United States Department of Agriculture,

BUREAU OF CHEMISTRY.—Circular No. 11. H. W. WILEY, Chief of Bureau.

PRELIMIN ARY CROP AND SOIL DATA FOR THE COOPERATIVE STUDY OF AVAILABLE PLANT FOOD.

The data obtained from the crops which have been grown in the cooperative soil work, as outlined by this Bureau, are compiled in the tables on pages 6 to 9, inclusive.

The plan was for each station which cooperated in the work to grow the four cereals, oats, barley, rye, and wheat, on adjacent plots 30 feet square. At the juncture of these four plots the sample of soil was taken. This was done by laying off a definite area, 4 square feet, and taking the soil out to successive depths of 9 inches, three depths being taken. These samples of soil were forwarded to the Department of Agriculture. Here control pot experiments were conducted, the oat plant being used, about 25 kilos of the first 9 inches and of the second 9 inches being put in separate pots in each case. The soil from the third 9 inches was not seeded.

Table A shows the data from the plots calculated to pounds per acre. The crops were harvested even with the ground and the grain was not separated. The numbering is the same throughout the tables and cor- responds to the number on the soil samples that were sent out. The blanks indicate that the crops were failures, but pot experiments were conducted on all the soils represented.

Table B gives the data from the pots on the growth of oats. The pairs of columns in parallel indicate the first 9 inches and correspond- ing second 9 inches of the same soil. The weight of the soil in the pots is given in the first pair of columns, the weight of the total crop in the next pair. In the third pair the crop weight is calculated to parts per 100,000 of the soil, in order that they may be comparable. This is necessary, as the weights of the soil used were not constant. In the fourth pair of columns the figures represent what the yield would have been on an acre in area and to the same depth and under the same conditions as existed in the pot. The other columns represent the amount of plant food that was removed, expressed in parts per million of the soil.

1The samples were put through a 2 mm. sieve and were very accurately sub- sampled by a sampling machine. A 4-pound sample of each of the first and second 9 inches from every station was sent to each station. Reserve samples are on hand and can be supplied when wanted,

Bees =

Table C shows the percentage composition of the crops that were grown on the plots, and Table D that of the crops which were grown in the pots.

Letters were addressed to the stations, asking that a history of the soils be furnished. At this time six have not replied. The data on these will be furnished later. The questions asked were as follows:

What is the native vegetation of the soil in this locality ?

What was the vegetation on the plot when prepared for the experiment ?

Was the soil virgin ?

If cultivated, give crop, yield, and fertilizer used for the years 1901, 1900, 1899, 1898, 1897.

Was the season favorable for the experimental crops grown this year ?

Were the crops on these plots injured by insect or plant diseases ?

Is the soil alkali? Was it irrigated ?

Give geological origin as far as possible.

DESCRIPTIONS OF SOILS.

North Dakota, Soil No. 1.—Native vegetation consists of prairie grass, weeds, and rosebushes. This land has been under cultivation twenty- two years, every year in wheat, with possibly one or two exceptions when other grains were grown.

The early season was wet, making the planting time three weeks late. Crops not injured by insects or disease. Soil is somewhat alkali. Was not irrigated, and the season was quite unfavorable for an average crop. The soil was formerly a part of the bed of Lake Agassiz.

Minnesota, Soil No, 5.—Native végetation is scrub oak. Plot vege- tation was timothy, in 1901 yielding 1.84 tons. Ten tons of farm ma- nure were added per acre. In 1900, timothy yielding .65 ton; in 1899, timothy yielding 1.25 tons; in 1898, wheat and flax as nurse crop seeded with timothy, the nurse crop being cut for hay. In 1897 the crop was corn, cut for fodder, yielding about 14 tons of green fodder.

Season favorable. Insects injured wheat. Is not alkali; not iri- gated. Geological formation is glacial drift.

Wisconsin, Soil No. 7.—Native vegetation is oak, maple, and elm. Crop for 1901 was clover, yielding 2.8 tons per acre. In 1900, oats and clover. Oats cut for hay, yielding 2.6 tons. Clover cut, yielding .9 ton. In 1899, clover for silage, 17 tons per acre. Dressing of barn- yard manure added. In 1898 and 1897, hay. Crop was not weighed.

Season was very unfavorable. No insect or disease injury to crops. Not alkali; not irrigated. Geological formation, glacial drift.

Michigan, Soil No. 9.—Native vegetation, beech, maple, and ash. No vegetation on plot previous to experiment. No cropping in the last five years.

