Mapping Guide Appendix - Watershed Management Division
Contents
1. SUBIMPACT Mapping Lateral Constraints To map Lateral Constraints begin with Roads Driveway and Buildings data layers Note Only select Buildings data that indicates a building not a pay phone or hydrant We Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 89 5 28 2010 only want to see the features that falls within the river corridor P2 Sediment To do this open ArcToolbox by clicking on the red toolbox icon in the top center of the ArcMap display Navigate within the tool box to the Clip tool g ArcToolbox EA Analysis Tools be 2 Table Select ey Overlay ey Proximity OE Statistics p Cartography Tools DES Conversion Tools DES Data Management Tools DES Geocoding Tools DES Linear Referencing Tools DES Multidimension Tools DES Samples DES Server Tools DES Spatial Statistics Tools Double click on the Clip tool to open the Clip window You must clip each of the above mentioned one at a time First select the Buildings data layer from Input Features drop down menu Input Features amp buildings amp rade ctrls c P sediment Ex buildings amp driveway amp castleton river amp roads amp Sub atershed Now select the polygon filed P2 sediment that you will Clip Features to Select where you would like the file saved Output Feature Class and what you would like to name it the default name will2. TRIBID PH2SEGID RCHPTID RCHSEGID IMPACT SUBIMPACT lt gt Like Berm gt gt And lt lt Or E El Straightening ETE Not with Windrowing ls GoTo F A DN MES EOS ERES axl SELECT FROM fit01Inimpactseg WHERE SUBIMPACT Berm OR SUBIMPACT Road General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show EHE Draw all features using the same symbol Import Single symbol Categories me Clear Verify Help Load Save vr EE Advenced Multiple Attributes OK Cancel mes Definition Query Single Symbol in Symbology Change the Encroachment line symbol to the brown and black roads railroads berm and improved paths symbol Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 64 5 28 2010 If you do not have FIT data use the P2 encroachment data layer to show the various ranges in percent of encroachments per reach segment Categorize by Unique Value Set the Value Field to ENCRCH RNG Add the values 596 gt 5 amp lt 20 and gt 20 Layer Properties General Source Selection Display symbology Fields Definition Quer Labels Joins Fielates Show i i i i Import Features Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase2MappingExport ENCRCH RN J J
3. Unique values many Vee ime Quantities Charts all other values all other values Multiple Attributes lt Heading gt B2 lt 14 eee E poe lt 20 gt 20 Unique Value in Symbology Change the P2 encroachment line symbols to the various green yellow orange scale for P2 encroach lt 5 P2 encroach gt 5 lt 20 and P2 encroach gt 20 lines Change the lt Heading gt Phase2MappingExport ENCRCH RNG to RANGE If you do not have FIT or Phase 2 data use the P1 encroachment impact data layer to display the phase 1 encroachment impact rating of each reach Categorize by Unique Value Set the Value Field to ENCRCH IMP Add the values High and Low Layer Properties E 3 x General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show l Import Esat res Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase MappingE xport ENCRCH IMI j Unique values manu Her BS Quantities Charts all other values all other values vu High High Multiple Attributes E wow Fw Low Unique Value in Symbology Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 65 5 28 2010 Change the High line symbol to the light green dotted P1 encroach High line symbol and the Low l
4. 5 28 2010 Looking at the entire reach figure out where this segment is located on the reach e g A p u edi etc Below you see a table with the Feature ID 53 highlighted On the map the feature is also highlighted This Segment is located between the 2 and 3 segment points seg lsegptsproj from the downstream end This means that it is the 3nd segment or segment Cr Click the curser inside of the RCHPTID field for this feature and add the letter C to the T02 09 s1 04 so that it reads T02 09 s1 04C Attributes of Phase 7 corridor FD Shape RCHPTID 41 Polygon TO 05 21 02 22 02 42 Polygon T102 05 21 02 22 01 43 Polygon ITU2 05 s1 03 44 Polygon 102 081 02 45 Polygon 7102 11 31 044 46 Polygon 102 11 31 048 47 Polygon TO2 11 21 04C 48 Polygon T02 11 21 04D 49 Polygon TO2 11 21 024 50 Polygon TO2 11 21 026 51 Polygon TO2 09 s1 044 52 Polygon TO2 09 s1 048 54 Polygon TO2 D8 s1 04 55 Polygon TO2 09 1 04 5B Polygon TO 09 21 01 57 Polygon T02 09 21 01 58 Polygon TO2 09 1 02 59 Polygon 102 091 02 BD Polygon T0211 Repeat this until all segments are renamed in the RCHPTID field Save your edits and stop editing Right click on the Phase_2_corridor and select Joins and Relates gt Join from the drop down menu Ciarcgisvvern Copy Records emergenc gt lt Remove C larcgis vern Open MAIP Ima Joins and Relates Remove Joints This wi
5. Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp gt Unique values PssenersonuR v Rice li B NU gt Unique values many Match to symbols ina rbot yae fia Cont Quantities Charts E all other values all other values Multiple Attributes Heading cumulative effect D Dz Az and lt 10 52 and lt 10 10 and lt 0 10 and lt 20 AE 20 Add All Values Add Values Remove Remove All Advanced gt card tom Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 38 5 28 2010 Change the symbol lines to the increasing thickness red urban lines for lt 5 gt 5 and lt 10 gt 10 lt 20 and gt 20 Change the lt HEADING gt URB_W_RNG to say cumulative effect by left clicking and typing over it To show the effect of urban land use for each unique subwatershed use the Urban polygon layer and display by unique value with a value filed of the Phasel MappingExport URB 5 RNG The range categories are lt 5 gt 5 and lt 10 2 10 lt 20 and gt 20 but often not all are present so just add the ones that are the relevant values Layer Properties EE 3 x General Source Selection Display symbology Fields Definition Query
6. Set the Value Field to Phase2MappingExport TRIB REJUV Add value Yes Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 51 5 28 2010 bx General Source Selection Display symbology Fields Detinition Query Labels dans amp Relates Show Import Esah rez Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values PhasezMappingE sport TRIB R EJLIv p Unique values many Mae A Quantities Charts all other values all other values Heading Multiple Attributes es Yez Unique Value in Symbology Change symbol to the thick pink Rejuvenating tribs line for trib_rejuv yes Delete the lt Heading gt TRIB REJUV Sample Sediment Load Indicators Map E F Sediment Load E Steep riffle El Gully Gi E Mass Failure Bank Erosion L eft Bank Right Bank Deposition mile Range a acm a Worm 12 08 81 D1 9 5 Mass Failure Gully mile Range Me lt 2 M gt 2 lt 5 AM 5 Tibutary Rejuvination Yes Roads E Sub Watershed Cl E Castleton River P TO 06 21 D2 TO2 08 81 14 Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 22 5 28 2010 E Channel Slope Modifiers Map The channel slope modifiers map will show head cuts straightening encroachments and development within the corridor grade controls and constrictions and
7. Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp Unique values Phase MappingE sport URB_S_RNG 3 Ii MONO H Unique values many ASAS Quantities Charts all other values all other values Heading individual watershed Multiple Attributes k i ERES c 5x LL A BOUE 5e10x PPPA 0202 1020 AMA 20 gt 20 i E Add All Values Add Values Remove Remove All Advanced caos sen Change the symbol fills to the varied thickness 45 degree line urban fills for lt 5 gt 5 and lt 10 gt 10 lt 20 and gt 20 Change the lt HEADING gt URB_S_RNG to say individual watershed by left clicking and typing over it Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 39 5 28 2010 Mapping Road Densities Use the Road Density data layer to display four ranges of road densities 0 2 3 4 5 6 and gt 7 The instructions for creation of the SISWR emergency line layer can be found on pages 6 11 Use Graduated colors to symbolize quantities within the Field of the SISWR emergency rds line mi sqmile 21x General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show it i Import Festes Draw quantities using color to show values p Categories Fields Classification Quan
8. 10 and lt 20 Straightening gt 20 line symbols Chang the lt Heading gt Phasel MappingExportSTRAIL RNG to RANGE River Corridor Encroachments Data SGAT Feature Type Attribute Information FIT line data Roads railroads improved paths and development Phase 1 data indicating highest impact rating low high assessed OR between the two parameters river corridor development Step Stream reach line data 6 2 and berms and roads Step 6 1 Export Code ENCRCH_IMP Use the Encroachment Development data layer to display any lines indicating development or encroachment This can be done by setting a definition query to Impact Development or Impact Encroachment and then Symbolizing the features with a single symbol Query Builder TRIBID PH2SEGID RCHPTID Bank Armoring or Revetment Bridge or Culvert Development Encroachment Erosion Straightening EM EST A Layer Properties ax SELECT FROM fit01Inimpactseg WHERE IMPACT Development OR IMPACT Encroachment General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Fastis Draw all features using the same symbol Import Single symbol Categories Symbol Clear Verify Help Load Save Quantities AA OE Charts Cancel Multiple Attributes Definition Query Single in Symbology Change the sy
9. BASS osvaldo dit 58 Grade controls and Channel Constrictions Data icccccccccssscccccccccccecnseeeseeeeeee ee ehh eese se eeeeeeeeesaaaaaeeeeeeesaaaaeeeeess 56 IO AMPLE HE M 60 Sample Channel Slope Moders MaD ect AA AUS ed Dra EHE cedo DRE odd OTA 62 CHANNEL DEPTH MODIFIER MAP tra aia aaa dada 62 INEAPPING INCREASES IN DEP THs ces eei mis ao tes uoce a 64 berms Roads Railroads Improved Paths DOlas au uccaseccexetes is eter etd teo dai 64 Storni ao OU OUE DOl T E w 66 BRA RE ONG CULV CVE PDOT ies aren AA 67 MAPPING DECREASES IN D EPTLL everest caedi ebat tn e eben voee ta ooa td Ue dus oeste rela 68 Deland Backwater Deposits DATA INS NI DUE 66 DEPOSITA AAA AAA 69 Gravel Minne and Bar aca pie DITA A tuo Eutr od eH ORE o thee bha i iaace sun ei og ssi 70 Sample Channel Depth Modifiers Map secco A A 72 BOUNDARY CONDITIONS AND RIPARIAN MODIFIERS MAP cceeeeeeeeeeeeeee eene eene eene eee eee tenente e nennen e nennen eene enne T2 MAPPING INCREASED BOUNDARY RESISTANCE caos 74 Riparian Vegetation and Bank Cohesiveness Data oocccccnnnnnoonnnnnnnnnnnnnnnonononnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnacnnnnnnnnnnos 74 Grade Controls DO usc uo atit A M MEMINI EI M M E M EE 78 SUS TCD Geka aaa tas ws ate seas RM EE M M ME MI E E 79 Bank Armoring and Active Bank Erosion Data eese esee nnne sssea annees
10. Ctrls point symbol to the blue and gray Natural Grade Control symbol Phase 2 Sediment Regime Departure Existing condition Map The Sediment Regime Departure Existing Conditions map will show all grade controls existing sediment types and a buffered corridor development layer To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu Rename this data frame Sediment Regime Existing Copy and paste all the data layers need for this map Rename the layers in the Sediment Regime Existing Data Frame Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 87 5 28 2010 sediment Regime Existing Fit peimpactseg o Phase 2 corridor E Emergency ESITE point e EMERGENCY Diy LINE s I5swFinaldslv emergency rds line subWatershed eg naip2003_ index LJ Mapping Sediment Regime Data Sediment Regime Existing E Grade Controls E P2 Sediment MM Buildings o E Driveway Castleton River Roads Subwatershed LJ naip2003_ index 1 Use the P2 Sediment data layer to show the field verified sediment regime types for each segment reach Categorize by Unique Value Set the Value Field to Phase2MappingExport PH2 SED R Add all relevant values Layer Properties General Source Selection Display symbology Fields Definition Query Labe
11. Server Tools DES Spatial Statistics Tools Like clipping the Buffer tool must be run separately for each layer Double click on the Buffer tool to open the Buffer window Select the newly created building shape file Building clip from the Input Features drop down menu Select where you would like this saved and what you would like to name it Set the Distance value or field to 166 and choose Feet from the units drop down menu Click the OK button Input Features gt building clip Output Feature Class C Documents and Settings sjuniarsD esktep sch SEIS building Distance value or field Linear unit 166 Feet Field x Side Type optional FULL End Type foptional ROUND Dissolve Type optional Cancel Environments Show Help gt gt Repeat these steps to buffer the clipped Roads and clipped driveways but for these you must use a Linear unit of 50 Feet Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 92 5 28 2010 Input Features gt emergency rds line Clip Output Feature Class C arcgis wermont roads WANES ADS emergency rds line Distance value or field Linear unit Hn Feet C Field Side Type optional FULL End Type optional ROUND T Dissolve Type toptianal Cancel Environments Show Help gt gt It is helpful
12. e Charts e all other values all other values t ll other val ll other val e Fi Multiple Attributes lt Heading gt SUBIMPACT Unaroup Values 4 Dam Human Constructed Grade m t eset Sorting ihe UNDA Remove Value s a 4 Grouping Unique Value in Symbology Unique Value in Symbology Change the Human Constructed Grade Control to the Grade Control Human Constructed symbol and the Natural Grade Control to the Grade Control Natural symbol Delete the lt Heading gt SUBIMPACT Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 59 5 28 2010 If you do not have FIT data use the P2 Grade ctrl mile data layer to display the range in number of grade controls per mile in specific reaches segments Categorize by Unique Value Set the Value Field to CNSTR_CNTL Add values lt 2 gt 2 lt 5 and 55 General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Draw categories using unique values of one field Import Value Field Color Ramp Unique values CNSTR_CNTL E Em ES ECHNEN Unique values many Match to symbols in a Quantities Charts all other values all other values Multiple Attributes Heading CNSTR CNTL Representations Unique Value in Symbology Change the P2 Grade ctrl mile line symbols to the various shades of yellow constrict mile lt 2 c
13. f Sediment Regime Reference Conditions E M fittlptimpactseg Ej v Natural Grade Controls n E 9 P1 Sediment E v s Scorridor use MA Coarse Equilibrium Fine Sediments v s lbsw naldslv B Transport Barton wi emergency rds line roads Subwatershed Eb ters ber NAIP MAIP Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 85 5 28 2010 Mapping Sediment Regime Data Use the P1 Sediment data layer to show the sediment regime of each segment reach Symbolize by Unique Value Set the Value Field to Phasel MappingExport PH1 SED RE Add all relevant values 2 xl Layer Properties General Source Selection Display Swmbology Fields Definition Query Labels Joins amp Fielates Show Draw categories using unique values of one field Import i Yale Field r Colo H amp x Unique values PhaselMappingEsportPH1 SED RI 3 c J p Unique values many I Match t bole i NIU E Charts I all other values all other values Multiple Attributes Heading PhaselMappingE xport I T Transport E E 5 EST Confined Source and Transp Y UST Uncontned source and tran Y EE FSTLD Fine Source and Transport 17 E CEFO Coarse Equilibrium in eut Unique Value in Symbology le Change the P1 Sediment polygon fill symbols to the blue yellow orange red and green for T CS
