BIOGEOCHEMISTRY PROJECT UPDATE:

SNOW CORES 1989-1993

PLASTIC LAKE & HARP LAKE

APRIL 1993

Ministry of

Ontario ne

aay sare
Nera Het

va

10
Pali

Lau

ISBN 0-7778-0707-6

BIOGEOCHEMISTRY PROJECT UPDATE:
SNOW CORES 1989-1992 --
PLASTIC LAKE & HARP LAKE

APRIL 1993

©

Cette publication technique
n’est disponible qu’en anglais.

Copyright: Queen’s Printer for Ontario, 1993

This publication may be reproduced for non-commercial purposes
with appropriate attribution.

PIBS 2276

BIOGEOCHEMISTRY PROJECT UPDATE:
SNOW CORES 1989-1992 —
PLASTIC LAKE & HARP LAKE

Report prepared by:

J.G. Findeis, B.D. LaZerte and L.D. Scott
Water Resources Branch
Ontario Ministry of Environment and Energy

5
ose

CRC
Lae 0

8

ne

me Ar " a a : hy :
RE AL) ee ee ee

PREFACE

The Unpublished Data Report series is intended as a readily available source of basic data
collected for lakes and watersheds in the Muskoka-Haliburton area of Ontario. These data

were collected as part of the Acid Precipitation in Ontario study.

The Acid Precipitation in Ontario Study (1979 - present) was initiated, in part, to investigate
the effects of the deposition of strong acids on aquatic and terrestrial ecosystems in Ontario.
The primary findings of these studies have been and will continue to be published as

reviewed papers and technical reports.

ABSTRACT

Snow was collected and analyzed as part of the Biogeochemistry program to determine
chemical and hydrological inputs to groundwater flow in two Dorset area watersheds.
Graphs of chemistry, snow depth and water equivalence data for the winters of 1989/90,
1990/91 and 1991/92 are included, as is meteorological data for the same time period.

Complete data summaries are also included for data collected from January 1988 to April

1997

II

Ill

TABLE OF CONTENTS

Page
iy Tog TS EO USI M SA nn ay CR vi 1
Snow Sampling .......... oie vay Rohe BAG POR che To Te EE DR Uae 1
Meteorological Data’... ....5 6.5.05. BEN ARTE NTI PRES 220 2
Summary Data HADIES be (ee, CAES UE AFRO AN | Me et toes 2
Chemistry Graphs ...... PNR RUE RO 5d Wer gr PRO RO 3
SDoNDeposition and Weather Graphs:- 20 Doce, sys ante EE Lee 3
REFERENCES. Less sales vies ON Re de Po te 3
“ LIST OF FIGURES
Chemistry Results - Plastic Lake
D 00 1000 cae: Al.) ok Nn See eye ga 4
De ODA PERS RER ge EL Due he a SORE PRE DEN El in 7
5} NOD LEO OD Pees eels athe epee ah Spee tee ss starr i'd Layers Gorter cae CARS CE TOR ETC 10
Chemistry Results - Harp Lake
Bras OS DAC TR ER EURE ER TRE AL Cn CAE 13
5: LOGOS. eke est. a RS ARE nt PUR LT EE ON 16
6. AUS DIRS EL RER EEE RE NT OR OT ee RER, 2e | RE 19
Temperature, Precipitation, Snow Depth and Water
| Equivalence - Plastic Lake
ee LOS TOC or oc Gate bee setae Gree ale saber MAN ae SR Wa rs Soe! shocks ots ty See 2,
D MOT ES A RE AN craps en Pr do 23
RD le D UN NT EAP CET 24

ili

Harp Lake

10.239 19891990 oR oe LEA See mney re 25
Hien 1090-19912 xh DPM Geer a, ine CN. 26
12: 24 1001-1002 2 cee NE Se a 27

LIST OF TABLES

Complete Data Summaries - Plastic Lake

li POST RU SE ee 28
D 1 POSTE SS, Re NE a RER $3002
ARCS HO EY aoe sere coy AR à eaee pe 32

47 PES ZM LEUR Se PS CR tee 34

Bos AROSZO5 22: : oe VO NS nee “2-36

6 SPCSZOT slg ak EU ne aie 38

Harp Lake

Te AMIPST IS ce Cis Pe di Rte th d'u ee ays ae 40

G0) PST id ee ee a) ee ae 42

On. cEIPSTIG Ie RE wae cee ee ee 44

10: HPSZOAN se a Sie ee ee ee 46

Lie IPSZ.06 - RS ce re Re 48

12 CIP SZOT <2 ak ein tee ae ee ER IS 0 AGI tag 50

METHODS

Snow sampling

Methods used for collection of data in this report remain unchanged from those used in a
1989 data report (Ont. Min. Envir., 1989). Snow was collected from the same six sites in
both the Harp 5 and Plastic 1-08 watersheds. The Hawkeye Lake study was discontinued

in 1989 and no further samples were collected from this watershed.

Snow was collected for chemical analysis on a weekly basis during the season for as long as
there was a sufficient amount of snow on the ground to provide an uncontaminated sample.
Debris falling from trees throughout the winter eventually resulted in contaminated samples
as the debris accumulated and the snow pack decreased. Sampling for snow depth and
water equivalence of the snow continued until there was no snow left on the ground. This
varied from site to site, depending on the aspect of the slopes and the amount of shading

from the overstory.

All sites were sampled for density and water equivalence on a weekly basis. This was
usually done at the same time as chemistry sampling, but the sampling schedule was often
increased during periods of rapid change at the sites (see data summaries for exact sampling

dates). A visual estimate of percent snow cover was made at each site during each visit.

