Portland AQMA, the decrease in total suspended particulate levels was
not accompanied by a decrease in fine particulate levels. From an analysis of
meteorological conditions, it appears that 1981 was an average ventilation
year. The major decrease in total suspended particulate was in coarse
particulate, and the major source of coarse particulate in. Portland is soil
and road dust. It is highly suspected that reduced amounts of wintertime road
sanding and much better pickup of the material occurred. Some reQidual effect
from the previous year of intense volcanic ashfall cleanup may also have been
significant.
Carbon monoxide levels at most sites in the State showed a distinct
improvement over 1980 levels, both in average levels and in the number of days
violations were recorded. The single most important factor in the improved
carbon monoxide levels is the reduction in tailpipe emissions from new
automobiles as a result of the Federal Motor Vehicle Emission Control Program.
Meteorology and Air Pollution Episodes
During normal conditions air quality is maintained as a balance between
emissions of pollutants into the atmosphere and the atmosphere's ability to
disperse or remove these pollutants. Occassionally, atmospheric conditions
stagnate, causing an imbalance which may lead to elevated levels of pollutants
depending on the strength and length of the stagnation period.
The; National Weather Service attempts to predict and track periods of poor
atmospheric conditions by issuing Air Stagnation Advisories (ASA's) when such
conditions are expected to persist for a significant period of time.
In the event air pollution levels exceed prescribed limits, and other criteria
are met, the Department declares an air pollution episode. Various stages of
episodes may be declared depending on the levels measured. These stages range
from Forecast, which is based solely on the issuance of an ASA, through Alert,
Warning, and Emergency, which are based on specific concentrations of air
pollutants. At each stage, certain activities are carried out as described in
the Department's Emergency Action Plan. These activities range from an
internal watch through public advisories to the ability to curtail industrial
and public activities if pollutant levels continue to rise to Emergency levels.
Air Quality Trends
An often asked question about air quality is, "Is it getting better or
worse?" On the surface, this would appear an easy question to answer but a
closer look reveals many problems and pitfalls. Air quality data rarely shows
an absolute trend, each value greater or less than the preceding one, but
rather shows variations with distinct time intervals. Some periods of time
are expected to show higher values of certain pollutants than others. For
example, carbon monoxide values are typically higher during weekdays than on
weekends, and particulate values vary seasonally due to, among other things,
space heating requirements. In the midst of this periodic variation a trend
analysis must be able to distinguish a true or significant trend over a
sufficient period of time to make a viable statement regarding the long term
trend of the data.
TABLE III Page 6
Air Quality Trends*
and
Number of Days Exceeding Standards
for Selected Oregon Cities
City TSP
TSP
Trends CO Trends03
Albany 0 03 Trends
Baker 0
Bend 1 +y
Coos Bay 0
Eugene- 1
Springfield 3
Grants Pass 0
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Klamath Falls 0 ��
La Grande 5
Lake Oswego 0 --
Medford 4 53
MSlwaukie 0 �y w
Oregon City 0 �y
Pendleton. 4
Portland 5
24
Roseburg 0
Salem 0
The Dalley 0
White City
Legend: TSP Total Suspended Particulate
CO Carbon Monoxide
03 Ozone
-- Not monitored.
Exceeded only annual standard.
a
>' Trends based on most recent 5 Years of data. one
reflect a change Pre-1479 In the
values were adjusted down by 22,5% Co ozone
calibration method. Trends are reported only if significant
c at the 40% confidence level.
.� Not enough g years of data to compute trends,
t Measured levels Increasing.
Measured levels decreasing.
-►—► No significant trends.
Designated Nonattainment Area for the pollutant noted.
Source: Air Quality Annual Report — 1981, DEQ_
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TABLE IV Page 7
Number of Days Air Stagnation Advisories were Issued
by the National Weat5er Service
Willamette
Southwest Valley
Interior except Eastern ASA-Daysaa
Year Valley Eug!2ne Eugene Portland Oregon Total
1972 2 6 6 6 6 6
19T3 4 3 2 3 0 7
1974 11 16 16 16 0 17
1975 26 1 1 1 0 26
1576 44 20 26 1T 1 44
1977 23 5 6 5 15 29
1978 154 13 17 13 0 20
1979 114 17 17 13 0 21
1980 43 21 21 8 _ 0 44
1981 36— 17 18 12_ SL 3fz_
10 Year
Average 21.5 11 .9 13.0 9.4 2.2 25.0
4 !::eludes one ASA that extended only to Roseburg.
e4 'One ASA-DAY is defined as an ASA in at least one of the identified areas.
TABLE V
Maximum Pollutant Concentrations During
Air Pollution Episodes-Declared by the DEQ-
Total Suspended Carbon
Particulate HQnozide Q4p=
Maximum / Maximum P Maximum 1
Concentr.:'_on Concentration Concentration
Area Year Date2 ujt/m3 Dates mg/m3 Date3 uklm�
Portland 1975 None !/ None OT/23-OT/25 254*
1976 None 11/30-12/06 IT.T None
1977 Hone None 08/08-08/18 450'
1976 None Noge 08/03-08/04 300'
06/08-08/09 294
1979 None 11/10-11/11 19.9 07/16-07/18 333
1980 05/30-06/03** 509 12/06-12/21 24.1 None
06/15-06/23** 3334 None
06l27-OT/01"' 654
10/17-10/19*• 326
12/16-12/18 26T
I QA Mane
/ Values in this table were reported as unverified during the
episode and may not correspond to valae3 listed elsewhere in this
summary.
6 !/ None means standards were not violated during an episode during
the year..
Pre-1979 ozone levels were measured with a different calibration
method. The pre-1979 levels should be reduced by 20-25$ for
comparison with •1979 and later values.
Nigh levels are due to volcanic ash.
Source: Air Quality Annual Report 1981,,Oregon State Department o�
Environmental Quality.
