CRUISE RESULTS FISHERIES ECOSYSTEMS ASSESSMENT MARMAP SURVEY Northeast Continental Shelf Ecosystem 19 July to 2 August 1991 National Oceanographic and Atmospheric Administration National Marine Fisheries Service Northeast Fisheries Center Woods Hole, Massachusetts —_—_——— DOCUMENT LIBRARY | Woods Hoie Oceanographic institution h b#?0hO0 TOEO oO MAIO 0 1OHM/18IN 2 = hoe . C — . \ Pile > ara ehaeee ea aye Li ce wih er Oe tee me aoe ‘ali. ey ee me poured | aE ie -- pour = of ee oO a ae See (om) aad Spe ” 3 So oS = ‘foamus dv CRUISE RESULTS R/V ARGO MAINE Cruise AM 91-01 Fisheries Ecosystems Assessment--MARMAP Survey CRUISE PERIOD AND AREA The cruise period was from 19 July to 2 August, 1991. The area of operations was the Northeast Shelf Ecosystem from Cape Hatteras, North Carolina to Nova Scotia (Figure 1). The primary depth zone was from the 20- to 2,000-meter isobaths. OBJECTIVES This cruise was the first of the resumed MARMAP cruises termed Fisheries Ecosystem Assessment-- MARMAP Surveys, the objective of which is a assess the impact of changing biological and physical properties of the NE Continental Shelf ecosystem which influence the sustainable productivity of the living marine resources. The July- August survey was designed to measure spatial and temporal changes in the productivity of the waters of the NE Shelf ecosystem, and to index the changes in the ichthyoplankton and zooplankton communities. Key parameters measured were: water column temperatures, salinities, chlorophyll and nutrient concentrations; light transmission, ichthyo- and zooplankton composition, abundance and distribution; underway near surface chlorophyll concentration; and standard weather observations. This cruise initiated a reduced level of station coverage compared to earlier MARMAP surveys (1977-1986) from an average of 105 to 70 stations. An evaluation of the effectiveness of this strategy was one of the cruise’s objectives. The major alteration to the 1977-1987 sampling protocol included towed-body sampling with the Continuous Plankton Recorder (CPR) between station transects; as well as along new transects. The key station transects were located off the major estuaries and across areas of particular importance (e.g., Georges Bank and the Gulf of Maine) and surtace chlorophyll measurements along the entire track of the cruise. Statf at the Northeast Fisheries Center Narragansett Laboratory will work jointly with scientists at several institutions in the analyses of the data as follows: (a) chlorophyll, nutrient, and light transmission--Bigelow Laboratory for Ocean Sciences, Boothbay Harbor, Maine; (b) water column temperature and salinity--Northeast Fisheries Center, Woods Hole, Massachusetts; (c) phytoplankton and zooplankton-- Sorting Centers, Szczecin and Gdynia, Poland; (d) ichthyoplankton--Northeast Fisheries Center, Sandy Hook, New Jersey; (e) meteorological data--National Oceanic and Atmospheric Administration, National Weather Service, Washington, D.C. METHODS Plankton sampling gear consisted of a 0.61-meter bongo frame fitted with 0.505-millimeter and 0.333-millimeter mesh nets. A 45-kilogram ball was attached