Meteorological Data

Daily precipitation and temperature data was collected at meteorological stations located
adjacent to the collection sites at Harp and Plastic Lakes. A description of the site locations
and equipment used can be found in the 1989 snow core data report (Ont. Min. Envir.,
1989). Where data was not available from these sites due to equipment malfunction it was
obtained from the next closest meteorological site. Heney Lake meteorological site was
used to fill in missing Harp data, while Paint Lake meteorological site data was used when

Plastic Lake data was not available.
Summary Data Tables

Summary tables 1 to 12 contain chemistry and deposition results of individual sites from
January, 1988 to April, 1992. In the snow depth and water equivalence columns the mean
and standard deviation of three samples taken during one visit is presented. Values are not
weighted by the percent snow cover. The results of the shee analysis for each site are
also presented in this table. Iron, manganese, aluminum, magnesium and dissolved organic
carbon were added to the list of parameters in December, 1989. Data is available in Lotus

123 format upon request.

Chemistry Graphs

Selected parameters (same as previous report) were plotted versus time. The graphs show
the mean and standard deviation of the results from all the sites in the watershed. For most
of the season all six sites are included. During op ele the spring, however, some sites
lost their snow cover earlier than others. Some sites were also judged to contain too much
debris to be sampled. In ee cases the plotted data represents only the mean and standard

deviation of those sites that were sampled.
Snow Deposition and Weather Graphs

The graphs showing snow depth and water equivalence are also the mean of six sites. All
data is weighted by the percent cover for that sampling date. Cover is usually 100%, except
during spring when it varies between to sites. During these times a mean of the percent

cover from the six sites was used to represent the entire watershed.
REFERENCES

Ontario Ministry of the Environment. 1989. Biogeochemistry Project: Snow Cores 1988-

1989 Plastic Lake, Harp Lake, Hawkeye Lake. Ont. Min. Envir. Data Report,

December 1989.

PLASTIC LAKE SNOW CHEMISTRY
1989/90

8

QU) ZONTTVAINOZ H31vVM

=

Hd

C/Buw) x

| |
| .
|

Bete ope ge er tte ss

(UN/SOYWN) OCPLOO

FEB MAR APR

JAN

DEC

Pigs

PLASTIC LAKE SNOW CHEMISTRY
1989/90

5

—

(WW) SONSTTWAINDA LM —

l
|
|
a = OF N = oO
N

(1/8w) 7OS

Fi

a
©

2

8
Be
(1b) eyeaIN

See 2 Co Line
©) I) Sh ee

(Anben) suojuy

JAN FEB MAR APR

DEC

Fig. 1 (cont'd)

PLASTIC LAKE SNOW CHEMISTRY
1989790

a

|
1
l
l
|
ne, eee

(WW) SONSTVAINOS H317VM

8

—

C/6n) wnpouuy

(Bu) BO

—

(®)

E 6

(Anben) 8U080

JAN FEB MAR APR

DEC

Fig. 1 (cont'd)

PLASTIC LAKE SNOW CHEMISTRY
1990/91

GS eee.

oO N i=
(WW) SONA TVAINOS 4317M

JAN FEB MAR APR

DEC

MELON 2

PLASTIC LAKE SNOW CHEMISTRY .
1990/91

WATER EQUIVALENCE (mm)

oO oO

S04 (mg/L)

Anions (uequiv)

DEC JAN FEB MAR APR

Fig. 2 (cont'd) Sy

PLASTIC LAKE SNOW CHEMISTRY
1990/9 1

5

(WW) SONSTVAINOA YALVYM

—

+

(1/6n) wnpouuy

RE ee ee ee

(1/Bw) 89

Ba Ss ene

— —

(nen) sup

JAN FEB MAR APR

DEC

Fig. 2 (cont'd)

PLASTIC LAKE SNOW CHEMISTRY
1991/92

SU

[as] N Te
(WWW) SONS TWAINOS YSaLVM

APR

10

His.

PLASTIC LAKE SNOW CHEMISTRY

1991/92
2 300
&
Lu
j 200
>
=
G 100 ie
Ê Fi]
= Ê—

ce

Ë

©

oO 1
O

Nitrate (ug/L)

~ Anlons (uequy).

DEC JAN FEB MAR APR

Fig. 3 (cont'd) 11

PLASTIC LAKE SNOW CHEMISTRY
| 1991/92

Go BS:

o N =

(WW) SONSATVAINDS YalvyM

8

(1/6n) wnpouu\y

(1/bw) 89

(Anben) suo}89

12

Fig. 3 (cont'd)

HARP LAKE SNOW CHEMISTRY

1989/90

8 Ss 8 S
oO N vo
(WW) SONSTVAINOA HALWM

PR

A

MAR

B

FE

AN

J

DEC

13

Fig. 4

HARP LAKE SNOW CHEMISTRY

1989/90

8 8

oa

(ww) SONS TVAINOA YALVM

(Qu) OS

2

(1n) 878aIN

ty
|

4

I

%

8 oO ® N = eee 8 ie oO

(Anben) suo

PR

A

MAR

FEB

AN

J

DEC

14

Fig. 4 (cont'd)

HARP LAKE SNOW CHEMISTRY

1989/90

(a) N Te
(WW) SONS TVWAINOA H1YM

do
© (a. Ss
(1/60) unpomuny

Or sae
-(nnben) suop8o

O

JAN FEB MAR APR

DEC

1

Fig. 4 (cont'd)

HARP LAKE SNOW CHEMISTRY

1990/91

9.8

(as) aN =
(Ww) SONSTVAINDA H31VM

S ©

PR

A

E

F

A

DE

16

it OS)

HARP LAKE SNOW CHEMISTRY

1990/91

CL

o N VE
(WW) SONSTVAINDA 4317M

Cael

o

(Bu +OS

a
pe)
a

SNS

© ive)
Lo
/BN) 6J8AIN

oO

O
lo
==

Se

—

(Anben) suojuy

O

JAN FEB MAR APR

DEC

7

Fig. 5 (cont'd)

HARP LAKE SNOW CHEMISTRY

1990/91

À
.

