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NRC Publications Archive Archives des publications du CNRC Muskeg Field Program-Mer Bleue Peat Bog MacFarlane, I. C. For the publisher’s version, please access the DOI link below./ Pour consulter la version de l’éditeur, utilisez le lien DOI ci-dessous. http://dx.doi.org/10.4224/20338038 NRC Publications Record / Notice d'Archives des publications de CNRC: http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=rtdoc&an=20338038&lang=en http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=rtdoc&an=20338038&lang=fr Access and use of this website and the material on it are subject to the Terms and Conditions set forth at http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/jsp/nparc_cp.jsp?lang=en READ THESE TERMS AND CONDITIONS CAREFULLY BEFORE USING THIS WEBSITE. L’accès à ce site Web et l’utilisation de son contenu sont assujettis aux conditions présentées dans le site http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/jsp/nparc_cp.jsp?lang=fr LISEZ CES CONDITIONS ATTENTIVEMENT AVANT D’UTILISER CE SITE WEB. Contact us / Contactez nous: nparc.cisti@nrc-cnrc.gc.ca. NATIONAL R E S E M C H COUNCIL CANADA DIVISION O F BUILDING R E S E m G H MUSKEG F I E L D PROGRAM - MER B m U E PEAT BOG b.$r Ivan @. MacParlane Internal Report No. 384 of the Division sf Building Research OTTAWA September 1964 PREFACE The value of laboratory studies of the properties of undisturbed peat is limited by the complexity sf the material and by sampling difficulties. There is consequently a r e a l need for full-scale f i e l d testing far strength and csmpreeeibility sf the natural peat. Fortunately, the M e r B l e w peat bog, which is located within a reasonable distance of the Building R e s e a r c h Centre, contains a rather c ~ r n r n o nclass 0%peat and is therefore an ideal location for field studies. A s a first step in such etudies a portion of the bog has been surveyed and sounded, Tkie r epork describes the area, indicates the most suitable location far study, and oratBPnes the nature of the proposed t e s t s . The author of this report is a civil engineer in the Soil Mechanics Section whose w o r k with the Division concerns research on o r g a n i c terrain, oetaw %I September 1964 R. F, Legget Director TABLE OF CONTENTS Page PHTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . P PROPOSED FIELD TEST PROGRAM CONCLUSIONS AND RECB WPENBIX A .......................... 2 ..................... 6 NDATZBNS . NOTES ON THE MER B U U E PEAT MINES BRANCH BULLETIN N o . 1. BOG FROM 1909 MUSKEG FTSLD PROGRAM - MER BLEUE PEAT BOG The M e r Bleue Peat Bog is a S g c ~ w % i n emuskeg dBe area approximately 8 eqaare milee in size, located about 9. 5 miles east of the centre sf the City s f Ottav~a. Situated on the northwest edge 0 4 the bog is the hamlet s f Blackburn Statism, and on the southeast edge i s located the village of Garlisbad Springs. The Canadian P a c i f i c Railway main line t s hIIoatreak s k i r t s the n o r t h e r n edge of the bog and the Canadian National Railway line is located wear the southern e d g e . The bag is bisected by the Gloucester -Cumbarland Township line (Figure I ) . The Mer Bletle P e a t Bog is m z h l y wasteland and at present is not being utilized t o any g r e a t extent. Aerial photsgraphs (Figure 2) show that some of the f a r m s on the p e r i p h e r y have encroached on i t v e r y slightly, t o t h e extent of a. few a c r e s . The central p a r t of the bog is the p r o p e r t y sf the Department of National Defence and during the Second World War an a r e a one mike in diameter w a s used by the EX. C. A. F. as a bsmbing rar-gee A large p a t of the west end of the bog is now p a r t of the National Capital Commission Green Bekt a r e a and is t o b e c o m e a b i r d s a n c t u a r y and g a m e r e s e r v e (%I. The e a s t e r n p a r t of the bog is individuaP8y owned by s e v e r a l 08 the bed % B F ~ BS I. F i r e s have o c c u r r e d r e g u l a r l y on t h e bog in the p a s t 58 y e a r s and recently, during the s u m m e r of 1955, a rather extensive f i r e occurred. T