STATE OF OREGON Department of Geology and Mineral Industries 1005 S t a t e Office Bu i1ding , Port1and, Oregon 97201
OPEN FILE REPORT 0-81-7
ROCK MATERIAL RESOURCES OF MARION, POLK, YAMHILL, AND LPNN COUNTIES, OREGON
BY Jerry J . Gray and A1 len H. Throop
October 1981
NOTICE
The Oregon Department o f Geology and Mineral Industries
is publishing this paper because t h e subject m a t t e r i s c o n s i s t e n t with the mission of the Department. To facilitate timely d i s t r i b u t i o n o f information, camera-ready copy submitted by the authors has not been edited by the s t a f f o f t h e Oregon Department o f Geology and Mineral I n d u s t r i e s .
ILLUSTRATIONS
Page
FIGURES 1
.
Index map of four county areas
...............
6
TABLES
......... Marion County rack material survey data . . . . . . . . . . . Polk County rock material survey data . . . . . . . . . . . . Yamhill County rock material survey data . . . . . . . . . . hinn County rock material survey data . . . . . . . . . . . . S i t e ownership by type and by county . . . . . . . . . . . . Number o f s i t e s by s i z e and by county . . . . . . . . . . . . Number o f s i t e s in each geologic u n i t . . . . . . . . . . . . Oregon State Highway Division laboratory data . . . . . . . . Test standards by usage . . . . . . . . . . . . . . . . . . . Computer-genera t e d sumnary data tab7 es . . . . . . . . . . . Population s t a t i s t i c s far the f o u r counties
MAPS
(folded i n envelope)
. Plate 2 . Plate 3. Plate 1
Rock material o f Marion County
Rock material of Pel k and Yarnhill Counties Rock material o f Linn County
7 12 15 18
20 30 32 33
37 38 43
ROCK HATERIAL RESOURCES OF MARION, POLK, YAMHILL, AND LENN COUNTIES, OREGON
.
Jerry J Gray and A1 1en H. T hroop Oregon Department of Geology and Mineral I n d u s t r i e s
a mineral resource data base f o r use of the various county planning and pub1i c works departments, county and S t a t e road and This study provides
highway departments, private contractors, and private c i tisens. The t e x t contains general information on geography and population, fol lowed by specific information on the major rock types, geologic fonnaticns, and types o f rock materials t h a t occur i n the four-county area. S i te-specific data are presented i n maps and tables. The four-county study area contains 1,168 sites t h a t have been mined i n the past. From the s i t e s , 99 million yards o f rock material have been excavated and 4,000 acres (0.14 percent o f land area) were affected. Surveying shows t h a t 176 million yards remain t o be mined. Only sites w i t h past production were surveyed. T h i s study recornends t h a t t h e l a n d s t a t u s of a l l a c t i v e and potential mining s i t e s , particularly those near urban areas, should be determined i n terms o f present use and zoning c l a s s i f i c a t i o n . All future changes i n status should consider the mineral potential of each parcel. Zoning of 1and which excl udes mineral resource devel opment would have the effect of preventing any future production and would reduce the available natural resource. The counties may wish t o re?a t e 1and s t a t u s t o mineral resource potentjal
.
INTRODUCTION
General The population of Marion, Polk, Yamhill, and Linn Countfes, Oregon, i s
expected t o continue t o expand. While creating an increasing need for construction aggregate, t h i s growth can simul taneously r e s t r i c t the use of existing sources because of zoning, encroachment of i ncompati bl e devel opment, and el imination o f other rock material deposits by simply building over them. W i t h proper ptannfng, a continued supply of these important rock material resources w i t 1 be available in a manner most compatible w i t h the environment and tong-range land use plans.
Purpose The purpose of t h i s study i s t o develop concise data on the rock material resources of the four-county area i n a form which can be used as a data base for short-range planning for rock material suppl i e s and Land Conservation and Development Commission's (LCDC) Goal 5, Program 3 b , in cornpl iance w i t h ORS 21 5. 055. This i s a cooperative study o f the Oregon Department of Geology and Mineral Industries, the Pacific Northwest Regional Commissian, and the Land Conservation and Development Conmission. Data from t h j s report can be used by pt anners, pol i t i c i a n s , and private c i t i z e n s for planning and pub1 i c decisions concerning land usage and also by contractors looking for rock materials for construction projects.
Study Parameters ORS 215.055 states 1ands "that are, can, o r should be u t i f ized for
sources or processing of mineral aggregatel"ust be taken i n t o consideratjon i n the adoption of land use ordinances. LCDC Goal 5 , Program 3b, calls f o r inventories describing the location, qua1 i t y , and quantity o f mineral and
aggregate resources.
To study and i d e n t i f y the aggregate resources t h a t can
be mined (as required under LCDC Goal 5, Guidel i ne A6) , in-depth study of geologic u n i t s must be undertaken and a geological map prepared. To study the aggregate resources t h a t should be mined (as required under LCDC Goal 5, Guidel i n e B1) , a c u l t u r a l r e s t r a i n t s map should be prepared t o overlay the
s i t e map.
This study, however, inventories only those aggregate resources
t h a t have been mined i n t h e p a s t or are c u r r e n t l y being mined, and these
s i t e s may not contain f u t u r e reserves. This study includes material resources l o c a t i o n maps and survey data tables f o r each o f t h e f o u r counties. used throughout the r e p o r t .
Each s l t e was given a number which i s
A survey o f a l l possible rock resources was
beyond t h e scope o f t h i s report. This study i s n o t concerned w i t h environmental o r geological hazards, engineering geology , or metal 1i c mineral resources. LCDC Goal 5, Program 3a, calls f o r an inventory of land needed or desirable f o r open space. Guidel i n e A2 states, "The maintenance and development of open spaces i n urban areas should be encouraged." LCDC Goal 5, Guidel i n e B9, s t a t e s , "Areas i d e n t i f i e d as having non-renewabl e mineral s and aggregate resources should be planned f o r interim, t r a n s i t i o n a l and 'second use' u t i l i z a t i o n as welt as f o r t h e primary use." Ifreclamation i s b u i l t i n t o the aggregate mining system, some of t h e
l a r g e s t areas i n t h e urban center t h a t have not been b u i l t upon because they a r e being mined f o r rock material could be viewed as f u t u r e open spaces. Possible reclamation f o r each s i t e i s 1 i s t e d i n t h e survey data table.
Methods of Study F i l e s o f t h e Department's Mined Land Reclamation D i v i s i o n and other S t a t e and county agencies were searched f o r rock m a t e r i a l e x t r a c t i o n s i t e locations.
Addi t i o n a l s i t e s were i d e n t i f i e d by comnunication w i t h Focal aggregate producers and personnel from i n d i v i d u a l counties, S t a t e Highway Division, U. 5 . Forest Service, Bureau of Land Management, and timber companies, and by inspection of a e r i a l photographs.
w h i l e f i e l d surveying.
Other s i t e s were 1ocated during t r a v e l
Before physical inventorying of s i t e s began, a1 t known sites were plotted on U.S. Geological Survey topographic maps or on appropriate maps f r o m the Bureau of Land Management, U.S. F o r e s t Service, the S t a t e Department o f Forestry, o r timber company maps.
On-si t e surveys were accompl ished by use of a rangef inder and a c l inometer o r a planimeter and a e r i a l photographs o r maps. The surveys provided data on dimension and shape o f each s i t e , volume o f material removed, and reserves remaining. Estimates o f reserves were determined by consf dering depth and l a t e r a l extent of deposits, t h e thickness o f overburden, 1i m i t i n g e f f e c t o f ground water, property ownership, and c o n f l i c t i n g land uses. The assumption was made t h a t p o i n t bars i n r i v e r channels normally can be cropped every t h r e e years, and t h a t they had been f o r the last 30 years and would for another 30 years. Reserves were 1 i m i t e d t o 10 times past production. The qual$ty o f the rock was estimated by f l e l d inspection; by i d e n t i f y i n g geologic fornation, rock type, and c h a r a c t e r i s t i c s ; and by obtaining Oregon State Highway D i v i s i o n 1aboratory data. Computer programs which p r i n t e d t h e survey data which sumrired various survey data f a c t o r s such as area mined , past production, and s i t e ownership, were developed.