S28

oO AN =
(WW) ZONTTVAINOZ H31VM

—

(1/6n) uwnpouuu\y

Bo S718 40.2. 8.818 3.2

(uw) 89

oe ties

—

(Anben) suoped

APR

MAR

FEB

AN

J

DEC

18

Fig. 5 (cont'd)

HARP LAKE SNOW CHEMISTRY

1991/92

Ao Orta

©- LN a
(WwW) SONATVAINDA H31VM

Oo
[le]

JAN FEB MAR APR

DEC

19

Fig. 6

HARP LAKE SNOW CHEMISTRY
1991/92

WATER EQUIVALENOE (mm)
N

S04 (mg/L)

DEC JAN FEB MAR APR

Fig. 6 (cont'd) 20

HARP LAKE SNOW CHEMISTRY

1991/92

CESS a eee ee ee

(WW) SONS TVAINOA HSLVM (7/n) winuowuy Qu) 89 (Anben) 800489

JAN FEB MAR APR

DEC

21

Fig. 6 (cont'd)

PLASTIC LAKE SNOW CORES

MEAN OF SIX STATIONS

(O Bep) SYNLVYSdWSL

(WW) NOLL LdlOSdd

QU) SONS TWAINDS YALVYM

S 6

(9) HLdaq MONS

O

JAN FEB MAR APR

DEC

1990

1989

22

Wigs %

PLASTIC LAKE SNOW CORES

MEAN OF SIX STATIONS

©
N

OO

= T= GNI

(O Bep) SYN LWYHAdWSL

Ge]
e9e¢¢geo0
Oe, PM

(WW) NOLLYLIdIOZHd

de Ne ns

@o AN oe :
(WW) SONS AIN H31VM

18530

(UD) HLd3G MONS

FEB MAR APR

JAN

DEC

O

1991

1990

23

Fee

PLASTIC LAKE SNOW CORES
MEAN OF SIX STATIONS

TEMPERATURE (deg ©)

PRECIPITATION (mm)

WATER EQUIVALENCE (mm)
N

100
re
pees
150
+ 100
lo
fh
O
= [510
6 J oe
(ap)
= ee
O
DEC JAN FEB MAR APR
1991 1992

Fig. 9 7 24

HARP LAKE SNOW CORES
MEAN OF SIX STATIONS

20 "
6)
8 10
y 0 ;
=
ae
-20
fi
E
&
6
<
FF
O
ss OO RAIN
= SNOW

WATER EQUIVALENCE (mm)

E

1100

i

ne EM]
5 50 Ss jé a
op)
O Sa oe

DEC JAN FEB MAR APR
1989 1990

Fig. 10 25

HARP LAKE SNOW CORES
MEAN OF SIX STATIONS

20
6)
8 10
Qi 00
>
é -10
-20
fi
-80
50
Ë 40
6 80
<
E 20
i 10 D RAIN
O0 m SNOW
È
Ww
=)
G
fi
<
=

SNOW DEPTH (cm)

es 26

HARP LAKE SNOW CORES
MEAN OF SIX STATIONS

(© Bep) SYN LWHAdWEL

O RAIN

(WW) NOLL LUdlOSd

m@ SNOW

ds

(wi) SONSTVAINOS HALWM

—

Pee Be Be oS er eee
pce al Las) = ~-

(UN) H1d430 MONS

JAN FEB MAR APR

DEC

1992

1991

2

ie 2

a
Iv

ss ea ee ee ors
UW od 204 D ®N pl an SD LL 4 BRLLEUT bos STPUCD

SYaLANVUVd TVOINSHD

ITLSOd
AUVNMNNS VLVA 4409 MONS AAV OLLSV Td

‘as
AONATVAINO VALVM

‘as NVAW
H1ddd MONS

06-HVN-SI
06-AVN-ZI
06-YVA-LO
06-44-87
06-HA4-1T
:06-444-+1
06-444-L0
06-NVI-1€
06-NVI-SZ
06-NVI-L1
06-NVI-OI
06-NVI-£0
68-94-87
68-94-07
68-OAG-E1
68-00-90
68-Hdv-82
68-HdV-LT
68-HdV-p7
68-HdV-07
68-HdV-81
68-UdV-E€I
68-UdV-01

68-HVW-91
68-UVW-LO
68-444-17
68-444-L0
68-NVI-pZ
68-NV[-01
B8-AdV-£7
88-AdV-77
88-Hdv-81
88-HdV-S1
88-UdV-I1
88-HdV-L0
88-HdV-ç0
88-AVW-0€
88-AVN-87
88-AVNW-P1
88-AVW-LO
88-HAA-27
88-441-80
88-NVI-27

alvd
aTdWVS

28

Table 1

t6-HdV-87
T6-HdV-pT
T6-UdV-IZ
T6-Hdv-$1
T6-HdV-80
t6-HdV-10
T6-AVW-57
TO-AVWE61
T6-HVHW-E£I
T6-AVW-+O
T6-HHA-LT
T6-444-07
T6-444-€]
t6-441-90
Té-NV[-0€
Té-NVI-ET
C6-NVI-LI

16-Hav-$1
16-Hd4v-11
16-H4V-80
16-HdV-70

16-AVN-IT

16-AVN-61
I6-HVNW-EI
16-YVW-80
16-AVH-+0
16-444-L7
16-444-07
16-441-€1
16-834-80
16-4414-$0
16-NVf-0€
16-NVI-€7
16-NVI-9]
16-NVf-60
16-NVI-PO
06-08-61
06-94-71
06-UdV-61
06-HdV-81
06-YdV-Z}
06-Hdv-p0
O6-AVNE8T
06-AVH=IZ