h i s f i r e as well as sporadic f i r e s which o c c u r r e d since thew burned a Barge a r e a of %Bebog. Nevertheless, it has been noted that fairly l a r g e expanses of the bog still show no signs of recent f i r e s , s o evidently w e r e not affected by the 1 9 5 5 conflagration, although w e r e probably burned over by e a r l i e r fires, T h e r e is ass doubt, therefore, that the present s u r f a c e vegetation more or less r e f l e c t s the f i r e h i s t o r y of the bog. T h e elevation of the edge s f the Mer BHeue P e a t Bag is about 225 ft above sea Bevel. Local geology indicates t h a ~ the bog is deposited in the depression of a former r i v e r channel QactuaPfy, a delta). Ridges along both the north and south extremities sf the bog a r e quite evidently beach lines. 1t is a so-called Pshighmcps%r38 type bog, with t h e c e n t r e being of oPightHy higher elevation than the edges. T o r e a c h the $02, it is n e c e s s a r y t o wade for s e v e r a l f e e t through a water -filled, low-lying a r e a around the p e r i p h e r y ( h o w as a "lagg") until the higher l e v e l is attained. Soma of the Mer Bleue is treeless, but a fairly large proportion of the area, particularly a& the centre, is quite heavily wooded. Much of this tree growth is scrub, u p to 1 5 %t hi&, but there are s o m e areas where the trees a r e dense in g r o w t h and w e l l over % 5 bt high. In the open areas the predominant vegetation is low woody shrubs (less than 2 ft highband m o s s e s . Incidentally, the name of the M e r Bleue Peat Bog apparently springs from the fact that during the blueberry season it is veritably a "blue sea, D B for blueberry b u ~ h e s are owe of the predominant vegetative features of these open areas, Generally, the m o s s , which is knee-deep in places, 9s fairly h u m r n ~ c k y and '8epringyitso that walking is quite difficult until onme acquires the technique of the &bog trotting gait. Occasisnal patches $of faiz1y limited area) of short grass and m s e s also occur, so the area offers a fairly good range of muskeg types. @ Drainage Pattern As can be noted f r o m Figures B and 2 , the M e r BPeue Peat Bog is naturally drained at the west end by several small streams and at the east end by two extensive man-made ditches draining into Bear Brook. It is understood that these ditches w e r e dug during the 1 9 3 0 e s as a '%make-work" project &a alleviate local unempls%p~9lean$ rather thaw as a serious attempt to reclaim the area. T h e c o s t is reputed to have been $ 6 0 , O O O , This work has w o w been undone by beavers. The long ditch adjacent to t h e township line was observed to be %argely choked with shrubs and bushes at the south end, and at the north end to be compketdy filed w i t h water. This ditch is about 4 ft deep, with sloping sides, and is about 10 ft wide at the tap, PROPOSED FIELD TEST PROGRAM A laboratory test program to determine the engineering characteristics of peat has been underway at the Division s f Building Research for some time. It is not always possible, however, $0 extrapolate laboratory results to fit field conditions. It wae considered, therefore, that it would b e useful to set up a field test program so that model and full-scale shear strength and settlement tests could be carried out concurrent with the laboratory program, to check orat the latter results. This field program will be carried out in three stages: The objectives w i l l be to: 1. 85tain a vehicle for access, such as a DeMuekegB u g g y , s n W ~ a s e h$' . " 8%~t'8 or 2, G a t r y out a survey of the M a r BPeue Peat Boge (a) Lay out s proposed line for 3 survey, pf sferably a northeasreh, east-wee& grid system; grid p ~ f n $ t ~mils apart. (b] Probe fst depth and t y p e of peat at the grid points. Determine t y p e of u~%$erlyHng mineral soill. G l e e sbf y surface vegetation. 3. Select areas of various muskeg type8 for vane shear and cone penetrometer testing. [a) Conduct vane ehear smd eons pesetresmster t e s t s 1x1 these areas. (b) Obtain peat samples for water content, or ganfc content and ~ p e c i f i cgravity determinations. 