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Home My WebLink AboutSDP201300006 Assessment - Environmental 2013-01-22 a„r vnf ALBEMARLE NELSON FLUVANNA Thomas Jefferson Soil and Water Conservation District 706 Forest St, Ste G Charlottesville, VA 22903 975-0224 February 8, 2013 TO: Megan Yaniglos Planning Department RE: Soils Report for: Peabody School RECEIVED F E4a 1 4, 413` lxf.Javiui'l DEVELOPMENT l ! 1 r . ".0111..0111/..- SP tajtt 7.' 41 F gig 0 „,_ 7 , ,c.) 13 , , , ,,.., , , „. . , :,„,„, ,, . ...,,4` 2``� s. ,, l'f-' , ,,,f .,.. t 1 H7.4B \ '4.1C' 215 — * '-'.'''' ' ' ' , , , . ) ) 7(7 i 7N / ‘)k ' '. /' /)\, 1 ' \ !....)" / -'-' , . A b ,O €, ' / / / -.,may t s,I L /� _ j , d 1 M 3 a ,.6 4 �' r r r \ tt srr � _ /D 7 ie ; / 3� ;3;g, ft,' IQS - 1, .4'.''. (. � r j{-"� f 1 �z - � a.( , 8 .w\ _ t. C\27h ` I C / ,�rt1 ,,r., } 2C ',i P I�,. iY ,/63/ 'C ` ''8 1 .'_x�.�. % ) / ✓1 f ✓ ? ! t'i�: s' 1.' , +f x, z. 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F Yr ,✓ „- r,. 3y, -,2,,,.:3„ ,aa: /J E ! � r Ir✓ j --;\-1 3B (^ J// zlLa 7C7)- --v � 718 1 (- 1 yf)\ ,,r -/'' �/� 748 72E 3 �e 7 C 2fj � j / f 1 t for?�/�/7 / 1,', -y�/ � r.� � p � � � ` 1 �i \ \ ' �x▪ �i � x /� t t 718 � A-,�� 1"�, ,I (� r {� / /f t X58 2 t� ',/it� / 7ak3 s; f I i 11 r' r—__. I I/ f � 1 i, , ,- f„,,,../ --,$) Als.,, /., , ,,,,: , . . ... .. . . . 3JE Y 58G �r'' ( v 1 a <, Mr.� „+ fir.., 13t t s�� , , Map Unit Description (Brief, Generated) Albemarle County,Virginia [Minor map unit components are excluded from this report] Map unit: 2C-Albemarle fine sandy loam,7 to 15 percent slopes Component: Albemarle(80%) The Albemarle component makes up 80 percent of the map unit. Slopes are 7 to 15 percent. This component is on hillslopes,piedmonts. The parent material consists of residuum weathered from metasedimentary rock.Depth to a root restrictive layer,bedrock,paralithic,is 35 to 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is low. This soil is not flooded.It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 3e. This soil does not meet hydric criteria. Map unit: 15D-Chester very stony loam, 15 to 25 percent slopes Component: Chester(75%) The Chester component makes up 75 percent of the map unit.Slopes are 15 to 25 percent. This component is on hillslopes,piedmonts. The parent material consists of residuum weathered from granite and gneiss.Depth to a root restrictive layer is greater than 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is low. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 6s. This soil does not meet hydric criteria. Map unit: 20C3-Cullen clay loam,7 to 15 percent slopes,severely eroded Component: Cullen(80%) The Cullen component makes up 80 percent of the map unit. Slopes are 7 to 15 percent. This component is on piedmonts,hillslopes. The parent material consists of residuum weathered from acid and basic igneous rock.Depth to a root restrictive layer is greater than 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is very low. Available water to a depth of 60 inches is moderate. Shrink-swell potential is moderate. This soil is not flooded.It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 1 percent. Nonirrigated land capability classification is 4e. This soil does not meet hydric criteria. Map unit: 21 B-Culpeper fine sandy loam,2 to 7 percent slopes Component: Culpeper(80%) The Culpeper component makes up 80 percent of the map unit. Slopes are 2 to 7 percent. This component is on hillslopes,piedmonts. The parent material consists of residuum weathered from meta-arkosic sandstone and quartzite. Depth to a root restrictive layer, bedrock,lithic,is 40 to 79 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is moderate. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 2e. This soil does not meet hydric criteria. Map unit: 21C-Culpeper fine sandy loam,7 to 15 percent slopes Component: Culpeper(80%) The Culpeper component makes up 80 percent of the map unit. Slopes are 7 to 15 percent. This component is on hillslopes,piedmonts. The parent material consists of residuum weathered from meta-arkosic sandstone and quartzite.Depth to a root restrictive layer, bedrock,paralithic,is 40 to 79 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is moderate. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 3e. This soil does not meet hydric criteria. USDA Natural Resources Tabular Data Version:8 Conservation Service Tabular Data Version Date: 12/15/2008 Page 1 of 3 Map Unit Description (Brief, Generated) Albemarle County,Virginia Map unit: 21 D-Culpeper fine sandy loam, 15 to 25 percent slopes Component: Culpeper(80%) The Culpeper component makes up 80 percent of the map unit. Slopes are 15 to 25 percent. This component is on hillslopes, piedmonts. The parent material consists of residuum weathered from meta-arkosic sandstone and quartzite.Depth to a root restrictive layer,bedrock,paralithic,is 40 to 79 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is moderate. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 4e. This soil does not meet hydric criteria. Map unit: 22C3-Culpeper clay loam,7 to 15 percent slopes,severely eroded Component: Culpeper(80%) The Culpeper component makes up 80 percent of the map unit.Slopes are 7 to 15 percent. This component is on hillslopes,piedmonts. The parent material consists of residuum weathered from meta-arkosic sandstone and quartzite.Depth to a root restrictive layer, bedrock,paralithic,is 40 to 79 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is moderate. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 4e. This soil does not meet hydric criteria. Map unit: 39C-Hazel loam,7 to 15 percent slopes Component: Hazel(80%) The Hazel component makes up 80 percent of the map unit. Slopes are 7 to 15 percent. This component is on piedmonts,hillslopes. The parent material consists of residuum weathered from graywacke sandstone and mica schist.Depth to a root restrictive layer,bedrock, lithic,is 20 to 40 inches. The natural drainage class is excessively drained. Water movement in the most restrictive layer is high. Available water to a depth of 60 inches is low. Shrink-swell potential is low. This soil is not flooded.It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 1 percent. Nonirrigated land capability classification is 3e. This soil does not meet hydric criteria. Map unit: 39D-Hazel loam, 15 to 25 percent slopes Component: Hazel(80%) The Hazel component makes up 80 percent of the map unit. Slopes are 15 to 25 percent. This component is on piedmonts,hillslopes. The parent material consists of residuum weathered from graywacke sandstone and mica schist.Depth to a root restrictive layer, bedrock,lithic,is 20 to 40 inches. The natural drainage class is excessively drained. Water movement in the most restrictive layer is high.Available water to a depth of 60 inches is low. Shrink-swell potential is low. