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Home My WebLink About20080781 Ver 1_Report_20080506 (38)08 U 78 1 N 1 1 1 1 1 1 1 1 i 1 1 1 M 1 1 i Macroinverteb rate Study Report Gaston Mall 401 Cox Road Gastonia, North Carolina (SEA Ref ID: 02191038.00) April ?, 2003 ? ®? P 4 _ g 14"t Sabel Schnabed Engineering South, LLC N 1 I, 1 1 1 1 1 1 1 1 1 1 w 1 1 Prepared by: Schnabel Engineering South, L.L.C. 104 Corporate Boulevard, Suite 420 West Columbia, South Carolina 29169 Cursor Properties 648 Broadway, Suite 502 New York, NY 10022 Attention: Mr. Ray Sohmer, 'dice President Asset Management NIACROINVERTEBRAT E STUDY PORT Conducted on: Gaston Mall 401 Cox Road Gastonia, North Carolina SEA ID # 02191038.00 April 3, 2003 Jane Q. Rowan. PWS Associate Ronald F. Herrvaers P G Associate Prepared for: Signature Signature 6 104 Corporate Boulevard, Suite 420 West Columbia, SC 29169 Schnabel Engineering South. LLC Phone (803) 796--6240 Fax (803) 796-6250 www.schnabel-eng.com Cursor Properties 648 Broadway, Suite 502 New York, NY 10012 Attention: Mr. Ray Sohmer, Vice President Asset Management Subject: /Macroinvertebrate Study Report Gaston Mall, Gastonia, North Carolina Dear Mr. Sohmer: On February 12 and. 13 of 2003 at Schnabel's direction Olver Laboratories (Olver) collected macro invertebrate samples from six (6) locations in Tributary D-8 and Durhart Creek at Gaston Mall. Gaston Mall is located in Gastonia (Gaston County), NOIah Carolina. A Macroinvertebrate Study was performed due to the lack of significantly favorable results from our Water Quality Analysis of these M o on-site water bodies. Both regulatory agencies involved in overseeing impacts to wetlands and water resources in 1 the State of North Carolina, the NC Department of Health and Natural Resources and the Wilmington District U.S. Army Corps of Engineers, requested that Water Quality Analysis and/or Macroinvertebrate Study information would need to demonstrate a lack of functional habitat for macroinvertebrates in the site's water bodies in order for these governmental agencies to grant approval to initiate development activities which would alter the environment of these waterways. Attached is a copy of Olver's Benthic Macro invertebrate Study. The investigation provides documented evidence that neither Duharts Creek or Trihtutar; D-R rn ovide suitable habitat for healthy macroinvertebrate communities. Larval insects, mollusks and other invertebrates that serve as food sources for fish, amphibians, reptiles and the remainder of the food chain would be expected as the macroinvertebrate inhabitants of these two streams. Olver's results show that there is little or no use of either stream by macroinvertebrate species. Their absence may indicate one of the following: i The two streams are so highly impacted by regular inputs of upstream contaminants, virtually all life has been destroyed and will remain this way until contaminant input ceases. The two streams were highly impacted by one event that occurred in the recent past that destroyed virtually all of the life in the stream. Theoretically, as the stream recovers it will be recolonized by organisms from unimpacted stream reaches. o The single event could have been a pollutant/contarninant source "We are co maitted to serz*Lq our.c&ents gy z;zeediny their eVectatians." Geotechnicai a Construction Monitoring * Dam Engineering 4 Geosciencs 0 Environmental I e The single event could have been the severe drought of the past year (esp. last summer) It is our opinion that regular concentrations of contaminant inputs into the streams and episodic evaporation of all water in the stream is the controlling factor. Water Quality samples collected previously did not indicate severe pollution, however there was indication of sewage input. Our argument to governing regulatory agencies will provide justification for construction of a culvert for most of the length of Tributary D-8. However, our observation of fish and amphibian use of Duhart Creek indicates there would be a significant impact if Duhai-t Creek were culverted or otherwise impacted. Duhart Creek has been impacted by human development, but there is opportunity for restoration. If restoration actions were proposed to governing agencies, then this would likely allow additional freedom from governing regulatory agencies to develop within the previously impacted area. If you have any questions about this report or would like us to elaborate more fully about the implications of the results of our study on the Clean Water Act Section 404 Permitting process, please feel free to contact us at (800) 995-1002. Respectfully submitted, SCHNABEL ENGINEERING SQI7TR L.L.C. Jane 0. Rowan, PWS Ronald F. Herrygers, P.G. Associate Associate 4 I Benthic Macro invertebrate Evaluation Of Tributary 0-8 And Duharts Creek in the Vicinity Of the Gaston Mail, Gastonia, North Carolina Prepared for: Schnabel Engineering South, LLC 104 Corporate Boulevard, Suite 420 West Columbia, SC 29169 Prepared by: Olver Laboratories, Inc. 1116 South Main Street, Suite 200 Blacksburg, VA 24060 February 26, 2003 Job Number 60186 Nft0ATA\CL1EN7,,Schnade1 Engineering South, LL0,8enthic StudylCaver.doc aVER L"OBATOBES a TABLE OF CONTENTS n ?i Page Number 1.0 INTRODUCTION .............. 1 2.0 METHODOLOGY AND EVALUATIONS ............................... 1 2.1 General Characteristics of Tributary D-8 and Duharts . Creek ........ .. . ...................................................... 1 2.1.1 Tributary D-8 .............................. .................. 2.1.2 Duharts Creek ............................... .. ... 2 2.2 Sampling Station Locations ............. ..... 3 ................... 