beneath the frame to depress the sampler, and a bathykymograph was attached above the frame to record sampling depth throughout the tow. Digital flow meters were suspended within the mouths of the bongo samplers. Towing wire metering was employed, but no wire angle inclinometers were used. Tow speeds of approximately 2 knots were maintained by engaging and disengaging the vessel’s main drive. Plankton tows were made at all stations along transects A through G (Figure 1). The Hardy Continuous Plankton Recorder (CPR) was towed at a standard depth of 10 meters. Towing speed was 9 knots, and mesh aperture was 225 x 234 microns, when wet. A continuous record of the zooplankton and larger phytoplankton was thus obtained along transects L through Q (Figure 2). A CID with rosette, fluorometer, and transmissometer was deployed to near bottom or a maximum depth of 250 m at all stations along transect A through G. Temperature, salinity, fluorescence, and light transmission data were pressure averaged by one meter. Water samples were taken at up to six standard levels (2 m, 10 m, 30 m, 50 m, 75 m, and near bottom) depth permitting, and samples were frozen for subsequent nutrient analysis. Samples to the standard depth of 75 m were filtered and frozen for chlorophyll calibration purposes, from one inshore, one midshelf, and one offshore station on each transect. Continuous measurement of fluorescence at a depth of 2 m was made using a flow-through fluorometer connected in line with the ship’s sea water system for the entire cruise track. During CPR towing no less than two, water samples were taken from a depth of 2 m, filtered, and frozen per day for calibration purposes. Two-meter depth water samples were taken at the ends of the station transect for calibration purposes. Surface temperature was determined at each station with a stem thermometer and bucket. At each station the bottom depth, wind speed and direction, air temperature, wet bulb temperature, atmospheric pressure, cloud type and amount, and wave height were recorded. RESULTS A summary of the measurements accomplished is given in Table 1. Continuous plankton records were obtained from 944 of the 1,000 desired miles. This difference was due to the entangling of a sandbar shark in the drive mechanism of the CPR. All 70 of the desired bongo tows were made. CTD, nutrient and fluorescence data were obtained from 66 of the 70 planned stations. The power supply to the CTD and rosette failed with 10 stations to go, forcing a switch to a self contained CDT and individual water bottles. Underway, 2-m fluorescence data were obtained from the entire cruise track. Preliminary processing of digital data was done on board and plots of temperature, salinity, sigma-t, fluorescence, and light transmission were prepared. Preliminary plots are given in Appendix I. They are presently undergoing quality control, and are, in some cases, displayed in relative units. Thus, they should be interpreted accordingly. Several conclusions can be drawn from the preliminary examination of the cruise results: (a) A short station transect should be added from the vicinity of Provincetown, Massachusetts, to