Page 8
To further complicate matters, many non-periodic occurrences can affect a
trend analysis. Changes in traffic patterns near a carbon monoxide monitor
could lead to erroneous trend predictions unless the change was noted.
Meteorology and industrial activity due to economic conditions can severely
affect air quality data. Since these effects are quite difficult to
quantitatively account for, most trend analyses point out their existence as a
caution to the reader.
The air quality trends presented in Table III rcp�esent statistically
significant trends in measured air quality without regard to mitigating
circumstances such as meteorology or economy. They are based on annual
average data collected over the period 1977-81 and are reported only if
significant at the 90% confidence level.
[good Heating and Air Quality
The most rapidly growing source of particulate air pollution in Oregon is
residential wood space heating.
Airshed studies have identified wood heating as a significant source of
uncontrolled pollutants and a major cause of violations of the state and
federal ambient air quality standards in Portland.
Currently, more than 50% of Oregon's households use wood for some space
heating. Heating with wood is expected to continue as more and more
individuals try to offset accelerating home heating costs of conventional
sources of heat. Unfortunately, a wood stove can emit 224 times more
particulate_ than an oil furnace and up to 457 times more than natural gas for
the same heat value.
IF YOU ARE BURNING PROPERLY YOU CAN SEE T__HE DIFFERENCE.
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RIGHT. WRONG.
A hot,clean burning fire. A smouldering, damped-down fire.
Page 9
This accelerating trend in using wood for home heating results in large
quantities of fine particulate and carbon monoxide being emitted from
woodstoves and fireplaces six months of the year at essentially ground level
in many residential neighborhoods. Wood smoke contains very small particles,
the majority of which are within a size range that can evade the body's
natural filtering mechanisms and cause health effects when pollutant levels
accumulate during periods of poor ventilation. Relatively high concentrations
of these respirable particles have been measured in densely populated urban
areas. For example, respirable wood heating impacLs in a Portland residential
neighborhood have exceeded 60 ug/m3 on a 24-hour basis during the winter of
1981-82.
For those households that heat with wood, the DEQ has been recommending the
following:
1. Fully weatherize and insulate all dwellings. These measures will help
reduce the amount of wood used for space heating or eliminate the need
to burn wood. For households that plan to heat with wood, we highly
recommend that you insulate before installing a wood burning appliance.
2. Select a wood stove that is properly sized for the area to be heated.
Oversized wood heating appliances will put out too much heat, causing
the operator to choke down the combustion air supply to decrease heat
output; this increases creosote buildup and causes more particulates
to be released.
3. Avoid burning wood on poor air quality days or during moderate
temperatures; if possible, use conventional heat sources during these
periods.
4. Follow good stove operating practices: How you burn makes a big
difference in terms of efficiency, safety and emissions released.
5. Allow adequate combustion air into the firebox. Restriction of the
air supply substantially increases the quantity of pollutants emitted
from woodstoves.
6. Burn with a hot fire when starting the stove. A great deal of
pollutants are given off in the first 30 to 45 minutes of a burn cycle
and when reloading the firebox. High firebox temperatures are
required for complete combustion. Smoldering fires cause heat loss in
the form of usable chemical energy going up the chimney.
7. Burn well-seasoned dry wood. Wet wood is less energy efficient and
may cause more creosote buildup.
8. Don't over] ad the firebox. A small charge of wood arranged to
maximize air circulation helps to obtain more complete combustion and
reduced emissions.
9. Use pieces of wood that are between 3-1/2 and 5 inches in diameter for
the most efficient, least polluting burn.
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10. Do not burn plastics, garbage or coal. These give off additional
hazardous or toxic gases and pollutants. Indoor air quality may also
be affected.
11. For safety, maintain your appliance in good operating condition.
Check for smoke leaks and clean the flue and chimney regularly.
12. Compare the cost of wood heating. When all the costs of wood heating
are accounted for, in many cases it will be found that it is still
cheaper to use conventional sources of fuel.
At present, the DEQ is prohibited from regulating home heating devices,
including wood stoves and fireplaces. However, the Department is considering
several options to resolve the problem of growing emissions from household
wood heating. These are:
1. Conduct a statewide voluntary wood stove emission rating and labeling
program. This would provide the consumer with a means of comparing
appliances based on their actual test performance.
2. Provide a consumer pollution control tax credit for installing new or
replacement clean-burning stoves.
3. Conduct an Emission Performance Certification Program. This would
allow only clean-burning appliances to be sold.
These options are preliminary only and subject to revisions. They are being
evaluated as to their feasibility, public acceptability, cost, and energy and
environmental effectiveness, and would require legislative authority to
implement.
Goals and Objectives for the Department of Environmental Quality
1. Administer an effective air quality program.
2. Attain and maintain air quality standards statewide and prevent
significant deterioration of air quality in clean air areas.
3. Attain and maintain adequate data bases statewide.
4. Maintain control of point source emissions.
5. Develop, implement, and promote implementation of control strategies
for significant area source emissions.
6. Minimize impacts of field burning and slash burning smoke on air
quality.
7. Reduce automotive caused air pollution through operation of a periodic
inspection/maintenance program.
8. Promote better understanding of air quality issues through
communication with the public and other agencies.
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State Implementation Plan Activities
Although these strategies are directed towards the City of Portland, the
impacts affect Tigard as well as the entire Portland Metropolitan Area.
Portland-Vancouver AQMA (Oregon Portion) Carbon Monoxide Control Strategy
The City of. Portland agreed with the Metropolitan Service District and DEQ to
take the lead in developing a carbon monoxide control strategy plan for the
region, since the carbon monoxide problem is largely confined to downtown
Portland. A draft plan was put together in 1981 with feedback from the
Portland Air Quality Advisory Committee. The control plan is expected to
enable the Portland area to meet the 8-hour carbon monoxide standard by 1985.