2.3 Sampling Station Characterization ............................ 11 2.4 M acroinve rteb rate Sample Collection ......................... 13 3.0 CONCLUSIONS ...................... ................. 15 LIST OF FIGURES Figure 1 Benthic Macroinvertebrate Study Site ............................... 4 Figure 2 Station 1 Tributary D-8 ......................................... .......... 5 Figure 3 Station 2 Tributary D-8....................................................... 6 Figure 4 Station 3 Tributary D-8 ............. 7 Figure 5 Station 4 Tributary D-8.......... „.;... 9 ............................ Figure S Duharts Creek Upstream and Downstream Stations ............... 10 LIST OF TABLES Table 1 Sample Collection Station Physical/Chemical Characterization 12 Table 2 Benthic Macroinvertebrate Sampling Results for Tributary D-8 and Duharts Creek in the Vicinity of Gaston Mail, Gastonia, N.C., February 12-13, 2003 ...................................................... 14 NACA i AICLIEN?1Schnabel Engineering South, L C\Senthic StudylTabie of Contents.doc W OLVEER UEOSAMIE3 LIST OF APPENDICES APPENDIX 9 PHYSICAL CHARACTERIZATION/WATER QUALITY FIELD DATA SHEETS Nho C-VE9 LABORATORIES N_i0ATA1CLIENT1Sc:Inabei Engineering South, LLCISenthic Study\Tabie of Contents.doc 14 I t N 1.0 INTRODUCTION An instrearn benthic macroin.vertebrate study was performed by Olver Laboratories Incorporated on Tributary D-8 and. Duharts Creek in the vicinity of the Gaston Mail, Gastonia, North Carolina for Schnabel Engineering South, LLC on February 12 and 13, 2003. This study was performed to evaluate the health of the indigenous aquatic community in this watershed. Tributary D-8 passes underneath Interstate 85 through two culvert pipes just west of the Cox Road interchange and flows behind the Gastonia Mail before entering Duharts Creek. Both streams were sampled for macroinve rteb rates and evaluated utilizing both chemical and physical characteristics referenced in the EPA document, "Rapid Bioassessment Protocols for Use in Streams and Wadeable Rivers: Periphyton, Benthic Macroinvertebrates, and Fish", Second Edition (EPA 841-B-99-002). This report describes the methods used to evaluate the study site and assess the health of the macroinvertebrate-community. ,2.0 METHODOLOGY AND EVALUATIONS 2.1 General Characteristics of Tributary D-8 and Duharts Creek The general physical and biological characteristics of Tributary D-8 and Duhart's Creek suggests both streams may be intermittent during drought conditions as observed throughout the Eastern United States in 2002. The steep, cut dirt banks are affected by erosion during higher flows. Many small holes were observed along the bank face that were presumably nests of rodents. Numerous raccoon tracks suggested that the stream and culvert pipes underneath the s i N 1 1 1 1 1 1 1 1 1 1 1 1 N 1 1 interstate provide a pathway to both sides of the highway for these and other wildlife. 2.1.1 Tributary D-8 The study area on Tributary D-8 began at the culvert pipes at the edge of Interstate 85 and continued behind the Gaston Mall approximately 685 feet to the confluence with Duharts Creek. The initial 540 feet were mostly open with a cleared field adjacent to the mall parking lot. The remaining 185 feet were in a wooded area dominated by saplings and small trees. Tributary D-8 was channelized and predominantly silt and sand with steep cut dirt banks on both sides. Overhanging vegetation covered much of the stream sides. The stream width remained consistent ranging from 6-8 feet. 2.1.2 Duharts Creek The upstream and downstream sampling stations on Duharts Creek were characterized by a sand and gravel bottom and pools created by several fallen trees. A deep pool was at the confluence of Tributary D-8, created by a large fallen tree. Heavy vegetation covered both stream banks with some areas up and downstream covered overhead by Cudzu and other vines. No erosion was evident along the creek banks. Litter was observed throughout the length of stream including plastic, paper, Styrofoam, tires and metal 2 N 2.2 Sampling Station Locations The sampling stations are depicted in Figure 1. As requested by Schnabel Engineering, LLC, four sampling sites were located in Tributary D-8 and two sampling sites were located in Duharts Creek. The station descriptions are summarized as follows: Station 1: Station 1 (Figure 2) was located near the two culvert pipes that extended underneath I t t t 85 W n ers a e . ater flowing from both pipes immediately joined in a shallow pool before flowing through a steep cut channel. The station was bordered by a steep bank on the Gaston Mall side. Heavy vegetation covered both banks including grasses, small trees, vines and shrubs. The interstate highway was located up a grassy bank approximately 100 feet. The stream was characterized by a gravel, cobble and sand substrate. Attached algae covered the larger rocks. Water depth was up to 8 inches deep. Station 2: Station 2 (Figure 3) was located 200 feet downstream of Station 1 along the initial straight channelized portion of Tributary D-8. The bare dirt banks were steep and approximately three feet high. Erosion during higher flows was evident. A cleared field bordered the station on the mall side. Small trees and shrubs bordered the opposite bank. Sampling was most difficult at this station as the substrate contained several inches of very fine silt that was easily disturbed. Beneath the silt, the stream bed was predominantly firm sand. No rocks were in the sampling area, while some fallen branches and vegetation slowed the stream fl w ith t d o w rappe decaying fallen leaves. The water depth varied from 2-6 inches. It was noted that the north corner of the Gaston Mail was a roxim t l 166 pp a e y yards from the stream bank at Station 2. Station 3: Station 3 (Figure 4) was located 400 feet downstream from Station 1 and was similar in appearance to Station 2. The fine silt layer covering the stream bottom was not as deep but the sand substrate was still present. A road cut by heavy equipment crossed the stream just downstream of the sampling area. The water depth averaged 6 inches. Fallen branches, once again, slowed the stream S 1 W W h ?