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 1 percent. Nonirrigated land capability classification is 4e. This soil does not meet hydric criteria. Map unit: 47C-Louisburg sandy loam,7 to 15 percent slopes Component: Louisburg(75%) The Louisburg component makes up 75 percent of the map unit.Slopes are 7 to 15 percent. This component is on piedmonts,hillslopes. The parent material consists of residuum weathered from granite and gneiss.Depth to a root restrictive layer is greater than 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is low. This soil is not flooded.It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 1 percent. Nonirrigated land capability classification is 6e. This soil does not meet hydric criteria. USDA Natural Resources Tabular Data Version:8 Conservation Service Tabular Data Version Date: 12/15/2008 Page 2 of 3 Map Unit Description (Brief, Generated) Albemarle County,Virginia Map unit: 47D-Louisburg sandy loam, 15 to 25 percent slopes Component: Louisburg(75%) The Louisburg component makes up 75 percent of the map unit. Slopes are 15 to 25 percent. This component is on hillslopes, piedmonts. The parent material consists of residuum weathered from granite and gneiss.Depth to a root restrictive layer is greater than 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is low. This soil is not flooded. It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 1 percent. Nonirrigated land capability classification is 7e. This soil does not meet hydric criteria. Map unit: 58C-Myersville silt loam,7 to 15 percent slopes Component: Myersville(80%) The Myersville component makes up 80 percent of the map unit. Slopes are 7 to 15 percent. This component is on interfluves, uplands, foothills. The parent material consists of residuum weathered from greenstone.Depth to a root restrictive layer,bedrock,paralithic,is 40 to 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is low. This soil is not flooded.It is not ponded. There is no zone of water saturation within a depth of 72 inches. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 3e. This soil does not meet hydric criteria. Map unit: 77-Riverview-Chewacla complex Component: Riverview(50%) The Riverview component makes up 50 percent of the map unit.Slopes are 0 to 2 percent. This component is on river valleys,flood plains. The parent material consists of alluvium derived from igneous rock.Depth to a root restrictive layer is greater than 60 inches. The natural drainage class is well drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is moderate. Shrink-swell potential is low. This soil is occasionally flooded. It is not ponded.A seasonal zone of water saturation is at 48 inches during January,February, March, December. Organic matter content in the surface horizon