4 Select an area for the proposed detailed t e ~ tprogram. off if necessary. Fence it The program will be continued as %a%Bows: 1. F r o m within the large test area, select a specific area (or areas) far proposed load teete. 2. Gsaadaect load tests an the muskeg, using tanlee filled with watep on gravel pads, or a similar loading system. (a$ Obeerve load-deflection -time. ($1 U s e various load increments. { c ) Use variou~s i z e s of loaded area. M o r e detailed t e a t s w i l l %a carried out: 1, Second s e r i e s s f load t e a t s . [a) ImstaBI pfezometere to measure pare-water pressures, (b) 1nezstal.l lateral movement gauges. ( c ) Install settlement plates at various depths in the peat. (d) Conduct load t e s t s as for Stage 11. 2, Field shear t e s t s . fa) Load peat to failure - in different muskeg t y p e s , if possible. (b) Analyze the failure, Check calculated shear values with vane shear, cone pe~etrometerand laboratory values. arUndiaturbed'D peat samples will be sbtained throughout the profile of the deposit %or laboratory cornpressHon and sheer teetfng, for routine index teats, B&C. STAGE I: SUMhAER 1962 - FIELD WORK Vehicle After considerable investigatieaw it was learned that a Bombardier B. B. Carrier (amphibious) awned by the National Research Cauncill, Divisfon sf Mechanical Engineering, coab%d be obtained on loan, This vehicle provided generally eatisfacterry transportation over the bog but it had variolas defect8 which might militate against the purchaee of this particular model by the Division of Building Reeeareh. Csnsf der able maintenance w a s requfred, particularly to the eHectricai gystem, The motor H B compBete1y enclosed in a watertight compartment, making access for repaire very difficult. The motor also had a tendency $0 overheat, e s that the vehicle could be driven only Psr an hour or 80 at the most before it had to be allowed to c o d off. T o its advantageB however, is the track system, which gave little trouble, even w h e n travelling o%*er burned-over terrain containing tree stumps. Nevertheless, it was necessary to clean the tracks of moss and other debris at least once each day and often more frequently, depending upon the type of terrain. - Arrangemente were made to leave the vehicle overnight and weekends in the farmyard of Mr. John Lauthier, a tenant in the last house an the Dolman Ridge Road, Survev of Mer Bleue Peat Boa The Mer Bleue Bog wae found to be more heavily wooded than originally anticipated, ss that it was not possible to adhere strictly $0 the $-mile grid system - at least withoat extensive bush work. Although the vehicle could negotiate in fairly heavy bush, quite extensive areas had tree growth too large for the Bcsmbardier to get through, In addition, past fires had left forests of dead tree trunks and stumps which were extremely hard and brittle. These areas were an e%Bective sftanktraps'and it was considered expedient to avoid them for dear 0%track damage or puncturing of tires. As it was, on one excursion into the fringe of a burned-aver area, a dead tree got caught in the track, backlashed, and crashed through the windshield of the B ~ m b a r d i e r . Consequently, it w a s found necessary t o scale dawn somewhat the actual extent 0% the surveyg and t o vary the distances between the grid points w h e r e appropriate. An attempt w a e made to tie in g r i d points with some location easily Identifiable from a e r i a l photographs. In general, g r i d points were maintained in a north-aorrth and east -west relationship ueing a simple compass. Distances w e r e m e a s u r e d by counting the t r a c k rev04~tionsaf the Born4CBba.r dier. Figure 1 indicates the %ocat%an of the points where depth probes were made, and Table I surnmarisee the field fnf~rrnationobtained, Figures 3 to 'I p o r t r a y typicah areaka sf the PA@$ BBeue P e a t Bogo Time did not permit s complete survey of the Bog during the ~ u m m e r e The eelobelcbetween Balman and Bortbwick Ridges on the w e s t and the large expanee sf bog between the two ditches on the east end were untouched. In both cases, access w a s difficult f r o m the "sheadquarters" a