+t C.5 i FIGURE 1 BENTHIC MAC ROINVERTEB RATE STUDY SITE In the Vicinity of GASTON MALL GASTONIA. NORTH CAROLINA Sewer Line/Utility Trail i ?treamlet i s UUPSTREA?M -STATION I r i ! STATION 4 STATION 3 STATION 2 I i TRIBUTARY D-8 I I I I s ! ;--Construction Road DOWNSTREAM STATION i f Open Field I ? t ! I F f i ! I 1 I ? I ? I Tree Line REAR PARKING LOT - GASTON MALL m ;u tPf m ?o cjr STATION I Culvert Pipes z °A m -?l m Olver Laboratories, Inc FIGURE 2 STATION 1 - TRIBUTARY D-8 I I I WdataldientlSchnabel Engineering South LLC ? r r, r a' A f Nose up of channelization at Station I just downstream of culvert pipes. Olver Laboratories, Inc Culvert pipes at Interstate 85. RIBS in foreground. Station 1 view from move cuivert pipes. 'N 1 1 1 1 1 1 1 FIGURE 3 STATION 2 - TRIBUTARY D-8 Cut, eroded bank on Gaston Mall side of Sampling area facing upstream. Note tributary. Erosion control fence in cleared area eroded bank. ariiar:?nt fn the m:P11 nnrlCinrn lot WrlataldientlSchnabel Engineering South LLC Olver Laboratories, inc Sampling area facing downstream 10 FIGURE 4 ST -1-10 N 3 - TRIBUTARY ®-8 1 I 1 Sampling area ;acing upstream. Note eroded bank and over hanging vegetation. fN_ldatateiientlSchnabel Engineering South LLC Sampling area facing downstream with fallen branches and vines. Older Laboratories, Inc Eroded bank on Gaston flail side with cleared field between the stream and the mail parking lot. Close up view of strearn bottom and eroded bank. r far bea flow were present in with trapped leaves. Flo rocks, and very little attached algae, the sampling site. so7nabe! engtnetnng South LLC station 4 Station 4 (Figure 5) was located in a tree-covered area 150 feet upstream of the confluence with Duharts Creek andanPdPbare with 535 feet from station 1 The bows. Small trees, shrubs and vines signs of erosion during hig the varied more at dominated both sides of the s 2-12rinches. The substrate was primarily this station, ranging from sand with a fine layer of silt. There of which were obseer along to banks as well as rust-colored solids from a small streamiet entering Tributary D-8, approximately 20 feet sampling point. This streamlet wound through upstream from the thick brush in the forestiand on threo(,ately 10 e fefrom et and Gaston The strearnlet was traversed app to be covered with oil sheens with rust-colored solids covering the substrate. Duharts Creek -Upstream was located within 25 feet of the This sampling station (Figure 6) confluence with Tributary D-$ in the midst of fallen trees extending ous trees ereeonithe across the creek. The creek bankarer decidurelative covered with vines and shrubs. i- 9 of sand and silt and south bank. The creek substrate was made up bserved some fine gravel. Man-made litter Y? foam and metagt at was area and included plastics, paper, hi her flow conditions. windblown or carried downstream duffnom 1 6 inches. The creek Water depths were shallow, ranging previously was more constricted at this site due to the fallen trees p mentioned. Duharts Creek - Downstream was performed within 25 feet of Sampling at this station (Figure 6) D-g in a shallow riffle area. The the confluence with Tributary _ deciduous and ranged r feet. g oth banks with larger from r B-12 streambed was wider heavy ton b silt Vegetation was aain trees providing shade 'in Sand ears on Gravel, sides of the creek made up the creek substrate. wateer. Oil sheens were created shallow pools of water full of leaf observed in one fully enclosed pool 4 entering TbU D- -??rseam of station 1 elver Labor3foRes Irtc: 7 uAstrearn ,it and heal FIGURE 6 10 DUHARTS CREED UPSTREAM and DOWNSTREAM STATIONS s Oiver Laboratories, Inc. NMatatdientiSchnabel Engineering South LLC Downstream sampling site. Note sand bars and heavy vegetation. Upstream sampling site. Flow is narrowed by fallen trees and vegetation. 2.3 Sampling Station Characterization Physical characterization and water quality measurement data were recorded in field data sheets adopted from the EPA Rapid Bioassessment Protocols. Observations and measurements were recorded at each sampling station. These field data sheets are included as Appendix 1 of this report. In addition to habitat characterization, selected physical, chemical, and biological analyses were conducted at each station. Physical analyses included the determinations of water temperature, stream width, and stream depth. Chemical analyses included the determinations of pH using a Cole-Parmer Model 59002 Portable pH Meter, conductivity using a YS1 Model 30 Salinit -fond y uctlvity- Temperature Meter, and dissolved oxygen using a YSI Model 55 Dissolved Oxygen .Meter. Stream turbidity was measured using a LaMotte 2020 Turbidimeter. Stream widths and lengths between sample stations were measured with a 100 foot reel tape. Longer distances were recorded using a Bushell Yardage Pro 500 range finder. The chemical and physical characterizations noted on Table 1 indicate minor variabilities in each measurement. The pH ranged from 6.56 to 7.31 and dissolved oxygen levels ranged from 9.05mg/L to 10.4 mg/L. Conductivity was also fairly consistent with slightly higher measurements in Tributary D-8. Overall, both streams appeared to be clear with no visible signs of pollution except for the oil sheens and solids entering Tributan7 D-8 just upstream of Station 4. Two small fish were captured at Station 3 and at the upstream site of Duharts Creek, as well as two salamanders at the Duharts Creek sampling site. Coarse particulate 11 = = M M M TABLE 1 SAMPLE COLLECTION STATION PHYSICAUCHEMICAL CHARACTERIZATION '- ryas to Collection Time February 1 1550 12, 2003 630 3 0811 February 13, 2003 - - Duhart's Creek Duhart's Creek 4 Downstream lJpstream 0 - H p 6 $9 7 0 6 66 855 7 0950 1000 Dissolved Oxygen m9/L ( ) 9.6 . 