Portland, Maine, to fill a gap in the station array; (b) XBT and surface salinity deployments between the station tran- sects (along the towing transects) would greatly add to the utility of the survey temperature and salinity coverage; (c) Given the instrumentation available on this cruise, such a survey could be accomplished with two persons per watch; (d) The Northeast Fisheries Center’s equipment supply, of the kind used on this cruise, is in need of repair and some replenishment, particularly with regard to rosette, water bottles, and flow-throw fluorometer; (e) Fourteen to 17 days seems reasonable for the completion of such a cruise of the ALBATROSS IV, and usual weather. SPECIAL NOTES On 21 July the ARGO MAINE offered assistance to a 24-foot recreational fishing boat which was disabled some 60 miles off the North Carolina coast. Attempts to repair their engine by the Chief Engineer failed. The ARGO MAINE stood by for approximately 7 hours until a Coast Guard cutter out of Cape Hatteras arrive to tow in the disabled boat. A port call of approximately 30- minutes at Narragansett, Rhode Island, the night of 26 July to pick up the license to conduct the cruise in Canadian waters. DISPOSITION OF DATA Biological samples from the CPR were delivered to the Narragansett, Rhode Island, Laboratory for preprocessing and forwarding to Gdynia, Poland, for identification of phytoplankton and zooplankton components. Samples from the 0.61-m bongo were delivered to the Narragansett Laboratory for shipment to Zaklad Sortowania i Oznaczania Planktonu (ZSIOP), Szczecin, Poland, for volume determinations, sorting, identification and enumeration of plankton community structure and abundance. Chlorophyll and nutrient samples were delivered to the Narragansett Laboratory for preprocessing and forwarding to the University of Rhode Island for final analysis. Water column fluorescence and light transmission, and 2-m fluorescence data were delivered to the Narragansett Laboratory for processing. The final fluorescence and nutrient data will be forwarded to the Bigelow Laboratory for analyses. CTD data were delivered to the Narragansett Laboratory for preprocessing and forwarding to the Northeast Fisheries Center, Oceanography Branch, Woods Hole, for analysis. SCIENTIFIC PERSONNEL National Marine Fisheries Service NEFC, Narragansett, RI Jack Jossi, Chief Scientist Julien Goulet Thomas McKenney Thomas Pothoff Jerry Prezioso Maine Maritime Academy, Castine ME George Gatcomb PSE SESESESSSESESSE ESSE SSESSE SSE SESS SESE SE SS 3 For further information contact: Jack W. Jossi, National Marine Fisheries Service, Northeast Fisheries Center, Narragansett, RI 02882. Telephone-(401)782-3274. PS PESESEESESE SESE SESE SESS SESE SSS SES SY Summary of Station Activities. 