r e a on Dolman Ridge. Heavy t r e e growth prevented easy accesa in the c a s e of the lobe of bog between the t w o ridges; the width and depth of water in the ditch at the w e s t and retarded a c c e s s to that area. The Bobe'sf bog to the north of Dolman Ridge a l s o is bisected by a ditch which can create difficulty for the Bsmbardier, even though it is not very deep or wide. Since this survey w a s c a r r i e d out, It haa been learned that a eimilar survey w a s conducted in 1908 (29. The resulte of this early survey provide vary useful confirmatory information and are included as Appendix A s f this report. Vane Shear and Cone Penetrometer T e s t s A s e r i e s of vane shear and cone penetrometer t e s t s w e r e c a r r i e d out in a single muskeg t y p e , at two grid points: 10-3N a n d 18-5M, 1%w a s originally intended to conduct such measurements at other grid points in various muskeg t y p e s , but time d i d n s t p e r m i t this. The r e s u l t s s f theee t e s t s a r e shown in F i g u r e s 8 t o Bl. The vane used was a medium-size vane as deecribed 3x1 a previoue paper (31, F r i e t ~ s n corrections were m a d e for these t e s t s , but w e r e found to be. insignificant for the depths involved f o r this particular type of muskeg. The cone penetrometer is a Soiltest rnodei CN-970, with a cone size as follows: diameter at base 2 . 8 4 c m , height = 5. Bb c m . Penetrometer readings were taken w h e r e limited muskeg a r e a s Qa f e w square feet in size] of different coverage types were adjacent to each sther. Depth of cone penetrometer meaeearementa were limited by the length of the rods available. Vane teste w e r e c a r r i e d out only in the predominant vegetative - type. Figur e e 8 and I 8 show the vane shear -depth relationship for predominantly amon-woody fine-fibroue peate. An increase in shear strength with depth i s observed dawn t o a depth of about 2* f t , followed by a decline in strength. The shear strength i n c r e a s e s again at the transitional zone between the peat and the mineral s a i l substratum. The cone penetrometer tests are h a r d l y extensive enough t o permit any definite eonaclueione t o be drawn. Nevertheless, it was possible to make a preliminary assesamen$ sf this instrument. It is mach simpler and fzster ts u s e than $8 the vane, and in this r e g a r d it has t o commend it. It does nots however, r e f l e c t sxact1y tb.e same trend of ahease strength with depth ae does the vane. A continuing increase in cane penetration P eeistance is indicated somewhat beyond that point at which the vane ~ h e a r ~ t a s show te a deerease in strength. Assuming that the vane apparatus i s an adequar-,adevice for refleeting the conditions that actually exist, it m a y w e l l be that the cone panetreatmeter - at least of the small sf ze used may not be appropriate far all peat conditions. F u r t h e r csmparat-kva t e s t s will have to be carried out to ~o~afbrm this. - Figure 9 indicates the cone penetration reaiatance in three different muskeg t y p e s . These curves r e p r e s e n t an average of the r e s u l t s of t h r e e t e s t s in the s a m e area. The greatest r s s i e t a n c e to penetration i s indicated for the PI muskeg, the l e a s t for BI, with E I intersmediate. This is opposite to what might normally be expected. The relationship in Figure B O is m o r e logical, however, except that the va;buee for the EH area ape abnormally high, which indicate the poseibilbty 0% a log (or heavy root mesh) below the 36-in. depth. 