RSA dome z
Iv UW °4 204 .D BN x aN Lo) Say ros ‘a's ‘as NVAW alva

SYALANVAVd TVOINIHO HONATIVAINOI YALVM HLd4G MONS S'IdWVS

(pauco) 1 1LS94

29

Table 1 (cont'd)

Bs ad ad RR fe se
LA UW °4 204 D ®N A LA Co Jen LA 4 BC vos STPUCD
SYILANVAV d TVOINAHO

VILLSOd
AYVWWNS VLVA 4409 MONS AAV OILSV'Id

%

‘as
HONATVAINOA YALVAM

(up)
‘as NVAN
H1d4G MONS

06-444-L0
06-NVI-IE
06-NVI-S7
06-NVI-LI
06-NV{-OL
06-NVf-€0

68-UdV-8)
68-UdV-£I
68-Hdv-01

68-Hdv-90
68-HdV-£0
68-UVN-IE
68-UVN-87
68-YVN-02
68-AVN-91
68-AVAN-LO
68-444-17
68-444-L0
68-NV{-PZ
68-NVf-0l
48-Udv-S1
88-UdV-I1
88-HdV-L0
88-XdV-50
88-AVW-0€
88-UVW-87
88-AVW-PI
88-AVW-LO
B8-4441-7t
88-441-80
88-NVI-2T

30

Table 2

SYa.LANVAVd TVOINAHD

(7/80) | (77/8) | (mo/sown)
ABNIN vos

{pAuco) 11594

“a's NVEN
AONAIVAINOT HALVM

(up)
‘ass NVA
Hiddd MONS

t6-Hdv-1Z
t6-Hav-51
t6-HdV-80
t6-UdV-10
Té-HVN-52
té-UVW-61
Té-HVNW-EI
6-YVA-FO.
6-H LZ
6-8 -0%
T6-444-£1

76-NVI-LI
%6-NVI-60
16-94q-07
16-Hdav-11
16-HdY-80
16-HdV-70
16-AVH-87
16-HVW-S7
16-UVW-IZ
16-UVN-61
16-YVNW-EI
16-HVW-80
16-YVW-p0
16-444-L7
16-44-07
16-H44-€1
16-444-80
16-44-50
16=NVI-0€
16-NVf-£%
16-NVf-91
16-NVf-60
16-NVf-b0
06-O30-61
06-2442}
06-HdV-6}
06-Hdv-81
06-HdV-21
06-Hav-+0

41va
S'IdNVsS

31

Table 2 (cont'd)

ME Rs
LA LA °4 204 D ®N

(1/3) ) (1/8w)| (1/8w)| (7/8) } (1/80) (wojsown)
x an] v2 [rvouuy| msi SZPUCD

SHALANVAVd TVOINAHD

: 91 LSOd
AYVWWNS VLVA 44109 MONS FAAVT OLLSV Td

(anu)
‘as NVEN
AONATVAINOA HALVM

(up)
‘as NVaW
H1ddd MONS

06-HaV-ZI
06-4dV-r0
06-UVIN-82
06-AVW-12
06-AVW-$1
06-HVN-CI
06-HYW-L0
06-HAA-RZ
06-444-17
06-444-p1
06-441-L0
06-NVI-I€
06-NVI-SZ
06-NVI-LI
06-NVE-O1
06-NVf-£0
68-OAG-8Z
68-040-07
68-D4q-€
68-24q-9
68-HdV-87
68-UdV-LT
68-UdV-pZ
68-UdV-07
68-UdV-81
68-UdV-EI
68-Hav-01
68-HdV-90
68-UdV-£0
68-UVN-I£
68-UVN-87
68-UVN-07
68-UVN-9]
68-AVW=L0
68-94-17
68-4424-L0
68-NVI-PZ
68-NVI-Ol
88-UdV-80
88-UdV-L0
88-UdV-50
88-UVN-0€
88-UVN-87
88-AVW-PI
88-HVIN-LO
88-HAd-27
88-H14-80
88-NVI-20

aivd
A'IdWvs

Be

Table 3

SYALINVAVd TVOINAIHA

(pAuco) 911594

tT6-HdV-bt
t6-HdV-IZ
t6-Hdv-$1
T6-HdV-80
t6-WdV-10
TO-AVWEST
té-AVW-61
Z6-AVW-EI
Z6-UVN-PO
t6-U41-L7
t6-444-07
t6-444-€1
t6-444-90
t6-NV[-0€
Té-NV[-ET

16-UVW-87
16-UVN-S52
16-UVN-1T
16-AVW-61
16-AVN:EI
16-aVN-80
16-YVN:F0
16-444-L7
16-44-07
16-444-€1
16-44:4-80
16-444-ç0
16-NVf-0€
16-NVI-€%
16-NVf-9T
16-NVI-60
16=NVI-PO
06-08-61
06-94q-271

(up)
‘a's NVAW ‘a's NVAW aiva
AONATVAINOA YALVM H1ddd MONS aldWvs

23

Table 3 (cont'd)

Iv

(1/30) | (1/8w) | (moysown)
ASIN vos

SYALANVAVd TVOINAHO

vOZSOd
AUYVWWNS VLVA 4409 MONS AAVT OILS V 1d

‘as NVAW
SONA TVAINGT HALVM

(ap)
as NVAW
H1ddd MONS

06-HaV-Z1
06-HdV-b0
06-AVW-82
06-AVW= 1%
06-AVW-S1
06-AVW-ZI
06-AVIN-LO
06-414-87
06-44-17
06-444-b1
06-H44-L0
06-NVI-1€
06-NVI-SZ
D6-NVI-LI
06-NVf-01
06-NVI-E0
68-O4d-8
68-944-0
68-24 -€
68-24q-9
68-HdV-827
68-YdV-LZ
68-HdV-pZ
68-UdV-0Z
68-UdV-81
68-Hdv-E]
68-Hdv-01
68-HdV-90
68-HdV-€0
68-UVW-IE
68-UVN-87
68-UVW-0Z
68-UVW-91
68-UVN-LO
68-8Ad-1Z
68-H44-L0
68-NV{-PZ
68-NVf-0l
88-HdV-80
88-YdV-LO
88-YdV-SO
88-UVW-0£
88-HVN-87
88-AVW-PI
88-HVIN-LO
B4-HA41-27
88-441-80
88-NVI-27