Portland-Vancouver AQMA (Oregon Portion) Ozone Control Strategy
In the fall of 1981, the DEQ and the Metropolitan Service District completed
work on a revised ozone analysis, based on 1980 data. Results of the analysis
indicate that controls on existing industrial sources adopted in 1980 plus a
continuation of present control programs on transporation sources, will be
more than sufficient to project attainment with the ozone standard by 1987.
Chief elements of the proposed control strategy are listed below.
1. Portland area biennial Auto Inspection and Maintenance program;
2. Committed transporation projects, with special emphasis on the
Banfield Light Rail Transit project; and
3. Existing Volatile Organic Compound Rules applied to existing
industrial sources.
To manage new industrial growth, the DEQ plans to utilize a surplus in
required emissions reductions as a growth cushion. Oregon and Washington
would share the growth cushion on an 85%-15% basis, respectively, because of
the interstate nature of the AQMA.
An ozone control strategy based on the above components was drafted in 1981.
A finalized control plan must be submitted to EPA for incorporation into the
Oregon State Implementation Plan by July, 1982.
NOISE*
Noise is more than just a nuisance. It constitutes a real and present danger
to people's health. Though we seem to adjust to noise after long periods of
exposure, the body still responds; and sometimes with extreme tension.
Feelings of annoyance and frustration may develop either from direct exposure
to noise or from an inability to communicate or relax when noise is present.
The body reacts to this stress with increased release of adrenalin,
constriction of blood vessels, and increased heart rate. Noise does not have
to be loud to bring on these responses. Noise well below the levels usually
associated with hearing damage can cause regular and predictable adverse
changes in the body.
*Source: Comprehensive Plan Noise Element Guidelines, Department of
Environmental Quality.
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Perhaps because annoyance and frustration are so commonplace in our lives we
tend to take noise pollution for granted, without realizing the effect it may
have on our lives. Conscientious planning for an improved quality of life
must include measures to limit our exposure to noise pollution.
The purpose of this document is to assist those involved with the development
and review of the noise element of local comprehensive land use plans. These
guidelines explain the DEQ's role in statewide control of noise and provide
information on how a city, county or regional can ensure that the Statewide
Planning Goals are met with regard to noise pollution.
Noise is a waste or process discharge, and falls within the scope of Statewide
Planning Goal #6, adopted by the Oregon Land Conservation and Development
Commission. Other goals are directly or indirectly related to the environment
and noise pollution, e.g. transportation, Goal #12. Transportation corridors
have a significant noise impact on surrounding noise sensitive 'living and use
areas, for instance, and most decisions concerning the amount and type of
rousing needed for a community will indirectly have noise impact consequences
upon future residents.
The Oregon Legislature, when adopting the Noise Control Act of 1971, found
that noise at "unreasonable levels is as much a threat to the environmental
quality of life . - . and the health, safety and welfare of the people of this
state as is pollution of the air and waters . . ." (ORS Chapter 467.) This
legislation authorized the DEQ, through the Environmental Quality Commission,
to adopt and enforce statewide standards of noise control.
Types of Noise Sources
The following is a breakdown of source areas perceived by DEQ as having
potential noise problems. This list is not all-inclusive, but merely points
out typical problem sources. It should be noted that the proximity of the
noise source to noise sensitive property is very important in evaluating any
specific noise source. Noise-sensitive property includes residences, motels,
churches, hospitals, libraries and places where people normally sleep.
Potential noise sources in Tigard are:
1. Highways and freeways;
2. Local industrial and commercial facilities;
3. Construction equipment and activities;
4. Collector and local streets;
5. Railroad operations; and
6. Residential sources (furnaces, air conditioners, barking dogs, loud
voices, and off-road vehicles).
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Highway and Traffic Noise
Effective control of the undesirable effects of highway and traffic generated
noise requires a three-part approach: 1) source emission reduction; 2)
improved highway design; and 3) land use control.
The first two components are currently being addressed by private industry and j
by federal and state agencies. The third area is traditionally an area of
local governmental responsibility.
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Source emission reduction requires the development of quieter cars and
trucks. There is some probability that legislation will provide quieter cars
and trucks in the future; however, while significant progress is being made in
research to reduce vehicle engine and exhaust noise, tire design - the major
source of high speed traffic noise, may place limits .,.. further impro:•ements:
Thus, land use control will continue to be a crucial component of the
three-part approach to noise control. Local governments will continue to have
the responsibility for discouraging the development of noise-sensitive land
uses (such a homes and schools) in highway noise impacted areas and for
ensuring that any such development which does occur is planned to minimize the
adverse effects of noise.
The administrative techniques available to local governments fall into five
categories: zoning; other legal restrictions such as subdivision laws,
building, and health codes; municipal ownership or control of the land;
financial incentives for compatible use; and educational and advisory
i
municipal services.
Zoning can be a strong local control on new development, but has little
control over existing land uses. Zoning as a noise compatibility control
includes:
1. Exclusion of such typically incompatible uses as residences from a
noise-impacted area by allowing only industrial uses. This is a
simple and effective technique. However, such zoning needs to be
carefully studied since it may conflict with other plans for community
growth, and it may render the land worthless if no demand exists for
industrial land.
2. Regulation of development design or construction, such as limiting
building height or requiring buffer strips, noise barriers, and sound
insulating construction. This is usually effective, but often the
applicability of the requirements extends to buildings that do not
need the special construction techniques to be noise compatible.
3. Special development concepts such as cluster and planned development.
These forms of innovative zoning make possible developments with
significant noise control advantages over the conventional subdivision.
Page 14
Municipal ordinances other than zoning can act as noise compatible land use
controls:
I. Subdivision or development standards can require acoustical site
planning of the development by berms and barriers.
2. Environmental impact statements can be required for new development
projects.
Of course, if the City owns the noise-impacted land, it can keep the land
vacant or ensure that it is developed with noise compatible uses. Relaxation
of enforcement of provisions of municipal regulation can, where legal, be used
as an incentive to obtain voluntary acoustical site design and construction
measures from developers and builders.