Season was too wet. Crops injured by rust. Soil not alkali; not irrigated. Geological formation is drift, glacial, or possibly alluvial.

Vermont, Soil No. 11.—The native vegetation is a grass similar to

bluegrass. The native woods are largely conifers. The plot had been in sod for the eleven years it was owned by the station and for some years before. Hay had been cut off yearly. No fertilizer had been applied during the eleven years.

Season favorable for these crops. No injuries of any account. Not alkali; not irrigated. Geological formation is glacial drift.

Maine, Soil No. 13.—The native vegetation is a mixed forest growth. The plot used was a cultivated garden spot. In the past five years various kinds of garden truck have been grown, the soil being treated with stable manure and complete chemical fertilizer.

The season was favorable. Oats slightly, and barley severely, rusted. — Not alkali; not irrigated.

Iowa, Soil No. 15.—Native vegetation grass. An upland prairie. The plot was stubble land. In 1901 cereals were grown. In 1900, sorghum. In 1899, sugar beets. In 1898, winter wheat. In 1897, clover. No fertilizers used and no record of yields. Soil not alkali; not irrigated.

Illinois, Soil No. 17.—Native vegetation is prairie grass. Plot was in oat stubble. No records of the yield. Had been used for miscel- laneous testing of varieties.

Season was favorable but very poor germination of seed, or too light seeding. Soil not alkali; not irrigated.

Ohio, Soil No. 19.—Native vegetation is white oak and dogwood, with occasional chestnut. Plot was in short corn stubble. Soil under cultivation sixty years or more. In 1901 corn was grown; in 1900 and 1899, clover and timothy; in 1898, wheat; and in 1897, oats. Season was moderately favorable; no injury of any kind to crops. Soil not alkali ; not irrigated. Geographical formation is a thin sheet of glacial drift lying upon and largely modified by calcareous sandstone.

Missouri, Soil No. 23.—Native- vegetation is rather large forest trees of oak, walnut, elm, and hickory. For the past five years the land has been in wheat, followed by cowpeas, these latter being cut for hay each year. In 1887 an application of barnyard manure was made. Since that time no fertilizer has been added. This soil will produce about 25 bushels of wheat in an ordinary season.

The season was fairly favorable, but the seed for the crop was received too late for that climate. Wheat, rye, and barley are not well adapted for the climate, and the oats should have been sown much earlier. The crops were not seriously injured by insects nor disease. The soil is not alkali; usually shows a slight acid reaction. Was not irrigated. Geo- logically the soil is derived from a fairly pure limestone decayed in place. The surface soil is about 18 inches deep, with a stiff, retentive subsoil underlying. The depth of the soil to the limestone is about 30 feet.

Kentucky, Soil No. 25.—The native vegetation is black walnut, sugar

4 <

maple, blue ash, elm, oak, hickory, Kentucky coffee tree, buckeye, locust. Wild flowers, such as violets, spring beauty, adder’s tongue. Weeds, as ragweed, Jamestown weed, buil thistle, sneeze weed. Besides bluegrass, the following grasses are occasionally observed: Elymus, canadensis, virginicus, festuca nutans, agrostis alba. The plot had been a Ken- tucky bluegrass sod for a number of years, at least as far back as 1886. It was cleared and cultivated many years ago.

The season was too dry and the stand obtained was not good. No observations of injuries due to insects or disease. Soil not alkali; not urigated. Geologically the soil rests upon what the Kentucky geologist calls the upper part of the Trenton limestone. These beds are desig- nated Lexington limestone and Flanagan chert by the U. S. Geological Survey, the Flanagan chert being a very characteristic horizon. The soil is thought to have been formed in place by the disintegration of the limestone above the horizon, more particularly the lower Hudson and the upper layers of the Trenton, the latter being very phosphatic, thus giving a very high per cent of phosphate in the soil.

Virginia, Soil No. 27.—Native vegetation is bluegrass. Plot had been used many years, but no manure applied for several seasons. Corn and beans grown mostly for some years. |

Season very bad and dry. Soil is not alkali; not irrigated. Geolog- ically a limestone-clay soil.

Arlington, Soil No. 29.—This soil is from one of the Department’s experimental farms, located at Arlington, Virginia. Previous to its pur- chase for this purpose it was an old field that had been in grass sod for some time. The sod had been taken off and used elsewhere previous to this year’s work. There is no crop history and no knowledge of the application of fertilizers.