14. must be segmented if the Phase 2 reach was segmented prior to attributing Phase 2 data to it Export Code STR SENSIT Stream segment corridor Phase 2 Step 7 1 and 7 2 separately indicating if the channel polygon adjustments of degradation or aggradation are major adjustments fair or poor conditions scores of 1 5 are poor 6 10 are fair and the adjustment is current 1 e the historic box is not checked Export Code VERT DEG VERT AGG Use the Sensitivity data layer to display the Phase 2 sensitivity rating assigned to each segment reach Categorize by Unique Value Set the Value Field to Phase2MappingExport STR SENSIT Add all relevant values Layer Properties General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Features Categories Value Field Color Ramp Phase2MappingE sport STR SENSH Unique values many Maca to symbols in a 6 umbo Draw categories using unique values of one field Import Quantities Charts w all other values Corridor Heading STR SENSIT Very Low Very Low Moderate Moderate High High I Very High Very High EM Extreme Extreme Multiple Attributes Unique Value in Symbology Change the Sensitivity polygon symbols to the blue yellow peach orange and red shaded fills symbols for Very Low Low Moderate High Very High and Ext
15. reach line to indicate the category of significant crop land use moderate gt 5 lt 10 high gt 10 lt 20 extreme gt 20 This is showing the cumulative upstream percentage of crop land for the reach Export Code CROP_W_RNG SGAT table S14LC12 dbf codes of interest 22 24 211 and 212 attributing the sub watershed polygon indicating the category of significant crop land use moderate gt 5 lt 10 high gt 10 lt 20 extreme gt 20 This is showing the percentage of crop within the individual sub watershed Export Code CROP 8 RNG Crop data will be displayed as both line and polygon data To show the cumulative effect of crop along the river use the Crop line layer and categorize by Unique Value with the Value Field Phasel MappingExport CROP_W_RNG The range categories are lt 5 gt 5 and lt 10 2210 lt 20 and 2220906 Add relevant values Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 35 5 28 2010 General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show i i i l Import Fastuies Draw categories using unique values of one field p Categories Value Field Color Ramp a Unique values PhaselMappingEsport CROP w RI ian BN e Unique values mary pageh t symbols na Ds vale j Court Charts L all other values all other values Multiple Attributes Heading cumu
16. t Definition Query Unique Value in Symbology Change the Armoring line symbols to the blue Armoring right bank and Armoring left bank line symbols Delete the lt Heading gt LOCATION If you do not have FIT data this will be done for both the left and right revetments For the left revetments use the P2 L Revetment data layer to display the percent of each reach segment that is lined with left bank revetments Categorize by Unique Value Set the Value Field to L_REV_RNG Add all relevant values General Source Selection Display symbology Fields Definition Quer Labels Joins amp Relates Show i i i Import Feature Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase2MappingExport L_REWT_RNI J Unique values many Hei ok ts Quantities Charts all other values all other values lt Heading gt range 20 0 Multiple Attributes OE gt 20 PAA 220 SED lt 04 Unique Value in Symbology Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 80 5 28 2010 Change the grade P2 L Revetment line symbols to the various shades of blue Revetment lt 5 Revetment gt 5 lt 20 and Revetment gt 20 lines Change the lt Heading gt L_REVT_RNG to RANGE For the right revetments use the P2 R Revetment data la
17. t Unique values Phase appingE sport VERT 466 i LI nique values many Phase2MappingE sport VERT_DEG y ss arate i Match to symbols in allt FhaseeMappingE port VER T DEG i Es m Juantilies sone y nra Charts oe TR rere T Multiple Attributes Mo No Mo Ma rer rr Na Yes Mo es UNUS Yes no Yes no Unique Value many fields in Symbology Draw categories using unique values combining up to 3 fields Import t4 Color Ramp Symbol Value Leet gall other values all other values Change the A geradation vs Degradation polygon symbols to the various fill patterns for No Yes Yes No and Yes Yes Change the lt Heading gt CNST_CNTRL to RANGE Sample Stream Sensitivity Map Stream Sensstiv my Extreme SJ serv High High had erate Ery Low Barton Foad Sub ate rsh ed Corridor Planning Map Guidance Appendix 98 Vermont Agency of Natural Resources 5 28 2010 Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 99 5 28 2010
18. table to the NRCS Top 20 table This can be found in the SGAT base data folder You will use the MUID field for the join Once the table has been joined to the SIISW layer you can display the information as described Symbolize with a single symbol using the lost wetlands fill General Source Selection Display symbology Fields Definition Quer Labels Joins amp Relates Show l Draw categories using unique values of one field Import Features Categories Value Field Color Ramp gt Unique values HYDRIC E m 5 T g Unique values mary Me uu MG Quantities Charts m all other values all other values gt ERENHE Y Multiple Attributes ka le Add All Values Add Values Remove Remove All Advanced gt caca tom Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 45 5 28 2010 Sample Land Use and Land Cover Map EL un rum um am ma e F UFU GF acu ur a ur d A an P T he Vh de i LX AN T E i h CN rs k hay ME 5 e lo a de ets AN S i un de LA y e gt he E El existing wetland El Existing wetland i ry El nwiD408 p WU our a ur P ur AA uh Pas P UN ae rar n ni0309_p ARA El nwiD308 p um e e NN Fo Fr Pur glor iir iria M FUE S PP at AA AAA e E n i0208_p E lost
19. the varied shades of grey crop fills for 596 gt 5 and lt 10 2210 lt 20 and gt 20 Change the lt HEADING gt CROP S RNG to say individual effect by left clicking and typing over it Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 37 5 28 2010 Mapping Urban Data SGAT Feature Type Attribute Information Phase 1 Step 4 1 data attributing the reach line indicating the category of significant urban land use moderate gt 5 10 high gt 10 lt 20 Stream reach line data extreme gt 20 This is showing the cumulative upstream percentage of urban land for the reach Export Code URB_W_RNG SGAT table SI4LW12 dbf codes for urban to attribute the sub AND watershed polygon indicating the category of significant urban land use moderate 5 10 high 10 20 extreme gt 20 Showing the percentage of urban land use within the individual sub watershed Export Code URB 8 RNG Sub watersheds polygon Urban data will be displayed as both line and polygon data To show the cumulative effect of urban land use along the river use the Urban line layer and categorize by Unique Value with the Value Field Phasel MappingExport URB_W_RNG The range categories are lt 5 gt 5 and lt 10 2210 lt 20 and gt 20 but often not all are present so just add the ones that are the relevant values General Source
20. the various shade of purple Beaver Dam lt 2 Beaver Dam gt 2 lt 5 and Beaver Dam 5 lines Change the lt Heading gt BVRDAM_RNG to RANGE Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 61 5 28 2010 Sample Channel Slope Modifiers Map Channel Slope Modifiers reach breaks am castleton blocker E Head Cut H Grade Control human constructed grade ctrl x natural grade ctrl Straightening Encroachment Dievelopment Pz Straightening Range zb zb SSO Is P2 Grade ctri mile Range e HD ES 3 P2 Beaver Dam range Ai aly m2 em 2 5 es Pi Straightening Ranae Channel Depth Modifier Map The Channel Depth Modifier map will show stormwater inputs bridges and culverts dredging beaver dams encroachments and depositional features To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu Rename this data frame Channel Depth Modifier Copy and paste all the data layers need for this map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 62 5 28 2010 Rename the layers in the Channel Depth Modifier Data Frame Channel Depth Modifier At ptimpactseq Ht ptimpactseq At ptimpactseq Ht ptimpactseg fit d Inimpactseg FhasezM ap able FhasezM apT able E
21. to merge all of the buffered data into one data layer and call it Lateral Constraints To do this navigate to the merge tool within ArcToolbox 3 ArcToolbox 2 EY Analvsis Tools Cartography Tools E D Conversion Taals E ow Data Management Tools DE Data Comparison H p Database ly Disconnected Editing ey Domains md Feature Class ey Features E amp Fields H amp File Geodatabase 79 General T d Append an Calculate Value PF Copy tee U Delete m 2 Merge Branch Rename e Select Data Double click on the Merge tool to open the Merge window Use the Input Features drop down menu to select the 3 buffered data layers Once you have selected highlighted one click on the Plus button to add it to the list Once all three are on the list choose the location where you would like this file saved Rename the File Lateral Constraints Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 93 5 28 2010 Input Features amp buildingclip Butter e drivemayClip Buffer amp emergency rds line Clip Buff x Output Features EAD ocuments and SettingssjuniarsD esktapsch SG S Lateral Field Map optional AREA Double gt ox Cancel Environments Show Help gt gt When you have done this click OK Add the Lateral constraints shapefile to the map Layer Properties E Ax l Source Selection Display Symbology Fi
22. to symbols in a Quantities Charts e lt all other values gt lt all other values gt Multiple Attributes lt Heading gt SUBIMPACT 84 e D am Weir Human Constructed Grade C 14 Ledae 42 t Ungroup Values 4 Reverse Sorting Reset Sorting Remove Value s SELECT FROM fit01 ptimpactseg WHERE SUBIMPACT Dam OR SUBIMPACT Ledge OR SUBIMPACT waterfall Clear Verify Help Load Save Cancel Definition Query Grouping Unique Value in Symbology Layer Properties General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Faatunss Draw categories using unique values of one field Import Categories Value Field Color Ramp Unique values SUBIMPACT mn NU Unique values many enn Quantities Charts all other values all other values Multiple Attributes Heading SUBIMPACT Dam Human Constructed Grade t EES ciel Natural Grade Control Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 78 5 28 2010 Unique Value in Symbology Change the Grade Control point symbols to the blue and grey natural grade control and human constructed grade control symbols Change the value title Dam Weir to Human Constructed Grade Controls and the value title Ledge Waterfall to Natural Grade Control Delete the lt Heading gt SUBIMP
23. ACT Substrate Data Use the P2 Coarse Bed data layer to indicate which segments reaches have bed substrate that is equal to or greater than the course gravel substrate size To do this use the query builder to select only those reach segments that have COURSE BED Yes Then display using a Single Symbol Layer Propertie Query Builder General Source DREDGING L BUF 25 Definition Query R_BUF_25 BED MATER COURSE_BED COHESIWE ge Like NULL gt o 000 Yes deja Get Unique Values GoTe a eu Layer Properties l 2 x Query Bul SELECT FROM Phase2NewT able WHERE COURSE BEDA Wien General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show f Euro Draw all features using the same symbol Import Single symbol Categories xo Clear Verify Help Load Save Quantities j pem Charts i __ Advanced Cancel Multiple Attributes i Definition Query Single Symbol in Symbology Change the P2 Coarse bed line symbol to the teal Coarse bed material line symbol Bank Armoring and Active Bank Erosion Data SGAT Feature Type Attribute Information Bank armoring revetment or erosion attributed separately off set FEE neat for right and or left bank separately Phase 2 data Steps 3 1 indicating the percentage of the reach segment length right and left bank with bank revetment an
24. Code STRAI RNG Stream segment line data OR Stream reach line data Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 54 5 28 2010 Use the Head Cut data layer to display any points identifying headcuts along the entire river This can be done by setting a definition query to SUBIMPACT Head Cut and then displaying with a single symbol parti Sup Par T e sz ua iier S zi TENEI ee Layer Properties E 7 xj a ke d Ef ep ol M General Source Selection Display Symbology Fields Definition Query Labels Joins de Relates i1 Ba E a ln I m SELUCT FROM eT pine testo EAT SUBIMFACT Heel Cu Show D raw all features using the same symbol Import a Symbal Ger Ve Heb tot 5 EE H _ Advanced Multiple Attributes Definition Query Single symbol Symbology Change the symbol to the blue head cut circle Use the Straightening data layer to display any lines indicating straightening This can be done by setting a definition query to IMPACT Straightening and then symbolizing by a single symbol Query Builder de DBJECTID IMPACTID TRIBID PH2SEGID RCHPTID RCHSEGID e uel gt a je a al a we Is Get Unique Values Go To Layer Properties 3 x SELECT FROM fit01lnimpactseg WHERE General Source Selection Display Spmbol
25. Culvert s Le uin Layer Properties Encroachment i General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show AOS Draw categories using unique values of one field Imj T Categories Value Field Color Ramp Query Bug SELECT FROM fit01Inimpactseg WHERE IMPACT Erosion LOCATION mmm NEN Unique values many I Qu insit me Charts C all other values all other values _ Gea ves Heb toaa Save _ Multiple Attributes lt Heading gt LOCATION Left Bank Left Bank Cancel Right Bank Right Bank Definition Query Unique Value in Symbology Change the Erosion line symbols to the brown Erosion left bank and Erosion right bank line symbols Delete the lt Heading gt LOCATION If you do not have the FIT data this will be done for both the left and right erosion For the left erosion use the P2 L Erosion 96 data layer to display the left bank erosion range for each reach segment Categorize by Unique Value Set the Value Field to L_EROS_RNG Add all relevant values Layer Properties General Source Selection Display symbology Fields Definition Query Labels dons Relates Show l i i i Import Fe hirez Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase2MappingExportL_EROS_AN J J Unique values manu I Hale pol ts Quantities Ch
26. FhasezMapT able E Phase2M apT able El FhaselMapT able El Phase MapT able E PhaselMapT able E s 5swfinaldslv El emergenci_rde line E Subwatershed Corridor Planning Map Guidance Appendix 63 E E Channel Depth Modifier Stormwatker input e Bridge or Culvert e Dredging e Beaver Dams e Encroachment P2 encroachment 95 P2 stormwater mile P2 deposition mile P dredging PL encroachment impact P1 depositon impact P1 dredging impact Castleton River roads Sub atershed Vermont Agency of Natural Resources 5 28 2010 Mapping Increases in Depth Berms Roads Railroads Improved Paths Data SGAT Feature Type Attribute Information FIT line data Berms Roads Railroads Phase 2 data Steps 1 3 indicating the percentage of one bank OR both banks encroached upon by berms roads railroads Stream segment line data Export Code ENCRCH_RNG gt 5 lt 20 gt 20 OR Phase 1 data Step 6 1 indicating low or high impact rating isa ene Medea associated with berms roads and rail roads Export Code ENCRCH_IMP Use the Encroachment data layer to display any lines indicating berms roads railroads or improved paths This can be done by setting a definition query to SUBIMPACT Berm OR SUBIMPACT Road OR SUBIMPACT Railroad or SUBIMPACT Improved Path Then symbolize the features with a single symbol Query Builder