Additionally, city information services can be made available to builders and
developers through such things as an architectural review board, a city design
service, an acoustical information library, or a public information effort to
make the public aware of acoustical incompatibilities and their prevention.
Industrial and Commercial Noise
A basic problem in dealing with industrial and commercial uses is their
relationship to residential uses. Besides providing appropriate
for
industrial uses, the utilization of techniques such as clusteringtrds andaplanned
developments for industrial areas should mitigate adverse environmental
impacts and land-use conflicts.
In areas where incompatible land uses already exist, strict adherence to DEQ
noise emission standard and utilization of the best available abatement
strategies and technologies is required.
New light industrial activities can generally minimize their effects on
surrounding land uses by means such as site planning, architectural design,
construction methods, and barrier construction. Techniques available for
shielding abutting development from noise impacts include:
1. Increasing the distance between the noise source and the noise
receiver;
2. Planning land uses such as parking lots, maintenance facilities, and
utility areas between the source and the receiver;
3. Locating barrier type buildings parallel to the noise source;
4. Orienting abutting development away from the noise source.
Heavy industrial activities are, by their nature, not extremely compatible
with less intensive land uses, particularly residences. Siting of heavy
industrial uses near residences, as seen in the case south of Hunziker Street
and wLst of Cherry Street, is an invitation to land use conflicts. To as
great an extent as possible, these industries should be segregated and
buffered from less intensive uses.
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l
Design criteria recommends that the outside daytime noise levels in a
residential areas should not exceed 50 dBa (45 dBa inside dwellings: a
maximum reduction of 20 dBa is possible by closing windows).
Noise Control and Standards
The Oregon Legislature has authorized the Department of Environmental Quality
(DEQ) and the Environmental Quality Commission (EQC) to adopt and enforce
statewide standards for noise control. Standards presently adopted by Oregon
Administrative Rule (OAR) are contained in OAR 340-35-005 through 340-35-100
and are summarized as follows as they are related to the Tigard area:
1. All new motor vehicles sold within Oregon must meet maximum allowable
decibel limits. Vehicle categories include automobiles and light
trucks, motorcycles, buses, snowmobiles and medium and heavy trucks.
Aacing vehciles are exempt from this rule (OAR 340-35-025).
2. In-use motor vehicle emission standards are established and referenced
to moving and stationary monitoring procedures. Road vehicles and
off-road recreational vehicles are included in this rule. Ambient
standards for off-road recreational vehicles impacting adjacent noise
sensitive property are also included in this rule (OAR 340-35-030).
3. Industrial and commercial noise sources must meet ambient noise
( standards measured at the nearest "noise sensitive property". "Noise
sensitive property" includes residences, hospitals, schools, churches,
libraries and places where people normally sleep. The definition for
industry is very broad, but some activities are exempted for reasons
of lack of control technology, lack of an adequate standard or
preemption by federal regulations (OAR 340-35-035).
Industrial and commercial noise standards are based upon protection of
speech communication during the daytime (7 a.m. to 10 p.m.) and
protection of sleep at night (10 p.m. to 7 a.m.). The standards are
written in statistical terms over a one hour sampling period. This
allows some variations in the noise level over time, but limits the
total acoustical energy during the one-hour sampling period.
City of Tigard's Noise Ordinance
At this time, the City does have a noise control ordinance in the Tigard
Municipal Code and is cited below.
Section 7.40.070 Noise. (a) No person shall operate a motor vehicle in
such 'a manner or at such a location as to cause the noise created by the
vehicle to ,cause the ambient noise level .specified in subsection (c) of
this section, as measured at a point located twenty-five feet from the
noise-sensitive structure toward the noise source.
(b) Except as may be expressly allowed pursuant to the provisions of
Section 7.40.080, no person shall cause or permit noise to emanate from
property under his or her control so as to cause the ambient noise level
Page 16
at the nearest noise-sensitive property to exceed the levels set forth in
subsection (c) of this section, as measured at a point located twenty-five
feet from the noise-sensitive structure toward the noise source.
(c) Allowable noise limits are as follows:
Time Maximum noise level, dBa
7 a.m.--10 p.m. 60
10 p.m.-- 7 a.m. 55
(d) The restrictions imposed by subsections (a), (b) and (c) of this
section shall not apply to the following:
(1) Emergency equipment not operating on a regular or scheduled basis;
(2) Noise emanating from the Pacific Highway, Highway I-217 and
Highway I-5;
(3) Sounds originating on construction sites and reasonably necessary
to the accomplishment of work in progress; provided, however, that no
construction work may be carried on between the hours of nine p.m. and
seven a.m. , except for bona fide emergencies where the pulic health or
safety is threatened or when a special permit, granted by the City
Council, has been first obtained. Any such special permit may be
granted by City Council only after first having held a hearing and
having otherwise followed the procedures contained in Chapter 18.84 of
the Zoning Ordinance;
(4) Emergency repair equipment not operated on a regular or scheduled
basis;
(5) Lawn, garden or household equipment associated with the normal
repair, upkeep or maintenance of property.
(e) No persons shall operate within the City limits of the City of Tigard
a motor vehicle exhaust-braking system, commonly known as a "jake brake."
For the purposes of this subsection, the exceptions set forth in
subsection (d) of this section shall not apply, and this section shall be
read as an absolute prohibition of the operation of such motor vehicle
braking systems within the city of Tigard.
(f) For the purposes of this section, the term "ambient noise" means the
all-encompassing noise associated with a given environment, being usually
acomposite of sounds from many sources, near and far. The term
"noise-sensitive property" means real property on which people normally
sleep, and also includes schools, churches and public libraries.