The season was fair and all the crops started well but made no head- way, two of them dying out. The crops were not injured by insects nor disease. Soil is not alkali; was not irrigated. The soil rests upon a stiff clay subsoil and is all very poor and worked down in this vicinity.

Potomac Flats, Soil No. 31.—This is a soil from a second experi- mental farm belonging to the Department and located in the District of Columbia. It is a very unusual soil, being a river deposit to a depth of about 50 feet. The deposit is one of the system of the Potomac flats which has been made artificially. The soil is very light and always moist, being about the river level. All crops grow abundantly on it, and cereals are apt to grow rank and fall down before maturing. This was the case with two of the crops grown on the plot. The other two had to be harvested green to save them. The crops were not injured by insect or disease. The soil is not alkali; was not irrigated. This was the first year the plot was used, it having been in weeds prior to this time.

North Carolina, Soil No. 33.—Native vegetation is scrub oak and

pine. The plot was in corn in 1901 and had been under cultivation but the one year. Fertilizer was added that year as follows: Acid phos- phate and nitrate of soda at the rate of 250 and 100 pounds per acre, respectively. Corn was grown on the plot instead of the cereals used in other cases, which were secured too late. The data for this crop are not yet complete. The corn crop suffered from insects. Soil is not alkali; was not irrigated.

Geologically the soil is of the Lamentian system and is formed prin- -cipally by the decomposition of granites, gneisses, and schists, but has been modified to some extent by the influence of water. The soil has been termed a sandy loam to a depth of 7 inches, and is underlaid by clay. The top soil contains from 40 to 60 per cent of quartz fragments, varying in size from a sand grain to double fists, the most common size being from 2 to 8 mm. in diameter.

Washington State, Sovl No. 41.—The native vegetation is bunch grass. The plot has been in wheat stubble and has been under cultivation fit- teen years. In 1901 wheat was grown, also in 1900. In 1899, peas; in 1898, wheat; and in 1897, vetch.

Season was very favorable; crops not injured by insects or disease. Soil is not alkali; was not irrigated. Geologically a decomposed basalt, voleanic origin, evidently wind-drifted. No sand in it.

Wyoming, Soil No. 47.—At this station the crops were killed by a frost in July. The native vegetation is Western blue stem and other grasses. In 1901 the plot was sown in winter wheat and killed by hail. In 1900 the crop was oats; in 1899, 1898, and 1897, alfalfa was grown, giving 3 to 4 tons each year. The soil is not alkali; is irrigated.

The season was so unfavorable that no results were obtained, except

in early grains and potatoes.

New Mexico, Soil No. 49.—The seed were received very late for plant- ‘Ing and failed to make any crops. The native vegetation is tornillo, mesquite, and cachania. In 1901 the plot had been in rape; in 1900, corn; in 1899, millet; and in 1898 and 1897, alfalfa. No fertilizer had been used. The soil is not alkali; is irrigated. Geologically it is a silt deposited by the Rio Grande.

; C. C. Moors, Thief of Sotl and Fertilizer Laboratory. Approved: | JAMES WILSON, Secretary of Agriculture.

WASHINGTON, D. C., January 8, 1903.

| 6'6 |F'STIL'T |8°ZI\0'F |O'STI8'F |T' OL O'ITL'6 [FL |O'SE|F OTL" ZE0'L [2° ST S'S |9°6 [eZ |G°6 |4'¢ |6°8 |0°9 O° TT 62 _/9.8 |G |0'F [°F /9'F [9's (9°7 | =f a ee el a ee | Wao enatae o G* 8T16" 28|"--7|---- 96a Bae aaa a edule aiaiSe |e 2a OKO SeeaGee S20 Olle Ine) 1G |e rE ST /8°F |9°9 |S'OLle'T |o'F |8°8 jeer! 8'F 19'S ISP IPS [8's Io'F IZ°s IFS "7710°F |8° 18'S |--~718.4 |¢°¢ [tar _-_-|4.8_}978_ ]0°6 |2 77/9"? _|h'S_j0' TL FOLIS'9 |L'S |S°SLS' ITL"4 |9°h |e°ST LL IT'S [PF IPS |F'9 [L°S Ibs IFS | 9°8 19'S /6'L IT'SES"L J0°L 16°6 [G11 6'9 |0°8 #8 9'STIF'9 IL’ FLIO° LT/9' Tz 8°F1|9°8 |G°6 |L°0c|0° SE|P SELIG" ALIL' Fz GL |9°P |0°L eUU re je'y [tg far O'OL/8'4 |0°9 |L'SrlF'9 FP Ih F 19°01 8°FL/G°6 |9°OL'8'L|6'F \0'F (0'9 [eZ SYT SOT 8Q'T 89T | 8VT| ST ST ST od -