27. H LI ETE ES E D a A ILILILIEILET NN NL NI IECEEEBNNEN NANA A f A NI mi More Colors E Ei L m EJ Dj m E Dimpmg E f i miE Propertie More ere Symt g Save les I m E m E Wi E E O 3 a a p ru Click on the zoom to full extent button to see the entire state of Vermont The mapping data table provides you information about why certain parameters are used the range of values a parameter may have and the export code used for that parameter in the Phase 1 and or Phase 2 export tables Data calculations and or normalizations that are described in the attribute information column for the mapping data table have already been done in the DMS The Phase and Phase 2 export tables contain the appropriate data values needed for each map For each map the mapping data table may have several parameters listed Many of them contain an and or descriptor This is an indication that the user may chose to show either both types of data described or may chose to only show one of the parameters depending on which parameter or both parameters best displays the data The or parameter indicates that there are several display options available For those with an and include all the data suggested Use your best judgment when making these maps as to how to display your data so that you can read and use the maps If you can not create the maps s
28. HSEGID IMPACT SUBIMPACT LOCATION E Like Beaver Dam Debris Jam 2 gt Ard Foedus Flow Regulation p pa Grade Control Mass Failure HNEENEN te ey Go To Po SELECT FROM fitO01 ptimpactseg WHERE IMPACT Beaver Dam General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Features Draw all features using the same symbol Import m Symbol Advanced Clear Verify Help Load Save Cancel Definition Query Single Symbol in Symbology Multiple Attributes m Legend Change the Beaver Dam point symbol to the pink Beaver Dam symbol If you do not have FIT data use the P2 Beaver dam data layer to show the ranges of beaver dams per reach segment To do this categorize by Unique Value Set the Value Field to BVRDAM_RNG Add the values lt 2 22 lt 5 and 55 General Source Selection Display symbology Fields Detinition Query Labels Jone amp Relates Show i i i Import Feature Draw categories using unique values of one field mpor Categories Value Field Color Ramp OA T Unique values many POCO STORE Quantities Charts all other values gt all other values Heading range MVV 2 2 Multiple Attributes IA gt I 13 Unique Value in Symbology Change the P2 Beaver dam line symbols to
29. Mapping Guide Appendix Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 5 28 2010 Table of Contents TABEE ORCC ON DEIN ES ese scat ssec tede Does eeu Vega aya Ee ikv TUE EE CHE ARA AAA AAA cid 2 LACOUIRING DATA 0 5 omoes ee eiie eese 4 Do LO O AAA A A RO d usd ca E UAE CL oa ees 4 AORTA Ae BLES cn e CE E M SEE TREC Mu CL CM ML DU ete Orr Ess PRUE M E 4 Pata TOG CUM AAA e dte datei oti EO os Uliana duet dot en duse Ga cena laa ruta ute ee Vue e eU 6 O e LoT NP MR EC URP PENCPERES 6 COTON e de AA ees stl lager bua ruso dota datae apa ets rdiet eR an dare eo te qud vus ud quts Vue een EN e AA RR ER 11 EPO Fables CODD siete esce oU etiim A A tica 11 Vermont Center for Geographical Information VCQGI eese esee nnn nn nnne n nennen nennen nenas 14 LOC RO a 15 DCT IP SOS 15 I GETTING STARTED rreson EE cece ees 15 Open a MEW ARCMAD OX DIO JCC sii AAA pt AAA dte Re E 15 NAO m 15 CREATION AND JOINING OF TABLES oreson a e T or a a E eor a a SEa 16 I1 409 See eI ROTA RU NEM EOE OA CUR TE ER 19 Displaying Unique Data From Within Data Sets accetta Ven estuseab e purae uten ees tuned eus aine en ue Va ulus 23 IV MAPS uuu EE MM A 24 LOCATION MEA obe DE 24 HYDROLOGIC ALTERATIONS MAP tirita 26 MODDIOSSIOFHIWOIQE DOG ciii cases t odio es coSed ahaa te Laus pad er cid eine la cd datos dU Und cat 27 Mapping Domsainui Diversions Da
30. O1 ptimpactseg e PhasezMapTable PhasezMapTable PhasezMapTable emergency rds line s 5swfinaldsl Sub Watershed Mapping Erosion and Deposition Features Data SGAT Feature Type Attribute Information FIT point data Steep riffles flood chutes avulsions and braiding Phase 2 data Steps 5 1 5 2 and 5 3 attributed to the stream segment line indicating the quantity of steep riffles mid channel bars delta bars flood chutes avulsions and braiding 0 2 gt 2 lt 5 gt 5 AND Stream segment line data OR Stream reach line data Export Code DEP RNG Mass Failure Bank Erosion Steep Riffle e Gully e Deposition mile Mass Faliure Sully mile Tributary Rejuvination Roads Castleton River Sub Watershed C note normalized values features 5 280 segment length Phase 1 Step 6 3 data indicating low or high impact rating for depositional features Export Code I DEPOSIT Corridor Planning Map Guidance Appendix 47 Vermont Agency of Natural Resources 5 28 2010 Use the Steep riffle data layer to display any points that have a Subimpact equal to Steep Riffle This can be done by setting a definition query with SUBIMPACT Steep Riffle or by categorizing by Unique Value in Symbology Set the Value Field to SUBIMPACT Add Steep Riffle wD er Properties eneral Source Selection Display Symbology Fields Defin
31. P by left clicking and typing over it Click on the ok button Mapping Previously Existing Wetlands SGAT Feature Type Attribute Information Sub watershed polygon for Hydric soils Y use light solid shading of polygons to soils S11sw contrast with darkly outlined NWI existing wetlands AND Length of roads in sub watershed calculated by running the SGAT tool Step 15 to derive the density of roads within the sub watershed This data is not included in the DMS export table Additional Resources AND Vermont NWI wetlands maps use outline of existing wetlands Sub watershed polygon Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 44 5 28 2010 This layer is created in Part C Soils Land Cover and Density Analysis Step 11 Clip Data Themes to Selected Boundaries of the SGAT Tool If you do not have the S11sw file you will need to run through the steps in Part C Please see the SGAT Handbook for further instructions To display the locations where crop and or urban features intersect with hydric soils use the S11sw Lost Wetlands data layer These are areas where there is a likely loss of wetlands Categorize by Unique Value Set the Value Field to HYDRIC Add all Y values Uncheck the all other values field and delete the heading If your S115W layer does not have the hydric information in the attribute table you will need to join the
32. Stormwater Input Categories Tors Field Color Ramp SELECT FROM fit01 ptimpactseg WHERE Unique values many IMPACT Mass Failure Match to symbols in a Quantities Charts all other values lt all other values Multiple Attributes 444 Mass failure Mass failure Definition Query Unique Value in Symbology Change symbol to the teal Mass failure line symbol Delete the lt Heading gt and the label Use the Gully data layer to display points identifying gullies This can be done by setting a definition query to IMPACT Gully or Categorizing by unique value in Symbology Set the Value Field to IMPACT Add the value Gully Query Builder ACHPTID RCHSEGID IMPACT SUBIMPACT LOCATION DATE Alluvial Fan Beaver Dam Debris Jam Dredging Grade Control Gully Mass Failure Get Unique Values SELECT FROM fitD ptimpact WHERE Layer Propos E 2 xl IMPACT Gully General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Draw categories using unique values of one field Import r Value Field Color Ramp IMPACT E Clear Verify Help Load Save ERES Multiple Attributes Gully Gully all other values all other values Definition Query Unique Value in Symbology Corridor Planning Map Guidance Appendix Vermont Agency of Na
33. T UST FSTCD and CEFD fills Change the lt Heading gt PHI SED REG to TYPE Change the T title to Transport Change the CST title to Confined Source and Transport Change the UST title to Unconfined Source and Transport Change the FSTCD title to Fine Source and Transport amp Coarse Deposition Change the CEFD title to Coarse Equilibrium in out amp Fine Deposition Mapping Grade Control Data 1 Use the Natural Grade Ctrls data layer to display Vertical Constraints along the whole river To do this set the definition query to SUBIMPACT waterfall OR SUBIMPACT ledge Then symbolize with a single symbol Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 86 5 28 2010 uery Builder Ax TRIBID PH2SEGID ACHPTID ACHSEGID IMPACT SUBIMPACT Neck Cutoff Steep Fiffle Stream Ford J Get Unique values Go To SELECT FROM fit00ptimpact WHERE SUBIMPACT Ledge OR SUBIMPACT waterfall 21xi General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Features Draw all features using the same symbol Import Single symbol ba Clear Verify Help Load Save Categories Advanced Comcel Multiple Attributes Definition Query Single Symbol in Symbology Change the Natural Grade
34. all other values all other values e Left Bank Left Bank Right Bank Right Bank Charts Multiple Attributes Definition Query Unique Value in Symbology Change symbols to brown erosion right and brown erosion left lines Delete lt Heading gt Mapping Mass Wasting Sites and Gully Data SGAT Feature Type Attribute Information FIT point data Mass failure or gully AND OR Phase 2 data Steps 3 1 attributed to the segment line indicating Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 49 5 28 2010 Stream segment line data the number of mass wasting sites or gullies 0 lt 2 gt 2 lt 5 gt 5 Export Code MF_GUL_RNG note normalized values features 5 280 segment length Use the Mass failure data layer to display any lines identifying mass failures This can be done by setting a definition query to IMPACT Mass Failure or categorizing by Unique Value in Symbology Set the Value Field to IMPACT Add the value Mass Failure on Display Symbology Fields Definition Query Labels Joins amp Relates Layer Properties 31 xl Dredging reu desatar General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates rade Lontrol Mass Failure Show Migration Draw categories using unique values of one field Import Steep Riffle or Head Cu Features
35. and recognizable segO1segptsproj a Editing If your editor window is not already open Select View Toolbars gt Editor Left click on the Editor button and select Start Editing Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 19 5 28 2010 Editor 4 Start Editing Choose the Cut Polygon Features option from the Task drop down menu found under the subheading Modify Tasks Task Cut Polygon Features Create Tasks Create New Feature Modify Tasks Reshape Feature Mirror Features Extend Trim Features Modify Feature Calibrate Route Feature Modify Portion of a Line Topology Tasks Modify Edge Reshape Edge Auto Complete Polygon gt Other Tasks Survey Analyst Edit Task Select Features Using a Lir Zolak Fash waor leinn an i gt Make sure you select the proper layer from the Target drop down menu Target Phase 2 corridor seg 1segptsproj Fit 1ptimpactseg PhasezMapTable PhaselMapTable FitO Unirnpactseg sOSoswitinaldsly segt1swseg Phase 2 corridor phasez corridor sO9corridor Your editor tool bar should look like this Editor Row V Task Cut Polygon Features Target Phase 2 corridor Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 20 5 28 2010 Select the Edit Tool the arrow like pointer Use this tool to select the polygon that you want to segment This
36. and Windrowing Data SGAT Feature Type Attribute Information FIT point data Dredging gravel mining or bar scalping AND OR Phase 1 data Step 5 5 indicating low or high impact rating Stream reach line data associated gravel mining and dredging Export Code I DREDGE Use the Dredging data layer to display the locations of dredging along the entire river To do this set the definition query to IMPACT Dredging Gravel Mining or Bar Scalping and then display using a single symbol Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 83 5 28 2010 Layer Propertie Query Builder General Source TRIBID Definition Query Flow Regulation Grade Control Mass Failure Migration Steep Riffle or Head Cu Stormwater Input a gu Not Stream Crossing Layer Properties E E E Ax Is General Source Selection Display Symibology Fields Definition Query Labels Joins amp Relates Query Bug SELECT FROM fit01 ptimpactseg WHERE aie ara IMPACT Dredgingl Draw all features using the same symbol Import Features z Single symbol SUmBol Categories Clear Verify Help Load Save Quantities Charts Cancel Definition Query Single symbol in Symbology Multiple Attributes Change the default Dredging point symbol to the shovel Dredging symbol Sample Boundary Conditions and Riparian Modifi
37. are editing the shape file we must make this a new shape file in order to preserve the non segmented sO9corridor shape file Right click on one of the sO9corridor layers and select Data and Export Data from the drop down menu Fit 1lnimpact Data sn 5swfinalds Save As Laver File Export Data sequilswseg Properties phases corri LJ Export All features using the layer s source data for the coordinate system though the data frame should have the same coordinate system Choose a location where you want the file saved on your computer we recommend keeping all your data in the same location Rename this layer Phase 2 _ corridor Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 18 5 28 2010 Export Data Esport All features Use the same coordinate system as f this laper s source data f the data frame D Output shapetile ar Feature class Sarcqissch 5 test Phase 2 corridor shp Click the OK button A pop up window will ask you if you would like to add this data to the map as a layer Click Yes ArcMap A Co vau want to add the exported data to the map as a layer Yes Ma This layer will be added to your table of contents Phase 2 corridor EE We are going to modify segment the corridor based on the Phase 2 segment points so change your seg01segptsproj segment points symbol to something larger
38. arts all other values all other values Heading range 04 0 Multiple Attributes nA lt 270 Ax lt 270 gt 20 OX Unique Value in Symbology Change the P2 L Erosion line symbols to the various shades of brown erosion lt 3 erosion gt 5 lt 20 and erosion gt 20 lines Change the lt Heading gt L_EROS_RNG to RANGE Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 82 5 28 2010 For the right erosion use the P2 R Erosion data layer to display the right bank erosion range Categorize by Unique Value Set the Value Field to R EROS RNG Add all relevant data General Source Selection Display symbology Fields Definition Query Labels dons Relates Show l i i i Import Fe h rez Draw categories using unique values of one field p Categories Value Field Color Ramp gt gt Unique values Phase2MappingExport R_EROS_RN J z n Unique values many EO Sens Quantities Charts all other values all other values Multiple Attributes Heading range 04 0 yore csl gt 58 2205 207 gt 20 Unique Value in Symbology Change the P2 R Erosion line symbols to the various shades of brown erosion lt 5 erosion gt 5 lt 20 and erosion gt 20 lines Change the lt Heading gt R_EROS_RNG to RANGE Historic Dredging
39. ate system in Predefined gt Projected Coordinate Systems gt State Plane gt Nad 1983 gt NAD 1983 State Plane Vermont FIPS 4400 Click the OK button Add all layers to the project SISWR emergency roads dbf Phasel MappingExport dbf Phase2MappingExport dbf SO5swfinaldslv shp Seg01swseg shp SO6rpts SO9corridor shp Fit01ptimpactseg shp FitOlInimpactseg shp S SW shp SubWatershed xxx Vermont Road Data E911 recommended Vermont House and Driveway Data E 911 Ortho Photos NAIP recommended Vermont NWI wetland layer and the Vermont State political outline Vermont State Political Outline Parcel Data Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 15 5 28 2010 Click on Tools from the upper menu Select Styles gt Style References from the drop down menu Click on the Add button and then navigate to the Ch3_Map style Click OK followed by OK Save the Project Follow the old adage save early save often This will save you much heart ache and consternation Creation and Joining of Tables Create new data layer by joining sO5swfinaldslv to Phasel MappingExport dbf Join using REACHPTID field Rename this layer for future recognition Rename this layer Phasel MapTable Right click on the s05swfinaldslv shape file and select Copy soos io Ea Copy segOl 7 amp Remove Righ