60NCEUSIONS AND RECOMMENDATIONS From t h i s greliminar y survey, it appears that the most appropriate location for a proposed t e s t site would be immediately north s f the Dolman Ridge Road, in the vicinity of g r i d point EO -2E -1 5, where the depth t o minerah soil is 18 ft. This i s an E I muekeg azea, and is easily accessible from the road. Far a possible t e s t site in FH muskeg, the a r e a immediately east of Dolman Ridge would be appropriate (Figure 21. Finah choice of a suitable site, however, slkaodd await completion of the sulrvey. Ira the vicinity of the above-mentioned sites t h e r e would be little difficulty in obtaining a building t o ehelter a vehicle, znd even one for a field k e a d w a r t e r s, Many of the houses along the Dolman Ridge Road are empty a n d a r e offered f o r rent. They a r e s m e d by the National Capitall Csmmissioaa who have expropriated the land for the Green Belt. E%ectricityand telephone s e r v i c e s w ~ u l d lalso be eanveniently available. All faci%i&iee would have $0 be negotiated for with the NCC. The method of load application for the f i e l d settlement teats muet essentially be simple and portable, yet effective, The u s e of a t e s t f i l l sf gravel or s a ~ a dmay be an u%tima%a poesibility, but it is advisable to utilize initially a simpler method of l o a d appliestisn. It is suggested that a farm of "sPfpan5could poesibly be used, which could act both as a rneane of carrying equipment, when attached to a vehicle, and I B a method of appP$Pi;nga Load. It hecsa9%dbe designed t o a e e o m m s d a t e flexible tanks of water so theht the load cauld be varied. The bearing surface could be a plate, e. g. a 36-in. diameter, 3 -in. thick plywood plate, reinforced by aluminum alloy channel@, Other platee of larger diameter could also be uaed. If the ~ 1 f p eis ~ I B D sf a BPghtwei&t aluminum alloy, it esuld be attached t c s the plate and left in that position for the duration of the %a&. A pump would supply wafer to four tanks fn the ~Bipe,with the water being metered to p a ~ m i t control sf the exact weight desired. Water tube levels attached to each corner of the ~ l p e ,and leading to an adjacent control panel, wokpPd help to assuss the operator of an even dietribution sf the load. A small hole in the bearing plate and fn the bottom 0% the d i p e would give access 4,s eattlernent gauges and to piezometers, F o r future guidance, a schematic drawing incorporating theee euggeetione is shown in Figjar e % 2. References (1) Montreal Gazette? 24 Jane 196%. , and S. A, Anrep, Investigatisn of Canada during the (2) ~ ~ e t r k ! r n E, season 1908-1909. Canada Dept, of Mines, Mines Branch, Bulletin No. 1 {Report #SO), Ottawa, 1909, ) MacFarlane, I. G. and A, Rutka, An evaluation of pavement performance over rnea~lleegin Northern Ontario. Highway Research Board Bulletin NQ. 316, 1962, p. 32-43, TABLE 1 T OF FIELD SUWYE Y DATA Grid Surface DRZ-EL BR3-Nk BFE at edge af FK DR3-%.89 Depth of Slabsoil 4 Fins s a n d F9 a 3 Sand FI a $4 Bandy able 5 Gray silty clay 6 Blue -gray firm rilty cloy a Gray eHay EFIat edge of BEI Patchy TI, EI hummocks Very wet; water at e u r k c e Fairly soft clay a Clay El;patches of Ff Sand Very wet; water at surfsee BE%;FH patches Silty sand Very wet; water at surface Fine sand Very wet; wzter at aurfaee F i n s eand FI; El h u m r n o ~ k ~ a Gray sand Very lpboggylC and wet aeea Sand V a r y w e t and soft zrea Fine sand Very wet s r e a G r a y sand Quite wet; did cone and vane tarts Sand Shaky - Bike a floating bog IF; between FI BParxt: and cone t e s t s carried and BFH out Sand DEI and DFE Clay Burned ever area. Fine sand V e r y D s s p ~ n g y&re% it El; small FP pateke8 Bluish silt Dry Fine gray tiand EI at edge of Fine earad L Dry, 'vspowgy" area A e BE% Bluish etPty clay a Silty aand Quf.te dry af ea 16.25 G r a y clay Water at surface 17. 5 Blue-gray clay Dry rsrxrface Fine sand V e r y wet area 29 D4-ZW D4-3W F1;E I hummocks Ff alternating w i t h a 5% Fine sand Extremely w e t ares 3 Sandy silt 32. B r o w n sand ' V a r y w e t and shaky. W a t e r at surface Essentially a floating bog area EH clumpm RO EH 15 Fairly soft chagr D r y and crisp area RB -lE EI !6 Clay D r y surface - TABLE 1 Gafd P% ~iiPLt Surface Cover Topagraphy 8 Some a RO-3E-BN El; FI patches BO-3E-BS EI RO-3E -2s B Flat continued DepeX sf Peat, f t Subsoil Twe General Remarks 7) Bandy milt 8 Band Very dry area Silty clay Vane t e s t s carried out 94 Silty sand Dry area fJ$ 9 and Dry area Stiff gray eilty clay Dry area Stiff c l a y e y silt Dry area B8 17* * Dl; ssms D F I RQ-4E FI;alternating with El clumps RO-4E-1N EX; eoma W e t area FE patches Stiff eilty elay Dry hummocky area Stiff clay