10.0 . 10 4 .09 10 4 7.Q6 7.31 Temperature (°C) 9.5 9 0 . 4 2 . 9.6 9.05 Conductivity (pmhos/cm) 307 . 311 . 315 4.3 315 5.7 6.5 Average Width (ft) 4.8-6.9 6 .5 7 6 7 260 239 Average Depth (in) 4-8" . 2-6" 6" - 2 12" 8-12 " 1-6 Turbidity (ntu) 16 9 - 1-3 1-6° . 9.56 $ 15 42 2 - . . 9.05 11.0 NADATMCLIENT\Schnabel Engineering South, LLC\Benthic Study\Table 1.doc 1 organic matter (CPOM) was sparse throughout Tributary D-8. Due to the steep, channelized flow of the tributary, most leaf and other organic matter washes downstream to Duharts Creek during higher flows. CPOM was more prevalent in Duharts Creek around the fallen trees at the confluence. 2.4 Macroinvertebrate Sample Collection Sample collection was attempted using a Portable Invertebrate Box Sampler (RIBS) to optimize sampling efficiency, However, the lack of suitable habitat at each station made the FIBS impractical to use. Sampling was then performed using a D-frame kick net. This allowed for more efficient sampling throughout a larger area at each station. Due to the heavy siltation in the tributary, jabs with the kicknet were worked along the entire width of the stream working from downstream to upstream-. It was observed that the silt and sand quickly settled back to the bottom once disturbed. All macroinvertebrates captured were preserved in the field with 70% Isopropyl alcohol and returned to the laboratory for subsequent processing and identification. Each sampling station was extensively searched for macro invertebrates in the substrate and in any leaf packs present. Table 2 contains the results of the sampling. Station 1 contained two aquatic worms (Lurnbriculidae) among the rock substrate. No other signs of macro invertebrates were observed at this station. Stations 2, 3 and 4 contained no macroinvertebrates in the silt and sand substrate. A single Dipteran larva (Tipula spp.) was captured in a leaf pack at Station 3. Duharts Creek also was sampled -extensively using the D-frame 13 Will am M M 11101111 I M III TABLIAP 10 Benthic Macroinvertebrate Sampling Results for Tributary Ddb and Duharts (Creek In the Vicinity of the Gaston Mall, Gastonia, North Carolina February 12-13, 2003 N:WatalclientlSchnabel Engineering Soulh,LLC\Benthic Studyffable 2.Taxonomlc ID.xls Olver Laboratories, Inc. Notes: Station 3 Dipteran was captured in a leaf-pack. No macroinverlebrates were found at stations 2 and 4 in Tributary D-8 or in Duharts Creek at the downstream station. kicknet at the upstream and downstream stations within 25 feet of the confluence of Tributary D-8. No macro invertebrates were found at the downstream sampling site in spite of the presence of a gravel substrate and some leaf packs along the k b k A i cree an . s ngle Dipteran larva was also captured at the upstream sampling site. Numerous leaf packs were examined at this station with no signs of any macroi nve rteb rates. 3.0 CONCLUSIONS Based on the field observations and the results of these studies, the following conclusions were made regarding the macroinvertebrate health in Tributary 0-8 and Duharts Creek in the vicinity of the Gaston Mali. 1. The size of both streams and the flows observed during the sampling suggest that these streams are intermittent during drought conditions as were observed during most of the year in 2002 throughout most of the Eastern United States. 2. The physical characteristics of Tributary D-8 indicated the absence of suitable h bit t f a a or most macro invertebrates throughout the ngth of the sampling area. The general lack of rock substrates and CPQM, and the accumulated silt and sand, provide poor habitat for a healthy macroinvertebrate community. The absence of leaf packs (CP0M) indicated most organic matter is washed downstream during high flows. 3. The presence of oil sheens at Station 4 in Tributary D-8 and in Duharts Creek, as well as signs of man-made litter, indicated both streams are impacted by non-point source pollution that can impact the macroinve e rate communi y. 4. No macroi n ve rteb rates were found at Stations 2 and 4 in Tributary D-8 or at the downstream station in Duharts Creek. Many attempts were made throughout each station using a D-frame kick net. Any CPQM material was also examined for macroinvertebrates. 5. The close proximity of the interstate highway and the slope of the highway shoulder indicates that run-off from the highway during rainfall enters Tributary D-8. 15 I? N 1 1 6. Additional run-off from the mall parking lot and the presence of a stormwater ditch in the cleared field adjacent to the parking lot may contribute to the impact of both streams. 