40. b4 shp Corridors Step 09 Theme for Sub atersheds to be used Data Theme and Extraction Criteri Theme Not Selected Feature Selection Criteri Use Feature Selection Data Values l Fress Shift key to Hield Hame Hot Selected select multiple Density Unit Units me Select input theme for which density values will be calculated HequiredT heme s Beach Points SDERPIsDT ae Theme for Reach Points to be used Cutout Tabl Table Name Data Theme Not Selected To be saved in d sprojects smillnaextsmill n ersDrerivdD ata Note for insertion into System Lo User Note Calculate Density Cone Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 6 5 28 2010 We are interested in the densities within the Sub watershed boundary so select the Sub Watershed Source circle Boundary Theme Defining Areas For which Density will be Calculate FIRST Select Area for Boundary Them Theme Name sO0subsheds ga shp Sub Watershed Source C Corridors Step 09 Theme for Sub Watersheds to be used Once this is selected you must select the Data Theme and Extraction Criteria the road shape file Click on the Theme drop down arrow and choose the Select Shape File option Data Theme and Extraction Criteri Theme Hot Selected hat Selected Select Shape File When you choose Select Shape File from the drop down m
41. beaver dams To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu Rename this data frame Channel Slope Modifiers Copy and paste all the data layers need for this map Rename the layers in the Channel Slope Modifiers Data Frame Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 53 5 28 2010 E f Channel Slope Modifiers E Channel Slope Modifiers El FEO ptimpactseg E Head Cut o FEO 1 ptimpackseg El Grade Control o FEO 1 ptimpactseg El Beaver Dam o o FEO 1lnimpactseg El Straightening FEO 1 lnimpactseg E Encroachment Development PhasezMapTable El Pz Ss Straightening PhasezMapTable E P2 Grade Control mile Phase2MapT able El P2 Beaver Darn PhaselMapTable El P1 Straightening PhaselMapTable E F1 Grade Controlfmile PhaselMapTable El F1 Encroachment sO5swfinaldalw E Castleton River emergency rds line Roads SubWatershed E subWatershed C C Mapping Slope Increases Straightening and Channelization Data SGAT Feature Type Attribute Information FIT data Head cuts Straightening Straightening with Windrowing OR Phase 2 data Step 5 5 indicating percentage of the reach segment length straightened gt 5 lt 20 gt 20 Export Code P_STRT_RNG Phase 1 data Step 5 4 indicating the percentage of the reach length straightened gt 5 2096 gt 20 Export
42. bels Joins amp Relates Shaw Draw categories using unique values of one field Import Features Color A amp Categories Value Field s Unique values PhasezMappingEsport UPSTA_FLO A E E BH E Unique values mary een Quantities Charts all other values all other values Multiple Attributes Heading Upstream E Ho Ma B Tes Tes 3 Add All Values Add Values Remove Remove All Advanced OF Cancel Apply Unique Value in Symbology Change symbol to open circle upstream flow mod line symbol Change the lt Heading gt to say Upstream If you do not have Phase 2 data and or you would like to show areas where Phase 2 data may not have been collected you may chose to use the Phase 1 Map Table to display where there are flow modifiers within the reach You may need to add a copy of the Phase 1 Map Table to your data frame if you are going to show the Phase 1 data Rename the layer to Phasel Flow Modifiers Use this layer to categorize by Unique Value to display SIG FLOW REG Yes based on the Value Field Phasel MappingExport SIG FL REG Add the Value Yes Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 3 5 28 2010 Mapping Base Data Change S05 river line to the blue river line Layer Properties ae 7 x General Source Selection Display 9 symbology Fields Definiti
43. cel Multiple Attributes Definition Query Single Symbol in Symbology Change the Dredging point symbol to the shovel Dredging symbol If you do not have FIT data use the P2 Dredging data layer to display weather or not a reach segment has been dredged Categorize by Unique Value Set the Value Field to DREDGING Add the value Yes Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 70 5 28 2010 General Source Selection Display symbology Fields Definition Query Labels dans amp Relates Show Import Esat rez Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values PhasezMappingE port DREDGING J J Unique values many Man tosmbos na Toomba vaus Label Coat Quantities Charts all other values all other values Multiple Attributes K x Ves Yes Unique Value in Symbology Change the P2 Dredging line symbols to the yellow Dredging Yes line symbol Delete the lt Heading gt Phase2MappingExportDREDGING If you do not have FIT or Phase 2 data use the P1 dredging impact data layer to show if the impact rating for the dredging of each reach is high low or insignificant Categorize by Unique Value Set the Value Field to Il DREDGE Add all the value relevant values Layer Properties ED mx General Source Selection Disp
44. d OR eroding 25 lt 20 gt 20 using separate symbols for Stream segment line data revetment and erosion Export Code L EROS RNG amp R EROS RNG Export Code L REVT RNG amp R REVT RNG Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 79 5 28 2010 Use the Armoring data layer to display bank armoring locations along the stream Set the definition query to IMPACT Bank Armoring or Revetment and then categorize by unique value Set the Value Field to LOCATION Add all relevant values to determine which side of the reach segment the armoring occurred on yer Propertie Query Builder General Source DBJECTID IMPACTID Definition Query TRIBID PH2SEGID RCHPTID RCHSEGID 1 o ne axi ES P E General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates e Or 5 Show 5 _ Not Faahwes Draw categories using unique values of one field Import Get Unique Values Go To Categories Value Field Color Ramp Query Bug SELECT FROM fit01Inimpactseg WHERE Unique values LOCATION gt D IMPACT Bank Armoring or Revetment e ee aa I Quantities A eed Charts all other values all other values lt Heading gt LOCATION Clear Verify Help Load Save Multiple Attributes Left Bank Left Bank E Cancel 7 Right Bank Right Bank
45. d per square mile of subwatershed area In order to get this information we must do a simple calculation First open the attribute table for S15WR_emergencyroads dbf and select Options gt Add Field Add Field Related Tables b t Create Graph Add Table to Layout Cy i Relnad Cache Export Appearance This will bring up the Add Field pop up window Enter the Name rds sqmile and the Type Short integer Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 5 28 2010 rds_sqmile Type Short Integer Field Properties Precision O Press the OK button Now we have anew column We want to populate this column with a calculated value In order to do this we need to start editing this layer Open your editor toolbar Choose Editor Start Editing and select the location where this dbf is saved Make sure you see the SIS5WR emergency rds line in the list of layers and tables available for editing Start Editing E 2 xl Which folder or database do vou want to edit data from Source C arcgishvermont roads vEE811 ADS Shapetiles arcgissch 5 test Shapetiles Sarcgigvvermontsmapserve projects4 Castleton Shape les These layers and tables will be available for editing phasez corridor Phase corridor Phase MappingE sport Phasech appingE sport STEW emergencu rda line Corridor Planning Map Gu
46. d thicknesses Straightening lt 5 Straightening gt 5 and lt 20 Straightening gt 20 line symbols Chang the lt Heading gt P_STRT_RNG to RANGE If you do not posses FIT data or Phase 2 data or you d like to show how straightening affected all your reaches use the P1 Straightening data layer to show the various percentages of straightening within different reaches This can be done by categorizing by Unique Value in Symbology and setting the Value Field to STRAI RNG Add all relevant values Layer Properties 3 x General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp Unique values Phase1 Mapping xport STRAI_RNG J J Unique values many Pe esas Quantities Charts all other values all other values Multiple Attributes lt Heading gt Phase MappingE xport c amp 5x 29 5 and lt 10 52 and lt 10 4 10 and lt 20 10 and lt 20 t xj UE gt 204 15 Unique Value in Symbology Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 56 5 28 2010 Change the symbol for P1 straightening line symbols to the varied thickness Straightening lt 53 Straightening gt 5 and lt 10 gt
47. e gt 5 lines Change the lt Heading gt Phase2MappingExportSTRM_RNG to RANGE Bridge and Culvert Data Use the Bridge or Culvert data layer to display any points indicating bridge or culverts This can be done by setting a definition query where IMPACT Bridge or Culvert Then symbolize the features with a single symbol DBJECTID IMPACTID TRIBID PH2SEGID RCHPTID RCHSEGID Layer Properties ax ls Get Unique Values Go To SELECT FROM fit01Inimpactseg WHERE General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates IMPACT Bridge or Culvert Show E FONS Draw all features using the same symbol Import Single symbol Categories SD Clear Verify Help Load Save anata 1 A dvance dus arts Cancel Multiple Attributes Definition Query Single Symbol in Symbology Change the Bridge or Culvert point symbol to the blue Bridge Culvert symbol Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 67 5 28 2010 Mapping Decreases in Depth Delta and Backwater Deposits Data SGAT Feature Type Attribute Information FIT data Impoundments beaver dams Phase 2 data Steps 5 1 and 5 3 indicating the presence the number of steep riffles mid channel bars and delta bars 0 2 gt 2 lt 5 gt 5 Export Code DEP 8 RNG note normalized
48. e map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu Rename this data frame Boundary Conditions and Riparian Modifiers Copy and paste all the data layers need for this map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 12 5 28 2010 Rename the layers in the Boundary Condition and Riparian Modifiers Data Frame E Boundary Conditions and Riparian Modifiers 23 Boundary Conditions and Riparian Modifiers El Fita ilnimpackseg E Buffer less than 25 Ft E FitOd lnimpactseg E Erosion E v fit tlnimpackseg E v Armaring E FitO1ptimpactseg O Grade Control o o E W FitOlptimpactseg E v Dredging e e E i PhasezMapTable E v P2R Buffer less than 25 Feet E W PhasezMapTable E WM PZL Buffer less than 25 Feet E I PhasezMapTable P2 Cohesive Bank El PhasezMapTable P2 Coarse Bed E W PhasezMapTable PEL Erosion E Wl Phase2MapTable E v P2R Erosion E lv PhasezMapTable Ei V PZR Revetment E Ml Phase2MapTable Ej V P2LRevetment El PhaselMapTable E w Pi R Rifffer E PhaselMapTable E P1 L Buller E emergency rds line E Roads El le sOSswrinaldsly E v Castleton River E i SubWatershed E v SubwWatershed LJ O Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 73 5 28 2010 Mapping Increased Boundary Resistance Riparian Vegetation and Bank Cohesiveness Data SGAT Feature Type A
49. ecurity frmLogin cfm using your user name and password Export Tables dbf Select projects from the top menu Choose Phase 1 from the menu in the left column and then in the main window navigate to your project Once your project is open select Data Export from the left column This will bring up the Export Phase 1 Data page Before you export the data for Phase 1 be sure to check the SGAT Upload tab to see if the S14LW 12 table has been uploaded If the table has not been uploaded you will need to check Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 11 5 28 2010 the SGAT derived folder to see if it has already been created If not run SGAT Step 14 for the LuLc of the individual sub watersheds to generate this table then upload the S14LW12 to the DMS This table is needed to have accurate data for the Land use Land cover map described on page 32 After the table has been uploaded into the DMS you can export the Phase 1 data Projects List l Phase 1 Background Themes upload SGAT upload Trib names Exclude reaches Data entry FRIT upload old FIT upload Reports Here you will click on the Export button for the File called Phasel MappingExport dbf This will bring you to the Phase Exported DBF files for Project X page Description Filename Action The complete list of Phase 1 fields Phase 1 The list af Phase 1 Map Se
50. elds Detinition Query Labels Joins amp Relates Features Draw all features using the same symbol Import Symbol C tegones MER Advanced arts Multiple Attributes Single Symbol in Symbology Change the Lateral Constraints polygon fill to the yellow Lateral Const fill Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 94 5 28 2010 Sample Sediment Regime Departure Map Existing Reference Stream Sensitivity Map The stream sensitivity map will show sensitivity rating aggradation and degradation history To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu Rename this data frame Stream Sensitivity Copy and paste all the data layers need for this map copies Rename the layers in the Stream Sensitivity Data Frame Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 95 5 28 2010 E Stream Sensitivity E E Stream Sensitivity Phase 2 corridor El Sensitivity 53 E Phase 2 corridor El Aggradation vs Degradation El E sO5swFinaldaly El Castleton River emergency rds line El Roads Subwatershed E SubW atershed C Ez Mapping the Sensitivity Rating Data SGAT Feature Type Attribute Information Stream segment corridor Phase 2 step 7 7 indicating the stream sensitivity polygon note the corridor
51. endix Vermont Agency of Natural Resources 69 5 28 2010 Gravel Mining and Bar Scalping Data SGAT Feature Type Attribute Information FIT point data Dredging gravel mining or bar scalping OR Phase 2 data Step 5 5 indicating the presence of dredging gravel mining or bar scalping Stream segment line data Export Code DREDGING AND OR Phase 1 Step 5 5 data indicating low or high impact rating ems diseno associated gravel mining and dredging Export Code I DREDGE Use the Dredging data layer to display any points indicating dredging gravel mining or bar scalping To do this set the definition query to Impact Dredging OR IMPACT Gravel OR IMPACT Mining OR IMPACT Bar Scalping Symbolize features with a single symbol Query Builder TRIBID PH2SEGID RCHPTID RCHSEGID IMPACT SUBIMPACT Like Beaver Dam gt an Dredging Flow Regulation z And Or Grade Control Not Mass Failure Migration i E Ts T SELECT FROM fit01 ptimpactseg WHERE 2 xl IMPACT Dredging General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Draw all features using the same symbol Import Sinale sumbo cli Aa Symbol Categories Cl Verif Hel Load Save Gem veiy Heb Load _ Save Quantities F A Charts OK Cancel Can
52. ent 32 E Or Erosion Straightening x Es Not ls Get Unique Values GoTo General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show SELECT FROM fit01Inimpactseg WHERE lca Draw categories using unique values of one field Import IMPACT Buffers Less than 25 Canio Value Field ae Unique values LOCATION Unique values many Match to symbols in a Quantities Char Verify Help Load Gave Charts all other values all other values Multiple Attributes al d r DK Cancel A ia sc can Caca Right Bank Right Bank Definition Query Unique Value in Symbology Change the Buffer less 25 line symbols to the grey and green L Buff 25 yes and R Buff 25 yes line symbols If you do not have FIT data this will be done for both the left and right buffers For the left buffer use the P2 L Buffer25 data layer to show the left bank locations where the dominant width of buffer is less than 25ft Categorize by Unique Value Set the Value Field to L_BUFF_25 Add the value Yes 21xi General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show i Import Features Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase2M appingE xport L BUFF 25 Uniq