Ac know1edgments
The authors are g r a t e f u l f o r he1p received from many i n d i v i d u a l s . Througho u t t h e study , quarry and p i t operators, incl udi ng the timber companies , have been very cooperat5ve i n suppf y i n g s i te-t o c a t f on information and a1 t owing access; they are t o o numerous t o mention i n d i v i d u a l ty.
was especial Iy he1pful
.
A l l e n King of the
B i 11 Fretwell suppl ied the l a b o r a t o r y data from the Oregon S t a t e Highway D i v i s i o n .
W i 11amette National F o r e s t
GEOGRAPHY
Location, Physical Geography, Extent of Area, and Access
The study area i s l o c a t e d i n northwestern Oregon i m e d i a t e l y south of t h e Portland area (Figure l).
The study straddles t h e Willamette River and i s centered around Salem, the s t a t e c a p i t a l , The study area covers 4,926 sq m i : Yamhill County w i t h 714, Polk County with 740, Marion County w i t h 1 ,I 75, and L i n n County wj t h 2,297 sq mi. The area f s divided i n t o t h r e e geological and topographical provinces. They are from west t o east: the Coast Range, the Willamette Trough, and t h e WesternHigh Cascade Range. Elevations range from 55 f t along t h e Willamette River t o 10,497 ft a t t h e t o p of The Willamette V a l l e y warm sumers and wet, m i l d and mountain range and can
M t , Jefferson.
has a temperate m a r i t i m e climate w j t h moderately winters,
The weather i s c o o l e r i n the f o o t h i l l s
be extremely severe i n t h e High Cascades.
Rainfall
ranges from about 70 i n . per year along the Wif 1amette River t o we1 1 over 100 in. per year i n the mountains.
About 60 percent o f the annual p r e c i p i t a t i o n occurs
during January through February, w h i l e only 10 percent occurs durqng June through September (Resource A t l a s e s , OSU)
.
Land cover o f the area i s characterized by timber of t h e Doug1as fir a s s o c i a t i o n i n t h e uplands and farming i n t h e lowlands and the Willamette Val ley. The Douglas f i r a s s o c i a t i o n c o n s i s t s of Douglas fir, w i t h subordinate western hemlock, western r e d cedar, and grand fir.
A1 so present are b i g l e a f
and vine maple. N i l lamette V a l l e y crops i n c l u d e r y e grass, various grains, f r u i t s , grapes, strawberries, and vegetables. Much of t h e 1ow-lying e a s i l y flooded areas are used f o r grazing. The four mid-Wiltamette counties have e x c e l l e n t road and r a i l w a y systems. The major north-south highways are I n t e r s t a t e 5 and U.S. 99W and 99E. The major east-west highways are U.S. 20 and Oregon routes 18, 22, and 34. The secondary system of state, county and f o r e s t access roads (Federal , s t a t e and p r i v a t e ) allows good access t o a11 parts o f t h e study area.
Rail service
through t h e Willamette Val ley i s by Southern P a c i f i c and Burl i n g t o n Northern.
Figure 1.
Index map w i t h t h e counties included i n this study outlined w i t h heavy black lines.
Socioeconomic Factors
The four-county area had a population of 394,950 i n 1980 (see Table 1 ). Population has grown an average of 2.53 p e r c e n t annually s i n c e 1960.
The
McMinnvil le, numbers of
l a r g e s t city i s the s t a t e c a p i t a l o f Salem, followed by Albany,
Lebanon, and Woodburn.
Empl o m e n t i s d i v e r s i f i e d
, with
'l arge
peopl e engaged i n government, timber and wood products, a g r i c u l ture , metal r e f i n i n g , education, and services
Table 1 .
Population s t a t i s t i c s for the four study counties*
County
Population
1960 58,867
Linn
120,880
Marion Pal k
26,573
Yamhi 11
32,478
Total
*
.
238,798
Oregon I31 ue Book (1981 -82)
'1980
ROCK MATERIAL RESOURCES
General Rock material i s any natural 'iy formed mass of consolidated o r unconsol idated mineral matter o r mined products obtained from such a mass. Oeposi t s incl ude c l ay and s ha1e , sand and gravel , and stone. Mined products may include any o r a1 1 of t h e types of material discussed below t h a t a r e used a s p i t o r quarry run, and/or processed by crushing, and/or screening, and/or drying. Processing does not jnclude calcining o r other treatments by which physical o r chemical o r both c h a r a c t e r i s t i c s of t h e rock material a r e changed. Lands showing no evidence of past mining were not surveyed f o r t h i s study even though they might be potential sources of rock material. Furthermore, because potential in t h i s study i s based, in p a r t , on cultural r e s t r a i n t s , the future potential estimate given f o r a s i t e may be increased through proper zoning and acquisition by the rock material producers. The only rock rnaterjals t h a t have been mined i n the four counties a r e clay and shale, sand and gravel, quarry stone (both crushed and dimension), and vol canjc cinders.
Clay and Shale Clay i s a natural , earthy, fine-grained material composed of rock o r mineral fragments less than 0.002 m in s i z e and containing a group of cryst a l 1 ine m i nerat s known a s clay minerals. Mast clays e x h i b i t p l a s t i c i t y when wet. Clay minerals may o r i g i n a t e from simple weathering under general ly humid conditions o r from hydrothermal action which can transform surface o r subsurface rocks o f many types i n t o more o r l e s s pure in s j t u deposits of one or more clay minerals, Transportation and deposition of exposed clay mineral s w i 11 form deposits which may usual ly contain si I t , sand, and other impurities. Shale deposits a r e formed by the transport of c t ay p a r t i c l e s t o a body of water where they s e t t l e out, forming clay beds. These beds then form compacted rock.
Clays from t h e mid-Mil lamette counties have i n the past been used for conanon brick and tile. Most of Oregon's clay deposits produce a red- to dark-buff-colored brick because of the high iron content of the clay, However, the clay from S i tes 99, Yamhi 11 County , and 209, Pot k County, produce a wh ite to a 1 ight-tan brick. Site 99, originally Willamina Brick and Tile, has been reclaimed and i s being used as an industrial site.
Sand and Gravel Sand and gravel are mineral commodities t h a t were produced by the natural disintegration of bed rock. The term "sand and grave14Vefers to size of the bedrock fragments, not t o the mineral content or rock type. The deposits of sand and gravel in t h e four counties are a1 l u v i a l (river or glacial ) . Alluvjal deposits are formed by stream action picking up, transporting, and depositing sand and gravel. Such deposits are usually imperfectly stratified and frequently show size gradations. Coarse sands and gravels may be interspersed with lenses of fine sands or clays. The beds vary greatly in thickness and a r e usual ly complex in composition, Particles are usual ly poorly sorted; they may be angular but a r e generally rounded because of the hardness of t h e material and the distance i t has been transported. These deposits occur as bars within t h e stream channels and as p o i n t bars on the inside banks of meanders. The deposits a1 so occur as old buried meander channels i n t h e Willamette River flood plain. The glacial deposits occur mainly i n the Cascades. They are completely unstratified and contain a wide range of sizes of rock.
Stone (Dimension) Djmension stone is quarried stone which i s specially cut or shaped for use as gravestones or i n buildings, bridges, curbing, or other construction. In t h e four counties, only two sites, Linn County S i t e 278 (sandstone) and Marion County Site 78 (tuff) are listed as dimension stone quarries. Small amounts of basalt, andesite, and limestone have been used for dimension purposes.
Stone (Crushed and P i t Run) Crushed and p i t - r u n quarry stone, almost a1 l stone produced i n the fourcounty area, i s sold as p i t - r u n or crushed stone.
P i t - r u n stone i s mined
and sold without further processing. Crushed stone i s reduced i n s i z e and screened t o meet various consumer requirements. Most o f t h e crushed and p i t run stone i s quarried from igneous rock, mainly b a s a l t and andesite, and i s used f o r construction purposes. I n t h e past, f o u r 1imestone quarries i n P o l k County (Sites 212, 329, 330, and 331 ) were used as a source of 1 ime for cement and a g r i c u l t u r a l purposes. For today's market, the grade i s too low t o be used.