7. The aquatic worms found at Station 1 and the Dipteran individuals found at Station 3 and in Duharts Creek at the upstream station are pollution-tolerant. The lack of macro invertebrate population throughout most of the study area and the physical characterizations and observations mentioned suggests that. Tributary D-8 and Duharts Creek are impacted by natural and man-made influences. The health of both stream communities may improve during times not influenced by drought conditions. However, the absence of suitable habitat would continue to be less than optimal to support a healthy macro invertebrate community. In addition, the impact of non-point source pollution that was observed and those that may not have been noticeable during this study would also be a contributing influence on the macro invertebrate community, N: IDATAICLIEN71Schnabel Engineering South, LLC\Benthic Study0uhart Creek Study.doc 16 i i 10 I APPENDIX 1 PHYSICAL CHARACTERIZATION/WATER QUALITY FIELD DATA SHEETS geo ?*SN CLVER LAB?RA70B:IB9 i N:1dATA\CLIEsV ; Schnabei Engineering South, LLMSenthic Studyl Table of Contents.doc i i I N M PSIC CARAC T ERITIGIWATER QUALITY FIELD DATA SHEET PAGE ; of 3 (Adapted from EPA 841-D-9?-002 RBP Appendix A-1 Sample Data forms) RIVER NAM : LOCATION: rf , tt .?- STREAM CLASS: RIVER BASIN: FIELD STAFF: D. Amtower, P. Pascoe FORM COMPLETED BY: ?. 'k ? .. _., ?, -...??. DATE/TIME WEATHER NOW PAST 24 HOURS Has there been any heavy rain in the last C??ti?ITIUIVS: ? ? (storm-heavy rain) 7 days? Yes ? No ? ? (rain-steady rain) ? ? (showers-intermittent) Air Temperature X0'50¢ ? _% ? _% cloud cover (clear, sunny) Other SITE LOCATI(;1NIMAP Draw a map of the site and indicate the areas sampled (orattach a photo) f _ STREAM Stream Subsystem Stream Type CHARACTERIZATION ? Perennial A intermittent ? Coldwater ?armwater ?Tidal Stream Origin: ? Glacial ? Mon-Glacial Montane ? SwamplSog Catchment Area l ?r1?no? km' ? Spring-fled ` ' fixture of origins a Other N:ITEMPLATES%BIOBENCHkMACROINVERDBENTHIC WQ BENCH SHE£T.DOC Off. VER LABORATORIES PHYSICAL CHARACTE 3 TIO 11ATER ALIT FIELD DATA SHEEN' PAGE 2 of 3 (Adapted from EPA 841 -D-97-002 12SP Appendix A-1 Sample Data forms) T i WATERSHED FEATURES Predominant Surrounding Local Watershed NPS Pollution: Land Use: ? No Evidence XObvious sources ? Forests Commercial ? Some potential sources l?Jlb?i, ; ? FieldlPasture ? Industrial ? Agricultural ? Residential Local Watershed Erosion: ? Other ? done N,Moderate ? Heavy RIPARIAN Indicate the dominant type and record the dominant species present ECE-ION 1:3 Trees Shrubs ? Grasses Ix Herbaceous (18 meter 6u Ferj Dominant species present: /W X INSTREAM FFEATURES Estimated Stream Width fffJm High watermark z_1m Estimated Stream Depth ?_f?- Surface Velocity= ec m/sec Proportion of Reach Represented by Stream Morphology Types: ? Riffle l?°!a ? Run % ? Pool -% Estimated Reach Length m Channelized ? Yes Al No ` Canopy Cover Partly Open ? Partly Shaded ? Shaded ? Open Dam Present ? Yes X No AQUATIC VEGETATION Indicate the dominant type and record the dominant species present ? Rooted Emergent ? Rooted Submergent ? Rooted Floating ? Free Floating ? Floating Algae AAttached Algae Dominant Species Present Portion of the reach with aquatic vegetationq?-- -:,-Z' % WATER QUALITY Temperatures ?C Specific Conductance 2 L% ? al pH V, Dissolved Oxygen?c> Turbidity' Water Odors ?iyormallNone ? Sewage ? Petroleum ? Fishy ? Chemical ? Other Water Surface Oils ? Slick ? Sheen ? Mobs ? Flecks ?KNone ? Other Turbidity (if not measured) ? Clear 'Slightly turbid ? Turbid ? Opaque ? Stained ? Other N:iTEMPLATES?+BI08ENCH1,%,3ACROINVERTIBENTHIC WQ BENCH SHEET.DOC OLE LABORATORIES r FIELD c)ATA SHEET PACE 3 Of 3 1 Sample Data forms) r?;! (,adapted from EPA 841-1)-97-002 RBP Appendix ,a- a petroieurn a anaerobic {}dots ?yormal ? Sewage STRATE ? C3,emic ? ? None c3 Other SEDIMENTJSLJ ? paper fiber Sand Deposits a Sludge o Sawdust Li? ? Relic shells n Other Absent ? Slight ? Moderate c] Profuse Oils at stones which are not deeply imbedded' are the undersides black i Looking No in color? ? Yes ORGANIC SB.BSTRATE'COMPONENTS BSTRATE COMPONENTS OES NOT NECESSARILY ADD Up TO 100%) ' IN®R?aNIC s? O 1oc?%) (? (SHOULD ADD UPT Characteristic %comRo Area in %Composition in Substrate Samp g t Substrate Diameter Sampling (teach Type Type Detritus sticks, wood, coarse plant t 0 Bedrock materials >256 mm 410"} ?CpOM) Boulder 1?1aclC, very fine Muck-Mud Cobble organic matter 64-256 mm ,? (0m)ganic 1 0,} . I (2_s- Z-64 Mtn Gravel (0.1-Z-5,.} grey, shell Mari fragments 0.06-2 mm " Sand (gritty) Silt 0.004-0.06 mm clay <fl.004 mm {slick} I? N:\TENiPLATES\B308£NCH\Ivt:'.CKOINVEgT'SENTHIC 'h'Q BENCH SNEET.DOC oLVER LaaaRATORtF-S s a w P S CAL C A CTE D I NIVVA I th WU LI I T FIELD DATA SHEET IMAGE 1 cif 3 (Adapted from EPA 84i-D-97-002 RBP Appendix A-l Sample Data forms) V R NAME: l ?1 Lt?G?(\( Ll.-r? LOCATION ?f Sal i ftriV sew' ?`i- C ? Yd < Gt ??- 4 STREAM CLASS: RIVER BASIN: FIELD STAFF: D_ Amtower, P. Pascoe FORM OMPLE'I'IJIY: r+, 1 ?Lt 1__y, { IAA EI'II. WEATHER NOW PAST 24 HOURS Has there been any heavy rain in the last CONDITIONS: ? ? (storm-heavy rain) T days? Yes ? No ? ? (rain-steady rain) ? ? (showers intermittent) Air Temperature Cf ?°) C I-- ? _% ? _% cloud cover X q (clear, sunny) Other SITE LOCATIONIIMAP Draw a map of the site and indicate the areas sampled (or attach a photo) f STREAM Stream Subsystem Stream Type CHARACTERIZATION ? Perennial A Intermittent ? Coldwater /pl/warmwater aTidal . Stream Origin: o Glacial ? Mort-Glacial Montane ? Swamp/Bog Catchment Area kM2 ? Sprinq7fed Mixture of orig ins ? Other N:\TEIVIPLATES\BIOBENCH\MACROINVERT\BENTHIC WQ BENCH SHEEI'.DOC OLER LABORATORIES I 4 PHYSICAL CHARACTERIZATION/WATER QALJ FIELD DATA SHEET PAGE 2 of 3 (Adapted from EPA 841-D-97-002 RSP Appendix A-1 Sample Data forms) WATERSHED FEATURES Predominant Surrounding Local Watershed NPS Pollution: Land Use: ? No Evidence )<Obvious sources o Forests ACommercial ? Some potential sources ? FieldlPastur ? Industrial a Agricultural ? Residential Local Watershed Erosion: ? Other ? None 'X'Moderate ? Heavy