53. enu the Select Shape File to be used in calculating densities window pops up For the sake of uniformity we ask that everyone uses the Emergency E911 Roads File Navigate to the location where you have the E911 roads layer saved on your computer and press the OK button 2 Select shape file to be used in calculating densities File M ame Directoriez emergency rds line shp c base map serve sraad gt base map serve List Files of Type Drives Shape Files C Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 7 5 28 2010 This will bring you back to the main Part C Step 15 Calculate Densities window Here you can see that an Output Table SISWR_emergency_rds_line dbf and SI5WU emergency rds line dbf will be saved in your projects Derived Data folder Output T abl Table Mame 1 AW A emergency rds line dbf and 51541 emergency rds line dbf Tobe saved in c sprajecksscastletan sgat fit project Piles sDrerrdb ata Calculating density Add the SISWR_emergencyroads dbf to your ArcGIS 9x project When SGAT created this density dbf it didn t actually create a density output instead the dbf has a data column for area of subwatershed ft GEOSWAREA and total length of roads per subwatershed ft NUMUNITS For these maps we are interested in the density of Roads per subwatershed mi or another way of saying it is miles of roa
54. ers Map Boundary Condition and Riparian E Dredging we E Buffer less 25 LOCATION Left Bank 7 Right Bank Erosion LOCATION eft Bank Right Bank Armoring LOCATION 7 Right Bank Left Bank E Grade Control SLIBIMPACT Human constructed grade ctrl x Natural Grade ctrl P2 R Buffer 25 is the buffer z5fE wee YES P L Buffer 25 PhasezMappingExport L BLIFF Es P2 Cohesive bank Yes P2 Coarse Bed yez A N DAES aen EI Sediment Regime Departure Map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 84 5 28 2010 The Sediment Regime Departure Map is actually divided into 2 maps one depicting reference conditions and one depicting existing conditions Both maps should have ortho photos as a base and display parcel boundaries if available Phase 1 Sediment Regime Departure Reference Condition Map The Sediment Regime Departure Reference Conditions map will show natural grade controls and existing sediment types This map 1s created to show what the river would be like without human influence To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu Rename this data frame Sediment Regime Reference Copy and paste all the data layers need for this map Rename the layers in the Sediment Regime Reference Data Frame 2 Sediment Regime Reference Conditions
55. es eee 21x General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Feah res Draw categories using unique values of one field Import Categories Value Field Color Ramp Unique values ATTRIBUTE 2 3 8 RE 3 2 Unique values mary atch to symbols in a T Symbol vawe l fount l Quantities Charts iit PUBHh PLIBHx PI R2LIBH R3RB1G R3RBH R3LUBH R3LISA Multiple Attributes Hold the shift key and select all the remaining values Right click on these values and select Group Values from the pop up menu Group values Ungroup values Reverse Sorting Reset Sorting Remove Values Uncheck the lt all other values gt box Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 43 5 28 2010 7x General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp Unique values ATTRIBUTE 3 J Unique values mary Match to spmbolsin a T ombo vae fia a Quantities Charts Eo all other values all other values s Heading Multiple Attributes E g EE LTUBH LIUBHh PEMT FE Nl 4 Add All Values Add Values Remove Remove All Advanced cad _ Change the fill symbol to the NWI fill and change the label to say NW
56. ese downloads provide you with roads and data for houses driveways phone booths and hydrants If you do not have NWI wetland data navigate to the Freshwater Resources page Download the theme called WaterWetlands_NWT These are the national wetland inventory maps for the state of Vermont This would be a very large file for the entire state so VCGI has broken it down into quads make sure to get all of the themes that cover your project area If you do not have a political outline of Vermont navigate to the Boundaries Admin Political page Download the theme called BoundaryState_VTBND This is an outline for the entire state of Vermont EmergencyE911_RDS zip EmergencyE911_ESITE and Wetlands are folders that have been compressed or zipped Zipping is a file compression technique designed to make files more manageable Once this file is downloaded to your computer you must un zip it If you do not currently posses the ability to un zip a folder please download WinZip from www winzip com 29 95 or another zipping utility 10 If you do no posses ortho photography for your project you will be able to order a DVD of 2003 NAIP Photographs for the entire state 150 Navigate to the theme page for Imagery and Photographs and click on the more info button for NAIP2003 Theme Gy If paying 150 is not feasible contact your regional river scientist or your local RPC for another
57. ew Source Serve fields View Phase MappingSource dbt View Phase 2 Mapping The list af Phase 2 Map Export Serve fields without extras FhasezMappingExpart dbf View You are only interested in the Phase2MappingExport dbf so right click on it and choose Save Link As or Save Target As File Hame File Size Date Exported Fhase2 DBF 41 354 kh 11 08 2006 08 25 31 270 kb DARRO Dor 11 27 Q Link in M Wind StrrnCorD at NR 3 328 kh 08 28 2006 09 29 Open Link in Mew Tab Bookmark This Link Save Link As Be sure to open and look at the Phase 1 and Phase 2 export tables prior to working with them in the next steps It is valuable to review the tables to make sure the data was exported as expected and that there are no obvious errors in the tables for example data missing from a reach you were expecting there to be data for before getting too far into the process Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 13 5 28 2010 Vermont Center for Geographical Information VCGI If you do not already posses road data building data or ortho photography for the project navigate to http www vcgi org dataware here you can access road data for the entire state Using the Theme pull down menu navigate to the transportation networks page Download the data layers with file names EmergencyE911_RDS and EmergencyE911_ESITE These are free downloads Th
58. for both the left and right buffers For the left buffer use the P1 L Buffer data layer to display whether the reach has less than a 25 foot buffer for any part of the right bank Categorize by Unique Value Set the Value Field to L NO BUFF Add the value Yes General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates i i i i Import Features Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values PhaselMappingExport A_NO_BUFF LIniqu eS i Quantities Charts all other values all other values Heading is the butter lt 25ft Tes Yes Multiple Attributes PAI Unique Value in Symbology Change the P1 R Buffer line symbol to the green and brown R Buff 25 yes line Change the lt Heading gt R NO BUFF to lt 25ft Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 76 5 28 2010 For the right buffer use the P1 R Buffer data layer to display the percent of the reach that has no buffer for the left bank Categorize by Unique Value Set the Value Field to R NO BUFF Add all relevant values I a General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show i i i i Import Features Draw categories using unique values of one field p Categories Value Field Color H am
59. ge store and release impoundments exist within the reach Export Code SIG_FLOW_REG and Step 4 6 data indicating that upstream flow regulation or water withdrawal are affecting the reach Export Code UPSTR_FLOW Phase 1 Step 5 1 data attributing the reach line to indicate the OR existence of large withdrawals diversions and or large store and Stream reach line data release impoundments Export Code SIG FLOW REG OR Stream segment line data Additional Resources Vermont Dam Inventory VCGI GIS point data selected and coded with purpose and status attributes which indicate that the dam significantly affects flow Using the Dams and Diversions data layer display any points that have a subimpact equal to Dam This can be done by setting a definition query or by using Unique Value in Symbology with SUBIMPACT Dam based on the field SUBIMPACT la General Source Selector Doctor Syntaks Fokis Delran Query Lope Joret Rotates Dereal Seaca Selection Display Synbology Feds Definition Query Labels Jone amp Relates oh er Draw calegoties wang unique values of one Feld Import Walle Field Coles Flame egere ue value SUBIMPACT x EE E RM Uripa valses mara ma ISURMPALT Dar Definition Query Unique Value in Symbology Change the symbol to the blue and grey Dam symbol Use one of the Flow modifiers data layers to see if there is a flow regulatio
60. hoose the field in this layer that the join will be based on RCHPTID 2 Choose the table to join to this layer or load the table from disk PhaselMappingE sport Y zm V Show the attribute tables of layers in this list 3 Choose the field in the table to base the join on REACHPTID X Advanced About Joining Data OK Cancel Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 17 5 28 2010 The click OK In order to recognize this layer in the future rename this layer Phasel MapTable PhaseiMapTable Create new data layer by joining segOlswseg shp to Phase2MappingExport dbf Join using PH2SEGID Rename this layer for future recognition Rename this layer Phase2MapTable Create new data layer by joining sO9corridor shp to Phasel MappingExport dbf Rename this layer for future recognition Rename this layer PhaselCorridorMapTable Follow Join directions provided above Create new data layer by joining subwatershed to Phasel MappingExport dbf Rename this layer for future recognition Rename this layer PhaselSubshed Create new data layer by joining subwatershed to SISWR_emergencyroads dbf Rename this layer for future recognition Rename this layer Roads Subwatershed Create new data layer by editing sO9corridor shp to include segment breaks developed in Phase 2 Now because we
61. idance Appendix Vermont Agency of Natural Resources 9 5 28 2010 Press the OK button Right Click on Field heading rds sqmile and select Field Calculator from the dropdown menu rds saomile Sort Ascending Sort Descending Summarize Statistics Field Calculator calculate Geometry Turn Field CFF Freeze Unfreeze Column Delete Field Properties This will bring up the Field Calculator window We want to write and equation that both divides the road length per subwatershed and by the area of the subwatershed and converts feet to miles Type and double click on NUMUNITS field so that it populates the lower window single click on the divide symbol Now double click on the GEOSWAREA field and type Again single click on the divide symbol and type 5280 this is the number of feet per mile You equation should look like the one seen below Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 10 5 28 2010 Field Calculator ajx Fields Type Functions zi OID f Number SOURCESTEPR BNDRYT YPE String SUMLEVEL GEDSWAREA Date UNITS RCHPTID NUMUNITS rds sqmile rds sqmile Advanced HLIMLIMITS GEOSw 6RES 5280 Calculate selected records only Cancel Click on the OK button and this will populate your new field with road density values DMS Login to the DMS https anrnode anr state vt us ssl sga s
62. ine symbol to the dark green dotted P1 encroach Low line symbol Change the lt Heading gt Phasel MappingExportENCRCH IMP to Rating Storm Water Outfalls Data SGAT Feature Type Attribute Information l Storm water discharges the indexed ditch outlets culverts or pipes FIT point data l collecting and conveying stormwater to the segment or reach Phase 2 data Steps 4 6 attributing the segment line to indicate the AND OR number of storm water inputs 0 lt 2 gt 2 lt 5 gt 5 Stream segment line data Export Code STRM_RNG note normalized values storm water inputs 5 280 segment length Additional Resources Storm water outfalls inventories point data obtained through DEC Storm water Section regional or municipal planning agency Use the Stormwater input data layer to display any points indicating stormwater inputs This can be done by setting a definition query to IMPACT Stormwater Input Then you can symbolize the features with a single symbol Es Builder al F RCHPTID a E Like Flow Regulation Grade Control px E And Mass Failure Migration el lt 0r Steep Rifle or Head Cu Stormwater Input E mj Not Stream Crossing v ds Get Unique Values Go To ENS SELECT FROM fit 1ptimpactseg WHERE IMPACT Stormwater Input Layer Properties x General Source Selection Display Symbology Fields Definitio
63. ition Query Labets Joins amp Relates Definition Query Query Builder RCHSEGID IMPACT Dredang Daeg aixi Flood Chute Query Builder General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Draw all features using the same symbol Import aIngle symbo Symbol SELECT FROM fit01 ptimpactseg WHERE SUBIMPACT Steep Riffle gt Advanced Multiple Attributes Definition Query Unique Value in Symbology Change symbol to blue steep riffle symbol Delete the lt Heading gt and the label and uncheck the all other values box Use the deposition mile data layer to show the number ranges of depositional features per mile This can be done by categorizing by Unique Value Set the Value Field to Phase2MappingExport DEP_RNG Add all relevant values Layer Properties General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates S how i i i i Import Festes Draw categories using unique values of one field p Categories Value Field Color Ramp gt Unique values Phase2MappingE sport DEP RNG J cm Unique values mary vee amos Quantities Charts all other values all other values Multiple Attributes Heading Hange amp amp f en E E 327 5 2 2h 69 59255 sR caca ay Corridor Planning Map Guidance Appendix Vermon
64. lai o tte ol 29 M ppne Base Dala doae eg leashes ecu Det Mss i dmi eM A MS ae Am 32 SamplesHyadroltogicAterations MOD ie at Net tat uitia cessent e M Uim e EE 33 EANDUSE LAND COVER MAP uses utis MR ta ste an utate M ste M ttd S EE 33 EAD DUNC FODCDU O o eit ti tandis ctus a Oe esseri thiet M MM sc La EAE 35 Mappm e Urban DOIE APE E 38 MOPPING Road Densidad caia 40 Mapping Well nds Ad aid 42 Mappe Previously Existing Wetlands waite och sues sew dt 44 Sample Lond Ose and Land Cover MQDS ii uude tate 46 SEDIMENT LOAD INDICATORS MAP d Sea sedo tees a beg Pete Eb e D Eb iut tops Pu ed E Ded C die pur dees 46 Mapping Erosion and Deposition Features Data eese eese nnne ssne nnne esses a annees sensns 47 Mappe Bank L ros On Duet ARA TA aite datu on EE 49 Mappine Mass Wastme Sitesand Gully Datatus o eeu eee nh ti he EP A eM SU ba A Mannie 49 Mappute Remvenotimne EDITANDO TAS AT os one tete na Or EUR Oveli ne s uin 51 Sample Sediment Load Indicators Map ittis eise E A A RATA ATA AA dei ie tus UMS 52 E CHANNEL SLOPE MODIFIERS MAP siet i 53 MAPPING SLOPE INCREASE Sia illo ooo dae eo dor Seapets fe puedes 54 Straighiening and Channelization DATE retta A Ai cs 54 Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 2 5 28 2010 River Corridor Encroachments Date ccccccccccaccccuccecuccccuscecuccccuccecuccecectececaecscaecseuscscascsceuseususcscuecssascscuscscaseseuecs 57 ILAPPING SWOPE TIE CR