(g) No person shall cause or permit noise to emanate from sound
amplifying equipment under his or her control so as to cause the ambient
noise level to exceed sixty dBa at any distance one hundred feet or more
from the source between the hours of seven a.m. and ten p.m. and
fifty-five dBa one hundred feet from the source between the hours of ten
p ,m. and seven a.m..
}
Page 17
WATER
Tigard is within the Tualatin River and the Fanno Creek drainage basins. The
major tributaries of the watercourses are Summer Creek, Ash geek and Red Rock
Creek. All of these watercourses have varied flow levels based on the
seasonal imputs of moisture. The annual imput of moisture is strongly
concentrated in the winter months and summers are normally dry. The Tualatin
River has the greatest seasonal flow variations than any other river in the
Willamette Val'_ sy. About 90% of the annual flow occurs between the months of
November and April.
Most of the watercourses in Tigard are used by water fowl and wildlife. The
Tualatin River is used for recr�--tional purposes as well.
Water Quality*
As surely as water runs downhill, a certain amount of topsoil is washed into
nearby streams every time it rains -- and in western Oregon it rains often.
Annual rainfall averages as high as 130 inches a year on the upper west slopes
of the Coast Range. From fields and forests and cities, whatever is on the
ground washes continuously down even the gentlest slopes as the waters seek
their level. Runoff from these "nonpoint sources," has impact on our water.
Urbanization brings new problems. Oil, rubber and lead from automobiles, mud
from construction sites and soot from heavy manufacturing areas, all settle on
highways and crosswalks and are washed from pavements into rivers and streams.
The water quality of the lower Tualatin River is rather poor by comparison
with most rivers in Oregon, but apparently this has always been the case.
The lowland Tualatin River and its lowland tributaries were never clear, cold
mountain streams. The combination of clay—silt beds, low summer flows, slow
meandering course, and warm summer temperatures naturally create a lower water t
quality. One meaning of the Indian word Tualatin was "lazy and sluggish".
The Indians also referred to the Tualatin as the "green river" from its ;f
abundant summer algea growth.
The population boom in eastern Washington County after World Wal II brought
many small inadequate sewerage treatment plants on the lower tributaries of
the Tualatin River, namely Fanno Creek, Rock Creek and Beaverton Creek. By
the early 1970's the treated wastes from these plants contributed most of the
water in the streams. Fanno Creek, which had good trout fishing as late as
the 1940's and had once supplied crayfish to Portland's finest restaurants
became virtually an open sewer (90% treated effluent).
Several changes during the 1970's have improved water quality especially along
the urbanizing creeks (Fanno Creek in Tigard's case), but continued population
growth with its attendent increased sewage waste and urbanization is gradually
erasing these gains.
*Sources: Washington County Planning Department, Comprehensive Resource
Document, DEQ CFP Water ality in Oregon,1980,.
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During the 1970's, nineteen small sewer treatement plants, located along Fanno
Creek, were removed from service and their flows diverted to the new U.S.A.
plant at Durham (north of Fanno Creek). It was designed to remove
significantly more of the pollution components. It removes phosphorus, for
example, and the previous plants had not.
Six parameters are the major measures of pollution: dissolved oxygen, fecal
coliform bacteria, pH, total solids, biological oxygen demand, and inorganic
nitrogen. These are combined in the Oregon Water Quality Index (OWQI) for
more generalized summaries of water quality.
Fanno Creek - The upper section of Fanno Creek (above Denny Road) while f
somewhat polluted from urban runoff that resulted in nutrient enrichment and
therefore fairly high Biological Oxygen Demand (BOD) levels, has relatively
good quality water. The lower portion was grossly polluted from a number of
sewerage treatment plants until 1976, when their flows were diverted to the }
new Durham plant. The Oregon Water Quality Index (OWQI) value in 1975 was t
22.5, but this had jumped to 55.4 by 1979. A comparison of indivilual
parameter values, before and after diversion, is made in Table VI. In 1977 ;
fish were noticed in the lower creek for the first time in many years. Fanno
Creek has the most completely urbanized watershed in Washington County, and
the result is a water quality that remains the worst in Washington County.
TABLE VI
OREGON WATER QUALITY INDEX VALUES
FANNO CREEK AT DURHAM ROAD
1970-1979
s
f
Date OWQI Date OWQI
E.
f
1970 39 1975 22.5
1971 33.8 1976 37.6
1972 34 19;; 42.4
1973 20.7 1978 49.6
1974 39.5 1979 55.4
TABLE VII
WATER QUALITY PARAMETER VALUES
FANNO CREEK AT HALL BOULEVARD
June, 1975 and October, 1979
Date DO BOD COND NH3 NO3 PO4
6-11-75 4.4 19.0 390 12.0 2.74 17.05
10-23-79 8.4 3.3 90 0.13 0.39 0.14
DO = Dissolved Oxygen NH3 = Ammonia
BOD Biological Oxygen Demand NO3 = Nitrogen Oxides
COND = Conductivity PO4 = Phosphates
With an increasing population and urbanized area, the future trend in clear:
"Given the present conditions, there is no place for water quality to go but
down." The Corps of Engineers has estimated expected increases in water
pollution to the year 2000 (Table VIII).
Page 19
TABLE VIII
PROJECTED PERCENTAGE INCREASE IN POLLUTANTS (from 1975)
Fecal
Basin Year Susp Setl BOD N P Coleform
Fanno Creek 1985 5.6 6.3 4.2 5.0 5.2 8.9
2000 13.6 15.0 11.0 11.4 13.4 20.2
i
Despite a concerted effort to collect, treat, and properly dispose of
wastewater, water quality can become degraded from seasonal overflows of y
sewage mixed with urban storm runoff. Such untreated discharges are caused by
inadequate capacity of sewage collection and treatment facilities.
s
The combined sewers that cause such overflows present complex abatement
problems that are economically difficult to define or solve. In Tigard,
overflows generally occur at times of high river flows, not during the low
flow season.