Volcanic Cinder
Volcanic cinder has been produced f r o m four s i t e s : Linn County Sf t e s 219, 220, and 496 and Marion County S i t e 169. Volcanic cinders are uncemented volcanfc fragments formed from a basic igneous magma. The cinder can be used as a lightweight aggregate f o r concrete products; however, a1 1 the cinders produced from t h e f o u r quarries were used for road topping or t o improve t r a c t i o n on i c y or snow-covered roads.
SURVEY
DATA TABLES
AND INVENTORY MAPS
General The Oregon Department of Geology and Mineral I n d u s t r i e s surveyed 1,168
rock material s i t e s i n the four counties.
Rock m a t e r i a l s i t e s i n Marion
County are shown on P l a t e 1, Polk and Yamhill on P l a t e 2, and Linn on Plate 3.
The survey data f o r Marion County are p r i n t e d i n Tab1 e 2, Pol k County i n Table 3, Yamhill in Table 4, and Linn i n t a b l e 5. Table d a t a f o r each s i t e i n c l u d e s i t e i d e n t i f i c a t i o n , location, s t a t u s , s i z e , source d e s c r i p t i o n , mining system, processing p l a n t , and usage, Because a maximum o f d a t a is presented i n the tab1 es , t h e major column headings are d i scvssed b r i e f l y i n t h e f o l lowing paragraphs. Computer-generated sumnary t a b l e s f o r each county and f o r t h e e n t i r e study area appear as Table 11 i n the appendix.
S i t e Identification
The s i t e numbering system f o r rock m a t e r i a l s t a r t s i n t h e northwest corner o f each county, The numbers f o l l o w t h e township t o the east, move back
to t h e west end o f t h e n e x t township t o t h e south, and continue again t o the east. S i t e operators located i n t h e f i e l d a r e 1i s t e d i n t h e "Operator o r Owner" column; t i t l e searches were not made. The f o u r comnodities included i n t h i s survey are c l a y i d e n t i f i e d by t h e l e t t e r "C" on the survey d a t a tables, sand and gravel by "G", pumice and v o l c a n i c cinders by " P " , and stone by "S". Land ownership of t h e s i t e s i n t h e study area i s as follows: Federal, 377; State, 52; county, 16; l o c a l , 11 ; p r i v a t e ( o t h e r than timber), 250; timber,
478; and unknown, 16. l i s t e d i n f a b l e 6.
The ownership t o t a l s w i t h i n each of the c o u n t i e s are
Table 2 II4RlQN ROCK MATERlALS RESOURCE OATh
I DAYTOM 2 as^
3 nILn&s 4 D BRICK 5 OSHD
G 5
s
E
G
P 5 P P
S
45
4S 45 4S 45
LO
A N ~ S EA 1 Y 17SW R 1W31SE R 3Y ZSNY L W CNW
95
0.1 3.0
CO
6
200
IW
300
6.0
0
0 0
0.0 0.0
0.0
2.0 0.0
350
5
O S Z S 3 n
V
O B B ? ; : 1000 B B rye O S O Q r K
I ) $
O S G P T M
O
S
F LM
FC F F
1
1
R
2 3 3 B z 18 R 2 A 2 A
43
F-T F5
Y
:-T
A F I 0 UH
F
7 OSHO 0 VIESKO 9 OSHD LO 0SH.O
11 OSHD
WH
S
$:55
P
65
1$
2bS
G BALL 13 R B E N D 14 VMKNDYN 15 STADELI
G G G G G
tB 8!kbING
12
1 8 BLAKE 19 K E I Z E R 20 R BEND
2 1 OSHO ZZ ABIP111 23 SILWERT
24 5TAI)ELI
P P
P
G
P
G
P
G
P
2 7 MCNAT? 2 8 OSHD
29 UHKHOYM 30 R BEND 3 35 33 34 35
COHERCL
tiwoe"
05 PEN LHCCA
SALE*
36 WACLIMG 37 WAtLlHG 3 6 R BEND 3 9 SALEM 40 W S P I U R
P P
t
P
G G G
s
t
G
P
P
L
P
G S
L P
4 1 v SPAUR 42 QUALEY 43 UMKNOWH
s
P
45 PUhLEY
S
46
v
spam
4 7 MAULDNG 48 HAULDNG 49 OSHD 50 TIMBER
P
2 ;
R I A A
75
I E 32NU A 3 n 4 s ~n 3W l l S Y ! 3W 1ZNY M
3bSY ZZSE
23SY
1 9 .
Z4NE
3~ ~ S S E H
TS 71 75 75 75
3Y 3W 3Y 1Y
TS 75
LW ~ Z N E A 1W Z 5 S Y A
3n 315r 3U 3ZSW
3W 35SW 35SE 3LSE 36SE lZNE
4
$5:1.0 ;
680
20.0
3 525
250 2 700 1300 3000 3000 2000 21 30
I7
A
rs he
USE
A
70
A
t
75 72 75 75
1E Z I N W 1 E ZbNE
L E 35514 N 1E 36HY N
11 12 2
P
75
E 7NW $E 7SE 2 E 532U 4Y 21SE 4Y 2 3 H Y
24
P P
5 6 VALLEVC 57 SALEM
G
P
a s 4n 85
3Y
59UNKNOWN 6 0 OSHD
5
P
BS
3Y
61 UNKNOWN
S
P
85 85
3C ZZWE
L
S
:z
BS
85
85
3W
5
N A
13 1
f
0.1
3
75Y
5
b 2 OSHD 63 OSHD
100 80
1E
75
3G $
16.0 Z9.O 18*0 4.0 3.0
6 6
51 UNKNOWN 5 2 OSF 5 3 71N8ER 54 UHKNOWN 55 UMKNOYA
G
225
T
P
5 5
1
I. 0.5
32.0 88-0
550
I
I
26.0
750
660
R
A R A
5.0
90.8
1% 19:5.0: 120 2500
R
7s 1.5
75
5 b64
$ $
3Y 1W IY 1. IE
!5
50 1000 700
s
5
s
R
6s 65
LS
P
t t
N A
3W lbHE I 3n Z ~ S E A
A A
hS
45
S
2Y 27HY 3W IlNE 3Yl2SY
3W 3 3 S E 3H 3 3 S E 3b 3 5 S Y
b5
65
2 5 MlRTU5.W
26 UNKNOWM
0.4
4.0 0.1 34.0
18.0 **.0 2J.0 3QaO 1.0
0.0 0.0
2:;
4.0 0.0 6 '0 0.0 0.0 0.0
31.0
b.0 20.0
38.0 0.0
S
Y V
s v
Ei 8::
%1 35
F
Z
S
F
f '4 "Rs t 4i iR 1
PTM QTM
F
1
5 E B B T Y B
t
5
F F
1
s n
F
2
S
F
2
10
R
n
FM
1
14
5
SH
FM FB
Z
8
FC
15gX
5S
V
2
0 5 v o r n Z s v a r L O S Y P T L 0
0 1300 0 S O
5 S 5
0.0
0.0
24 100
0.0
LOU
r
v V
Y v 8
s
B B
B
B B
B
rue
1.0 0.1 1.0
0.0 0.0
20
B
B
TYB
0
M
0.7
0.0
0.0
100
25
S 0
V
?!k
0
S
5H
F
750
s
Y
O
S
F
5
0
0
1
5
F
1 1 1 R B
1 B B T Q B 1 8 M B B TYB
F
2 l b R 1 ' F R
1.0
*.O
21.0 0.0
3600
99.0
41.0 0-0
6500 s v O B B P : O B & T 3000 0 0 100 B B
P P P P
8s 82 85 BS
2w
rME
A
N
4100 1
85
2W BSE Z Y LBSW ZW 39NW 1Y 45E
1
A
276 36
:?L 2 . 0
8s
IU
ZYNW N
s
0.4
7b
S
P
BS
I € 17NY
85 BS
IE 2 9 ZE 3NW 2F I Z N E
lk17NM
f4 N
31
A
A
N ~ A A
21 ~
26
t.