65. lative effect bz Ex Ax and lt 10 52 and lt 10 sb TDK 20 gt Ox 20 Laas gt sz 0 Lei Add Al Values APT Remove Remove All Advanced EREUN Change the symbol lines to the increasing thickness yellow crop lines for lt 5 gt 5 and lt 10 2210 lt 20 and gt 20 Change the lt HEADING gt CROP W RNG to say cumulative effect by left clicking and typing over it To show the effect of crop for each unique subwatershed use the Crop polygon layer and display by unique value with a value filed of the Phasel MappingExport CROP S RNG The range categories are lt 5 gt 5 and lt 10 2210 lt 20 and 222096 but often not all are present so just add the ones that are the relevant values Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 36 5 28 2010 Layer Properties Ger eral Seurce Selection Display symbology Fields D efinition Query Labels Joins amp Relates Show F field i mport Features Draw categories using unique values of one field p Categoriez Value Field Color Ramp gt Unique values PhaselMappingExport CROP_S_AN a T i H Unique values many ee dE EA all other values all other values Multiple Attributes Heading individual watershed EE 5 5 o gt 51 00 510 10 20 s1020 2E coa om Change the symbol fills to
66. lay symbology Fields Definition Query Labels Jong amp Relates Show i i i i Import EG l rez Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase MappingExport _ DREDGE J Z Unique values mary Match to symbols ina Symbol vae babel o Quantities Charts all other values all other values high high Multiple Attributes Law Low Unique Value in Symbology Change the line symbols to the thick yellow P1 dredge high and the thinner yellow P1 dredge low symbol Delete the Heading Phasel MappingExport I DREDGE Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 71 5 28 2010 Sample Channel Depth Modifiers Map E Channel Depth Modifier El reach breaks de E Stormwater input El Bridge or Culvert E El Dredging E Beaver Dam P2 stormwater mile Phase 2 stormwater mi c 524 5 g El P2 encroachment S 25 A lt lt 2 0 370 El P2 deposition mile e acs B E gt 2 lt 4 5 El Encroachment O P2 Dredging d Yes a O Pi encroachment impact Boundary Conditions and Riparian Modifiers Map The Boundary Conditions and Riparian Modifiers map will show areas where the vegetation buffers are less than 25 feet the bank is composed of cohesive material stream bed material grade controls bank armoring bank erosion and dredging To keep th
67. ll bring up the Join Data window For option 1 Choose the field in this layer that the join will be based on Choose RCHPTID For option 2 Choose the table to join to this layer or load the table from disk Choose Phase2Mapping Export table For option 3 Choose the field in the table to base the join on Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 22 5 28 2010 Choose PH2SEGID this is the field that you just modified to hold the Phase 2 segment IDs mE oS Jain lets You append additional data to this laper s attribute table so you can for example symbolize the layer s features using this data What do vou want to join to this layer Join attributes from a table 1 Choose the field in this layer that the join will be based on FCH PTID 4 Choose the table to join to this layer ar load the table fram disk a PhasezMappingExport d v Show the attribute tables of layers in this list 3 Choose the field in the table ta base the join on Advanced About Joining Data Cancel Click OK Displaying Unique Data From Within Data Sets In ArcMap there are two ways in which you can display unique data You can either set a definition query or use a use a unique value in symbology both options work equally as well These directions require the user to know how to do both If you have questions about setting definition queries or symbol
68. ls Joins amp Relates 5 how Features Draw categories using unique values of one field Import Categories Value Field Color Ramp Unique values PhasezMappingEsportPH2 SED RI Unique values many nest eaten Quantities Charts all other values Multiple Attributes tala ae A UST EN FS TCO EE CEFO all other values Type Transport F Confined source and Transp Unconfined source and Trar Fine Source and Transport Coarse Equilibrium in out Unique Value in Symbology Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 88 5 28 2010 Change the P2 Sediment polygon fill symbols to the blue yellow orange red and green for T CST UST FSTCD and CEFD fills Change the lt Heading gt PH2 SED R to TYPE Change the T title to Transport Change the CST title to Confined Source and Transport Change the UST title to Unconfined Source and Transport Change the FSTCD title to Fine Source and Transport amp Coarse Deposition Change the CEFD title to Coarse Equilibrium in out amp Fine Deposition Mapping Grade Control Data To display Vertical Constraints for the river use the Grade Ctrls data layer To do this set the definition query to SUBIMPACT waterfall or SUBIMPACT ledge OR SUBIMPACT dam OR SUBIMPACT weir Categ
69. mbol for the Encroachment Development line to the black and green Development encroachment line symbol If the FIT data is not available use the P1 Encroachment data layer to display the impact rating of reaches assigned in phase 1 Categorize by Unique Value by setting the Value Field to ENCRCH IMP Add values High and Low or just the relevant values that exist Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 57 5 28 2010 21x General Source Selection Display Symbology Fields Definition Query Labels Jong amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp 4 Unique values RAE I El J Unique values mary Koes Quantities Charts all other values 4 all ES values Y Multiple Attributes ces m dh Du Du Unique Value in Symbology Change the P1 encroachment line symbols to the Green P1 encroachment high and Pl encroachment low dotted line symbols Delete the lt Heading gt ENCRCH IMPACT Mapping Slope Decreases Grade controls and Channel Constrictions Data SGAT Feature Type Attribute Information Natural grade control waterfalls and ledge human constructed FIT point grade control dams and weirs bridge or culvert using different symbols for each Phase 2 data attributing the stream segment li
70. mpact equal to Stormwater input Set the definition query to Impact Stormwater input or by categorizing by Unique Value in Symbology based on the Value Field IMPACT Add the value Stormwater input Be sure to uncheck the all other values field so you only display the impact you are interested in Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 21 5 28 2010 er Properties eneral Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Definition Query Query Builder HES Fa E al TRIBID PH2SEGID RCHPTID RCHSEGID IMPACT SUBIMPACT lt gt Like Flow Regulation Grade Control 5e And Mass Failure Migration E E lt lt or steep Rite or Head Cu 2h us Query Builder Stormwater Input Not Stream Crossing SELECT FROM fit01 ptimpactseg WHERE IMPACT Stormwater Input Definition Query Layer Properties I E 32 xl General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Fe t res Draw all features using the same symbol Import Single symbol Categories a Quantities a Chat Advanced Multiple Attributes Symbology Change the symbol to the green stormwater symbol Delete the lt Heading gt IMPACT To map the number of st
71. n Query Labels Joins amp Relates Show Features Draw all features using the same symbol Import E single symbol Categories ambal Quantities Ad d Charts VOE Multiple Attributes Clear Verify Help Load Save Cancel Definition Query Single Symbol in Symbology Change the Stormwater input point symbol to the green Stormwater symbol If you do not have FIT data use the P2 stormwater mile data layer to show the 3 quantity ranges for the number of stormwater inputs per mile for each reach segment Categorize by Unique value Set the Value Field to STRM_RNG Add all relevant values Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 66 5 28 2010 Layer Properties BENED 3 x General Source Selection Display symbology Fields Definition Query Labels Jain amp Relates Show l i i Import Felis Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase2MappingE sport STRM RNG J Unique values many IL Royo eens Quantities Charts all other values all other values Multiple Attributes Heading gt Phase 2 stormwater mi i 2 i 2 A en sede 25 5 Unique Value in Symbology Change the P2 stormwater mile line symbols to the ramped shades of yellow red stormwater mile lt 2 stormwater mile gt 2 lt 5 and stormwater mil
72. n within the reach Categorize by Unique Value to display SIG FLOW REG Yes based on the Value Field Phase2MappingExport SIG FL REG Add the Value Yes Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 29 5 28 2010 General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Color Ramp Categories Value Field Unique values Phase2MappingE xport SIG_FL_REG J p y Hy E A iM gt Unique values mary O e E Quantities Value Label Charts all other values all other values Multiple Attributes Heading Within Heach ia No No 11 le Add All Values Add Values Remove Remove All Advanced caca ab Unique Value in Symbology Change symbol to the closed circle in reach flow mod line symbol Change the lt Heading gt to say Within Reach Use the other Upstream Flow modifiers data layer to show if an upstream flow regulation exists Categorize by Unique Value to display UPSTR FLOW Yes based on the Value Field Phase2MappingExport UPSTR FLOW Add the value Yes Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 30 5 28 2010 General Source Selection Display symbology Fields Definition Query La
73. nd Use Land Cover Land Use Land Cover Copy and paste all the data layers need for this map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 33 5 28 2010 Rename the layers in the Sediment Load Data frame o E and Use Land Cover E LC s rpts 2 E PhaseiMapTable PhaselMapTable emergency rds line s 5swfinaldslv RoadsSubwater E nwilll p nwil dl p Essi nwilll5 p al nwil l5 n EN ni0915 p Es nwilll 6 p Phaselsubshed Phaselsubshed Corridor Planning Map Guidance Appendix 34 a Land Use Land Cover a L reach points E urban E crop E roads E Castleton River E road density C El existing wetland milli p nwil l op LJ nwilli5 p L nWwil l5 pn um nwilla315 np LJ nwilli p e urban C crop 5 losk wetland ES Vermont Agency of Natural Resources 5 28 2010 The NWI wetland layers were also grouped To do this hold shift or Ctrl key and select all layers that you want in the group Then right click on these highlighted layers and select Group from the drop down menu nw bls mn Copy l Remove E ammo EN ES Mapping Crop Data Turn onm El ni Turn OFF El ME lt a Zoom To Layers Visible Scale Range P SGAT Feature Type Attribute Information Stream reach line data AND Sub watersheds polygon Phase 1 Step 4 1 data attributing the
74. ne indicating the number of natural or man made grade controls Steps 1 6 and channel constrictions with deposition above Steps 4 8 0 lt 2 gt 2 lt 5 gt 3 Export Code CNSTR_CNTL note normalized values features 5 280 segment length Phase 1 data attributing the stream reach line indicating the number of natural grade controls Step 3 2 and bridges or OR culverts with a high or low impact rating Step 5 2 0 lt 2 gt 2 lt Stream reach line data 5 gt 5 Export Code CNST CNTL note normalized values features 5 280 segment length Phase 2 data Step 4 9 indicating the number of beaver dams 0 lt 2 gt 2 lt 5 gt 5 Export Code BVRDAM RNG OR Stream segment line data Stream segment line data Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 58 5 28 2010 SF note normalized values features 5 280 segment length Additional Resources Bridge and culvert assessment GIS point data attributed to indicate whether mid channel bars have forms in excess to Y2 bank full height Vermont Dam Inventory VCGI GIS point data indicating the presence of a dam Use the Grade Control data layer to set the definition query to SUBIMPACT waterfall OR SUBIMPACT ledge OR SUBIMPACT dam OR SUBIMPACT weir Query Builder RCHPTID RCHSEGID IMPACT SUBIMPACT LOCATION DATE EN E Like Flood Chute Head Cut I gt And Ir
75. ogy Fields Definition Query Labels Joins amp Fielates IMPACT Straightening Show Draw all features using the same symbol Import Features Single symbol Categories ad Advanced Multiple Attributes lt Symbol Clear Verify Help Load Save Cancel Definition Query Single symbol Symbology Change the default line symbol for straightening to the red double lined Straightening line symbol If you do not have FIT data use the P2 Straightening data layer to show the various percentages of straightening within different reaches segments Categorize by Unique Value in Symbology set the Value Field to P_STRT_RNG Add all relevant values Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 55 5 28 2010 Layer Properties General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp Unique values Phase2MappingEsport P_STRT_AN J a Unique values many VEE a Quantities Charts all other valuez gt all other values Multiple Attributes Heading Phase2M appingE xport I 5 Ez A MS Ae 220 220 ES Unique Value in Symbology Change the symbol for P2 straightening line symbols to the Red lines of varie
76. ogy please refer to the ArcMap 9 x help menu or contact your regional scientist Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 23 5 28 2010 IV MAPS Location Map In order to have a Location or Reference Map shown in layout view we must make this map as a separate data frame Select Insert gt Data Frame from the upper menu File Edit View Insert Selection Tools Window Help 0 EH Ss Data Frame fr Title Layer ron o A Text The new data frame will appear in your table of contents Rename by left clicking once to highlight New Data Frame clicking a second time and then typing over this and hitting enter f Location Map this data frame Location Map This data frame is going to show the location of the sub watershed overlain on the entire state of Vermont To do this add the political Vermont boundary shape file and the SubWatershed shape file Location Map E subwatershed E vermont polygon E Change the fill color for SubWatershed to black by single clicking on the map symbol in the table of contents and then selecting black from the color pallet drop down menu Click OK Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 24 5 28 2010 Symbol Selector Category All Preview Options Fill Color x Ma Color Outline width Outline Calor es a E B
77. on Query Labels Jans amp Relates Shaw Draw all features using the same symbol Import Features Single symbol Categories EUER Advanced gt ars Multiple Attributes Symbol Change the Emergency Roads Line to the black and grey roads line Layer Properties E 2 xJ General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Shaw Draw all features using the same symbol Import Features Single symbol Categories ak Advanced arts Multiple Attributes Symbol Add the subwatershed layer to your map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 32 5 28 2010 Sample Hydrologic Alterations Map E f Hydrologic Alterations E Stormwater Yr Stormwater Input E Dams and Diversions Dam Flow Modifiers in reach Yes Flow Modifiers Upstream Yes Stormwater mile Range z z pe c m 5 Roads Castleton River Sub Watershed Ol Land Use Land Cover Map The Land Use Land Cover map will show urbanization wetland loss and road densities To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu File Edit View Insert Selection Tools Window Help Data Frame faj Title Layer ma d Text The new data frame will appear in your table of contents Rename this data frame La
78. onstrict mile gt 2 lt 5 and constrict mile gt 5 lines Change the lt Heading gt CNSTR_CNTL to RANGE If you do not have FIT data or Phase 2 data use the P1 Grade ctrl mile data layer to display the range in number of grade controls per mile in specific reaches Categorize by Unique Value Set the Value Field to CNST_CNTRL Add the values lt 2 gt 2 lt 5 and gt 5 Layer Properties h General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Value Field Color Ramp ENST_CNTRL 7 a ae Unique values many Match to symbols in a all other values all other values Heading CNSTR_CNTL a 22 A v Unique Value in Symbology Change the P1 grade ctrl mile line symbols to the various shades of yellow constriction mile lt constriction mile gt 2 lt 5 and constriction mile gt 5 lines Change the lt Heading gt CNST_CNTRL to RANGE Beaver Dams Use the Beaver Dam data layer to show the locations of beaver dams along the river To do this set the definition query to IMPACT Beaver Dam Then Symbolize features with a single symbol Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 60 5 28 2010 Query Builder PH2SEGID RCHPTID RC