34

Table 4

i Sao ee oe lee oe
UN 01 204 D sN A an 2 _["uouuy] BIN ros AV YIAO9

e : : : i (pAuc) pOZSOd

(um)
‘as NVAW
SONATVAINOT VALVM

(up)

‘a's NVEN

H1Iddd MONS

Z6-YdV-bZ
t6-HdV-1Z
t6-HaV-$1

: %6-UdV-80
t6-WaV-10

Z6-UVW-62

76-AVW- 61

ZL6-HVN-EI

76-YVW-r0
t6-441-L7
t6-444-07
t6-H44-€1
t6-H4:1-90
T6-NV[-0€
T6-NVI-ET
t6-NVI-LI
L6-NV 1-60
16-24-07
16-Hdv-80
16-HdV-20

16-UVW-82
16-UVN-S7
16-UVN-IT
16-HVNW-61
J6-XVN-EI
16-HVN-80
16-YVN-PO
16-Was-LZ
16-aa4-02
16-444-€1
16-444-80
16-44-50
16-NVI-0€
16-NVI-€7
16-NVE-91
J6-NVI-60
16-NVI-p0
06-944-61
06-944-7]

aLVG
aTdWVS

35

Table 4 (cont'd)

a ad a i eo
UW 24 204 D EN x IN va [euouwuy| ann | +os

SYILANVAVd TVOINAHO

‘SOZSOd
AUVWWNNS VLVA 4409 MONS AAVT OILS V'Td

‘as
AONATIVAINOA HALVAM

(up)
a's NVAW
Hiddd MONS

06-4VA-ZI
06-UVW-L0
06-44-87
06-41-17
06-H44=+1
06-444-L0
06-NVE-I
O6-NVE-S
06-NV-L
06-NVI-0
06-NVF-€
68-94q-8
68-9440
68-O4d-£
68-D4q-9
68-AVIN-20
68-AVIN-10
68-HaV-Lt
68-UdV-Z
68-UdV-02
68-UdV-81
68-UdV-£l
68-YdV-01
68-YdV-90
68-HdV-£0
68-UVW- IE
68-UVW-82
68-UVW-0%
68-UVN-91
68-UVW-LO
68-44-17
68-444-L0
68-NVI-PZ
68-NVf-01
8B-MAV-ET
88-WdV-27
88-Hdy-81
88-4dv-$1
88-UdV-11
88-UdV-L0
88-HdV-$0
88-UVN-0€
BB-HVN-87
88-XVA-FI
48-HVNW-L0
Sa-HAA-7t
88-HAA-80

88-NVI-CT

a1va
A'IdWvsS

36

Table 5

Iv

UN

(7/3)
od

204

D

(7/3)
tN

A an Le]

SYILANVAVd TVOINIHO

(1/80)
squouruny

(1/89) FE (ws/sown)
ABNIN vos

(pAuco) $0ZS9d

‘as NVAN
AONATVAINDA VALVM

(up)
as NVAW
H1ddd MONS

t6-AVW-10
t6-HdV-87
t6-HdV-bz
t6-HdV-I7
t6-HdV-S1
t6-HaV-80
T6-H4V-10
T6-UNVN-52
6-YVN-61
Té-HVH-EI
t6-HVH-O
t6-H41-L7
t6-444-07
t6-Ha4-€1
t6-H44-90
t6-NVI-0€
26-NVI-EZ
Z6-NVE-LI
Té-NVI-60
16-0ad-02
16-Hav-81
16-HdV-S1
16-WdV-11
16-H4V-80
16-H4v-70
16-HVN-87
16-AVW-Sz
16-AVW-1Z
16-UVW-61
J6-HVN-EI
16-WVN-80
16-UVN-b0
16-H41-LT
16-444-07
16-@ad-€1
16-83-80
\6-H44-50
16-NVI-0€
16-NVI-EZ
J6-NVI-9}
16-NVI-60
16-NVI-b0
06-944-61
06-94-21
06-Hav-61
06-HdV-81
06-WdV-7I
06-WdV-p0
06-HVN-BZ
06-AVH=IZ
06-HVW-S1

aLva
aldWvs

37

Table 5 (cont'd)

ie
IV

Sp a ec els
UN Sa 204 D ®N A IW BD [euounuy]| o1e3)1N ros STPUCD

SYILANVAVd TVOINSHOD

LOZSOd
AUVNWNS VLVA 4409 MONS AAVT OILS V Td

(um)
‘as NVAW
AONATVAINOT YALVM

(up)
‘as NVAW
H1441G MONS

06-AVN-ZI
06-HVN-L0
06-44:1-87
06-444- IZ
06-WAd-PI
06-H41-L0
D6-NVI:1£
06-NVI-67
06-NVI-LI
06-NVf-01
06-NVI-£0

68-94q-8

68-94q-0

68-Oad-€

68-24q-9
68-AVIN-20
68-AVIN-10
68-HdV-L7T
68-HaV-pz
68-HdV-0Z
68-HdV-81
68-Hdv-£l
68-Hdv-01
68-Wav-90
68-HdV-£0
68-HXVW-I€
68-AVW-8Z
68-YVW-0%
68-UVW-91
68-YVN-LO
68-444-17
68-441-L0
68-NVI-bZ
68-NV{-01
88-HdV-£Z
88-WdV-2Z
88-HdV-81
88-UdV-St
88-HdV-11
88-HdV-L0
88-HdV-$0
88-UVW-0€
88-HVH-87
S8-XVA-bI
88-XVN-L0
88-441-27
88-Ha4-80
88-NVI-22