RIPARIAN Indicate the dominant type and record the dominant species present VEGETATION W' Trees Shrubs ? Grasses a Herbaceous Dominant sp?cies present: (1$ meter buffer) INSTREAM FEATURES Estimated Stream Width U`&"ft/m High water mark ! ? m V ' s c misec ft?rn Surface Velocity z- I. L Estimated Stream Depth ?,- i Proportion of Reach Represented by Stream Morphology Types: ? Riffle % o Run_L, % ? Pool % Estimated Reach Length m Channefized (Yes ? No f Canopy Cover ? Partly Open Partly Shaded ? Shaded ? Open Dam Present ? Yes Flo AQUATIC VEGETATION Indicate the dominant type and record the dominant species present ? Footed Emergent ? Rooted Submergent ? Rooted Floating ? Free Floating ? Floating Algae 'Attached Algae Dominant Species Present Portion of the reach with aquatic vegetation S % 'MATER QUALITY Temperature °C Specific Conductance Dissolved Oxygen / t '• ?? Ttdri7ld{ty-y-? pH /- C 'Hater Odors ? Normal/None ? Sewage ? Petroleum ? Fishy ? Chemical c Other Water Surface Oils ? Slick ? Sheen ? Gloms ? Flecks 1K None ? Other Turbidity (if not measured) ? Clear Slightly turbid ? Turbid ? Opaque ? Stained ? Other N:1TEiMPLATES',BIOB£NCHIMACROINVER'l1BENTHIC WQ BENC:i SHEET.DOC OLVER LABORATORIES PHYSICAL CHARACTERI IONTER UAL1 FIELD DATA SHEEN' PAGE 3of3 (Adapted from EPA 841-D-97-002 RBP Appendix A-i Sample Data fonrns) t a i M SEOIMEN7ISUE3STRATE Odors )XNormal ? Sewage ? Petroleum ? Anaerobic ? Che ical ? done ? Other Deposits ? Sludge ? Sawdust ? Paper filer /'Sand ? Relic shells ? Other Oils (Absent ? Slight ? Moderate ? Profuse i Looking at stones which are not deeply imbedded, are the undersides black in color? ? Yes `"N0 INORGANIC SUBSTRATE COMPONENTS ORGANIC SUBSTRATE COMPONENTS (SHOULD ADD UP TO 100%) (DOES NOT NECESSARILY ADD UP TO 100%) Substrate Diameter %Composition in Substrate Characteristic %Composition in Type Sampling Reach Type Samping Area Bedrock Detritus sticks, wood, " coarse plant Boulder ) >256 mm (10 materials (CPOM) Cobble 64-256 mm Muck-Mud black, very fine (2.5-90") organic smatter (FPOM) Gravel 2-64 rnm Sand 0.06-2 mm Marl grey, shell (gritty) to Ll_) fragments silt o.004-0.06 mm > L Clay <0.004 mm (slick) J ? ! I i - N:ITEMPUITEs?BiOSENCHIMACRO[NVERTI BENTHIC WQ BENCH SHEET.DOC OLVER LABORATORIES 1 FIELD DATA SHEET PAGE I of 3 (Adapted Tram EPA 841-D-9'-002 ;ABP Appendix A-i Sample Data forms) RIVER NAME: LOCATION: STREAM CLASS: RIVER BASIN: FIELD STAFF: D_ Amtower, P. Pascoe r FORM COMPLETED BY: 7?A ? F1'? ?P1IE : ? ? c C= t I WEATHER NOW PAST 24 HOURS Has there been any heavy rain in the last CONDITIONS: ? o (storm-heavy rain) 7 days? ..? Yes o No ? ? (rain-steady rain) - ? ? (showers-intermittent) Air Temperature ` - °C ? % ? _% cloud cover 'Q',(clear, sunny) Other SITE 1-OCATIO NJMAP Draw a map of the site and indicate the areas sampled (or attach a photo) } STREAM Stream Subsystem CHARACTERIZATION ? perennial 'Q intermittent oTidal Stream Origin: ? Glacial ? Non-Glacial Montane ? Swamp/Bog ? S rin -fed Mixture of on ins ? Other N:\TEMPI ATESIBIOBENCNIMACROINVER-RBE,NTHIC WQ BENCH SHE£T.DOC Stream Type c Coldwater i Warrnwater Catchment AreaU.Nth'?Gl km2 OLVE LABORATORIES s I N I w FIELD DATA SHEET PACE 2of3 Ie?ls.?rPri {rnm I~?A R41-D-97-002 RBP Appendix A-I Sampie Data forms) WATERSHED FEATURES Predominant Surrounding Local Watershed SIPS Pollution: s sources i `Ob id Land Use: v ou ence ? No Ev ? Forests Commercial ? Some potential sources ? Fieid/Pasture//? Industrial ? Agricultural ? Residential Local Watershed Erosion: te ? Heav d XM o Other y era o o done Indicate the dominant type and record the dominant species present RIPARIAN i Trees q Shrubs ? Grasses ? Herbaceous VEGETATION Dominant species present: ? .1 ' \ (18 meter buffer) iNSTREAM FEATURES Estimated Stream Width-_furn High water mark_? ifVM Estimated Stream Depth 6 - ft?m Surface Veiocity LI ftisiqd misec Proportion of Reach Represented by Stream Morphology Types: o Riffle % ? Run i % ? Pool % Estimated Reach Length m Channelized XYes ? No Canopy Cover ? Partly Open )q partly Shaded ? Shaded ? Open Dam Present ? Yes 6(Flo AQUATIC VEGETATION indicate the dominant type and record the dominant species present ? Rooted Emergent a Rooted Submergent a Rooted Floating ? Free Floating ? Floating Algae Attached Algae Dominant Species Present Portion of the reach with aquatic vegetation % ¢ WATER QUALITY Temperature = °C Specific Conductance 0 -2- PH % Dissolved Oxygen Turbidity< Water Odors !Ef NormallNone ? Sewage ? Petroleum ? Fishy ? Chemical a Other Water Surface Oils ? Slick ? Sheen ? Globs o Flecks ' done ? Other Turbidity (if not measured) .A Clear ? Slightly turbid O Turbid ? Opaque ? Stained ? Other I N:\TEmPLATES?BIOBENCH\NIACROINVER i\BENTHIC WQ BENCH SHEET.DOC OLVE LABORATORIES I I w p YSICAL C CTERI 'ION ATER QUALITY FIELD DATA SHEET PAGE 3 of 3 (Adapted from EPA 841-D-97-002 RBP Appendix A-I Sample Data forms) SEDIMENT/SUBSTRATE Odors (Normal ? Sewage ? Petroleum ? Anaerobic ? Chemical ? None ? tither Deposits ? Sludge ? Sawdust ? Paper fiber Sand ? Relic shells ? Other Oils Absent ? Slight o Moderate ? Profuse Looking at stones which are not deeply imbedded, are the undersides black in color? ? Yes z`4 No INORGANIC SUBSTRATE COMPONENTS ORGANIC SUBSTRATE COMPONENTS (SHOULD ADD UP TO-100%) (NOES NOT NECESSARILY ADD UP TO 100°/x) Substrate Diameter %Composition in Substrate Characteristic %Composition in Type Sampling Reach Type Samping Area Bedrock Detritus sticks, wood, coarse plant Boulder »56 mm (I0"} materials (C POM) Cobble 64-256 mm Muck-Mud black, very fine (2.5_10") organic matter (FPOM) Gravel 2-64 mm Sand 0.06-2 mm r' Marl grey, shell (gritty) ? fragments Silt 0.004-0.06 mm 7 , Clay <0.004 mm I (slick) I I tt'.r L F\?' 