Water quality impacts from urban stormwater runoff are difficult to define and
assess because urban runoff is a nonpoint source. The City of Portland and
the U.S. Army Corps of Engineers are currently trying to assess the effects of
urban stormwater runoff with the aid of computer modeling.
�. Urban stormwater pollutants may include Biological Oxygen Demand (BOD),
settleable and suspended solids, organics, nutrients, and heavy metals. The
pollutants can come from automobiles, urban litter, construction activity, and
from many urban activities. In rural areas, stormwater pollutants may in
large part come from agricultural activities such as livestock wastes and
fertilizers.
Urban stormwater pollutant loadings can be a significant contribution to the
pollution content of streams (as much as four times that from municipal
wastewater treatment plants). In the urban environment, stormwater runoff
flows are increased over those in natural areas because of impervious surfaces
that prevent rainfall from soaking inLo the ground or being stored in natural
depressions. A large volume of runoff with a high velocity flush pollutants
from their sources into storm sewers and receiving streams.
Although the impact of the pollutants on stream water quality is not yet
known, BOD loadings tend to decrease dissolved oxygen levels, and heavy metals
and organics may be toxic to aquatic life on a localized basis. However,
during periods of stormwater runoff, receiving streams generally provide high
dilution of such pollutants.
The following table, taken from the CRAG 200 Study, is a comparison of
projected point and nonpoint pollutant loads in the Tualatin River Basin, year
2000.
Page 20
TABLE IX
COMPARISON OF POINT AND NONPOINT POLLUTANT LOADS,
TUALATIN RIVER BASIN, YEAR 2000
Municipal Sewage Treatment Plants Nonpoint Urban Runoff
Plant BOD & SS (1B/yr) Basin BOD (lb/yr) SS (1B/yr)
5 5
Durham 840,000 Fanno Creek 202,300 25,542,600
DEQ is beginning to explore the other "nonpoint source" impacts on water
quality. These include forest management activities, agricultural activities
and stream corridor managment activities.
LAND RESOURCES
Land resources quality is a broad term encompassing the suitability of the
land for particular uses. The land within Tigard has been shown to be
suitable for a variety of uses, depending upon the characteristics of
particular sites. Land resources quality may also be more narrowly defined as
the quality of the land in regard to waste and process discharges (These refer
to solid waste, thermal, noise, atmosphere or water pollutants, contaminants,
or products therefrom).
Pollution from sludge and solid waste has accompanied urbanization and
industrialization and is a feature of nearly all densely populated urban
areas. Solid waste collection and disposal is a vital element in establishing
and maintaining livable environments. Historically, the organized removal of
solid ws;;te has dramatically effected the health of all urban residents. Land
quality in Tigard is not threatened by waste and process discharges. In
addition, there are no solid waste dump sites inside the City limits.
There is one private landfill, Grabhorn, located west of Beef Bend Road. This
landfill accepts only waste resulting from construction demolition (bricks,
concrete, dirt, ,etc.). According to the Metropolitan Service District (MSD),
this landfill will probably close in the next couple of years.
Solid Waste Disposal
The Metropoltan Service District (MSD) has been designated with the primary
responsibility of finding a solution to the disposal of solid wastes, which is
a regional problem. MSD maintains a regional solid waste management plan
which is used to guide activities such as the search for new regional
landfills and planning of solid waste transfer stations, resource recovery
plants, and recycling programs. ((
Collection of solid wastes in the City is handled by private firms operating
,' under mutually exclusive franchises granted by the City Council.
Page 21
City policies and strategies regarding the solid waste management must include
recognition of MSD's primary role in planning and coordinating solid waste
disposal for the region and provisions which will help achieve the regional
objectives of reducing the amount of wastes that need to be disposed of in
sanitary landfills.
Three private firms hold exclusive franchises with the City and County to
collect solid waste in the Tigard area. They generally provide routine
garbage collection, drop box special loads, compact waste and recycle
newspapers. Service areas have been convoluted and indistinct in some areas
in the past. However, the City has redrafted its franchise ordinance to
create clear service boundaries. These boundaries provide for the following
division of the Tigard Plan Area.
Miller's Sanitary Service - Northern Tigard (north half of NPO V, NPO #2
north of N. Dakota and west of Greenburg and NPO #4 east of Hall and north
of Pfaffle and Pacific).
Schmidt's Sanitary Service - Southern Tigard (southern 3/4 of NPO #6 south
of Murdock and Sattler and southwest corner of NPO #5 generally south of
Bonita and west of 76th).
Frank's Disposal Service - Central Tigard (including south Tigard
industrial area and remaining areas not served by either Schmidt's or
\ Miller's).
The three local garbage collectors currently haul collected wastes 15 to 20
miles away, or 30 to 40 miles for a roundtrip by truck. Miller's and
Schmidt's now transport refuse to Rossman's Landfill in Oregon City, while
Frank's waste material is hauled to the City of Newberg Landfill. St. Johns
Landfill in north Portland is also being used, which can meet the need for a
few years. However, the metropolitan area lacks a long-term landfill disposal
capacity. The Rossman's Landfill is scheduled for closure this summer, for
instance.
In 1977, MSD adopted a plan for a processing facility where wastes would be
separated and the combustible portion burned to generate electricity and also
reduce the volume of waste to about one-tenth of its original volume. Toward
this goal, a site for a Resource Recover Facility was selected in Oregon
City. Because of public opposition to this facility, MSD is now in the
process of reviewing feasible alternatives to this facility.
With the St. Johns Landfill closing in a few years, MSD has been seeking
permits for a new landfill in northwest Multnomah County. With resource
recovery operating, the new landfill would last for 25 years. Without the
garbage burner, the landfill would be good for about 16 years.