a/#/2/e|4/el e/g Go) PEW Sey Om lana ise

‘poaoulal

BISsOUse IY POAOWOI OUT

GFL 8°41 0°STT |€°£0T 8°€% 1°67 G'2e T'€ZIO"LE Beh 4°69 9° OP ORE O'TSL /G°94/0° FG [0°68T |4°9L0'ST O'8zia'9ale OFF @LIe0¢ |e e9looc'G LPP |9'9G/4°TS |o°G6 |L°0a F'9% G'OT|L LZI9'SEG EFI Le |F GP 0C9'F GG |e PEL6T [o°Lb_|€'FL/9°GT G'IT)0'0z16' Oz c08 eT et oun" ¢ O:18T |~---|------ O°88T. %'9¢|----|----|n°zel pr e6|---: |------ LL OGL'G = 8°6h|------|z'69._|--~-lo°g |----|8"8 |----le-@e|------|9'88!---- = coe G'h/0'G9 |O'SPL 18°@ |g°OL\P OZIT'Tel----|9°FE.B'8Z. | Te) ---- 7 GIL |pagip's9 |eog |z°¢ le-prT-eelL-9slz" erie Fz9°¢9 le aPloLe S'1z loztipes [6°Se [LIES loeLie PLT seioIz Lor lz FS oLz'z Se =o Fgclres 0°OcE |---"|@'t1l6'er\p'6r|----|9'eF i102 |9°z9\----—~ Sean lo'wjg'2 12:09 |--~7l0°6 \o°6 |e'pt|----jo'9lT'Ge_j9° FBI -777—- Och |8'6Fl8'es |F'GL |e'6zlL°ez's"TZ/8"9el0'29.e°6F.O'sG F'SLOGF'G 0°@9 |9°98/0°%% O° TOL [Z°6T.0'0z O°STIL SOIT OP S'Zele'Ge 8°24 0L8'F LI [PP P'Sh O'8EL 0° F619°G 9°08 0° 9°86 9° LFIL'SP 0°09 O88 L'¥h 6°6F|0' FS 0°G6_ |F'T/8 LLG" 1610" 8a8'LP 8° LP.9°86 8°48 046° OGL 8°89/E'SL [O'POL Z'9G16"ZE 0°8G10° 2916 86 8&6. EGO 0° £6 068"9 1°69 '0P/0'68 9°18 |9°23\F° SL. 9°EZ|F°8z.6'69 & SEG OP |\L"8P 0G9'F e Pp |6'FIe'6s 629 IL ILP 9 (SOLE sLL PRL Tel¢9¢ |€°6C OIL'S C89 [L'ZLIP'SL (0'GOL |G°03/8" 1G 1° €z19°SZ10° FG. 9S. 9'8G 88 00G'F ‘SQT SOT) ‘SOT | SOT |SYT|8'T 8¢T 89°T SOT SUT) “SOT SOT “SOT Sele eS Sarees = [ey Ie 4 S a = = 2 Ae ole eee S a S = > Co eee eae ete eves eee og 3 = Ft = a a = ‘poaoutod ‘poAoutod - PoAOULer YUSBI0d | prow olmoudsoug UdTOAIN

Ae [Pose |

OZ ‘S 089° 09S‘ F |089°% OTs‘S [OFFS | OS'S [OFS '‘F |

(069° |0z9‘¢

0P0'S OLT'P l\OLP‘S \008‘% \OFS’ F \OOT’ p “SOT | SOT ee) 99) te iso) @ a zs a) ited

06419

09r'¢ O8L'% OPL'P 086‘ o19'8

GLP

‘096

OL0° ¢ 098° § 068° | "Sq

88°G PEG /89°G 68°C \SP'G §6°G GE'S \80°S aa € TS" 96'T 96°T (0G°S + |G8°% I6°L 96°G [L’L |L8°S 06°C 0G°S 0G°G FG'G GGG jL6'G 10'S |66'°S 9650 {8651 {6G |$&G 68°G {LG'S jOL'¢ |$0°% l68°G |86°T OL LC (8h T 1VG |&S T aes POG C 18'S |86'T 61°G 60°C IGE"G |9G°S G8°S \06°T | “892 | °89) | wor | U0r {Se eA | 2 | he Ss © | se Q2 |ean BO | ou Or @ ct EELS ate | ‘oloB tod JY.SIOM [LOG