1 I I4- \64 A. N:ITEMPLATES%BIOBENCH\MACROFNVERTIBENTHIC WQ BENCH SHEET.DOC OLVER LABORATORIES a 1 0 r P S11CAL CHARACTERIZATIONMATER QUALITY FIELD DATA SHEET 'AGE 1 of 3 {Adapted from EPA o41-D-97-002 RB€' Appendix A-I Sample Data Forms) RIVER NAME: LOCATION: r '.,?. ( I.4. S'C'REAM CLASS: RIVER BASIN: FIELD STAFF: ®. Amtower, P. Pascoe FORA COMPLETED BY: ? ?, ;, ±• ;, ?? l I % I' ?.? ". _ I DATEITIME: WEATHER NOW PAST 24 HOURS Has there been any heavy rain in the last CONDITIONS_ ? ? (storm-heavy rain) 7 days? /A Yes ? No ? ? (rain-steady rain) ? ? (showers-intermittent) Air Temperature =. °C ? % ? _% cloud cover $, Iq (clear, sunny) Other SITE'LODATIONNAP Draw a map of the site and indicate t he areas sampled (or attach a photo) 1 ll;` r .. a i STREAM Stream Subsystem Stream Type CHARACTERIZATION ? Perennial Mllntermittent ? Coldwater ,?,Warmwater ?Tidai Stream Origin: ? Glacial ? Mora-Glacial Montane ? Swamp/Bag Catchment Area km2 ? Sprin -fed `16 Mixture of orig ins ? Other N-.7TFMPLA-iESIBIOBENCH\MACROINVERT\BENTHIC WQ BENCH SHEET.DOC OLVER LABORATORIES s N I r p YSICAL CHAFLA . TERI IONMATER ALJ FIELD DATA SHEET RAGE 2 of 3 (Adapted from EPA 841-D-97-002 RSP Appendix A-I Sample flare forms) 1 =r, WATERSHED FEATURES Predominant Surrounding Local Watershed NIPS Pollution: Land Use: ? No .Evidence .Obvious sources ? Forests tCommercial ? Some potential sources ? Field/Pasture' ? Industrial ? Agricultural ? Residential Local Watershed Erosion: ? Other ? None b Moderate ? Heavy RIPARIAN Indicate the dominant type and record the dominant species present VEGETATION 14 Trees ? Shrubs ? Grasses ? Herbaceous (18 meter buffer) Dominant species present: INSTREAM FEATURES Estimated Stream Width ----' jt/m High water mark ttt/rri Estimated Stream Depth2- I?' f#d;n Surface Velocity L -I ftlsec m/sec Proportion of Reach Represented by Stream Morphology Types: ? Riffle % ? Runt' 'L % ? Pool % Estimated Reach Length m Channelized Yes o No Canopy Cover ? Partly Open ? Partly Shaded Shaded ? Open Dam Present ? Yes ??No AQUATIC VEGETATION Indicate the dominant type and record the dominant species present ? Rooted Emergent ? Rooted Submergent ? Rooted Floating ? Free Floating ? Floating Algae tkAttached algae Dominant Species Present Portion of the reach with aquatic vegetation < % WATER QUALITY Temperature'- °C Specific Conductance ' PH Dissolved Oxygen./ = Turbidity Water Odors N.Normal/None a Sewage ? Petroleum ? Fishy { ? Chemical ? Other !,dater Surface Oils ? Slick "Sheen ? Globs ? Flecks ? None ? Other Turbidity (if not measured) M"Clear ? Slightly turbid ? Turbid ? Opaque ? Stained ? ®ther N:\TF-MPLATES\B1()BENCH\MACROINVERT\BENTHIC WQ BENCH SHEET.DOC OLER LABORATORIES 'i N II 1 i FIELD E)ATA SHEET PAGE 3 of 3 (.Adapted from EPA 841 -,D-97-002 RBP Appendix A-I Sampie Data forms) SEIDINIENTISUE3STRATE Odors ?r:Normal ? Sewage ? Petroleum ? Anaerobic ? Chernicai ? None ? Other Deposits ? Sludge ? Sawdust ? Paper fiber A-Sand ? Relic shells ? Other Oils ? Absent b `Slight ? Moderate ? Profuse Looking at stones which are not deeply imbedded, are the undersides black in color? ? Yes No i? 1 1 1 1 1 1 M 1 1 INORGANIC SUBSTRATE COMPONENTS ORGANIC SUBSTRATE COMPONENTS (SHOULD ADD UP TO 100%) (DOES NOT NECESSARILY ADD IMP TO 100%) Substrate Diameter %Composition in Substrate Characteristic %Composition in Type Sampling Reach Type Samping Area Bedrock Detritus sticks, wood, coarse plant Boulder >256 mm (10") materials (CPOM) Cobbs 54-255 mm Muck-Mud black, very fine (2.5-101 organic matter -- (FPOM) ` Gravel 2-54 mm (0.1-2.5") Sand 0.06-2 mm Marl grey, shell (gritty) fragments Silt 0.004-0.06 mm m Clay X0.004 mm i j (slick) N:ITEMPLATFs\BI08ENCH%MACROINVERnBENTHIC WQ BENCH SHEET.DOC OLVER LA130RATORIES 1 Bak I t I PHYSICAL C93i'"RACTERI TION . AIh ' ALI3 T PIED DATA SHEET PACE 1 of 3 - (Adapted from EPA 841-D-97-002 RBP Appendix A-I Sample Data forms) RIVER 1NAIME: II ,? `U il?L?! ?? ?(C?.)L c?T CU•f\ ?? I?EP n ?,? LOCATION: I..? I ?1 I/1 I ! A5P?J `<? :J t.?.rr? ?`t'2 c..•`.``} - J STREAM CLASS: RIVER BASIN: ELL STAFF: D. Amtower, P. Pascoe CORM COMPLF-TED BY:`_, . PA?11 ,,(owe --;?. ` DATE/TIME: WEATHER NOW PAST 24 HOURS Has there been any heavy rain in the last CONDITIONS: Cl ? (storm-heavy rain) 7 days? Yes ? No ? ? (rain-steady rain) ? o {showers-intermittent } Air Temperature q. ('°C ? _% ? _%a cloud cover A(clear, sunny) Other SITE LOCATION/ MAP Draw a map of the site and indicate the areas sampled (or attach a photo) STREAM Stream Subsystem Stream Type CHARACTERIZATION XPerenniai ? Intermittent ? Coldwater `'?warmwater ?Tidal Stream Origin: ? Glacial ? Non-Giaclai Montane ? Swampl8og Catchment Area ukm2 ? S rin -fed Mixture of orig ins ? Other M N:\TEMPS.RTES\BiOBENCH\MACROINVER RBENTHIC `rVQ BENCH SHEETSDOC i OLVER LABORATORIES I WATERSHED FEATURES Predominant Surrounding Local Watershed NPS Poilutiors: Land Use: ? No Evidence/' !4Obvious sources ? Forests XCommercial ? Some potential sources a FieldlPasture ? Industrial ? Agricultural ,Residential Local Watershed Erosion: ? C Other ? None ,(Moderate ? Heavy RIPARIAN Indicate the dominant type and record the dominant species present VEGETATION Trees ta, Shrugs ? Grasses ? Herbaceous (18 meter buffer) " Dominant species present: ,vb1;" INSTREAM FEATURES 'F... Estimated Stream Width % ,.." t Urn High watermark ? ern Estimated Stream DepthTftlm Surface Velocity < ! ft/sec misec Proportion of Reach Represented by Stream Morphology Types: ? Riffle % ? Run % ? Pool % J ] Estimated Reach Length m Channelized ? Yes XNo Canopy Cover Partly Open ? Partly Shaded ? Shaded ? Open Dam Present ? Yes )q No AQUATIC VEGETATION Indicate the dominant type and record the dominant species present ? Mooted Emergent ? Rooted Submergent ? Rooted Floating ? Free Floating ? Floating Algae "ttached Algae Dominant Species Present Portion of the reach with aquatic vegetation { l L % WATER QUALITY Temperature f .7 °C Specific Conductance ?L ?