34 8
2.0
B
b9.O
G 5 S 5 5
1Y 3 I S Y IE tsn
a
Q
0.1
4.0
7.0 2.0 2.0 2-0 1.0 0.b 0.6
! :! 0.0 0.0
b:: 0.0 a.0
O
0
0
TVB
5 # B B ?
; !
Y B TYh
~
5
o
c
2
s
0
s
O
H
F
F FE CW
s B
v B
arn TYB
100
S
5
QTH
lo
B
Y Y &
B
T A
TS 75
4%
0.0
(1.0
10
100 0 5 0 B A T 5
F-T
YH
F-r
YH
F-T
WHO
1; F-f
8 8
F FB
F-T
RF
F-T F-B F-T
F
RB
F-T
F-T
F-T F-T F-1
R
9
R
R
1
1
12
R 8
0
5 5
FC
FC
1 15
1
8
RB R
11
A F F
F-r
wn
P-T
R
F-T
AR hR RF
A
A0
8
nn
AB
F-J
F-T
;f:
R
A H
FS
F-7 F-r
A
W R
H
6-8
F
F-l
2n
F-T
I
F
F
Ytr AIR
1 1 0 8 0
F
F-8
F-T
cso
b B
A
F
L
1
IY UI1
AF
CS
B
Y:
F-T
F-B F-7 0
A
F-T
R
5
un
R
11
Q
R
A F
1 1
AR
A A
F-F
1 1 3
wn
F-0
0.0
0.0 0.0
0
1 1 2 R 1 3 R 1 i1 i 3
TYB
500 10 500
; S
12
A
TYB
2
8S 8s
22
1YB
I
Y
un
F-T
F-r
B 0
0.0 0.0
S P
1 &F; B ;
R
A8
wn
fiH
1~ Z O A
B 0
1.a
5
o
2
IZ 20
e
TYB TYB
F
1 5 B B J V B 100 B 0 T Y B
B
6
G
0
r
R
0.0
LO
O B B T Y B
14 F I S H 6 w l
o
1
0.0 0.0
9.0
0
1
0 0
Q
2.0
0 Yn
F-I
500 20
0.0
-
1; F-T
0.0
a.o
cs
F-T
TYB
0.1
A
QAL PTM PTH
0.0 0.0
230 250
,:
a
RY
TYB
0.1 1.0
N
R R R
1
H :
F-T
6-T
v
1 35
l w 3l5Y
2 4
i
12
F F
FT 6-T
F-T
0
I I
M
S 5
A
s
0.0
15
R R
UH AM YH YH
F-f
B
15.0
I
5 h
1
F F-f F-T
4
216 750
8SW
11
1 1
CSO
1000
~BSEA ISE I
IlSE
O 1
QTM QTL
10 10
U
i
R
B
bbconocs
T
S
0.0
2.0 0.1 2.0 0.6
2000 BO
S
300
F
A A
TYB
0.4
A R
80 Y I M A C R
100 600
F
L
$
45Y
2S ; r
0.0
f 2 s
V OIL 1000 5 V o s u 8 F h
1
0 O
6NY
UALEI
0.0 18.0 6.0
:::8
s
F F
TYB
2Y
; 7S' T I M B E R
8.0
5
M
ii
7 5 UHKNOYN
!:I lBOB f O*O 250 5 13.0
z
I 4 1 7
1
4000 5 b' QTL 5 0 5 V P T L 0 1000 s Y P T ~ 1
1
5
P
0.0 2.0
0.0
S
11 U M ~ N O Y H I 2 F I SHEY I
9.0
N
3Y 2511E ZY
0.0
15.0
2.0 1.0 0.6
A 5 0 5 PEN 67UNKPIOMN & B UNKHOWM 69 TURNER 7 0 UNKHDYN
H
o
F-T
F-T
F F
B
- 13 Table 2 (continued) RARt Oll R O t K M T L R l h L S RESWRLE DATA
8 1 ttMBER
Z
r
8 5 TIMBER
1i
85 8s 8s 85 85
1B88 illPE! TIHBER
3s
t5 E: 32€ 9 3 E % ! 8 S 3E l O S E A
i! iKiE2 a* T n o ~ R a9 T I M B E R 9 0 TlMBER
r r
2E ZE
1SE
A
2. 2.5. 3E 6 S Y
f
f
94 TIH6EA
S
1
T
:
BS
ss
3E 1456 3 E 22sf
A H
S
T
85 8s
3E 29NE 3E28NW
1
95
rtns~a
9b TIHBER 97 TIMBER
BS
3E 17MW
28 16 10
H 1 1
91 T I M B E R 92 TIMBER 93TIABER
76 B
5211~ P1
2 E 3CNE
1
T
85
3E 25NE
101 TIMBER 1 0 2 TIMBER 103 U S F S
F
85 6s 85
3 E 31SH
5
28SE
N
S
F
BS
4E 335W
I
4E 34NY +E 3 4 5, 31.
1 ~ ~
USFS
1 0 5 USFS
s
F
85
106 USFS 107 USF5
BS
a5
108 USFS
tt2 2::X LI3USFS
114 USFS 1 1 5 USFS
5
5S S
F
F
F
119 USFS I z o USFS
S
s
F F P F F
1 2 1 USFS
5
F
1 1 b USFS 117 USFS 118 U S f S
122 M A R l O n
I 3 HARfON 134 OSHD ~Z~DAVIOSM
126 UNKNOWN 127 UNKNOWN
1 2 8 UNKNOWN 1 2 9 osnD
130 UNKNOWN
BS
S
5
S
BS
I
I
4~ Z ~ S E I
TE 15NY
A
TE 2 B S W
A
85
7E Lbkt
85 85 BS
TE2SNE 7E 3 1 S Y BE 1 4 S E B E ZONE
A I 1
85
BE 27SW
dS
3U
2NW
30
2
0.1 1.0
13 3 b
01.0 0.3
'$
80.2:
0.5
18 6 3 31 6
0.4
39
LO
L
I
I I
0.2 0.5
3 5
9
$!8 5 :g$::Y I1 TE Z95E
200
0.0
5
0.0
0.0 0.0
80.0 :;
0.0 0.0
0..
2 14
1
85
0.1 0-1
:8
S
104
0.2
0.0
$ 5 $3 0
1
i :; ::a: : 1.5
0.3 0.8 0.5 0.6
T :8
4 1 1
g 100TlHBER
+.4 E
2.0
8::
X:i
2.0 0.3
0.0
8:0:.0
0.0 0.0
:X
0..
la
T
E O T I T L B 1 B F T L B
2 i8 Sr 8
T
B
0.4
0.0 0.0
150 400
r
8
zoo
s
30
0
25
M
9 100 10 7
0.8 3.0
0.0 0.0 0.0 ova 0.0
0.5
0.7
F
SM
FB F
,a
M
60
900
&
B
B
0
O
,":, rm 8 ILB
O
R R
F-8
F
1 2 3 R
F-T
f6
1
+ 3
L
F-T
t# 3 ;
: I# F-T F-T F-T
F-r
F-i F-r
1 3 0 ,
1 1 9 R
0 0 0
F
1
S
FC
1 2 1 R
5 S
5
22 2S
FC
FM H
FN
P T ~ QTV
0
S
FM
8
rye
B
B
TY8 TYB
8
B
TYB
0
5
6
5
R
1
cn i=n
0
5
FC
s s
TYB
3
'"
o o
arv
1
i '1 %a fff f
:n
FC
:
gM
S
F
2
L5
A3
R R
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10 1;
8
a
R R
f
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1
24
1 2
b
11
iB
~
3E
I 3 6 WNKNOYPl 37 WNKNOYN
3g t I M 8 E R I S 0 UHKNOWM
5
G
T
P
9S 95
BSY
3E 2 3 N E
3 E 30SY
jab
t I R
0,o 0.0
1 Zt
0.1 3.0
0.0 0.0
4
0.6
0.0
5
Z
0.5 0.1
Q :X $
"" "'
5I FF 9 5
148 USFS 149 WSFS 150 USFS
lii 154 USFS
1 5 5 USFS
15 USFS Ilif USFS
;g;:j:r
160 USFS
5
5
S
F F F
S
F
9s 95 9S
5~ ~
3
5E 24NE 5. 35.. 5E Z9SE
N 3 X A
I
:
28SW I 1295 .SE 5 .ME I SE LSE N f E XZ ZE3PB: S
$ 5
F
F
95
bE 11SY 6E 17HE
$1 ::go:: 9s
bE2LNE
I
PI
~
3
2 10 26 13 14
lf 15
3h
2;
47
8:t 0.5
0.0
0*0
X:8 $
L . 0 0.7
0.2 0.0 0.0
0.1 0.2
0.0
0.1
:X
2.0 0
6:1.a:
0.0 0.0
$2 0.1 0 0
;it 0.L
SO
8
8 I,
6
FC
:a
F-r
F-B F-BIIJ 6-BRJ F-J
F F
F-IRJ
F-BR F-f FS
4 0 8
&
6 T
B
B Y
A F F F
F-f
B
T
A A
?'TLB :
f
4 T k T C B 0 E o B f T L B o o B B T L ~ o 5 Br Ar f T1L B o
g
10
B
B
50
f;;
R
i!