79. option Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 14 5 28 2010 Local RPC If you are making the Sediment regime departure map it would be helpful to have the Parcel data for your projects watershed This data is not available though the VCGI website Contact your local RPC and ask for the shape file of parcel data The FTP Site Navigate to ftp ftp anr state vt us and login If you do not posses the proper login information contact your regional river scientist Once you are logged in navigate to the folder called corridor plan Save the contents of this folder on your computer in the same location you have saved everything else In this folder there is a file which contains symbology for each line and point file you will be creating for each map If you feel that the provided symbology does not fit your needs feel free to symbolize as you see fit You are not required to use the provided symbology By using the symbology provided the symbols will offset correctly from the stream to help better display your data If you chose not to use the provided symbology you may want to look at offsetting your symbols from the stream line to better display your data II Getting Started Open a new ArcMap9x project Setting the projection Right click on the Layers data frame and select properties from the drop down menu Select the Coordinate System tab and in the lower box select a coordin
80. orize by Unique Value Set the Value Field to SUBIMPACT Add all relevant data Group the grade control by natural and human constructed Query Builder RCHPTID RCHSEGID IMPACT SUBIMPACT LOCATION DATE p Like Flood Chute Head Cut ped And Irrigation Ledge Layer Properties lt ae Dr Steep Riffle E EN En Stream Ford lie Not Waterfall z _Get Unique Values aoig Value Field Color Ramp SELECT FROM fit0l ptimpactseg WHERE Unique values SUBIMPACT mua MS SUBIMPACT Dam OR SUBIMPACT Ledge OR Unique values many SUBIMPACT waterfall Match to symbols in a Quantities Charts all other values all other values Multiple Attributes Heading SUBIMPACT General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Draw categories using unique values of one field Import Clear Verify Help Load Save Dam Human Constructed Grade t Ledge Waterfall Natural Grade Control Definition Query Unique Value in Symbology Change the Grade Ctrls point symbols to the blue and grey natural grade control and human constructed grade control symbols Change the value title Dam Weir to Human Constructed Grade Controls and the value title Ledge Waterfall to Natural Grade Control Delete the lt Heading gt
81. orm water inputs per segment use the Stormwater mile data layer and categorize by Unique Value with a Value Field of Phase2MappingExport STRM_RNG The range categories are lt 2 gt 2 lt 5 and 55 Add all relevant values Layer Properties General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show Import Fe3lires Draw categories using unique values of one field p Categories Unique values Value Field Color H amp PhasezMappingE sport STRM RNG J Z Unique values many I ey ene Quantities Charts L Multiple Attributes Xm Ped gt E all other values lt Heading gt all other values Phase 2 stormwater mi A E E gt 0 Unique Value in Symbology Change symbol lines to the varied thickness red stormwater lines for lt 2 gt 2 lt 5 and gt 5 respectively Change the lt Heading gt STRM RNG to say Range by left clicking on the heading and then typing over it Corridor Planning Map Guidance Appendix 28 Vermont Agency of Natural Resources 5 28 2010 Mapping Dams and Diversions Data SGAT Feature Type Attribute Information FIT point data Flow regulation points attributed as large withdrawals diversions and or large store and release impoundments Phase 2 data Steps 4 5 attributing the segment line to indicate that large withdrawals diversions and or lar
82. p Unique values PhaselMappingEspoitL ND BUFF 3 J Unique values many Maeno sms MS Symbol Value Label Cat Quantities Charts all other values all other values Heading is the buffer 25ft Multiple Attributes LES Yeg Unique Value in Symbology Change the P1_L_Buffer line symbol to the green and brown L Buff 25 yes line Change the lt Heading gt L_NO_BUFF to RANGE Use the P2 Cohesive bank data layer to show 1f the banks of the reach segment are made of cohesive materials To do this set the Definition query to COHESIVE Yes and then display using a single symbol Layer Propertie Query Builder General Source L BUF 25 R BUF 25 Definition Query BED MATER COURSE_BED COHESIVE L REVT RNG x Like NULL No And Yes e a 0 TER Query Bug SELECT FROM Phase2NewT able WHERE General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates a E FA E GetUriqueVaues Gots P 2x Show COHESIVE Yes Fnst rss Draw all features using the same symbol Import Single symbol Categories md Quantities Advanced ce veto Heb toos seve iutiple anios Cancel Legend Definition Query Single Symbol in Symbology Change the default P2 Cohesive bank line symbol to the black and green cohesi
83. reme respectively Change the lt Heading gt STR_SENSIT to LEVEL Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 96 5 28 2010 Mapping the Current Vertical and Lateral Adjustments Data Use the Aggradation vs Degradation data layer to display vertical adjustments To do this first develop a definition query that identifies if a reach segment has not had historic adjustment Use DEGRD HIST No and AGGRD HIST No 21x Fhase z cormdor FID Phase 2 comdor ACHPTID Phase 2 coridor TRIBID Phase 2 comdor CORDRHAREA Phase MappingE part OO FhasezM appingE part PROJECTID gt Get Unique Values GoTo SELECT FROM Phase z corridor Phase2MappingE spart V HERE Fhase2MappingE xpork DEGRD HIST No AMD Fhase2MappinaE sport AGGAD_HIST No E Clear Verity Help Load S ave Cancel Definition Query Categorize by Unique Value Set on field to Value Field one to Phas2MappingExport VERT DEG and another as Phase2MappingExport VERT AGG Add all relevant values Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 97 5 28 2010 Layer Properties ES s ana miene aalo T minima n General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Features a RA Categories r Value Fields oup vc eee cerea
84. rigation Ledge Es e Or Steep Riffle Stream Ford ES Fu Nat waterfall ls GoTo SELECT FROM fit01 ptimpactseg WHERE SUBIMPACT Dam OR SUBIMPACT Ledge OR SUBIMPACT waterfall Clear Verify Help Load Save Cancel Definition Query Then use Unique Value in Symbology to show all grade controls Group the grade control by natural and human constructed Hold control button while clicking to select dam and weir Right click on these and select Group Values from the drop down menu Rename this group Human Constructed Grade Controls Repeat these steps for the Ledge and waterfall renaming them Natural Grade Controls General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Layer Properties Draw categories using unique values of one field Import General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates i Value Field Color Ramp M Show E z 3 Unique val es sugpMPaCT z Faslimes Draw categories using unique values of one field Import Unique values many Categories Value Field Color Ramp M to symbols in Unique values SUBIMPACT xl Ema HN TE Charts lt allother values lt all other values gt 0 Unique values many MS e e idw amer edel Grade C a ue m
85. rmont Agency of Natural Resources 68 5 28 2010 Depositional Data Use the P2 deposition mile data layer to show the 3 quantity ranges of the number of depositional features steep riffles delta bars and mid channel bars per mile for each reach segment Categorize by Unique Value Set the Value Field to DEP_S_RNG Add all relevant values Layer Properties E E 3 xl General Source Selection Display Symbolagy Fields Definition Query Labels Joins amp Relates Show i i i i Import Ears Draw categories using unique values of one field p Categories Value Field Color Ramp gt Unique values Phase2MappingEspor DEP_RNG J cm J Unique values many I i Quantities Charts all other values gall other values Multiple Attributes Heading rS Wo gm 5 r Add All Values Add Values Remove Remove All Advanced ERFUN Unique Value in Symbology Change the P2 deposition mile line symbols to the triangle square and circle deposition mile lt 2 deposition mile gt 2 lt 5 and deposition mile gt 5 lines Change the lt Heading gt DEP_S_RNG to RANGE If you do not have phase 2 data use the P1 deposition impact data layer to show the deposition impact score for the entire reach Categorize by Unique Value Set the Value Field to DEPTH DEC Add all relevant values Corridor Planning Map Guidance App
86. rve Wappping Source fields All data Phase dbf Phased MappingSource dbt Phase Mapping Thelist af Phase 1 Map Serve Export fields without extras a expel eer You are only interested in the Phasel MappingExport dbf so right click on it and choose Save Link As or Save Target As File Hame File Size Date Exported PHASE1 DBF 170 402 kb 0411 372007 11 53 POSEE Open Link in New Window Open Link in Mew Tab Bookmark This Link Save Link As Select Phase 2 from the left column and again navigate to the project you are working on Once your project is open select Data export from the left column This will bring up the Export Phase 2 data page Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 12 5 28 2010 Projects List Phase 1 t Phase 2 Background Upload Excel F Data entry Reports Click on the Export button for the File called Phase2MappingExport dbf This will bring you to the Phase 2 Exported DBF files for Project X page Description Filename The complete list af Phase Z All data field Phase dbf View Grade control data for Phase Controls 3 Controls dbt View Export Export Constrictions ene connotados Constrict dbt View Phase 2 Export Export Export Hazard Phase 2 Mapping The list of Phase 2 Map FEH data SGAT data for Flood Erosion eee e crmat dbf Vi
87. sessi anter esses sans 79 LOSION DUIU wide ucerea teas ty RN eI OLA LEMAR 81 Historic Dred eine and Wndrowing Dala aaa 83 Sample Boundary Conditions and Riparian Modifiers Map esses eene eene rennen 54 SEDIMENT REGIME DEPARTURE MAP miseire aa eaa e a A a E a oacsoueee sont a aes 84 PHASE SEDIMENT REGIME DEPARTURE REFERENCE CONDITION MAP ssssssssesesseseseesserrerereeeeerereeeeeeeresereeeeees 85 Mapping Sediment RECON E DIT ONEONE AA O 86 Mapp ine Grade Control Datus c ue A NEA Re eu dun E E N EO 56 PHASE 2 SEDIMENT REGIME DEPARTURE EXISTING CONDITION MAP ceeeeeeeeeceeeeeeeeececeeeceeeeeeeeeeeeeeeeeeeeeeeeeeees 87 Mappinp Sedument REIME DOI a 5S Mappine Grade Control Datus assu EEE AAA ne eee 89 Mapp ine Lateral GC ON 1 011 A AA 89 Sample Sediment Regime Departure Map aid 95 STREAM SENSITIVITY MAP oriin nrg e na ea o aE onia 95 Mapping the Sensitivity Ranne DOIG tte 96 Mapping the Current Vertical and Lateral Adjustments Data eese essen eher 97 Sample Sean SensuvitysMQDS rinira n dus et istet enti acia 98 Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 3 5 28 2010 I Acquiring Data Data Locations 1 Your regional river scientist 2 The River Management Stream Geomorphic Assessment Tool SGAT 3 The River Management Online Data Management System DMS 4 The Vermont Center for Geographical Information VCGI 5 Your local Regional Planning Commi
88. ss 45 degree line urban fills for lt 5 gt 5 and lt 10 gt 10 lt 20 and gt 20 Road densities Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 4 5 28 2010 Layer Properties EE General Source Selection Display Symbolagy Fields Definition Query Labels Joins amp Relates Shaw iti i Import Paonia Draw quantities using color to show values mpor Categories Fields Classification Quantities Value 515WF_emergency_rds_lir Manual Graduated colors Normalization lt None gt Classes 4 Classify Graduated symbols Proportional symbols Dot density Color Ramp El EN Charts Multiple Attributes NN NND 2 AAN 2 4 ANAND E ANN 7113 Show class ranges using feature values Advanced caca tn Change the last label to say gt by left clicking and typing over it Mapping Wetlands To show the location of current wetlands use the NWI wetland layer you must follow these steps for each individual NWI wetland quad you have Categorize by Unique Value Set the Value Field to ATTRIBUTE Add all Values and scroll to the bottom of the list Click to highlight the value labeled U this represents all polygon layers with unknown values Click on the BUEN button to remove it Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 42 5 28 2010 Layer Properti
89. ssion RPC 6 The River Management FTP site Required Date Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 5 28 2010 Lake Champlain Southern Connecticut Lake t Champlain Batten Kill ln UV e Walloomsac 2 Er River Management Staff Hoosic ber ESI Staci Pomeroy N cue sess Sein Shannon Pytlik 5 E Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 5 28 2010 Data Requirements If you are making a Land use and Land cover map you will need to use the SISWR_emergency_roads_line dbf This dbf is created by SGAT step 15 Check the derived folder in the SGAT project to see if this step has already been run If not this means you must have ArcView GIS 3 x the extension SGAT 4 59 and the most up to date SGAT project If you are missing any of these please contact your regional river scientist SGAT STEP 15 When starting SGAT select the J button Because we want to conduct a density analysis next choose the Fart C Soils Land Cover and Density Analysis bution Step 15 Calculate Feature Density for Selected Boundari gt Now select 2192 15 Caeulate Feature Density for Selected Boundaries This will bring up the Part C Step 15 Calculate Densities window Part C Step 15 Calculate Densities Boundary Theme Defining Areas For which Density will be Calculate FIRST Select Area for Boundary Them Theme Name l millsu
90. t Agency of Natural Resources 48 5 28 2010 Unique Value in Symbology Change symbols to red orange and yellow hashed deposition lines Change the lt Heading gt DEP RNG to Range Mapping Bank Erosion Data SGAT Feature Type Attribute Information FIT line data Erosion right and or left bank Phase 2 data Steps 3 1 attributed to lines offset left and right OR from segment line indicating the percentage of the reach Stream segment line data segment right and left bank length eroding gt 5 2096 gt 20 Export Code L EROS RNG amp R EROS RNG Phase 1 data Step 7 2 attributed to the reach line indicating the percentage of the reach length eroding gt 5 2096 gt 20 Export Code EROS P RNG OR Stream reach line data Use the Bank Erosion data layer to display all location of erosion along the river This can be done by setting a definition query to IMPACT Erosion Categorize by Unique Value Set the Value Field to LOCATION Add the values Left Bank and Right bank ce Selection Display Symbolouy Fiski Det Query Labels Jona General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show Foster Draw categories using unique values of one field Import Categories Value Field focas y r Color Ramp Unique values many Match to symbols in a
91. t click on the data frame Layers and select Paste Layer s E Laye gac Add Data lu ap New Group Layer y Bi Copy e Paste Laver s v Right click on the new sO5swfinaldslv layer and select Joins and Relates gt Join Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 16 5 28 2010 il Copy W seg lswseg Remove s 9carridar Open Attribute Table 1 E Remove Joints Ej Carcgisyveerman emergency r IA Use Symbol Levels Remove Relate s P ea arcqis vermon MAIP Image Selection Visible Scale Range Relate Label Features Convert Labels to Annotation Convert Features to Graphics Data Save As Layer File Make Permanent Properties This will bring up the Join Data window For option 1 Choose the field in this layer that the join will be based on Choose RCHPTID For option 2 Choose the table to join to this layer or load the table from disk Choose Phasel MappingExport For option 3 Choose the field in the table to base the join on Choose REACHPTID Follow these directions for all the joins in the next section Jinba Eg Join lets you append additional data to this layer s attribute table so you can for example symbolize the layer s features using this data What do you want to join to this layer Join attributes from a table 1 C