38

Table 6

Iv

UW

(1/8w)
od

ood

D

(1/8u)
tN

x IN Le]

SYILANVAVd TVOINSHD

(1/80)
ETUOTUry

(1/80)
MeN

(pAuco) L0ZS9d

(wo/sown)

STPUCD

‘as
SONA TVAINOT YALV

(ap)
‘as NVaW
H1ddd MONS

t6-AVW-10
t6-HaV-87
t6-HaV-pZ
%6-UdV-1Z
t6-Hav-S1
T6-Hd4V-80
T6-HdV-10
CO-UVIN-SZ
t6-AVW-61
76-UVAEEI
76-UVN-bO
76-@ad-LZ
t6-H44-07
t6-H44-€I
76-41-90
Z6-NVI-0€
:T6é-NVI-EZ
Té-NVI-L1
T6-NVY 1-60
16-944-07
16-HdV-$1
16-Hdv-11
16-Hdv-80
16-HdV-70
16-UVH-87
16-MVA-SZ
16-YVAN-1%
16-YVW-61
16-HVW-EI
16-YVAW-80
16-uVW-F0
16-444-L7
16-44-07
16-@aj-€1
(6-34-80
16-Had-s0
16-NVf-0e
- TO=NVE-EZ
16-NVI-91
16-NWVI-60
16-NVI-p0
06-944-61
06-944-7I
06-HdV-61
06-HdV-81

aTdWVS

Table 6 (cont'd)

59

ig a Se
Iv UW od 204 D BN

Qu)! (1/3w)| (18w)] (1/2n)| (/8n)| (1/8w) | (wo/s0mn)
x 3W v2 |euounmy} ann | POs

SYILANVAVd TVOINAHO

£ILSdH
‘ AUYVAWNS VLVA 4409 MONS AAVT dAVH

‘as NVAW
SONA TVAINO” HAILVM

(up)
‘a's NVAW
H1ddd MONS

06-HdV-81
F 06-AdV-ZI

O6-AVN-SI
06-AVN-ZI
06-YVN-90
06-444-L7
06-4414-07
06-444-€1
06-44-90
06-NVI-0€
06-NVf-£2
06-NVS-9
O6-NVI-6
06-NVI-Z
68-94G-8
68-O4G-6
68-O4-Z
68-Oad-S
68-UdV-SZ
68-UdV-bZ
68-Udv-17
68-HdV-L1
68-YdV-£}
68-YdV-0}
68-HdV-90
68-HdV-£0
68-UVW-0£
68-UVN-87
68-UVN-IZ
68-UVW-91

88-UdV-ZI
88-YdV-80
88-UdV-90
88-UVW-I€
88-AVN-67
88-AVW-SI
88-AVW-80
B8-H4d-€7
88-84-60
88-NVI-1Z

aiva
TIANVS

40

Table 7

Balke irl abr al lhe =
Iv UN od 204 D UN D sn 5) [suouuy

SYaLANVUVd TVOINIHI

G/än)|| (1/8) | (morsomn)
THIN | +oS

(Puce) € LS4H

eee
AV ‘as NVAN

AONATIVAINOI HAILVM

(up)
‘as NVAW
H1ddd MONS

T6-HdV-pz
T6-UdV-1Z
t6-Udv-$1
T6-Hdv-80
t6-HdV-10
Té-UVNW-67
t6-UVW-61
t6-HVH-£1
26-YVW-bO
t6é-844-LT
t6-444-07
t6-4441-€1
t6-444-90
76-NVI-0€
Té-NVI-EZ
T6-NYI-L1
T6-NV1-60
16-94-61
16-44v-80
16-Hd4V-50
16-Hd4V-270
16-UVN-87
16-UVN-ST
16-UVW-1Z
16-AVN-61
16-AVN-EI
16-AVWN-80
16-UVN +0
16-444-L7
16-4414-07
16-444-€1
16-4414-80
16-444-$0
16-NVf-0€
16-NVI-€%
16-NVE-L1I
16-NVI-60
16-NVI-PO
06-044-61
06-944-71

aiva
aTdWVS

41

Table 7

eee | es Ee al GA) Qu] (1/8u)] GAw)] GA] GA] (14w)| (moon)
IV oW 4 | 204 | w eN x sW vo [uouwuy| swnin | vos | szpuon

SHALANVAVd IVOINAIHO

vILSdH
AUVNWNS VLVA 4409 MONS AAVT duVH

‘a's NVAW
HONATVAINOT YALVA

(a)
‘as NVAW
Hiddd MONS

06-UVW-ZI
06-AVN-90
06-444-L7
06-444-07
06-HA4-E 1
06-444-90
06-NVf-0£
06-NWI-£7
06-NVf-9I
06-NV{-60
06-NVf-ZO
68-OAd-82

68-Udv-Ol
68-UdV-90
68-Udw-É0
68-AVW-0€
68-AVW- 82%
68-AVWN- IZ
68-UVW-91
68-HVW-90
68-444-07
68-444-90
68-NWf-£7
68-NV(-60
88-HdV-72
88-HdV- 12
88-4dV-61
88-44V-+1
88-UdV-ZI

42

Table 8

(1/80)
PIBHIN

(Patoo) p1.LS4H

(wo/sown)