1. Table we amp Oo rs) Ay ” wn fon) oO “dd HOD (sa) (oy) N Vo) Deas 4 = 0 p yp om v =O 4 1Od oO oO 16) 16) uy Cc Oo00000 0 oO QO, Hm H & 1) O 16) un On 9) O ) @ ——— o, |o4 a O «& el d ad d a A ow d Ue Wits rw ics VOUUUUUVDUDUVDUVUVDUVDUUVUUVUVUVDVUVUVUVUVUVOVUVUVUODVUVDVOVUVDOO0VV0V000D ie) —s 5 uv de e 0OU00000000000 00 OLOROROL OPO ORO O0000000D0 ae ) au cs OU vO OU OU OO 0 0 0 0 0 0 (5) {6} 14) 15) 15) (6) [4) (4) 00000000 0 aa | Ee UO w (sa) Nw (oa) N w w N No} (sa) N “4 cA vo |BD Ss es OUT NnNnNnNWoUONUUsTTNMMN HWOWUNNWAM wononwuounrtsn Del Se a ot V0U0U00000000 00000 00000000 OU00000N0 = |ge fe} or OVU00000000 00000 00000000 Oo0000000 oles id Ne) 0000000000000 00 OFO) © OF OO Ure OoUvU0000 00 ses lous) ae en oO (e) oO HAwWwAAdRK ddd adat ~ -MMMmMmMM ~-Z2Z ~-V0U00000 +0 —aAnNnanaAANnNAAAAmMAAAe a) ca [ee] O 1e) QA Hu Pee yp ANMNYGNORANHOANMNANORAHOHANYTNOORAHOAANTNURAKHOAANTH id) HAd ATH pA AAD AANNNANANANAANNANMNMNMNMNANYT IST ST re apo w re) Ay lA ne] er paicoai | d ee p om m |=] Oo DSc Mes d loaves Qs A i] O io Se A aw es O d dd g |ou ae a YH Ty 2} (ae) OUU0U0U0000000000 00000000 9 [NU a) ae) a deo OUVU00000000000 00 0000 0 dO | ag Fate > =) rit H OUVUU0U000000000000000 0 gael & ay J rT) ja0} Ve) in Ve) Ve) (oa) ca |e “dA yy cu YO (=a=) NNnUWUNNWWUHUNUUONWDOUNNYNtTM oO 2 4 p qo on 4 (oe) Q OH (5) (6) (5) (5) (5)) (8) (5) (dtd) (5) (5) (5) Co) fo) (oe) (5) (6) LO} (0) a it c ow yO VUU0000000000000000 0 G ip 3 oa 0 ic pa COVUU000000000000 0000 0 head ae oO au Hee OOO eT aaa LS) HW ees ie oe yp ON DHOANMNANUORAHVDANNTNUOLR Y ty~7 7T7NONNNNNNNNNUOWUVUUHW HOW ”O OV000000000000000 onunwnwnunw wo bo + + = He eC hats gle> 0000 16) 16) 16) 00000 COVU00O0000000000000 OV0V00000000000000 Be DMM Sta Activities Totals Water Column ; Surface} Ten-Meter 6B3' 16B5 (CTD NUT UCHL FLU. TRN” )/CHE SAL 3CPRe CPRY (CPR | H : i H i SH LIA pean Svea Ao Foy SS Sales OO) GG OG. 27 944} Legend: 6B3= 60 cm Bongo, 333 micron mesh samples 6B5= 60 cm Bongo, 505 micron mesh samples CTD= conductivity, temperature, depth samples NUT= standard depth nutrient samples CHL= chlorophyll samples TRN= light transmission samples SAL= salinity samples SHT= launch (shoot) Continuous Plankton Recorder (CPR) ALT= course change (altered course) during CPR tow HAU= haul CPR c= continuous sampling, e.g., surface to near bottom Bongo tow, or underway, flow-through fluorometer °-30Td uotqAtsod uotqeqS °T eanbrty 9U0}}078 46y}0 * PTI (079,\].c(2)) dalla) L66b 3snOny | - Ainge EL F1@lébly #81949 ANIVW CONV AEAINS dYLINVL] - Juewssessy sweysKsoogW Ayeys) 4 age *sq00Sueaq HurmMoq AOpAODDY UOoRXUeTd Snonut_AuoD °*z Vsanbty ey,Ieeucst Ee) L44b asn6ny © - Aing 6b F1@léWvY 98194) ANIVW OOaV Kaasns dgylLadyl) - Juewssessy swey,shsooq Asweys) 4 APPENDIX I PRELIMINARY DATA PORTRAYALS Bs (en, e;e) seesbep) OuN,evEedWe; eDRjJUNS Pa a N1e}e) eeesbep) esnqzovedue; vn} oO Jeo VOM) Ses (19d) Aq 41 FES WIN} oO) 107 eT VOR +5 O- (178) 7-ewBis wun} oO 40794 VOM zi 4 Meditate aS a - id ed +--+ (3 "heap OI ae oc ye Yo] S@e)weuoyy 44819 WN} OD Je7% YOO 5- > Asyouosons 4 wwn},o7) 387% YOR =Ge (e307 ow d C00sUNG ww) xa) aotatoecuria Se JUN €41709;04) eDVEDeeU0N;) 4 COOLING WW) xm) eoVEedBe ION] 4 Pe i f Ee mM gZ 2° Asyeououons4 Betcubencr SIE (sayy jDoNNOU) NOILWLS JYOHSNI WOY4 JFONVISIC OLUE _eoyh 06 0g OL 09 OS Ob or 0¢ Ol ) L66L ‘Aine 77-12 Y yOasunsy (snisjag soasbaq) 4yNLVaadW3L OZ . 