5
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1 1 0 R
sn 2
FH
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ifh;
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1 1
3
2t
5
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B B
B E
F
Erg
g !
F-BO
68
F
f-i
fF
F-r FB
:I$ F-0
rLa
0
SM
FM
2
20
R
F
F-T 6-1
F-T F-Ba
200 200
I
~ - r
F-i
FS
A F A F
F F F IR
T l 8
41
F L= F
F-T F-T F-T F-T F-T
F-T
14 IB iB itB t i
75 100 100
F F
AR
F-r
TLB TLB
f
6-f
R
i %
F F
fit * II
1 2 9 8 30 R
I i FC
B
F-T F-1 F-T
F-B
L t X 6 T :
f F F F
f-T
8
F
F-T F-J
F-B F-T F-T F-T
2
;
F F
F-T F-T
2i
E
F-B F-B
F-f
R R A
F F
F
F-T
CS
F
F-T
F F-B
134 TIMBEA 1 3 5 FRANK L
138 TTMBER
F
F
n
M
f
F-r
I:;
OrV
2Y 28i4Y ZY 32SE
FC
F-8 F-I3
a
&
9S 95 95
FB
M
K
F-T F-6
112:;
F-T
B
P P
O
I
ii i it 8. Et 1 it a
S
2 1
2
O B I T S
30
0.6
r
I ) $ & T S
B B
1.0
O
TLB
1
B
1.0
15
b
B
A
s
4rv
S
9SE
r
B
0.0
IE
0
8
*
0
1.0
s A
2
100
B
8
31
i u line
o
B
1.5 1.6
I8
cn
Xic:i g 2 f;
3
fi:10
1U.O
FB
5 s
0 5
0
0.0
1
3
O
1
10
A
9s 95
8
+ B A ! z
0.5 0.5 0.1 0.1 0.0
0.5
$;
100
2u ZPSE
25 1P
2
0 0.0 0.1
9s
1 N
fS
r
*
20
P
1u IIHY
A
"O 0.1
s 5
4
0
1013 25
0.1
20
0.0
0.0 0.0 0.0
gg
0
0.2
L O
6 3
L
X:X
B
O B B T S
F-0
;
B
I= F F
F
f
F
e
-
14 -
Table 2 (continued) n4Rf Ol R O t K HATmIILS RESWRCC O A T I
s g fluEFI~TBR a u 6 a 161 WSFS 162 USFS l b 3 USFS
s
w
n
5 5
F F F
9S
bE34Sf bE 3CHE 7 E 45E 7
s5 S
I
LbP USFS 170 UNKNCfYH
P
5
BAISEV osnn AFEKANO
G 5
P S
LTZ
k73
1 7 4 USFS 175 USFS
L f b TIWBER 177 USFS 178 T MBFR L ~ ~ T ~ H B 180 USFS
1 O L USFS
11iiai:2 1 8 5 USFS
S S
95
VS
9s 95
F
F F P
171
c
M
95
P F
95 105
105 105 105
5
F
10s 105
S
T
105
8R E 5 5
r
F
F $S FrT 5
xiooo YO
1
13 3
I
I
0.5 0.2
1
td
7E 335U
1
25.0
3
0,2
0.1
10
1.0
1.0 0.0
200
0.4
0.0 0.0
N
1
1 111
0.1 3.0
ZY
BNE
H
lit
3.0
5E
1SU
4 I
10
TO
2.0 0.5
1
30
0.8
0.0
3 30 90
2.0 0.2 3.0 3.0
0-0 0.0 0.0 0.0
0
0.5
0.0
4E
IS€
h
5E l T S W 6 E 5HW
6E
I
9Sf
k16s" !r A
LOS 10s 105
7E 7E
1
bNY
FNE 85E 7E OMW JEIOHE
7E
3
I
12
A N
100
8.
8
TS
;:7
H
T
R
0-0
S
FU Fa
XO fS
Es C
;: 80
3
FM Fm
FB FPI
FB
0.
See s i t e number below f o r other footnotes. The
The s i t e has a ready mix plant. The s i t e has both a ready mix and a h o t mix p l a n t
I4
B
2
8
8
I1
1 13 I 2 1
F
f-8 F-0
F
R
B
R
F F
f
F
F-T
A
F-r F-T
n
F B F-a F-0
1 2 0 H
S
F-T F-8 F-& F-J
FT
2 1 0 A
F 11
n
F-T
A""
2
F
B
F
F-T F-6 F-r F-0 F-8
F
F-T F-T F-0 F-B F B
F F
F
F F F
F
HRRION COUNTY
Oregon State Highway Laboratory data given i n Table 9.
13.
~
I L Z R 1
A
T
i 18 :: :: L
A.
S i t e I s a source o f clay f o r a b r i c k and t i l e p l a n t . p l a n t has a k i l n .
1 1 0 l l $ ;
5 ii i
O M O S O M
9:;:
0.1
M
$
1 B A T S 50 B B r I@ B 0 lo e 8 10 T B PTV
L O
K
H
s
1, ih 1 a r
O 0
O T r T L B 5 U B A T S 2 T f T B 15 '500 B 8 OTV
4.0
2.0
8
A O
S V 3 B T P T b 3 0 B B f L B 4 0 0 TI 3 B E It&
1.0
0.4
B B
O 10
0.0
FOOTNOTES:
4.
, ?i'
0.0 0.0
BEZ3SY ZY 5NE
R
USAGE
Z O B E T L B O K F O B A ~ S O M C F M 10 B B 25,;
0.0 0.0 0.0 0.5 0.0
0.2
1 110
f E 31SY
6 E 23NE
105
4 T
s cu
6.
LOS
F
u
1.5
LOT
S
c
"
5
LDt'r'W
O
S
168 USFS
8
65.
Reclaimed t o a gun range.
66.
S i t e has both a ready mix :nd
78.
Gray t u r f was sawn out o f the outcrop and sold as building stone.
a hot mfx plant.
16.
The s l t e has a ready m l x plant.
Sane o f the stone w u l d s p l i t finto flagstone.
21.
Reclaimed t o a park.
The rock type i s d i o r l t e .
29.
The s i t e has a hot mix plant.
Some o f the stone wouTd sp1 i t i n t o flagstone.
35.
Reclaimed t o a cf t y park.
Sane o f the stone vould s p l i t i n t o flagstone. The rock type i s cinders.
36. The active p a r t o f the s f t e 15 being used for a hot m i x plant.
The rock type
15
diorite.