Tying the system together will be transfer stations. Metro plan to construct
( transfer stations at various locations in the region to increase the
R " efficiency and economy of the solid waste management system. Transfer
stations are enclosed facilities where commercial collectors and private
citizens can dispose of their garbage, which is then transferred in large
Page 22
trucks to either a landfill or resource recovery facility. Transfer stations
save energy by reducing trips for garbage collectors. They also provide a
convenient place to recycle, each transfer station will have a full-line
recycling center as part of the facility. Therefore, they allow for improved
landfill management by providing an interim point for directing garbage to the
proper disposal site.
Initially proposals called for MSD to construct one transfer station on the
east side of the region, one on the west side (probably in Washington County),
and a limited transfer station on the resource recovery site in Oregon City.
This limited station will accept garbage from haulers as well as the general
public. When the resource recovery plant opens, the haulers will go directly
to that facility and the transfer station will serve only the public. MSD is
now in the process of reviewing feasible alternatives to the solid waste
disposal issue.
4.1 AIR QUALITY
FINDINGS
o Within the Tigard Planning Area there are no major point source air
polluters.
o The major source of air pollution in Tigard is automobile emissions.
o The City of Tigard lies within the Portland-Vancouver Interstate Air
Quality Maintenance Area (AQMA). This area is described in the draft
State Implementation Plan (SIP) for air quality, published jointly by the
Department of Environmental Quality and the Metropolitan Service District
in April, 1979. The draft State Implementation Plan (SIP) shows that the
entire AQMA is in nonattainment for meeting the recently revised federal
ambient air quality standards for ozone and is predicted to remain in
nonattainment to at least 1987 unless additional control measures are
undertaken. MSD and DEQ are developing a regional control strategy to
bring the metropolitan area into attainment by 1987.
o In the Portland - Vancouver AQMA, air pollution is monitored by and
planning efforts coordinated through the Metropolitan Service District
(MSD)and the Department of Environment Quality (DEQ).
o The draft SIP also projects nonattainment in 1982 for CO (near Highway
99W). The City of Tigard is aware of these potential problem areas and
will work with MSD to better quantify the extent of these problems.
POLICY
4.1.1 THE CITY SHALL:
a. MAINTAIN AND IMPROVE THE QUALITY OF TIGARD'S AIR QUALITY AND
COORDINATE WITH OTHER JURISDICTIONS AND AGENCIES TO REDUCE AIR
POLLUTIONS WITHIN THE PORTLAND-VANCOUVER AIR QUALITY MAINTENANCE
AREA. (AQMA)
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b. WHERE APPLICABLE, REQUIRE A STATEMENT FROM THE APPROPRIATE AGENCY,
THAT ALL APPLICABLE STANDARDS CAN BE MET, PRIOR TO THE APPROVAL OF
A LAND USE PROPOSAL.
c. APPLY THE MEASURES DESCRIBED IN THE DEQ HANDBOOK FOR
"ENVIRONMENTAL QUALITY ELEMENTS OF OREGON LOCAL COMPREHENSIVE LAND
USE PLANS" TO LAND USE DECISIONS HAVING THE POTENTIAL TO AFFECT
AIR QUALITY.
IMPLEMENTATION STRATEGIES
1. The City shall coordinate with MSD and DEQ to attain and maintain the
air quality goal described in the State Implementation Plan (SIP).
2. The City shall continue to utilize expertise available at the
Department of Environmental Quality, the Metropolitan Service
District, and other relevant agencies, to coordinate efforts aimed at
reducing air pollution emission levels in the Tigard and entire
Portland Metropolitan Area.
3. Until such time as control strategies are realized, the City of Tigard
shall use measures described in the DEQ Handbook for "Environmental
Quality Elements of Oregon Local Comprehensive Land Use Plans" when
planning any development activities having the potential to directly
(by direct emissions) or indirectly (by increasing vehicular travel)
affect air quality.
4. The City shall make every effort to design municipal streets and
roadways and to establish traffic flow patterns which minimize or
reduce vehicular emissions.
5. The City shall consult and coordinate with the Oregon Department of
Environmental Quality to ensure that land uses and activities in
Tigard comply with Federal and State air quality standards.
i
i
6. The City shall aim to reduce the quantity of vehicle emissions by
pursuing an energy-efficient urban form which reduces the number of
vehicle miles traveled, and by encouraging the use of alternate modes
of transportation, especially mass transit and pedestrian.
4.2 WATER QUALITY r
FINDINGS
o The quality of Tigard's surface waters are fair, inasmuch as the waters
are not used for drinking purposes.
o No major point source water polluters threaten local creeks.
o Some infiltration problems exist in the sewage systems.
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Page 24
o Reduction of open space, removal of vegetation cover, and development
which increases the amount of impervious surface contribute significantly
to increases in the peak flows of urban storm runoff entering storm
sewers, creeks and drainageways.
o Offsetting measures can reduce the negative effects of urban development
on water quality and quantity problems. Examples include on site
retention/ detention of storm water, inclusion of landscape buffer areas
adjacent to new development and conservation and improvement of streamside
vegetation along creeks and other water courses.
POLICIES
4.2.1 ALL DEVELOPMENT WITHIN THE TIGARD URBAN PLANNING AREA SHALL COMPLY
WITH APPLICABLE FEDERAL, STATE AND REGIONAL WATER QUALITY STANDARDS.
4.2.2 THE CITY SHALL RECOGNIZE AND ASSUME ITS RESPONSIBILITY FOR OPERATING,
PLANNING, AND REGULATING WASTEWATER SYSTEMS AS DESIGNATED IN MSD'S
WASTE TREATMENT MANAGEMENT COMPONENT AND 208 CRAG STUDY.
IMPLEMENTATION STRATEGIES
1. In order to improve the water quality and and quantity in the Tigard
Area, the City shall consider developing regulations in the Tigard
Community Development Code or instituting programs to:
a. Increase public awareness of techniques and practices private
individuals can employ to help correct water quality problems;
b. Improve the management of industrial and commercial operations to
reduce negative water quality impacts;
C. Regulate site planning for new development and construction
through the Tigard Community Development Code to better control
drainages and erosion and to manage storm runoff;
d. Increase storage and retention of storm runoff to lower and delay
peak storm flows;
e. Reduce street related water quality and quantity problems; and
f. Increase public awareness concerning the use and disposal of toxic
substances.