‘(aan sad spunod) 2108 wots paaowas spuanzysuos pun sdowo Jo park Hurnoys ‘vynp OIT—"¥ *

BPLOL Buljole9 yynog

BIULSILA Ayonjuey

aMOT OUIB IV JUOULLO A UBSIOTN UISUOOSI MA BIOSOUULIY BIONVG YOY BIOYVC YON

‘o7RI9

ATAVL

g p 6 61 Ge SSS aa S| OL OML'S* | OLG°S | GL Agi |) GP I & G PGSS | Ra0G ll Se see aa ae ae ee OOLXOT MON | 6F j 9 iz 1 @ 8 He 4G a py AL OY — | CIS | Oe Gat | 12 Ge OG 20 Grae | O80 2 al Same pena =o cee eee SUIUIOAAA | LP 6 SI B64 Ep BIL | Ge AL ee L EVoe a sOCY Teil eOper ss «| Oh vOCGarl acl & |sGe SOs veh OG ula OG | teks ine tet a Gans 0a ene yBIn | CF ¢ OL OL | 96 aL | Oe, 6 = AL Go 1 OS ORT CD22 A | ie | eS OS LOG. Bai IS OGe |e sao ens Gt amma aimee OpB1O[OD | EF 6 G yp OL GE Ly. ne eel OE ii wb |) OSS | OLS Pint |) Gee Pee Sees GlGGe | ERG Eo eae aces ee UOISUIYSV AM | Th re G Cory OL G j FI g Oe OO |) ONS | GB | 0°6 OREGSaEL SCS | IGG eS oO en =) gay ee UOSAQO | 6 T g [Ete iets Caemaeal; T iz Gj @ oer — | WF 7e I art PF 0'F jaa ORS 2S) SLGs— EE oes ae eee eee BpNoly | 2g z Galak 2 Go TE I | P j 2 || OL |) OLE I Be T¢ GG REE = AP Be OG Ce ee BUlfOIBD YINOG | CE ace Gala eG I 6 peer 3G Foe ea la8 OE = |) OA ey = 4 Bip Coleen ORG 6G OOS o> ee ee ee OLE a ON eee ZL CL 1 LG 1G {| 22, COn eG 98 ,| 8S COLE O | OZ | GG | ke | eS eo 8° GS GG | 32 a eee ee i S}VIT OBVULOJO_ | 1g & ize roe G So GE KS fe Se SOL OG/E sINOLGG INS G8 HG = 1 WO ike GG ae (eee VAP ROT peg FS UOISUYIV | 6G g OL G LT Ge = 1'@®. | Boe sw G cg OrG'T | 09124 | OG 6ce | 9 aL | 2 8¢ 0° 9 Ne (mere NR See ce Tha ae BIUISITA | 1% re 8 9 9T Gee 8c Oe | 6 Cea 08h E008 7 | OF Gri |) 2k \e.Ge g° GZ CG. eoe oa aoe een ena Ayonquoy | ¢Z T L G IL Cre OSS L G | Gl | O87 | Oy IO SG | Oi? - eas. exe OGG So ag aie een ea ne LINOSSITY | &% Gee ve Gh re O09 (eeeee cre 7 [we 1 O23 1 OO 166 19% | ee | 6 oy 8 FG 6'GGe.. dC eia eee eS eer rer ae a ee SBsuBM | 1G g L g OL So ats Gaean6 2 Wie | OCU | O07 107 | Gee | OC. | 1s | ie GAP Gals ens ain a geen ne es ao aie oluO | 6 G 8 G 6 CTRF ney = Were 6 G |G | O80 | OM ir | s9 GOT BiGrse CeO Peel OUV Ge oe sae bees 2c og ane ene ean ma StOUNTIT LT ral 6G il |) WG 1 | OE Oy co «| SG | 090 9 | OC8 OF | HET | CLE | 8 9F | 068 | TF GAGG ts see bis Pe eek ea sore, ae BMOT | GT T 6 6 | OI Ql %- | OL Ce iGea Oss O8s'e | 9G DL | FO OPiay |) BPSa CACC ot alge = <a Re SC eae oc a ouIvIT ST g 6 Sree ARG L GG ye - |2U G06 OAL | O82 | Gr AS | Sink | eres 6° GG VGC eee Ne ee ee quounlaA TT g G Gs Sato) Dit Be Gals G B® | OAK | C8he | ME 98T | $°ST Ie 0° Lz ORCS Pate, Rika td Maeno ope gee aa UBSIYOIN | 6 G SI eee Oe") 9 Ceeeiece 0G 00G Ge OSG, 9 | CL s0G Ons T 1g 0° & Cocoa arti ery’ pr Ean, Lae ae eon UISUODSIM | L g FL 7 | GE OL 8s G 61 G | | 06461 | 06¢¢ | ¥¢ OL || OMGe I eg7 BEG tes ROTO Maer ere ooo ea ee ee BJOsouuT = G G I Clee a9 FL Lg i 8 Be NG | (USC | OSG | ae ESTES IRe Cle. Re Op = ke GGe | sOe PGs lp eae Ree rent area BjoyVd yNOG ¢g G GE Oe 8 G6 1) tae 8 iat 0€ | OST'S | O88'F | 89 We |G Lie eras 6° SAPG ae a eee ‘ses eae BjOyVd YWON T | | | spunogd | spunod | SUDA | SULDUD | $0) | $0)Uy | | | | | | | | | | | || = =a -| | | a Ra Ee oe = ea +a ae | at oO lel ee eelee stlee ot ee se] se | ez leelez| ee | ez | ee | ez | 50/64/5015 150/55 156 | 55/150] 65 ae Or ae 55 53 ar 5° 54 | et jar | lar) fap | fet apt at tena | fate Jae =a) an So | pu =e} aH =o an op oct | os oct | os | oe! oS | oa! oB @ ct ome) Oct os @ ct one @ ct os @er | Bite ei ee a | ESTA ae Rn | Be LO elie v AIT | 82 ae Y gai ue @ | eS © | eto) BE = Re) Sp Si 6 a rte) “0 Fray a = £0 < © *94IS ON : 5 ; “pioe ; i BISOUSBI oulrT yse10gd otoydsoug WSF eore é ee nee a10B8 Iod JUST i see ‘sqod UI [IOg -eAtnba doi 000‘00T dodo [8jOL, | ‘poeaAOWU UOTT[Iu ed seg UOCIONG "7008 WOLf pavowas szuanzusuos pun dowa Jo pjaih burinoys ‘(s}00) DIOP J0q@—"{ ATAVL,