09 A 0g Ov ail tS =o ” 96 SSSSSSSSEEEES #1 orks ie << S OSs a5) > pe e SSS os San : SS SSS SESE St 1 ae) = Co Tot eS 9 i) 3 6 OL I'L af Jéjslu) HI4q0 2202 (say jOONNEU) NOILVLS JYOHSNI WON JONVLSIG OWE OOlL 06 Og OL 09 OS Or O0¢ 02 Ol Coa y L66l ‘Aine zz—-1z + 06 WY yoasuosy (pupsnoy} jad synod) AWINIWS + 08 CRS i oom ‘a (sde]sw) HL4IG o¢ ey 02 ea EE Se — 5a lel = i = = Ol LSE “ & 0 8 6 OL Lt ot —uUONDIC (sels joonNeU) NOIVLS JHOHSNI WOds SONVLSIC OLlL OOol 06 O08 OL 0g OG Or OF GZ Gt 0 ue IF = To. ts ae e- \ L66l ‘Aine ¢¢-1z je ——— Y yoasuDs] ae I-VWOIS + 68 | r Od | 09 a | OG | Ob + OF OZ Ol deystu) HLA —UONDIS 29% (sajiu jooNNDU) NOWVLS JYOHSNI WOY4 JONVLSIC 06 0g OL 09 os Or o¢ OZ Ol 8) —+O0L L66l ‘Aine ¢z7-cz + os g \OasuDs] (snisjag ssasbap) JYNLVYSdWSL + 08 Sere SSS O1 J Se, el an St at ra St Ci Ce (sde}stu) 143d —UO!}DIS (say jOONNEU) NOILWIS JYOHSNI WON FONVLSIC 08 OL 09 OS OF —-- o¢ Oc Ol SC RCC Q jo9suDIY (punsnoyy sad sjind) ALINITWWS L66L ‘Aine ¢¢-7z% 06 08 EI@) lu) Hy (S4éjs —UONDIS (Sey! |OOINDU) NOLLVES JNOHSNI WON JONVLSIG Oll OOL 06 08 OL 09 OS Ov OF OC Ol 9) aa a iter aise er aes eo OI: L66L ‘Aine ¢Z-7z | og Q }Oasupsy 1-VWIIS puts (sue}ystu) Hi 43g —uonDIS 225 (sayius ee ae > JYOHSNI WOdd SFONVIS Oll 901 06 0g Og Ob O¢ Oz 3 ee CES a arte. | yer Bi NN L66L Yj TENN Ke, =< DNS eee” Pie St 91 Zt ey q yoasuni (OOn|oA eAID/62) 7 ili NOISSINSNWYL IC] (sde}Stu) belted —UO!NDIS (say jooneu) NOWWLS JYOHSNI WOds JONVLSIO OU 00! 06 0a OL 09 QS OP og OZ Ol 9) L66l ‘Aine ¢Z-cZ + 06 g orci (SanjDA aAl}ojas oR JINSAIS3ANON 1S OZ 09 i] wo aC ro OS i) a o¢ O02 ; SSS = . —_e Sy) Se SMW Ol 0 el ra ‘3h 3h fats St ol c }Sstu) HL4AG (Sie \ —UONDIS (Sej!U1 |OONNEU) NOILVIS JFNOHSNI WOY4 JONVISIC L66L ‘Aine $z . DQ y99SuDIY (snisja9 saeibeq) 4ynLlvaadW3l (s4ejzeuu) HL4aq & —uoNnDye¢ 39- (Sajlu jO9IyNDU) NOWVYLS SYOHSNI WOY4 JONVLSIG OLl OOl 06 08 Oz 09 OS Or or Oc Ol 0 Pass Hf | aes ' eh L66l ‘Aine po t o6 Gas 2 yoasunsy 5 aN (puosnoy} sed syo ) AUNIVS 08 / Ya meen (S4e}Slu) HL4Ig —UON}DYS 5 LY=- < (sayiud joornpu) NOLVIS JYOHSNI WOY4S JONVLSIG Olt ool 06 OQ OL 09 OS Ob OF Oc Ot (a) = RES) Ata, |S a hh =, bal nn Rea eee L66L ‘Ainp pz 9 }9asuDIyL L=VINDIS (sdejsuw) Hy 47q (he J Cabs LG 8c CE _uonnrs 2305 (says |D9!IjNOU) NOWVLS JNOHSNI WON4 JONVLSIG OLL 001 06 08 OL 09 OS OF OF 02 Ol aa ls Cae Nh Wes test ‘Aine +z to = 2 \a\\-——** sa ed ee | VAN (Sanjon aAyoj31) 4 08 SS NIOISSINSNVYL LHOM a . (ags SK — < ” = “~ SS ~~ eS ea ai == ings eee Sle 2 a = i os Rp aeatas OS = bs AG OEE Ee a Ge ee | 3 A eg (ae tats —— 2 na CS | Op oO <> Lae) eee TAOS (D eae BN POC FF NY PD (FERRITE (rae j 0 vc Sc 30, Lo seo GZ = —uonnys Sehle (sajiu IPONNDU) NOUVYIS JHOHSHI WOYd JONVLSIC Oll O01 06 08 OL 09 OS OP OF 0c Ol 7) rl =) iy Sm S \ L66L ‘AINA bz ‘ S 3 yoasudst ~ (SONJDA aAt}ojas ) / x FJONFoSaNANTS ( = ~ es ee i) S aes ee ee ee eG) = ae 7 C CHS Oy ea ee ea ss 9 Se aes a ak ~ aw LE ae TY VRS ~_——_—_—_—.. . SS SS =1(] SdE}Slu) His ( —UONDIS (say jooNPU) NOILYIS JYOHSNI WOY4 FONVLSIC OP (010)! 