39. Reclafmed t o a c i t y park. Table Heading Definitions:
C W D [Ctnmodity):
t: clay; G: gravel; P: pumice (cinder); S: stone;
timber lands; U: unknorm; N: natural reclaimed; G: gabbro:
R:
fOWn ( T m s h l p ,
north o r south);
L: limestone; R: r h o l l t e : 5: s l l t s t o n e
YEATHR
(Range, east o r west);
-
(section. quarter);
-
sandstone
- cmglmrate;
ROCK
R: rippable; B: d r i l l and blast; PEWT TYPE:
active; I:inactive;
BEHCHS (Number
o f bench?.);
JOIlPT
EWEl
(daintfng) : F: fine, 0-6 Inches: C:
3 (Height o f highest hlgkwall I n yards); M: F: f i l l o f embankwnt: 5:
C: crusher: 5. screen; 0: otker;
subbase; 0: base; T: topplng; R: riprap; J: j e t t y stone: 0: other; REtPMTlOn: W: water recreation; H: w i l d l i f e habitat.
E: A:
(mtk type): A: andeslte: B: basalt: E: breccia;
T: t u f f ; V: varlous; 0: other; 6EOL W I T (Geological unft);
(Degree o f Weathering); S: s l l g h t ; R: moderate; C: canplete;
coarse, 7-12 inches; 6: blocky, 13-18 inches; M: masslve, 19 plus inches; BREAK (Breaking ground):
Federal: S: State: C: county; C: local; P: private; f: private
(Deposit type): B: bedrock: 5: s u r f i c i a l : T: talus;
reclaimed;
(depth o f overburden i n yards);
m:F:
A: agricultural;
I:I n d u s t r i a l ; 1: l a n d f i l l ; fl:residential;
-
-
15 Table 3 POLK
6 g P : 0 I 2 0 1 TIMBER
202 TlHeEA
2 0 3 TIHBER 204 TIMBER 205 T I H B E R 206 207 20B 209 210
T In8 R TIwZR TIMBER
UNKNOWM LlUHCH G
2 1 1 UHKEIOYN 2 1 2 URIGHF 2 1 3 UHKNOYM 214 BWRCH G 2 1 5 POCK LO
O
H
S S
f
T
5T ! T
M h r E A I h L S RESOURCE DATA LOCATION
8
! N
A T
W M
65
LS 65
65 65
2S : 1 t3 6s 4 g
4G FP 6255
C
G
U
S
8W 2 3 S E BU Z4NY 8M ZBSw BW 30ME BU31NE
R
6H 3 5 S E
A
1
f
N
2
TlON XlDOO CU YO
bY2lSE bY 26ME
61
1
P
C
65 65
S
T
75 75
8U
BY
6NY LHE
T
75 75
BY
8" BY
8NE BSLI PSE
N
S
F
7S
BM
12SE
5 S
f F
75 75
BY LQ Y 8Y 152Y 8W 15NU
bY34NY
A
en
KHES
6 6 17
4.2
10
0.1
0.0 0.0 0.0 0.0
0.1
0.0
LO
b
301
G
G
fifi OUC-
0.3 0.2 0.6
1.0 5.0
I X:3 8.0
140
340 10
35.0 1.0
0.0
0.0
:8
O B B T E S
9.0 5.0 2.0
z
S
5" S
CB
I
1
3
0
F-BR
EFCl i1 1ii0 i0 R FM
1
F
1 2
4
+
F-BR F-0 6-8 F-B
B
F-B F-BRJ 1 0 0 B G T I
O B S J E S 15oa B B TSR
3
z
50 1000
Y
S
C
5
FB
8 1 it
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0-0 010
b
1 B 0 TE5 '? ; & :T5 t0Q O B B T E S
0 0
PTM
1 5 S Y P A L
S 5
F
F
t
F
F F
F F
R B
F-8 0
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F F F
j f f
6 ' F-T
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5
22
1
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b~
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8 A
YF
BY
TINBER
219 TIMBE
220 TIMBER 2 2 1 TIMBER 222 T I M 0 E R 223 T1MBER 224 T I M B E R 2 2 5 BLU
ZZb BLM
227 B M 2 2 8 T#NsER
$3: "Z:'! 231 232 233 234 235
BCM BLR TIMBER TIMBER
TIHBER
23
T MB R 23% 1 f M d R 238 TIMBER 239 BLH 240 TIMBER
i
75
I I
b
4 3
0.2 0.1 0.1
I
1
0.1
A 4
f 3 2 3 ~ 1
BY 2 1
BY
E
$
5
F T
N
7s
7M
I
1
ZkC
F
S S
F
r f
2 5 1 TIHBER IMBEA 252
75
1
7Y 5Mn 7W 6NW 7Y 6 # Y ld BNY 7W 1 l S E
N &
3 10 1 1 3
75
7h IESY
I
1
I I
I
2 5 6 TIMBER
T
7W
2 5 8 BLM 259 TIMBER 260 6 L n
7s 7s
2MW ?Y I Z S Y
I I
S
F
TS
7Y 2 9 S U
1
75
7C1 3 * 5 €
b
TIMBER
TlMhER
BLM CMEISEC
2 6 5 BLM
Zbb T I M B E R 2 6 7 TIMBER
268 f IUBER 249 TIMBER
ii S
P
F
j ;
::
mt;
p z
f
65 d
75
bU 9NE bY 15NE
A
11
bY 2 5 S E
271 UNKMOYN 2 7 4 UHKNOWM 2 7 5 UNKHOWH
f
S S
hW 2 5 5 Y
bY 36NY
I I 1
0.0 0.0 0 0
0.1
0.1 0.1 0.2
0.1
~
G
~
G
TES
0
S
fE
O:O
0
&
S
TES
0.0 0.0 0.0 0.0
4
B
0.0
0.0
0.2
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30
0.0
0.3
L
T
F-B
oL n 0
F-B
0.0 0.0 0.0 0.0
2 % 1 5 ! t s
loo s G T 5 0 S G . 1 B G 5 B B l 2 0 B G
I T I S R T I
L B b T 30 B B 1 B B T 1 8 B B 2 o B B r
S R
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.
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t
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s
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1
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0.0 0.0 0.0 0.0
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F-f
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F-8 R R
F-8 F-6
F F F F
R
F-T F-T F-T F-F ~ 6-8
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F-8
F F F F F
F-6
* R 1 R 1 2 5 8 1 3
0.0
0.0 0.0 0.0 0.0
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F F F F P
F-T
R R
lg F FB
F-T F-1
F-r
%
1;
1
1
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R
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30
5 B B T S R R B TSR
0 0
5 5
FB
1
1 1 3 A
8
F-8 F-B f-0
l D B B T S R
O
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C
1
0
F-B
PC
6
1
3
1 I I T S D Xo SM CF5B 41 1t5 Bt 10 B B r s R
0.0
40
0.1
0.0
f O B B t 5 R 35 B 8 T S R
J.5
0.0 2.0 0.0
0
0
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F F F
RJ
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0.0
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F-r F-r F-8
F F F F f
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F-B
8
0.1 0.1
s::
0.2 0 1 2:0
0.4 0.1
4
x::
0.6
2
0.4
55
0.0 0.0 0.0
0.1
3
22
0.0
o.a
0*1 0.1 0.1
F-T 6-T
0.0
Oa3 0.0 :I:: 0.0 0.2 0.0
0.1
A
I
::j
L 2
BNE 9SY
fS
$:f 0.
0.1
LW
6W
2:: 2i
1
7s fS
5 7 0 TIMBER
2 7 2 JONES R 2 1 3 JONES R
3 1 6
75 TS 75 75
5
2b1 262 263 2b4
3
4
253 B k n 254 T f U 8 E R 255 TIMBER
2 5 7 TIMBER
%
8 V 31HE 8W 3 6 H f
5 5
T
4
75 TS
2 4 b BLM
S
1;
" " 5
5s :i 15 1:tSI 1 ~5 an ~ O N U 1
5 ; 2. ; ; ; i E ;
TIHBEA
0.2 0.1.