ge ee ee ee ee eee ee ee ee aS at

ea ate ce ee cre s(n ame le rea eM SteRwel| ATOM | Se cil eoe UPR MB coe Mr We Re Ca ale aac telat cis ee Pree oe eet Meee enna A ee erat ee fee meen | eee ies (eae! (tae ante yiee,|! enetnd be wcuvat on ames rilipie Tao Son ur nn tniaaeemye lime st *[(y ae creas wes |e ea Ali sd ed calla ore ta] oy recente aes cook eo SE ED aE Een SULLOAM | LE LG 6S" LS" 66" ol G8" 68° FG" 66°T | GOT | PPG | 68'S | €9" 69" OL” PS" 16° L6° oi) alee fs) Ce eee eg ie PERL p00 © a YB4) | oP GG" GG" 6L LG 6G" OV’ LY” 86" 16°G'| 99 T | 29 7 | 26°58 | 2S" &&" LO” gg" SOuDA Pee le i| Gh as SOG sew hes Ce 5 neg: pe ae conn eee OpBLO[O(K) | EF LY sl” GG" ST’ GL toll 1a’ 1G’ 6° 30) eee ie OS Gre: 0G’ 9c” SG" 33° £6" G6" Bee (es) aes be ig s a se UWOPSUISR MA Ip ¥G" ae 66° /e) Li II 0G" 0G" GL LT | dot | OGL | GOS | 69° gg" (oom Gs" 98° Ot Fa) 8 sa a es Ma SE ra oa “OS | 6E RMS | aomae PR eee Bate) SIAN | Se esol Grae cs | Res ER MO Ree lhe se ae pe pee we ed eee e's we alr oo ali gees sete eee ae iPass becasue ies ee eens ration ee aos POMC OT if PAS; Pepa em lh oes a SRS RTOS BER ies Ile Vanes ud Voy 9s oe ea vA |S RRA Reena | Sem lc rope ce ant |e ee tea Unie aN | ee el ened conti anima edt ache emake PUY AE UCIT HEATON! || <efs: Tea sek Ee een ee bl tS al ace ee eae |e Nala bl es has [Pere ag AP eee hee Pee los Pred Fn or leases PNR TIT peace = [Ser oli ea erg near eae BUI[OIBY) UVION | && eae ee erie ee [ke Gee ar Mee esl ROSES nanan ears ero Roe COLGu emmitial owen ewe Teun|tCPpe «| hua iasoll= <a trralle =| Lum a icky ah ole in emma oem eae 0 Te Lg Joe ee Gn Angas 9Cr alam = BIOL Ss we leeeeeea GORA es ee 3 On | ee (SHG J ool aes Oo ina DORR rcrs leh etal Me aes ae ah pee Se preteens =P Se ~ UOPSUTLV | 6 LT ro Oe GG" GG" GG" 61° Li 1s’ 9L'S | 69°T | P6'T | 00'S | OF $9" 6L° 99° STE Ue LEW CASTE |] te ep a TR Pe toe. by ge LG ST” GG" 0G" 9g" 6" i 9G" LY" 16) A TAS an NAY Ge V2 7A 7 Ziy 7 L6° GL | OL oEs lk GOs OOM Es OR aes ls Maan Rhine apne een AyonOM | oY GG" re LU 1G LL GG" re i GC" 96° L8° 68" O0O'T | 6G" 8G" OP" WwW SOM he HOME Soe OG SE Se aie, Man eles ee ems MNOSSTN | &% ree rey ie 6" GQ) Ta 6: 1G’ (YG) ey TE OG, SIG Wp 09° OP are a SPT GOrGel VESE Tal o= yet ene SEED ence ne SN ULC te roeeee 6G" 3G CGisean | meateeea (ines Gn LY Cher PIE OSE ol IE eo ol) BEEP oo ORS Se OG aS CORTE ISG Ae da. 2 coe iy maa 0 Senne am Camara OL CO) er ee a ay egal He a Wace a a racy mia A ae mm tk asa ee gL as a a aa ll ny tc Un [cabal Sh haba Na Ceci iam ahaa es Ste stout] | LI 6." 0G" 6° CG" To" Go" Ly 1S" 66°T | 09'T | 68° ST | Vo §L° 6L° 69" CORE We SSabe PGCE ILGR EO aes. Vag Cee es ae ead og ne BMOT | GT tL Th LV cL’ ro) Oe a OL GT 66° L | 08" P38" 84° | OF WW AS CM yp OE reer PSN GOMER Seepee hat: el ee Icke Regs ~ OUTBIT | &T GG" LTS SG" LO 6L Io’ 6G 9G" 18° Sol Gols Ole Salad: LL’ 68° 6L° Someries espa ee Ome pe aa, cea ee tmnt yUOULLOA | TT &G" 0G" 0G" 6G" GG" 9S" OV TP oo LT | 861 | Zo L | $40 | 0G Gy a9" SG Coe We eek ES Gea WAS Ne Al Ee OP ee anes Sr aS UBSINOTN | 6 &@" ro A GS" 0G" 6G" LS" ic 36 G | SPL | 68 LT} GZ T | 88° (Com SU a OLE EPA | Ses mis GO| Micro ke |: bln eee ean Reka aes Be ~~ UISUOOSTM | ZL ST’ cL LY CG" 1 LT ol 16" 6c°T | $8°T | F6° 09° LT | 09° To’ 19° 9G" OF Gee bad be rece] Ba lRelp elo Sic 60 a ees id Meare Meee BIOSVUUT | & tS" O08" 1G’ Is” GG rol i Lo) Lo" SGT | LOL | POL |) 92 TL | OF 9G" 68° (cm CHANG Wafer CIE WS Uo Pa ate BjIOYVCT YNOG | & LG 1G" 9G" SS" ol 80° SE fie CoE GOT | OO L |) COT | G8 | 6 SP typ. PAR): 66°T | 96° Cy A Cl EAU) eee ee a er eS BIONBC UPON | L | | pe

Sree ne eee est Pee SS NS A Sele ged ee rt wl Saree ey ned wl Oc) set Gist al ied lee

= el 9 po > tj po 9 = 14 g9 is s | 9 69 =) el 9 i

= q = o> ick alice gs eae late | ee ae lel a “OWUIS ‘ON

(OST) BISOUSRIT (OBO) OWT (OSM) USRqod *(£O%d) plow olmoydsoyg | "(N) WadO1IN | “ | |