is about 1 percent. Nonirrigated land capability classification is 2w. This soil does not meet hydric criteria. Component: Chewacla(40%) The Chewacla component makes up 40 percent of the map unit. Slopes are 0 to 2 percent. This component is on river valleys,flood plains. The parent material consists of alluvium derived from igneous rock.Depth to a root restrictive layer is greater than 60 inches. The natural drainage class is somewhat poorly drained. Water movement in the most restrictive layer is moderately high. Available water to a depth of 60 inches is high. Shrink-swell potential is low. This soil is occasionally flooded. It is not ponded.A seasonal zone of water saturation is at 12 inches during January,February, March,April, November, December. Organic matter content in the surface horizon is about 2 percent. Nonirrigated land capability classification is 3w. This soil does not meet hydric criteria. USDA Natural Resources Tabular Data Version:8 Conservation Service Tabular Data Version Date: 12/15/2008 Page 3 of 3 Nor *owe N a) d a) a) a) a) 0 'al P-) t0 L @ 2 2 2 P. t C N a) a) E' a a) a) a) a) 0) O C a = V a V V a = N O o U 2 2 2 2 2 2 L a) O O1 a) U j a O m a 0 0 a) 0 0 E 0 a) m t m 2 m m u O N a) O m a) a) a) a) O ar U y a J = a a a a J g_ 0 N O E d a) 0 a) a) a) a) a) £ a) c m m a) m a) a) m m >` C U a a 0 v 13 13 a a ° a O a1 Z 2 2 2 2 2 t N L' O a m L 1- a o 1 1 1 1 1 1 1 1 a) O c a) a N 7 TO ' 1 C , i • 141109 'Noe a) a) a) a) 0 a) g N L (0 N N N 2 m N C c 01 -o "06 '0 '00 '00 E O m N on a) U S a O m Y a) E Oa) O O O 0 O 0) d c N J J J p J I c D 2 y 0 `O E a) N a) a) £ co N w C a) a) a) a) 0 >. C O C C C C a) U a O O '00 O O ° Z)Q LC O Z Z o Z Z ; 2 t r ° a E g To i i i I i i C c a) v N 0 U) Ttl C i i i i i i CO 0 c) -0 N a) 0 LA C >+ a) N 0)0 E C d w C o ai 3 >. -co` in E I I T I i a) 0 RI c c = z8 ( c LL 0 > v a .N MOM m m > '0 E m m Cl) .0 I o a) a') - i i i i I i 1E i- al as I— a) > U U) O a) c) O Ce L 0.0 = o i i o i i a) N a Y o Y U 0 O` O "0 0 a) Y a I i L i i V r l0 J a u) '; Col y CA co Z v co ID co a) u) N 0 12 3 0 0 I n J r- J a0 V = �co d' V' LL) I-- '411.10 *IWO N X • � -p._ N a, 0°�ja c 0) v CO E a • o a , L_ o co O) c•6 a z a p- O co in t0 co N.- O) E L U a) 0 co u) M a C ,_ O y U o w C Y O N 00 t ( N M N I I 00 a 0) N N a a a •N N N I N- OO f` O M N x- N t I E p ar Co o r r1J 3 O N oo I I a r` 0) a a a 1 h 03 r- I,. 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N 7 I 1 M N 7 1 i M N — 7 1 1 3 0 t N C) O O In In O In In In O In In In a C N N O O O N O Si O I N 0 0 0 I I 03 V 13 2)as a o co 0 0 l l o 0 0 0 l 1 0 0 0 0 1 1 H p 4- 6 0 0 6 0 0 0 6 0 lc - a) o) a o; 0) w a) CD a) CO a) a) C U N n In N N In In N N In In N :? a o •0 • • 1 1 0 0 0 0 1 1 0 c 0 0 1 1 -I x o (6 ri o o ri ri o o cc; ri o a) a) ], In co a) CO In CO 0) In U) CO a) In m 0 2 6 0 0 0 0 0 o q 0 0 0 0 'm t0 n S _0 co co' co 1 1 0 co co co 1 1 0 co co CO 1 1 0 CI) a 3 U CO 0 0 0 0 0 0 0 0 0 0 0 0 CO 0 }1 N L CO If) ) v U._ y 0 0 co 0 0 00 0 0 0 0 0 00 0 0 0 0 0 00 N «._ \ 0 0 0 0 0 . 