STPUCD

(una)
‘a's NVAN
HONAIVAINOA YALVM

(up)
as NVAW
H1ddd MONS

Z6-AV-10
Té-NdV-87
%6-UdV-FZ
t6-WdV-1Z
t6-UdV-St
T6-UdV-80
t6-HdV-10

TS-UVN-S7

TÉ-AVN-6]

té-AV-EI

t6-HVH-r0
%6- WALZ
t6-444-07
t6-4441-E1
t6-444-90
T6 NV{-0€
26-NVI-£Z
Z6-NVE-LI
Z6-N¥E-60
16-0ad-6}
16-WdV-81
16-Udv-$1
16-adV-11
16-adV-80
16-YdV-S0
16-WaV-20
16-YVW-87
16-AVN-S7
16-AVW= IZ
16-AVN-61
16-AVN-EI
16-AVN-80
16-YVW-+0
16-@aAd-Lz
16-44-07
16-444-€1I
16-H4:1-80
\6-H424-50
16-NVf-0€
16-NVE-€z

T6-NVE-LI

16-NVL-60
16-NVf-rO
06-94-61
06-94-71
06-HaV-61
06-UdV-81
06-YdV-ZI
06-UdV-€0
06-AVH-L2
06-AVN-0Z
06-HVH-S1

41va
aTdNVS

Table 8 (cont'd)

43

semer
Iv yy °4 00d D ®N

(1/8w)| (1/8w)| (1/8w)| (1/8n)| (1/8n)| (7/8) | (moysoun)
| 3 v2 [euouuy] ann | +os

SYILANVAVAd TVOINAHO

91.LSdH
AUVANNS V.LVC AO MONS AAV duvH

(aru)
‘as NVAW
AONATVAINGT HALVM

(up)
‘as NVAW
H1ddd MONS

06-HVW-ZI
06-HV-90
06-H41-L7
06-44-07
06-HAA-E
* 06-44-90
D6SNVI-0€
06-NVI-EZ
06-NVI-91

68-AVIN-20
68-AVW-10
68-HdV-LT
68-HdV-pT
68-HdV-I17
68-HdV-L1
68-HdV-£I
68-Udv-01
68-Udv-90
68-Hdv-£0
68-UVW-0€
68-AVW-8&
68-AVHEIT
68-UVW-91
68-UVHN-90
68-444-07
68-44-90
68-NVI-E@
68-NV{-60
88-YdV-7%
88-HdV- IZ
48-XdV-61
88-dv-+!
88-Udv-21
88-HdV-80
88-HdV-90
88-UVN-I€

H1dNVS

44

Table 9

Iv

UW

°4

204

ID

(1/8)
UN

x IW 89

SYILANVYVd TVOINAHO

(1/3)
wruouny

AN | bOS

(p.100) 91 LSdH

‘a's NVaW
SONA TIVAINOT HALVM

d

(up)
‘s NVAN
HJd1G MONS

t6-AVW=10
t6é-UdV-87
t6-Udv-pe
t6-HdV-1T
t6-HdV-$1
t6-UdV-80
T6-HdV=10
Té-UVN-S7
té-AVW-61
TO-AVW:EI
tTé-AVHE-PO
t6-444-LT
t6-4441-07
t6-444-€l
t6-444-90
76-NVI-0€
26-NVI-EZ
CO-NVE-LI
Z6-NVE-60
16-94q-61
16-4dV-$1
16-HdV-11
16-Hdv-80
16-HdV-$0
16-HdV-270
16-UVN-87
16-AVAW-SZ
16-AVN-IT
16-AVW-61
I6-UVWN-EI
16-YVW-80
16-UVN-bO
16-444-L7
16-444-07
16-444-€1
16-444-80
16-H44-ç0
16-NVf-0E
16-NVE-€%
16-NVI-L}
16-NV{-~60
16-NV£-p0
06-98-61
06-944-71
06-UdV-61
06-HdV-81
06-NdV-2I
06-W4V-E€0
06-NVW-LT
06-HVW-07
06-XVW-S1

alva
H'IdWvs

45

-

Table 9 (cont'd)

Bp Se ge oc ee
Iv UN °4 204 D N x IW BD] Freoumary PELLE ros STPUCD ATV

SYILANVAVd TVOINSHOD

+0ZSdH
AUVWWNNS VLVA 4409 MONS AAVT duVH

06-Xd4V-21
06-HdV-£0
06-AVA-LZ
06-HVW-0%
06-AVN-SI
06-AVWN=CI
06-YVNW-90
06-441-L7
06-444-07
06-444-€I
06-444-90
06-NVI-0E
06-NVI-€@
O6-NVI-91

68-94-61
68-94q-7
68-O4d-$

68-HdV-$2

68-UdV-bZ
68-UdV-I7
68-UdV-LI
68-UdV-£1
68-Hdv-01
68-HdV-90
68-HdV-€0
68-AVW-0€
68-UVN-87
68-UVN-IZ
68-AVW-91
68-UVW-90
68-444-07
68-444-90
68-NVITET
68-NV{-60
88-adV-Fl
88-YdV-ZI
88-HdV-80
88-HdV-90
88-AVW-I€
88-YVW-67
88-AVW-SI

88-NVI-17
(up)
‘as NVAW ‘as NvaW
AONATVAINOA HALVM H1ddd MONS a1dWVS

46

Table 10

SYIILANVAVd TVOINAHD

(P,1u0o) hOZSdH

(mo/soun)
STPUCD. ‘as
SONA TIVAING VALVM

(up)
‘as NVAW
H1ddd MONS

%6-UdV-az
26-MdV-bZ
26-WdV-1%
t6-HaV-$1
t6-HdV-80
t6-UdV-10
Z6-UV-SZ
Z6-UVIN-6)
Z6-HVN-EI
Té-HVH-+O
T6-HAA-LT
t6-444-07
%6-Aad-£1
t6-H44-90
t6-NV[-0€
t6-NVI-ET
Z6-NVI-LI
26-NV{-60
16-94-61
16-MdV-11
16-Hav-80
16-Hav-50
16-Wdv-20
16-UVN-87
16-UVN-ST
16-HVN-17
16-HVN-61
I6-HVN-E1
16-UVW-80
16-HVN- F0
16-Was-LZ
16-44-07
16-4H4-E]
16-44-80
16-@ad-s0
16-NVI-0£
16-NVI-EZ
16-NV-LI
16-NVE-60
16-NVI-p0
06-08-61
06-Oad-71
06-4dV-81