15 F4 $2fl 8
243 T I M B E R 2 4 4 BLM 2 4 5 ELM
8LM
I 2
f
242 T I W E R
TIMBER TIMBER
I
$2 i:
241 BLM
247 Z4B 249 250
I
0.5 3.0
0.0
~ B B T S 650 0 B TSR I B B f i T S A
O S F 1 s cn R1 n c F
0 O
S
M
CU FC
1 2 B R 1 19 B
1 3 k
4
50
l
n
B
a
F-8 CS
0.0 0.0 (1.0 0.0
0.0 0.0 6.0 0.0 11.0
15
B
8
TSR
4 8 & TSR 250 B B rm t o o a 0 B rsR O B E T S R 50 B B TSR
0
5
P3 2s
0
2
s
S
FC
En cn cn CU
!1 2ii3 ! 0 1
2
3
1 24
0 B
cso
F
F-0 F- J F-B F-T F-T
F
F-0
AF
F-J F-BRJ F-BRJ
*
tF
P
i R
AF
0
B
- 19 Table 4 (continued) t m n I LL ~ O C KUTER~ACS RESOWE S I T E OY nn
A OPBFI*T% 52 ' :! g &
n*TA
LncAt'on
X "* * c u 5
Tlan
*LAEs
XlOOO C U YD
cur0
o
?
K
L T
E R
n
H
f
R
Bb B O I S E C 87 UHKNDWH RBUHKNOYH 8 9 Itfl(l0P.N 9 0 UHKHOYH
91
a
5
S S
t
G
P P P P P
55
55 55
5s 55
5S
YDKM
9Z F K l M P H
55
9 3 ~ ~ € 1 1 1 1s 94UMKNDYN 5 95 C M E l S E L S
P P
55 55
MCBlNRP INDERSN MAR W R T WLLMN L
P P P
?$ 55
94 97 98 99 100
5
S
G
51
P
65 65
UHKlDYN
Y
R
5Y 15W 5Y 31SE
td
6Y
32
'21
bW 3 2 5 ~ I
A
A
45 1
W l2NY 4 Y 12NE 4" L ~ I U 4Y 175W 4u Z3Nf
A A
950
4 W 23SE 4Y ZbNE
A A
7W
R M
5Y 3 2 5 E
3n
1sn
5Y
+NE
1NY
L
1
I
19.0 0 10.0
5.0
181
4.0
6.0
4;: 100 100 50
2
Is i n a r u r a l
28.
Zern reserves kcause s f t e i s i n a r u r a l
B B
2000
0.0
100
B
a
B
a
a s v
5.0
i
n
:
TYB TVB
TYB
sn
F-A F-13 F-B F-B F-R
3
e
z g
ff
1~ AH *O YH
o sn
3
2a
cs
F-T
nc
i
5
C
FB FC E F
RB
lo n
I
1
O
70.
Reclaimed; t o a farmstoragearea.
72.
Reclaimed t o a c i t y park.
F-r F-7 PO
F-T
R
73.
Processing plant i s 1.5 miles from quarry.
74.
Overburden i s being sold f o r topsoil.
E
F :
F-8 F-0 F-T F-T
I
AF
F-B
CS
See s l t e nunber below f o r other footnotes.
area.
5
FB F-T F-i
Oregon State Hfghay Laboratory data given i n Table 9.
- residentisl - residential - residential
L 1 E 0 N
T
ts
3
I
N E
1 1 1 R 2 20 0
$ 0
5 O S V P A L
B
: :! f q I
$M
o
TVB QAL
K
M FB I S M F 1 5 FB I
O B S T E 5
0.l
n c m s BM
0.
Belng used f o r a stockpile area.
Zero reserves k a u s e s f t e
B
E s
A.
18.
27.
0
A
44
3
i i C F n P S F 0 5 F
5000 B B TYB 1 8 F T Y B 1800 0 B T Y B
1.0 2.0
0
Part of s i t e r e c l a i w as home sites, p a r t o f s l t e 1s naturally reclaimed.
Zero reserves because s i t e i s I n a r u r a l
2000 80.
0.0 0.0
2.0 3.0 13.0 2.0
TI
TES
& E TfS B G T I 200 5 V PAL L O S Y Q T M
5
0.1
G E
6 O
Oat
598
s
S O B E T E S
0.2
8.0 0.3
17.
26.
I:: 0.0
i:i 0.1
B
H
5
Fa
506
E
c
0
YH
ik; AF
ARF ALF
ARF RF HH
I
HH
B
area.
area.
47.
Processing plant f s 1.5 miles t o the east of the quarry.
48.
Reclaimed t o a r i f l e range.
87.
Being used as a r i f l e range.
99.
Was a c l a y source for a brick and t l l e plant. to an i n d u s t r i a l s i t e .
Now reclaimed
Table Headlng k f l n i t i o n s : [Cmdity):
C: clay; G: gravel; P: pumice (cinder); S: stone;
J'n p
timber lands; U: unknown;
( T m s h f p . north or south);
N: natural reclaimed; R: reclaimed;
H
- sandstone -
-
[section, quarter);
L: local; P: private; 7 : prlvate
z: A: active;
I:inactfve;
(rock type): A: andestte; 0: basalt; E: breccia;
conglomerate; T: tuff; Y : v a r l w s ; 0: other; GEOL UNIT (Geeloglcal unit);
D (Degree of Weatherlng); 5 : sllght; H: moderate; C: complete;
coarse, 7-12 inches; 6: blocky, 13-18 inches; R: massive, 19 plus rnches; BREAK (Breaking ground):
F: Federal; S: State; C: county;
(Deposit type): 0: bedrock; 5: s u r f i c i a l ; T : talus;
G: gabbro; L: limestone; R: h a l i t e ; S: s l l t s t o n e
(depth of overburden i n yards);
EHJ:
(Range, east o r west);
R: rlppable; 0: d t l l l and blast; PLANT TYPE:
E N w (Number o f
JOlNf (Jolntfng):
bench?.);
C: crusher: 5: screen; 0 : other;
F: fine. 0-6 Inches: C:
(Height o f htghest hlghwall i n yards);
m: F:
f % lor l embankment; 5:
subbase; 0: base; T: topping; R : riprap; J : j e t t y stone; 0: other; RECLRMRTION: A: agr$cultural: I: i n d u s t r i a l ; L: l a n d f i l l ; R : residential; Y: water recreation; H: w i l d l i f e habitat.
-
-
20
Table 5 LINN ROCK FIhTEA[ALS RESDUHCE OArA S I T E OWNER OR NO OPERATOR
I N SAM 2 N SAM 3MSAM
O
D 0
0 O
N
C
R
s
1
I
W
N
N G
C
U
P
9s
L Y ISNW
G
;$2;.
G 5 S
€I C CRUSH
G
;
G
S
1 1 N SAM 1 2 UNKNOUN 13 YNKNOYN 14 N I 4 5 E N 1 5 STAOELI
P P p P
P T T
G
G
;
P
P
$:
Tf!tE%
5 3 TlHBER 54TlHRER
55 T I M B E R
0.0
ZE ZONY ZE 2 7 S E 2E 3 6 M M
A A
115
1.0 2.0 2.0
0.0 0.0 0.0
3U 3U
M
ZO
0 0.0 0.0
2.0
0.0 M.O
1.
95
30
A
9
4
i.0
S
105 10s
3u
4SY h ~ S EA
200 160
2.0 20.0 11.0
86 ILO
40.0
.
bSM
A
S
4 b VHKNOWH 4 7 OSF 48TInBER 49 T IHB R 5 0 TIMBER
0.1
R
G
BLM 4 3 FIRBER 44 BLM 45 U H K N D Y N
2
.sE 3W 1OSV
P
+Z
N
35U
P
4 t TIMBER
95
1 . 145. 1 E LPSE
3Y
5
8LM 34 BLPi 4OUNKWOYN
?JS
800
IOS
S
338
95
O
X~OOO
P
E
R
G U N I
C
a E c a
24.0
:X
0.0
300 '"0
s
5
4 2;;
1
20
S
100 100
5
S B
P
G 5
P P
5
P P
10s 105 105 10 105
3U 3W 3W 3w 3~
17NE lbNW 16NE 4NU
~2 8 5$ 8 2:: 3.0
1
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Y U V
orL
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h
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s
25NY 2W Z5SW I Y 7NU 1 Y BNY
N N I
C P
10s 10s 105 105 10s
5
F
10s 0
1 W 255U LElDNE
I
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1E 24SE
105
l E ZaNE IE 2 7 I € ZbHE
~n ~ t
25
C
A 1n P ~ S Y !