00000 0 0 0 0 0 E •t.7 N a a N N N N N N CV N O O > @ f6 7 pO i � O i i 0O i i i N a Z. T C L 0 • 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C U O O O V O O O O V O o o o o > 0 = U V O O O 0 E 0 O Cl) 0 0 N f0 Y O co O co O O O O O O O O N RI E 7 M 4 tIy M ') In . r) 4 In co 7 as V N N U 1 ; f0 •N y = oolo0 1 1 0010 1 0010 1 � � >% ¢ 2° a rrCe- CO t a a 1- In In O O In u) o O O In C3 O N U N In �' N N U? N • • 1" In I N I U a o I() 0 0 1 • o In o o l 1 n In o o l 1 M M M M N M CO a I i i i , i 1 1 1 1 1 1 1 1 1 1 1 1 coa 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 s co O In O 0) O U) 0 ) n In 0 a) y D aO O C co M I- I1 f a0 co M sI IC N M M I In I r V U) o 03 0 n I) 0 O n I[) O O co 0 N- U) 0 raj •� co 0 r) IM a In M CO In r) r) In 6 U y 61 con O C CAlt-y O R m o E iR. 6U E C w— O o.u) 4 zc...) g Q a a a Ic) n 6,.i .. N N N • softy° Note x c ��o (0 0 a N.o c CO ao U) E a • O t M O O) O) CO C"0 7 3 d O- 0 co Lo M co CD a)a O E t U N N C N H N N CO M a w O °w U w `o N CO N i N OD N a s a s r- N fc E O Y M N M M N M � N N N N M co M i E L N O >` W 3 N a a i N a a o a s a s f- N N o M N N I M N N 1 N N (NI N CO CO M I 3 0 f, U O CC) U) O in LL) O LO 0 CC) 0 LL) LO o. N= 3 tV 0 0 N O O N O N O d Er)co a ui o o I Li) o o I 0 o '4) 0 0 0 0 E, p o 0 0 0 0 0 0 0 0 0 '- o o lc rn rn 0) CD CO 0) o) 0) CO 0) 0) CO CO CU N N N i N N N i N N N N N N (Ni 1 _ a o 0 0 O o 0 • 0 0 0 0 O C7 O J X 43 o O o o O O O O O O O O O N >, CA co a CA co .-NV...N .-N N O CO -- _m o g o i g q o 1 0 0 0 0 Si Si 0 1 Fs 3 m c a CO CO a o 0 0 0 0 0 v a 0 OD 0 0 0 0 0 0 0 0 0 0 0 0 0 Oo N t CO 0. _) 0•0 ° ° ° °° ° ° ° °o °o °o °o °o ° °o °o °o at- CO 0 0 0 0 ° o 0 0 0 0 0 0 0 ° o 0 o a) aO a �� o O o a o 0 o a o ° o o ° o O O > o O L O �- N N N N V' V' O C= 'O 0 U a s a V' :° O U m •� Cr) m ° m `m O O u) 0 0 u) u) o u) 0 0 O 0 CO > CO E 7 4+ to LO U) Ca LO If) 'T. Cn V; i1) u) L) Lt.). 7 CO JO m m 'N w 0 0 0 o 0 0 o 0 0 0 0 H Q .� N (Ni M N N M N M N M N N N Ow I- >. O 00 CO C N OD CO • LO CO u) CO N 0 M CO U N a- .- .- r U a In o 0 Cn o 0 1 Cn r 6 0O O a 1 1 1 1 ! i i i , i 1 1 i 1 i 1 cn a I I I : 1 i i 1 1 1 i i i i i i N 6 0 0 0 6 0 0 0 O u) o o ti co a z '�" Q N M N M N a Casi 44 —1 l.+ CO N = = Cn (1))5 'R O a° z � M �a m 2, Q ° ° ° - a a > Q a) a) w u) `� a) Cr) (+1 a a u) X x cv o—-o CO i° UU) '' y a.c E 0 L_ -a- a) a 0)CO c MS.7 C d 1- m N E r u m m y i- to to C ° N i w `o c Y CO N N- N M N CO N E N O r L.L.i Y N NY N- CO N 00 N CO 0 ch N 7 N ch N ch N 3 0 s U a O O O O O O O n N = U N ,- E 01 co a In U in O (n (n Ln l() l'Q E O O O — 0 0 0 0 H CO 0) 0) 0) 0) O) 01 0) 0) CE U N N N N N N N N w a O O O 0 0 0 0 0 J X O O 6 O O O O O O N >' O O N N N ,- 'Cr N N O 'Cr a) 0 - O q cii 0 3 N . (D it) U) U) N ([) U) 0 Q' u CO 0 0 0 0 0 0 0 0 0 0 0 N L _ fC � w E O O O O O Q. o N O O_ 5 co O O O O O O O C 0 5 f0 c U E N w 7 o CIL >:. N >.C _o 0 0 Q O O O O O � 0 L U Ni 4 4 •V• V a 4 V O O .o U f0 ` Cl) w 0 d Y (0 RS E 7 (D "1 (D LO (D U1 (D CO 47c 0-o 02 U ,D.N _N C p1 O O O O O O O O H CL 1- N U N CO Co (M M Co Co U a o co . 