G r a y sand Dry area Silty cPay D r y area Fine sand Zairly dry; wet in depseesfim~ WO-6E EI; earns FIpatcAes Gray sand Wummctcky area RO-66-PM FEI Firm eilty slay Fairly dry area 8 0 -4E El Gray sfit Spongy area RB-tE-1S Edge of BEIandEH Fine sand RO -8E EI G r a y clay D s y at surface RO-8E-19 EP Fins sand Adjacentto heavy t s e e growth GP El; some BET Firm gray clay Vary dry area Stiff elay V e r y dry area; burwed over C2 * X0-IS EI Stiff clayey sfat xc -0s O~EI Silt XO-IW (B)EI Clay X8-2W EE Silt XO-ZW-IN El Silty clay XQ-2W-2N EE Sandy sitt XO-2W-3N (B)EI Sandy a i i t (B)EX XQ-3W (B)EI Silty clay XO-4W F%;EIePurnps Silty clay x0-5W EII Flat XO-6W (B)EI Flat XO-SW-PN EI Flat XO-7%' EP EI EP Flat 12i Flat 10; Siltyclay Flat l0-f Firm silty clay XO-8%: XO-9W * 14 Sand Dry area Plastic blue clay Very d r y area Blue siltyelay Dry area Greysiltyclay D a y area V e r y dry Bracket (B) indicates possibility of this & ) ~ of e cover prior to recent burn. Figure 2 A e r i a l view sf M e s Bleue Peat Bog (from 3 5 , 0 0 0 f t ; scale: 5600 f t = 1 in. (Photograph c o u r t e s y RGAF. $. FIGURE 28 MER BLEUE P E A T B O G - GW ID POINTS 8a3Qyl-3 Figure 3 Figure 4 G r i d Point 16 -3N BFE a n d PI Muskeg G r i d P o i n t RO -8E E%Muskeg Figure 5 Figure 6 Grid Point X6-6W 23% Muskeg G r i d Point RO -5E E %Muskeg F i g u r e 47 G r i d P o i r n t XO EP Muskeg V A N E S H E A R , P. S . F . FE Muskeg FIGURE 8 VANE SHEAR T E S T G R I D POINT 10-3N P E N E T R A T I O N R E S I S T A N C E , LB 60 70 80 90 100 110 FIGURE 9 C O N E P E N E T R O M E T E R G R I D P O INT 10-3N 120 VANE S H E A R , P. S . F . 100 rn 300 F I G U R E 1s V A N E S H E A R T E S T G R I D P O I N T 10-5N P E N E T R A T I O N R E % %S T A N C E , k B 20 3 40 50 FIGURE 70 a 93 100 11 C O N E PENETROMETER G R % D P O I N T 1 8 - 5 N 110 120 1% LOAD I MG Load fs applld by pumping water into 4 f lexlble tanks In the slipe. An even load is applied to the bearing plate and differential se3Sement avoidtd by adjusting the water Bevel In the tanks as indicated by the water e~k levels. FIGURE s e ~ 9 g - Cl -~c ~ 12 SCHEMATlC D R A W I N G OF L O A D I N G ARRANGEMENT FOR MER B L E U E T E S T S NOTES ON THE BAER BLEUE PEAT 886 FROM M p m S BRANCH B U L L E T I N No. 1, 1969 [~yatr&m and Anrep], Fagee 10 a n d 1 1 The bog is situated about 8 milee f r o m Ottawa, Ox~tarEoBW the townships of GPsucester and Cambarland and covere m o r e or % e s e sf: Lots 6 3 Lots 3 Lets h Lote Lots kote - 9 12 1 16, con. 111, township of GPouceeter. 25, con, %V, 16, con. V, 2 , eon, VII, sl ?s IL 8? ?! w1 81 DF 9t 16, con. XI, township of Cumberland. 16, con. X, DI Tt 6I ' The total area covered by this bog is approximately 5684 a c r e s . 8%t h i s area 1564 a c r e s have a depth of leas than 5 ft, average depth 2 ft 9 in. ; 2237 a c r e s have a depth of 5 to P O ft, average depth 6 ft 8 in. ; 856 a c r e s have a depth of 10 t o $ 5 ft, average depth 1II f t 8 in. ; 347 acres have a depth of m o r e than 15 ft, average depth 16 f t * The peat is fairly well humified and unifsrm in quality. bog is thoroughly drained, the peat will probably s e t t l e f r o m After the one to three feet. The bog consists of t h r e e distinct basins, p a r t l y separated by t w o eomparative2y high ridges. T h e s e ridges are east o i $gat 5 in GPoucester Township, partly s u b m e r g e d in the bog, but in places f a r m what m a y p r o p e r l y be called islands in the bog. The bottom s f the bog is a compact blue clay. The principal vegetation forming the peat in t h i s bog is Sphagnum, m o r e os: l e s s mixed with Eriopkorum, and many sther plant types to a l e s s e r extent. Large a r e a s 0 %the surface of the bog a r e covered by a more or l e a s heavy growth of s p r u c e and t a m a r a c k and the peat itself i s intermixed with l a r g e quantities of rerate, trunks and stumps of t r e e s . The accompanying map indicates the range of depths thrsughout the Mer Bleue P e a t Bog. The notations A, B -, B and B+ r e f e r $0 humifirsatican a s r e l a t e d to the u s e of peat as a fuel and as such a r e not r ePevawt to this r epoxt.