92. ta Frame fr Title Layer coa y Text The new data frame will appear in your table of contents Rename this data frame Hydrologic Alterations f Hydrologic Alterations Copy and paste all the data layers need for this map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 26 5 28 2010 E amp Hydrologic Alterations E FitO1ptimpactseg o E FitOiptinpactseg e E PhasezMapTable rj f Hydrologic Alterations E Stormwater E Dams and Diversions e El Stormwater mile E In Stream Flow Modifiers El Upstream Flow Modifiers E Roads E Lamoille E Subwatershed C El PhasezMapTable E PhasezMapTable emergency rds line E sOSswfinaldsly E Sub Watershed C Mapping Stormwater Data SGAT Feature Type Attribute Information Storm water discharges the indexed ditch outlets culverts or pipes FIT point data i E collecting and conveying stormwater to the segment or reach Phase 2 data Steps 4 6 attributing the segment line to indicate the AND OR number of storm water inputs 0 lt 2 gt 2 lt 5 gt 5 Stream segment line data Export Code STRM_RNG note normalized values storm water inputs 5 280 segment length Additional Resources Storm water outfalls inventories point data obtained through DEC Storm water Section regional or municipal planning agency Use the Stormwater data layer to display any points that have an I
93. tities G n Hu nergenc Hm NT Natural Breaks Jenks Graduated colors Cl E Classify Graduated symbols TIER z Proportional symbols Dot density Charts Multiple Attributes 0 1 2 3 4 6 Show class ranges using feature values Advanced caca sun Click on the Classes drop down arrow and select 4 classes Classification Natural Breaks Jenks Classes E Classify Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 40 5 28 2010 In order to set our desired breaks click on the Classi button This will bring up the Classification window Here you can see a bar graph showing the values for you field in gray and the default divisions of the classifications in blue On the right side of this window type in the values of your cut offs because you are interested in the ranges 0 2 2 4 4 6 and gt 7 make the values 2 4 6 and then what ever the maximum value is for your project maximum value can be found in the Classification Statistics portion of this window Classification Llassification Classification Statistics Method Manual T Count Mini i Classes E T cipue 5 um D ata Exclusion Mean Exclusion sampling Median Standard Deviation Columns 100 Show Std Dev Show Mean E 13 Snap breaks to data values 2 Elements in Class Cancel Press the ok button Change the symbol fills to the varied thickne
94. ttribute Information FIT line data Buffer less than 25 feet Phase 2 data Step 3 2 attributed to lines offset right and left of the stream segment line indicating whether the 0 25 ft buffer category is the dominant buffer types within reach segment indicate separately for right or left bank Export Code L BUFF 25 R_BUFF_25 Phase data Step 4 3 attributed to lines offset right and left of the stream segment line indicating whether the dominant right and left bank buffer category within reach segment is less than 25 ft Export Code L NO BUFF amp R NO BUFF Phase 2 data Step 3 1 attributed to the stream segment line AND indicating whether the right or left lower bank materials where Stream segment line data comprised of cohesive materials Export Code COHESIVE OR Stream segment line data OR Stream reach line data To show the exact location of areas where the vegetation buffer 1s less than 25 feet use the Buffer less 25 data layer and set a definition query so that IMPACT Buffer Less than 25 Categorize by Unique Value set the Value Field to LOCATION Add the values right bank and left bank Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 74 5 28 2010 IMPACTID TRIBID E PH2SEGID RCHPTID RCHSEGID IMPACT x lt Like Bank Armoring or Revetment Bridge or Culvert zu zs a Development Encroachm
95. tural Resources 50 5 28 2010 Change symbol to the orange Gully circle Delete the lt Heading gt and the label If you do not have access to good FIT data use the Mass failure and gully mile data layer to show the ranges of mass failures and gullies per mile for the segment reach categorize by Unique Value Set the Value Field to Phase2MappingExport MF_GUL_RNG Add all relevant values General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Show Draw categories using unique values of one field Import Features Categories Value Field Color Ramp gt Unique values Phase2MappingE xport MF GUL RN c Unique values mary Match to symbols in ccr Wale la cal Quantities Charts all other values all other values E E lt Heading gt Range Multiple Attributes HRD 2o i i 2 5 ee g 4 55 gt E Unique Value in Symbology Change symbols to green mass failure gully lines Change the lt Heading gt to Range Mapping Rejuvenating Tributary Data SGAT Feature Type Attribute Information Phase 2 Step 5 3 indicating the presence of tributary Stream segment line data rejuvenation Export Code TRIB REJUV Use the Tributary Rejuvenation data layer to show whether tributary rejuvenation has occurred on every segment reach Categorize by Unique Value
96. uch that you can read and use the data change the map for example try reducing the amount of data displayed and spread the information over a few maps instead of on one or change the scale of your maps you may choose to show your watershed over a couple maps so that it 1s a larger scale Map size can be an important aspect of cartography When displaying data at the reach scale data 8x10 maps are Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 25 5 28 2010 adequate but 11x17 maps should be used if possible for watershed scale maps The goal of these maps is to help display your data in a visual format allowing you to look at your data in a comprehensive way Attention to format and mapping techniques will help you in the long run use the maps and the data more affectively You may or may not have all the parameters impacts discussed for the map in your watershed It may be valuable to note those features not present in the map legend and or in the Corridor Plan section that discusses the results of the map Hydrologic Alterations Map The hydrologic alterations map will show stormwater input data number of stormwater inputs per mile dams flow regulations and upstream flow modifications To keep the map organized we recommend that you create a new data frame for this map Select Insert gt Data Frame from the upper menu File Edit View Insert Selection Tools Window Help D Eg ES Da
97. ue values many Match to symbols ina symbol vaus tae Court Quantities Charts all other values gt all other values Heading Tes Yes Multiple Attributes Unique Value in Symbology Change the L Bank Buffer 25 line symbol to the green and grey L Buff 25 yes line Change the lt Heading gt L_BUF_25 to lt 25ft Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 75 5 28 2010 For the right buffer use the P2_R_Buffer25 data layer to display whether the reach has less than a 25 foot buffer for any part of the right bank Categorize by Unique Value Set the Value Field to R BUFF 25 Add the value Yes General Source Selection Display symbology Fields Definition Query Labels dans amp Relates Show i Import Features Draw categories using unique values of one field p Categories Value Field Color Ramp Unique values Phase2MappingExport FE BUFF 25 J Unique values mary I Matn tosmbos na Tumba vaus fiaa Coat Quantities Charts all other values all other values Multiple Attributes Headimng is the buffer 25ft Yes les Unique Value in Symbology Change the R Bank Buffer 25 line symbol to the green and grey R Buff 25 yes line Change the lt Heading gt R_BUF_25 to lt 25ft If you do not have FIT or Phase 2 data this will be done
98. values features 5 280 segment length AND Stream segment line data OR Stream reach line data Phase 1 data Step 5 1 5 2 6 3 indicating when low or high impact rating have been made for any of the following impoundments bridges and culverts mid channel or delta bars Export Code DEPTH DEC Additional Resources Vermont Dam Inventory GIS points Bridge and culvert points from ANR assessments and or shapefiles created during assessment Use the Beaver Dam data layer to show the locations of beaver dams along the river To do this set the definition query to IMPACT Beaver Dam Then Symbolize features with a single symbol Query Builder PH2SEGID lt gt Like Beaver Dam Debris Jam gt gt And Pd Flow Regulation lt ac Or Grade Control Mass Failure 2 EN Not Migration SELECT FROM fit01 ptimpactseg WHERE IMPACT Beaver Dam Clear Verify Help Load Save Cancel Definition Query General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates Show gt Faasi Draw all features using the same symbol Import Single symbol Categories ae i i Advanced Multiple Attributes Symbol Legend Single Symbol in Symbology Change the Beaver Dam point symbol to the pink Beaver Dam symbol Corridor Planning Map Guidance Appendix Ve
99. ve bank line symbol Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 71 5 28 2010 Grade Controls Data SGAT Feature Type Attribute Information Natural grade control waterfalls and ledge and human constructed ELE pori ong Maeda grade control dams and weirs using different symbols for each Phase 2 data Step 2 12 indicating the bed substrate D50 is equal to AND or greater than the course gravel substrate size Stream segment line data 8 8 Export Code COURSE_BED Additional Resources Vermont Dam Inventory VCGI GIS point data indicating the presence of a dam Use the Grade Control data layer to show the number and location of the grade controls for the entire river To do this set the definition query where SUBIMPACT waterfall or SUBIMPACT ledge OR SUBIMPACT dam OR SUBIMPACT weir Then use Unique Value in Symbology to show all grade controls Group the grade control by natural and human constructed Query Builder RCHPTID RCHSEGID IMPACT SUBIMPACT LOCATION x Flood Chute s Ax Pe General Source Selection Display Symbology Fields Definition Query Labels Joins amp Relates rrigation f i Show Ledge Steep Rifle Faat res Draw nasi using unique values of one field _ Import Stream Ford Categories Value Field Color Ramp aia Uria suena mm Unique values many I Match
100. wetland A A s El urban individual watershed 4 5 h En F t 1 h I 2510955 gt 10 lt 20 MEE od d PR HAGAIS 5 yl urat Y r FA re EYJ ALLIED AE fr aT EM ELLA FL CALLE LA 7 x El roads subwater b MOS SAIS o8 o gt e y ALLE A 7 NS Ses SS a individual watershed lt 5 l2 x SS A E os es rn E FRA Ug ALLS A ARAS E 5 10 Ed gt 10 lt 20 tors Map Ica t Load Ind Imen Sed Gullies and tributary rejuvenations To keep the map organized we recommend that you create a new data frame for this map The Sediment Load Indicators map will show steep riffles mid channel bars delta bars flood Select Insert gt Data Frame from the u gt chutes avulsions braiding erosion mass failures pper menu Help Window Tools es a 2 m a T ui Insert File Edit wiew Fit pim Layer The new data frame will appear in your table of contents Rename this data frame Sediment Load Copy and paste all the data layers need for this map Vermont Agency of Natural Corridor Planning Map Guidance Appendix Resources 5 28 2010 46 Rename the layers in the Sediment Load Data frame Sediment Load Sediment Load E v E v E v Fl v Fl v E v E v E v E v E v Fit 1lnimpackseg Fit 1lnimpackseg Fita ptimpactseg e Fit
101. will create a halo usually yellow or blue in color by default outlining the polygon you selected Once the polygon is selected change to the Sketch Tool Use this tool to draw a line that cuts the polygon at the segment point First click once on one side of the polygon creating a red square and drag the mouse to the other side of the polygon Make sure the thin gray line falls on top of the segment point Double click on the opposite side This will segment that shape and add a new entry to the attribute table Repeat these editing steps slicing the Phase 2 corridor at all the segment point locations for your project Remember to save your edits often by left clicking on the Editor button and selecting Save Edits from the drop down menu Editor P bs W Stop Editing Fiza Save Edits Once all polygons cuts have been made we must rename the new polygon with phase 2 segment names Open the attribute table for the Phase_2_ corridor If there were no segments made within a reach the segment will not need to be edited Make sure the attribute table window is small enough so that you can look at the Phase 2 corridor in the back ground Select a single entry in the table by clicking on the gray box to the far left on the entry This will highlight the feature in the table and in the background map Navigate to this location of the map Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 21
102. work When you have selected all these options click OK Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 90 5 28 2010 Input Features gt buildings zi Clip Features E F2 sediment Fy Output Feature Class CAD ocuments and Settings jurmorDesktopsch SQIS bulding Cluster Tolerance optional Meters LK Cancel Environments Show Help gt gt This will trigger a dialog showing the status of the clipping Te 5 s gg Detalls Close this dialog when completed successfully Start Time Sat Nov 03 00 31 53 007 Reading Features Executed Clip 1 Successfully End Time Sat Nov 3 00 31 56 2007 Elapsed Time 3 00 seconds Repeat the above steps for the clipping of the Roads and driveway data layers If the shapefiles you created have not automatically been added you will need to add all 3 of the newly created shapefiles Now we are going to create a buffer around these newly added shape files To do this navigate to the buffer tool within the ArcToolbox Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 91 5 28 2010 ER ArcToolbox Se Analysis Tools o Extract DE Overlay ad Proximit EE Buffer 2 Multiple Ring Buffer fy Statistics Ei Cartography Tools DE Conversion Tools DE Data Management Tools m i Geocoding Tools DE Linear Referencing Tools DES Multidimension Tools samples DE
103. yer to display the percent of each reach segment that 1s lined with right bank revetments Categorize by Unique Value Set the Value Field to R_REV_RNG Add all relevant values 7x General Source Selection Display symbology Fields Definition Query Labels Joins amp Relates Shaw Draw categories using unique values of one Field Import Features Categories Value Field r Color Hamp Unique values PhasezMappingEsport A_REWT_AN J Unique values many Mee pap Quantities Charts all other valuez gt all other values lt Heading gt range 0 0 20 lt 0 De lt 20 2 2 Unique Value in Symbology Multiple Attributes Change the grade P2 R Revetment line symbols to the various shades of blue Revetment lt 5 Revetment gt 5 lt 20 and Revetment gt 20 lines Change the lt Heading gt R REVT RNG to RANGE Erosion Data Use the Erosion data layer to display the erosion locations for the entire stream Set the definition query to IMPACT Erosion Categorize by Unique Value Set the Value Field to LOCATION Add right and left Corridor Planning Map Guidance Appendix Vermont Agency of Natural Resources 81 5 28 2010 General Source Definition Query Bank Armoring or Revetment Bridge or
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