alva
a1dWvs

47

Table 10 (cont'd)

ea
Iv UW od 204 D ®N

Fae ales
x aw va _|eourmry| awin | pos | szpuog

Saad LAWVaVd TVOINAHO

90ZSdH
AUVNNNS VLVA 4409 MONS AAV duVH

‘a's NVAW
AHONATIVAINOA YILVM

(up)
‘as NVAW
H1ddd MONS

06-34-61
06-04-21
06-HdV-81
06-Hdv=71
06-HdY-€0
06-HVN-LT
06-HVN-07
O6-AVIN-ST
06-HVH-Z1
06-HVH-90
06-444-L7
06-44:1-07
06-H41-€ 1
06-441-90
06-NVf-0€
06-NVI-EZ
06-NVI-91
06-NVI-6
06-NVI-Z
68-D4G-8
68-94G-6
68-944 -7
68-94Q-S
68-HdV-27
68-HdV-12
68-HdV-L1
_68-HdV-E1
68-HdV-01
68-HdV-90
68-HdV-£0
68-UVW-0£
68-UVN-87
68-UVN-IZ
68-HVH-01
68-XVW-90
68-4A4-07
68-441-90
68-NVf-E%
68-NVI-60
88-HdV-80
88-WdV-90
88-HVN-1€
88-HVW-67
88-XVW-SI
88-AVW-80
88-Had-€7
88-H11-60
88-NVI-IZ

aLva ©
d'IdWvs

48

Table 11

Br a dD Dr
lv uw od 204 Le) ®N x LA 1)

SYILINVAVd TVOINAHO

(1/8n)| (1/8w) | (wssown)

(P,1409) 90ZSdH

‘as NVAN
AONATVAINOA ALVA

(up)
‘as NVAW
Hiddd MONS

%6-UdV-PT
Z6-UdV-17
t6-UdV-S]
16-Hav-80
t8-MdV-10
Z6-AVW-SZ
26-AVN-61
Z6-UVN-€1
T6-UVH-+r0
t6-HH4-L7
t6-444-07
t6-H44-EI
76-84-90
Z6-NV{-0£
Z6-NVI-£%
t6-NVI-LI
T6-NV1-60
16-24G-61
16-HaV-80
16-H4V-50
16-HdV-20
16-HXVW-87
J6-UVIN-SZ
16-UVIN-1Z
J6“AVN-61
16-UV- EI
16-UVN-80
16-aVN-bO
16-€dd-LZ
16-444-07
16-444-€1
16-441-80
16-aad-s0
I6-NVE-0€
JO-NVE-€Z
16-NVI-LI
16-NV-60
16-NVE-bO

49

Table 11 (cont'd)

Here
Iv UN od

io ea eee
204 Le] EN x aw ®)_ |vjwoumry| aweniN | +os

SYALANVAVd TVOINAHD

LOZSdH
AUVWNNS VLVA FXOO MONS AAV duvH

(ur)
‘as NVAN
AONYIVAINUA YALVM

(un)
‘as NVAN
H1d4G MONS

06-AVN-ZI
06-HVH-90
06-444-LT
06-441-07
06-H414-£1
06-441-90
06-NV[-0€
06-NVI-E7
06-NVI-91
06-NV1-60
06-NV1-70
68-94Q-87
68-944;61
68-2440!
68-944-50
68-AVN-20
68-AVW-10
68-HdV-LT
68-UdV-bZ
68-UdV-1Z
68-UdvV-LI
68-HdV-€l
68-HdV-01
68-HdV-90
68-Hdv-£0
68-XVNW-0€
68-AVHEBT
68-AVN-FT
68-HVN-91
68-HVH-90
68-444-07
68-4414-90
68-NVI-£Z
68-NV{-60
88-HdV-7%
88-HdV-12
88-Hdv-61
88-4dv-pl
88-HdV-CI
88-HdV-80
88-Hdv-90
88-UVN-1€
88-HVN-67
88-AVW:S1
88-AVN-80
B8-H41-€7
88-4144-60
88-NVI-1Z

41va
4'IdWvs

50

Table 12

=
Iv

SEE
uW od 204 D ®N x an v2 [euouuy

SHALANVAVd TVOINSHD

sun
EIN POS | SZPUOD AV

(pAuco) LOZSdH

WHAO)
..%

AONAIVAINDA YALVM

(up)
‘d'S NVAN
HLddd MONS

Té-AVW-10
t6-HdV-87
T6-HdV-PZ
t6-UdV-1T
t6-Udv-Ss1

t6-H44-LT
t6-H44-07
t6-H44-€1
t6-H414-90
76-NVI-0€
Z6-NVI-tZ
%6-NV{-LI
Z6-NV{-60
16-03-61
16-Hdv-s1
16-HdV-11
16-YdV-80
16-H4V-50
16-HaV-70
16-XVN-87
16-AVW-57
16 AVE IT
16-YVIN-61
16-HVN-EI
16-HVN-80
16-YVW-+0
16-444-LT
16-4414-07
16-aad-€1
16-841-80
16-444-ç0
16-NV[-0€
16-NVE-€%
16-NVI-LI
16-NWi~60
16-NVI-P0
06-04-61
06-04-71
06-HdV-61
06-HaV-81.
06=N4V=7}
06-WdV-E0
d6-XVW-LT
06-HVH-07
06-XVH-S1

alva
IdWvS

51

Table 12 (cont'd)

ri
4 1
sy ah

» la Le,
OT ES ANT

5 ie)
pious

wy

ae ore fi
TE

vy