*sdowa 20) JO worrwodwmod ahn,Wad4a_T—"Q ATAV],

ae, on ee ee oe ee ed

9S cy 6L'T IDL 00°% 86°T OF Cg" r0'T Get Leas Ce hea ont tales ieee ieee eae OOIXOTT MON g9° qq’ OF I 08° 06'S cI'é C6" L6° LET VeiGral Reereareeeuptsaminith an bet ae Snery = Pye ean 5 SUIULOA AA. cg’ TL GOS IL'T L18°§ 68°F cS 00°T 6F I | OLT SR Sc1D 5g ke Sake Lora aor ie Sen rece an ave aca yein cg Ww 80°S 90° T 69'S | 60°S GS" 8g 96° i RP TE PSeRNe et an pe yee PR OpR1o[op Ga 8s" TO'T €8" G7 S PLS 19° 6L° 60 'T ieGileale eS IER oy cet: er oy as ~~~ UOPSULYSB AA JAS? 9G" cs" SL 16°C PLS 89° 9¢'T 16" EE TE ay comer MRNAS ator te TS mr als sos ae uUOSsIIO 09° 0s" Is’ 06° IGT Go I 09° 6" 60°T Ger: Peron Tone rule Nemes Ma Sap E BPMOL Wy 0s” GS 09° 6° &6'G 0G°S LV PL. 88° | GV LT ae Reere a TE ern arta as cee Bulloleyn YyNog bs 0c gg" ria LG T 68° T 6L OR es es | aoe tee al 9° T IPs Supt osu, Manan neta Onn pier PA SSL BUI[OIVD YJION 1G GG" 68° 16" 8L'G 69'S C6 CS" 6G T | 1ST bays pole aye pais cane Mer rN SVL OVULOJO”T 66° cq" OF 9G" TL | Ser Ie 66° Gi .) ian GGul Resend Cos aches Wala cs Aiea WOM a A Abie uo SUL IV §G cy G6" GL CSG IL'@ 69 T cet C6" | GGT RRR Smee as Gear pana eat a pe See BIULSITA Tg" 6G" ve T OL T ¥6 T L6°T 9G PL 1 6L'T | WT Se EOSaen ene kta apc Es airmen ar tee Ayonjue 69° LY PS 1 PL 69° T 96° T 36" 6F 661 PGoen ea © alia Seek ioe ays GaN On Eat g Leena LINOSSTJT TL 9G" €&6' 1 06° F0'G €S°S &s" Sr LG T. Gel |S esata Se OSy (ete gs ure teenage SBSUB YS O08” GG: GL” 08" 6L'G 86'S sg" 89° 60 T A deiee IL (Seitntl A. eg he og ea etic exe onion ae oro 08" 09° cs* CL cs 1 9G°% 9¢° L9° 6S I | T9°T es Sir ee GuLEeR] Ce aNE eit ee a ee SIOUT[T Co pL GL’ 6G" iam Og TL 08° 60° T FLT Gye AN orem inane @raasuseie halter La Eee BMOT GP LY 09° LG" F0'S 66° & LE cq: lg Gpae cee. ec es) Nee Rane ee Ca ee To anlE yy hmesl rico cats ay ap. = OULB I LG 09° G9" 8c" scl SPT 86° 80° T LUT ee St Sie Deeceers CONAN ENO eee Dan gee ene Rare We Sn Se Ea ober Fe JUOULLO A 19° PG" 16° GL $0'§ 61'S 8G" 96° 88" VARI Reon bay Enc ony Gam MRE Ope qiecta ts er pon UB SIO G9" G9" 9G" 0s" GG 68 I CLT 89 T 60° T 90° T lca tats (eee eate Tie oa, 2 aa ml a rep ar ea a a UISMOOST MA Sg" &Z bl’ 00° T 06°T £0°% 68° 00°T €60'T (Call Gp eee elon ROR R Maina ASE ES CARGO Amora rah BIOSOUUTTA pL OL 2" $6" 98° T 86° T LS" cH 16° iA Col ee em nigel eaters ce NP SINGS Dy beat eae Tee aa Boxed YNOGS SL QL" oe 8G SI's 10'F 59° 6G" 99°T jhe hecemttge ht ree Shin aot beth es Seg ee. SASS Ty Pah BIOYVC YLON “Soyoul *SOoUOUL “SOlOUL “SOlOUL “Soyoul “SOYOUrL “SouoUl “SOlOUL *SOlOUL “Soyoul 6 PUDDY§ 6 ISAT 6 PUODIS 6 ISLA 6 PUDDIS 6 ISILA 6 PUOIIS, 6 ISILHL 6 PUOVIS 6 ISIN | "31818 = (OSI) BISoUsSeIN (OBO) SULT (O&M) useqiod *(£O%d) plo® ofsoydsoud “(N) Wes O1IN |

*(sq00) sdowa 20d Jo worrsodwos abnzuawag—'q ATAVL

| |