06 08g OL 09 ole Ob o¢ Oz Ol 20 Re . L66L ‘Aine gz-be | o¢6 S ae | Q yoasuD1) | } ae (snisjag aai5ap) FynLVYaadW3L he (Sdeqjsuu) yy 44 -—UONDIS =26- (sajius jOONNOU) NOILWIS JNOHSNI WONF JONVWLSIC Z Oll OOl 06 0g OL (ale) OS OF O¢ 0 Ol a) Fa Sap ea lanier Uneaweres 11 Ss G 7 — Pn NEE Ci] ae en Leal ‘Aine 9z—bz S< ‘ff ( pp (puosnoy} Jad SHDd) ALINIGVS | 68 c eee y y | Sy ere, Os = SS I ie Ss [fo is eres 8 See I Sr, 3 J f Bee a), 09 = ae es ee y Te yr — pa EE if, i SS L Oo Ss i ee te ie iver ees Ploe L66L ‘AInp 97—-bz + 06 g \oasuD4 (San|DA site|) 08 —————|- MOISSINSNVaAL LHONM a (sdejslu) 1 43q TTI ae ef t£ s¢ 92 is Sf _uonnie =16= (satu jOONOU) NOWWIS JYOHSNI WON4 JONVISIO OLL OOL 06 O08 OL 09 OS Or O¢ 0c Ol Gg }asuDs (S Se (sanjoa “hap JON39Sa¥ONT4 9) L66L ‘AINA 9Z-b2 i: WU) HL4Ag ~ Cc Ge —UONDIS a7: (sajitu jooNB_U) NOWVLS JYOHSNI WOM4 JONVISIG OSZ 00Z2 Osl olen OS VW = ov 6 PYG 7 a Sa ee) ; ae bd x mos ex = 6) oO “~S “ 91 ee \e SS oz On z/ 2 ¢ wieae Fe ge ae (op) Sth \ ~ a > on / Pee See | 0¢ se / \\oe Se ee ey 0 ~— Se ~ e+ AN ier Sa : GG LS (=. Xoo Se eee ee Ser OS . ————— L66l snony p — Ajnp pe 3 yoasuniy (snisjag saasbap) SYUNIVESdNSL -38- (say jOSNNOU) NOILVLS JYOHSNI OGé 00c OSL OoL WNOds aor isig OS a) IN 4 JOOSUDI . lee (snisja) seasbep) f ne / ( | JYNLVYIDWIAL < / Z = oy - Say let 2 ee Ss ——— = 7 Se a mile SS a ON OZ Se ca SS aS SSS fa =p Se Ee OA ie De awe ah eaten bee! aN) 9 4.) a oo) gy 9) aH) Oe Ve od wf (Sde}sw) HI 4qd (sajiuy jooNeU) NOUVIS ANOHSN! WOMF JONVLSIC OGc 002 OSGI OOL OS 9) ee aS loyz Ine “Ae Ve-Ga /- = 1stu) HL43q 3192 S (SJ -49- (sayy (D91;NDU) NOIVWIS JNOHSNI WOYA SJONVISIG OS¢ 002 Ost ool ole Lest ‘Aine 1e-6z oN | laa 4 yoosupsy) / L-VANOIS Ss / TN / : i ee ey, aoe “f / == : So Ne Ne Tt? Se ane ee 9 —_ ee ee ee eee Si SSS 5 Ae (4S) ey) $9 G9 1d stu) HLS (Sue — 013035 FZ i] ie) = | op) 2) D's ve ; | ne = = oly es Sc SS & ae | ! ~X = LS Be 207 = Bi |g e274 8 f { OOS a VN | swe oN | % | Z TWAT a ig ~y AG: Ly ~ H- I ad Wi Bay / N ae eG S — us Sa Station = sane DISIANCE FROM INSHORE SIATION (nautical miles) (sdsjsw) HL4aq (sayy (OO1NOU) NOLLWIS JNOHSNI WOd JONVISIC OSz 00z OSI Ool OS 9) Leer A Str tix 4 yoosups) < (SAn|OA aArjDjas) “A y) JONIJOSISON San. (Sdejstu) L450 38 250 — ” a 2 Oo Pa a N “A a £0) > BM bs = tap | a - x & ay > c 2Os+ 8 Cw? = qe ny OD) S i Wgets — Te 100 DISTANCE FROM INSHORE STATION (nautical miles) (s42]Stu). Haq =Aae (says |OONNDU) NOLLVIS OSC 00d OGl Le6L ‘Aine 67-287 9 yosubs] (punsnouy jad syiod) ALINIIVS JYOHSNI OOl OS WOU JONVLSIO (sdejslu) HL4IIG —U91}235 (sajitu jOoIWNBU) NOWVIS JYOHSMI WONS JONVISIG OSC 00¢ Oscl 001 OS 0 ae St > Za ObZ lee) ‘Aine az -97 i J yOOSUbI| Lok L- VANOIS | 1002 = ost / \ ‘ \ ogt r \ ; Obl Y Se ! eae 2 . O21 \ i; ant ae \ 2am ayo S98 es. Cees ey SAN ee —~ GS? ——~ gn | en Or See oe r\f 2et 02 ee peer inant -aitiep ess NY J (. ie re ee ee eres a, ee ere ee oa A 09 NG Qn 1s AGEs bb] FG 7G IG OG Gb -U91}0}5 (say [OD2NOU) NOWWVLS JNOHSNI WoY4 JONVLSIG OS¢e 002 OSI OOl OS i) L661 ‘Aine 67-92 9 yasSuDI] (SEn|OA 9Al}O|91) NIOISSINSNVYL LHONM Rags (s4sjstu) HL43d =A] = (Sajilu jooIyNDU) NOWVLS AYOHSNI WOY4 JONVISIO OSC 002 OSI OOl OS a) — L66l ‘Aine 67-97 9 y9SuDI} (Sa@n|DA 8AI}D|91) JONTOSINONT [2 a). © 2) N (J co) © zl = Oot (s4s}stu) HI 4 (an aCe ss ea 02 Ne HSS, 0 ~uoHeIs ee eA ws oe ONE We 03 5 ication) *MOITMe yee JOMIDEAHOW. i teaninv avitelar) = ingen 5 Peet Miu ge=F CD nee i= ei: ay Sears pope