2. The City shall not permit industrial or other uses which violate State
of Oregon water quality discharge standards.
3. The City shall cooperate with the Metropolitan Service District and
other appropriate agencies to establish practices which minimize the
introduction of pollutants into ground and surface waters.
i
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Page 25
4. The City shall require that new developments be connected to the
City's or the Unified Sewerage Agency sanitary sewerage systems.
4.3 NOISE POLLUTION
FINDINGS
o Noise is a recognized cause of physical and psychological stress which has
been directly related to various health problems.
o Motor vehicle traffic noise is the major contributor to the ambient noise
level in Tigard.
o Noise levels for almost all residential districts in Tigard appear to be
within acceptable levels.
o The highest noise levels appear to be found along Pacific Highway (99W),
Main Street, I-5, Hwy 217 and Hall Boulevard.
o Effective control of the undesirable effects of highway generated noise
levels requires a three part approach: 1) source emission reduction;
2) improved highway design and street design; and 3) land use controls.
The first two components are currently being addressed by private industry
and by federal, state and regional agencies. The third area is
essentially a local government responsibility.
POLICY
4.3.1 THE CITY SHALL:
a. REQUIRE DEVELOPMENT PROPOSALS LOCATED IN A NOISE CONGESTED AREA OR
A USE WHICH CREATES NOISE IN EXCESS OF THE APPLICABLE STANDARDS TO
INCORPORATE THE FOLLOWING INTO THE SITE PLAN:
1. BUILDING PLACEMENT ON THE SITE IN AN AREA WHERE THE NOISE
LEVELS WILL HAVE A MINIMAL IMPACT; OR
2. LANDSCAPING AND OTHER TECHNIQUES TO LESSEN NOISE IMPACTS TO
LEVELS COMPATIBLE WITH THE SURROUNDING LAND USES.
b. COORDINATE WITH DEQ IN ITS NOISE REGULATION PROGRAM AND APPLY THE
DEQ LAND USE COMPATIBILITY PROGRAM.
c. WHERE APPLICABLE REQUIRE A STATEMENT FROM THE APPROPRIATE AGENCY
(PRIOR TO THE APPROVAL OF A LAND USE PROPOSAL) THAT ALL APPLICABLE
STANDARDS CAN BE MET.
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Page 26
IMPLEMENTATION STRATEGIES
1. The Tigard Community Development Code shall ensure that future "noise
sensitive" developments are designed and located so as to minimize the
intrusion of noise from motor vehicle traffic and/or neighboring noisy
uses.
2. The Tigard Community Development Code shall ensure that new
commercial, industrial and public developments are landscaped and
designed such that Department of Environmental Quality (DEQ) noise
standards are met and neighboring "noise sensitive properties are not
negatively impacted by the new land use or associated activities.
This shall be accomplished through building setbacks, buffering
standards and use compatibility.
3. The City shall seek a response and/or assistance from the Department
of Environmental Quality (DEQ) when reviewing commercial or industrial
uses in or near residential areas to prevent degradation of previously
quiet environments.
I
4.4 LAND RESOURCES s
i FINDINGS
o Solid waste disposal is a regional concern requiring regional solutions.
o Land quality in Tigard is not currently threatened by a large - scale
waste disposal site.
i
o Normal human activity and economi;; processes in Tigard contribute to the
quantity of regional waste disposal. I
I
o The Metropolitan Service District (MSD) has the authority to provide solid
and liquid waste disposal in the metropolitan area.
o Although MSD has the authority over solid waste site location, local
governments will be involved in the selection process.
POLICY
4.4.1 THE CITY SHALL MAINTAIN AND IMPROVE, IF POSSIBLE, THE CURRENT QUALITY
OF TIGARD'S LAND RESOURCES.
4.4.2 THE CITY SHALL RECOGNIZE MSD'S RESPONSIBILITY AND AUTHORITY TO PREPARE
AND IMPLEMENT A SOLID WASTE MANAGEMENT PLAN.
IMPLEMENTATION STRATEGIES
1. The City shall actively participate with the Metropolitan Service
District (MSD) and the Department of Environmental Quality (DEQ), in
the solid waste site selection process.
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2. The City shall discourage solid waste sites which would adversely
affect neighboring land uses or which are unsuitable because of
natural conditions at the site, including but not limited to:
a) Depth to water table
b) Soil conditions
c) Impacts upon drainage
d) Water quality degradation or similar problems
3. The City shall ensure that future land use activities with significant
waste and process discharges conform to all State and Federal
environmental quality standards.
4. The City shall seek a response or assistance from the Department of
Environmental Quality or any other interested State or Federal agency
when reviewing proposed land uses with potential for significant waste
and process discharges.
5. The City shall continue to use local recycling services and shall
encourage and cooperate with all recycling agencies which conform to
all state and federal environmental quality standards.
6. The City shall recognize MSD's role in preparing and implementing a
solid waste management plan. The City shall support MSD's "Procedures
for Siting Sanitary Landfill," and will participate in these
procedures as appropriate.
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SOURCES
Handbook for Environmental Quality Elements of Land Uses Plans, Oregon
Department of Environmental Quality, July, 1978.
Air Quality Annual Report - 1982, Oregon Department of Environmental Quality,
June, 1982.
State Air Quality Implementation Plan (SIP), Metropolitan Service District,
April, 1979.
"Comprehensive Plan Noise Element Guidelines," Oregon Department of
Environmental Quality.
Water Quality in Oregon - 1980, Oregon Department of Environmental Quality,
October 1981.
"Comprehensive Resource Document," Washington County Planning Department, 1981.
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