L
0.0 1.0 0.0
12
0.3 0 0.4
.
5 0.0
0.3
0.0
1.0 0.2 0.5 0.5 0.6
0-0
0.1
0.0
2.0 0.4
0.1 0.0
0.1 0.2
0.0
A
3.2
s
s s 5
S S
5
T
F ? F
10s
105
1~ 2 5 ~I ZE ~ O S V N
?
105 105 105 10s 105
2E IOSE 2E l 2 S E ZElfSU ZE 1 6 5 ~ ZE 1 3 5 U
r
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T T T
105
10s
H N t
H I
55 : :X :E :x iI T L O 5 Zk 205E 5
S
T 1
104
10s
2E21SW 2E LOSE
N
I
~
2 X $:k
0.0
S S
'"8
1.0 6.0 0.2
I 29 23 30
1: 2
2 Z 2
35
0.3 0.1
0.5
0-0
.
0.0
0.0
0.0 0.0
0.0 0.0 0.0 0.0
B
TYB
B B
TYB TYB
400 7
0
20 3
loo
10
B B B
B B B
B h 8
B B 8
B
4
..
50 B B I O B B
5
s
F
4 4
FI
FH
sn
s
2
20
4
28
FM FB
cn
O N 0 5 O S M D nc 0 5
W
F-T
4
$
T
105
2E 29SE
N
6
b l TlNBER 62 TIMBER 63rIWBER b4 BLH 6 5 TIHBER
S 5
T T
105
ZE 28MY
A 1
50 29 4 5 7
66 TIMBER
S
b f TIMBER &a TIMBER b 9 TIMBER 7 0 TINBER
S
F
: fzt
5
T 1
S 5
f
Z
18
T T
10s 105
10s 105
LOS
ZE 2 7 S Y ZE2bSE ZE 3 1 5 Y 2E 32NE
ZE 335E
ZE 3+SW 2E 36NY ZE 36NE ZE 36NY
R I I N
I I
A
2 2 2
E $ 2 i
no
5
3E 30NE
f
105
0.0
0,s 2*0 0.1 Q,t 0.3
0.0 0.0 0.0 0.0 0.0
0.3
0.0 0.0
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P:78 002; OSF 71MRFs
3
0.3
F-r
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F-r
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F-T
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c
f
cso
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31
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0.0 0.0
F~B
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6
2
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3" k!
I=-& F-B
1 23 L 63
0
F-T F-5
F AF F
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B B
B
a
A T B B T\
a
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TLB
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RHF
i1 20 13 it" 8
F-8 F-a
F-8
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3 1 8 RB 2 3 2 6
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1 2 3 1 1 1 1 1 2 i zr 1 1 O
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F-r 5 F-J F-?
e
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$ ! 1
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10 Z 4 31
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i j z ! 16
Rb
! i n #f ! $ i
~
F F
FF F
FF
F-T F-? F-T F-T F-f
F F f F F
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F F
F-8
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F F hf F F
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f
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::
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3
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F-f 0 ~ 4 100 9 A T I Z B A T S 2 0 B B PTV 2 0 B 97"
I
F-B
F-T 6 0 TIMBER
r
5-r
3 10 I 16
f F F FM
B A
F-B
F F
F-8
F F
F-B F-iB F-T F-r F-0
F
F-0 F-0
F-f
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o o or Er
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n H
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5
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1
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6-8 F-i F-T
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TLB
1 1
USAGE
csu F-K F-T
M
$M
s
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1: j j; $
25 ? f n
K
so
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0
3
P T L Y
R
2 1 0 a
TV8 T TLB
TL6 ~ T
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fLB
3
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1 D
TI
1
i1 2 25 ER
F
3YB
O B A T S Z a A T L t l O B A ~ S o B K TLB 50 B A 75
B
f n
$
TVB
0
6
f
B A : q O S M o sn B A B A T S O W B B T ~ B L sn B & T O C
B
F
H
I
2
5
4 5
rY6
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5
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4; 30
0
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0.0
0.8
I*2
f i::8
LO&!
5
5 5
S
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B E S
0 0
1
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0.0
7
10
520
V
0 B
15 1PO 7
H
S
f
300
0
108 300 1L 156
: :r :11 :: ,::: r
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PJL QTC
300
v
O 0
?in
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0.0
5
S
V
1
72 s S
10
1.0 5.0 11.0 1.0 2.0
35
{ ~ S E R
8:0.0:
o
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R
5 S 5
100
J
W
o
5 T
A 4 A
1 Y ISNE 1WtQNW
RESER -YES
XI000
E U YD
to. lIES
g
2 1 UNKNOWN 2 2 JB ROCK 2 3 OSHI) f4HOREB 5 5 Y ~ H
3*LlNNCO 3 5 UHKNOYM
9s 95
PLANT AREM IN
$
U
20 MRI-LN
bNKNOUN UNKNOYN 3 3 L I N N CO
PS 95
NIHE At:&
PAS1
m 5 : 9 3 M
I 6 YNAWOYW
X#
5
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G
9fJMBER LOTIMBER
LOCATION
n n
F
f
F
F
F F F
h
A
AB
-
21 Table 5 (continued) LlWW RDEK MATtRthLS RESOURCE 0414
f l € OWNER OR
u6
OPERATMI
o
D
I$ XAfiSEm 3S 83 VMKNOYN BI T l H B E R
5
Bb T I R B E R 87TtHBER $B TlFkBER 19UNKNOWl
S
85 TIMBER
90 OSF
5
I
S
M
N
M
3f 2 I S E t 33~Z ~ M E
15 3
T T
3 E 32HE
T
T
f 5
105
10 101
10s 105 105
105
10s
0
$
S
10s tOS
96 U S F I 97 USFS 9 8 TIMBER 9 9 TIMBER 100 U S F S
S
F FI'
10s 105 105
F
101 TIMBER
S
1 0 2 usFs 1 0 3 USFS
1 0 4 USFS I 0 5 USFS
106 107 108 109 110
USFS
g5 5
HUB LTY
HUB C f Y
F
T
t
s F 5 F s F 5
F
S
F
S
F P P
5
USFS USFS
G C
F
115UHCNOUM 114 DERRY
117YILDISH A18 S U L L I U H 1 1 9 ALBAMY 1 2 0 UNKWWN
5
3E 34NU 3E3iNM
3E 34SM 3E 3bNY *E 5MY
4E
4E
105 105 105
11s LlS
4 E 28ME
+E U N E TSY 5E 1 3 5 E
5E
4W 17NE
A 1 N
23SL
A
G
lit l l S 115 l l S
4U 31aE 3U 4 N M 3Y 55E 3W
5SE
L L
11s
3w
4SW 45E 9s
4WZONF CY
4W 2 8 S Y
1 2 1 ILBANY 122ALBAMY 123UNKNOYN 1 2 4 MORSE B 125 MORSE &
t C G t
12b CINN CD
G
28NY
1 2 8 FISHCYL
G
:!::
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1 3' UHKNOYM UHKHolEM
150
1 3 1 YICOISH 1 3 2 INNCO 133 ~ I H B E A 134 TlMEER 135 TlnbER
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115
112 1IS
3W 3H
3Y LON5 3 Y 1ISW
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2 r lOSE
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r
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T
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1
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115 115
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2
2200
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425
1
40
445 300
R
400 17
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350
300 35
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1 0 3500
R
1500 '0 0 1O
151 152 153 154
TIMBER
TIMBER
TIM~ER
:
s T 11s S r l l S s F 11s
1 5 5 TIM BE^
3 T ;it
156 157 158 1 160
i fT
TIMBER
TIMBER TIMBER TIMaER BLPI
M
7
11s L
115
2E ZE
2 W OfE
::
1lS.E
0.0 0.0
3.0
0.0
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11.0 L.0
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100.0
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18.0 0.1
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t
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3.0 5.0
0.O
0.0
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0.7 0.2
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115 l l S
0.0 0.0
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