0 co uo co 0 CT) a i i i i l l i l v to a i i i i i i .c N U) O) (O (D O 0) a _ CLJ CO N- CO N h CD CD 0 O O . M O O N .7 Z 7 C.0 yy O• O CA —• 0 CO RI O E t. 10 E (5 O ° a CO C z 2 = 3 m Q 0 Dwellings and Small Commercial Buildings • Albemarle County,Virginia [Onsite investigation may be needed to validate the interpretations in this table and to confirm the identity of the soil on a given site. The numbers in the value columns range from 0.01 to 1.00. The larger the value,the greater the potential limitation. The table shows only the top five limitations for any given soil. The soil may have additional limitations] Pct. Dwellings without basements Dwellings with basements Small commercial buildings Map symbol of and soil name map - unit Rating class and Value Rating class and Value Rating class and Value limiting features limiting features limiting features 2C: Albemarle 80 Somewhat limited Somewhat limited Very limited Slope 0.37 Depth to hard 0.42 Slope 1.00 bedrock Slope 0.37 Depth to soft bedrock 0.01 15D: Chester 75 Very limited Very limited Very limited Slope 1.00 Slope 1.00 Slope 1.00 20C3: Cullen 80 Somewhat limited Somewhat limited Very limited Shrink-swell 0.50 Shrink-swell 0.50 Slope 1.00 Slope 0.37 Slope 0.37 Shrink-swell 0.50 21 B: Culpeper 80 Somewhat limited Somewhat limited Somewhat limited Shrink-swell 0.50 Shrink-swell 0.50 Shrink-swell 0.50 Depth to hard 0.42 Slope 0.13 bedrock 21 C: Culpeper 80 Somewhat limited Somewhat limited Very limited Shrink-swell 0.50 Shrink-swell 0.50 Slope 1.00 Slope 0.37 Depth to hard 0.42 Shrink-swell 0.50 bedrock Slope 0.37 21 D: Culpeper 80 Very limited Very limited Very limited Slope 1.00 Slope 1.00 Slope 1.00 Shrink-swell 0.50 Shrink-swell 0.50 Shrink-swell 0.50 Depth to hard 0.42 bedrock 22C3: Culpeper 80 Somewhat limited Somewhat limited Very limited Shrink-swell 0.50 Shrink-swell 0.50 Slope 1.00 Slope 0.37 Depth to hard 0.42 Shrink-swell 0.50 bedrock Slope 0.37 USDANatural Resources This report shows only the major soils in each map unit.Others may exist. Tabular Data Version:8 Conservation Service Tabular Data Version Date: 12/15/2008 Page 1 of 2 Noe .440 Dwellings and Small Commercial Buildings Albemarle County,Virginia Pct. Dwellings without basements Dwellings with basements Small commercial buildings Map symbol of and soil name map - unit Rating class and Value Rating class and Value Rating class and Value limiting features limiting features limiting features 39C:---- - Hazel 80 Somewhat limited Very limited Very limited Depth to hard 0.46 Depth to hard 1.00 Slope 1.00 bedrock bedrock Depth to hard 0.46 Slope 0.37 Slope 0.37 bedrock 39D: Hazel 80 Very limited Very limited Very limited Slope 1.00 Slope 1.00 Slope 1.00 Depth to hard 0.46 Depth to hard 1.00 Depth to hard 0.46 bedrock bedrock bedrock 47C: Louisburg 75 Somewhat limited Somewhat limited Very limited Slope 0.37 Slope 0.37 Slope 1.00 47D: Louisburg 75 Very limited Very limited Very limited Slope 1.00 Slope 1.00 Slope 1.00 58C: Myersville 80 Somewhat limited Somewhat limited Very limited Slope 0.37 Slope 0.37 Slope 1.00 77: Riverview 50 Very limited Very limited Very limited Flooding 1.00 Flooding 1.00 Flooding 1.00 Depth to saturated 0.61 zone Chewacla 40 Very limited Very limited Very limited Flooding 1.00 Flooding 1.00 Flooding 1.00 Depth to saturated 1.00 Depth to saturated 1.00 Depth to saturated 1.00 zone zone zone USDANatural Resources This report shows only the major soils in each map unit.Others may exist. Tabular Data Version:8 rigAliFill Conservation Service Tabular Data Version Date: 12/15/2008 Page 2 of 2