- ,.4 pal 7• c? Dissolved Oxygeri?.315 Turbidity i. ?- Water Odors ? Normai/None ? Sewage ? Petroleum ? Fishy z,.?i - ,` t, ? ?,.?4. -? ? Chemical ? Other F `- i? = • ?' IL14--,LC i dater Surface oils ? Slick ? Sheen ? Globs ? Flecks s "None ? Other Turbidity (if not measured) Clear ? Slightly turbid ? Turbid ? Opaque ? Stained ? Other N:\TEMPL-\TES\BIOBENCH\btACROINVERTIBENTHIC WQ BENCH SHEET.DOC L E R LABORATORIES PH-YS;CAL CHR-ACTERITiOTER QUALM, FIELD DATA SHEET PAGE 2 of 3 (Adapted from EPA 841-D-4'-402 RBP Appendix A-1 Sample Data forms) s PHYSICAL CHARACTERIZATION/WATER QUALITY FIELD DATA SHEET PAGE 3 of 3 (Adapted from EPA 841-0-97-002 RbP Appendix A-1 Sample Data forrq SEDIMENTISU E3ST TE Odors RNormal ? Sewage ? Petroleum ? Anaerobic ? Chemical ? done ? Other Deposits o Sludge ? Sawdust c Paper fiber i Sand 13 Relic shells ? Other Oils }8. Absent ? Slight ? Moderate ? Profuse Looking at stones which are not deeply imbedded, are the undersides black in color? ? Yes .-No Y INORGANIC SUBSTRATE COMPONENTS ORGANIC SUBSTRATE COMPONENTS (SHOULD ADD UP TO 100%) (DOES NOT NECESSARILY ADD UP TO 100%) Substrate Diameter %Composition in Substrate Characteristic %Composition in Type Sampling Reach Type Samping Area Bedrock Detritus sticks, wood, coarse plant Boulder >256 mm (10") materials L' (CPOM) Cobble 64-256 mm Muck-Mud black, very, fine organic matter (FPOM) Gravel 2-64 mm Sand 0.06-2 mm Marl grey, shell (gritty) fragments silt 0.004-0.06 mm Clay co.o0d mm (slick) N.?TENiPLATES?81013ENCH\MACROINVERTlBENTHIC WQ BENCH SHEET.DOC OLVER LABORATORIES s 1wh MP, I t 4 P ` bi(;A . UM.AXAL; I k: I 3UN1VVAi tM WUjA;i_.i IT FIELD DATA S EPA' PAGE f of 3 (Adapted from EPA 841-D-97-002 RBP Appendix A-1 Sample Data forms) RIVER NAME: LOCA'T'ION: STREAM CLASS: RIVER BASIN: FIELD STAFF: o. Amtower, P. Pascoe FORM COMPLETED BY: ? ... ' " ?•. ?'?L?. ?7 i?"-.. `'•-..?`L. BATE/TIME: - L: WEATHER NOW PAST 24 HOURS Has there been any heavy rain in the last CONDITIONS: ? ? (storm-heavy rain) 7 days? Yes ? No ? ? ? (rain-steady rain) ? ? (showers-intermittent) Air Temperature y °C ? _% n _% cloud cover .._(clear, sunny) Other SITE LOCATION/MAP Draw a map of the site and indicate the areas sarnpied (or attach a photo) •t Ni3 CA_ 4i.:. C`C i1 ?t C'? ilk -}.- _- 'Iq 1 ? \ l ??;,??`t , ?-?.. ?` I--f ?;..; ? =L: -?, i ? l: vi- 4\ 11'•: ., - . ,? ?.. / ? l,._:?? STREAM Stream Subsystem Stream Type CHARACTERIZATION kPerennial ? intermittent ? Coldwater '4 Warmwater ?Tidai Stream Origin: ? Glacial ? Non-Glacial Montane ? Swamp/Bog Catchment Area unk?ow? kmz o Spring-fed '?Q Mixture of origins ? Other N TEMPLATES\BIOBENCH\MACROINVERnB£NTHIC WQ BENCH MEET DOC LVE LABORATORIES t PHYSICAL CHAR CTE I T30NI ATE QUALITY FIELD DATA SHEET PAGE 2 of S {Adapted from EPA 843-D-97-042 RBP Appendix A-I Sample Data forms) i i I i i i I WATERSHED FFEAT ROES Predominant Surrounding Local Watershed SIPS Pollution: Land Ilse: ? No Evidence ; Obvious sources ? Forests ;q Commercial ? Some potential sources ? FieldlPasture ? Industrial ? Agricultural A,Residential Local Watershed Erosion: o Other ? None 6? .Moderate ? Heavy RIPARIAN Indicate the dominant type and record the dominant species present EGETATIO `s Trees )g: Shrubs ? Grasses ? Herbaceous 08 meter buffer) Dominant species present: NI Ix INSTREAM FEATURES Estimated Stream Width 1,, ?Vm High water mark 2 ?ftrm Estimated Stream Depth I- L- " Surface Velocity_L_ftlsec misec Proportion of Reach Represented by Stream Morphology Types: ? Riffle 10 c % ? Run % ? Pool -% Estimated Reach Length m Channelized ? Yes l No Canopy Cover ,,Partly Open ? Partly Shaded ? Shaded ? Open Dam Present ? Yes '?I No AQUATIC VEGETATION Indicate the dominant type and record the dominant species present ? Rooted Emergent ? Rooted Submergent ? Booted Floating ? Free Floating ? Floating Algae ? Attached. Algae ii Dominant Species Present I Portion of the reach with aquatic vegetation I t ` % WATER QUALITY Temperatures °C Specific Conductance pH 7.? Dissolved Oxygen' ? , Turbiclity? 'Mater Odors t iNormal]None ? Sewage ? Petroleum ? Fishy ? Chemical ? Other Water Surface Oils ? Slick ? Sheen a Globs ? Flecks ,b(None ? Other Turbidity (if not measured) Clear ? Slightly turbid ? Turbid ? Opaque ? Stained ? Other N.\TE?-iPLATESIBIOBENCHIMACROINVERT?BENTHIC WQ BENCN SHEET.DOC OLER LABORATORIES PHYSICAL C AR CTERI TIONMATER QUALITY FIELD DATA SHEET PAGE 3 of 3 (Adapted from EPA 841-D-47-002 RSP Annendix A-1 Sample Data forms) SBDIMENTISLIIBSTRATE Odors ,,Normal ? Sewage ? Petroleum ? Anaerobic' ? Chemical ? None ? Other Deposits ? Sludge ? Sawdust ? Paper fiber `PSand ? Relic shells 13 Other Oils ',P Absent ? Slight ? Moderate ? Profuse Looking at stones which are not deeply imbedded, are the undersides black in color? ? Yes b No INORGANIC S_ UBSTRATE COMPONENTS ORGANIC SUBSTRATE COMPONENTS (SHOULD ADD UP TO 100%) (DOES NOT NECESSARILY ADD UP TO 100%) Substrate oiameter %Composition in Substrate Characteristic %Composition in Type Sampling Reach Type Samping Area Bedrock Detritus sticks, wood, Boulder >256 rpm (10") coarse plant materials ?2 O (CPOM) Cobble 64,256 mm Muck-Mud black, very tine (2.5-10") organic matter (FPO MA) Gravel 2-64 rpm - (0.1-2.5") Sand 0.06-2 mm Marl grey, shell (gritty) fragments Silt 0.004-0.06 mm Clay <0.004 mm (slick) t M 1 1 N:\TEMPLATES\BiosENCHWACRMVERI\BENTHIC WQ BENCH SHEET.DOC OL Y E LABORATORIES