This is a test of a national service of Ecological maps all based on the US National Vegetation Classification, a partnership of the USGS GAP program, US Forest Service, Ecological Society of America and Natureserve. The USNVC grew out of the US National Park Service Vegetation Mapping Program, a mid-1990's effort led by The Nature Conservancy, Esri and the University of California. The classification standard was led by scientists who later became Natureserve, who still work on significant areas of what is now an international standard, with associated ecological mapping occurring around the world. Shortcomings in the standard led to Natureserve's development of a mid-scale mapping-friendly "Ecological Systems" standard roughly corresponding to the "Group" level of the NVC, which facilitated NVC-based mapping of entire continents. Current scientific work is leading to the incorporation of Ecological Systems into the NVC as group and macrogroup concepts are revised. NVC is a hierarchical taxonomy of 8 levels, from top down: Class, Subclass, Formation, Division, Macrogroup, Group, Alliance, AssociationThis map includes a test segment of Natureserve Ecological Systems in the US Southwest, with the following layers and sublayers:Ecosystem Tiles US: A grid showing the boundaries that define each partition tile of the databaseNserve Label 72to1m SW: A cached layer of Subclass and Macrogroup Labels Subclass Labels - blue: Subclass labels in blue, visible from 18 million to 2 million scale (scale bar value 300m to 30m) Macrogroup label teal: Macrogroup Labels in teal, visible from 1 million to 72k scale (scale bar value 20m to .1m)Nserve 72to1m SW: A cached layer of Subclass and Macrogroup vectors EslfSubOut_SW: Subclass vectors at the outer scales of 18 million to 2 million EslfMacMid_SW: Macrogroup vectors at the middle scales of 1 million to 72kNserveMacro FS 72k only: A test layer of Macrogroup Midscale vectors as a vector feature service. Draws more slowly.Nserve Eco Labels-green: Base scale Ecological System Labels at 36k to 1k scale (scale bar value .6m to 100') (Sublayers will show all 31 different tiles included in the Southwest region)Nserve Ecosys FS 1k-36k: Base scale Ecological System vectors as a vector feature service, 1k to 36k scales (Sublayers will show all 31 different tiles included in the Southwest region)Also included are examples of field-based NVC Alliance and Association mapping that is ongoing in the National Parks and several states.Western Riverside Labels: Alliance Labels for California Fish & Wildlife/Calif Native Plant Society mapping in Riverside County WestRivNVC_WM_DetailMGLabel: Macrogroup Labels at the detail scale 256k to 1k (scale bar value 4m to 100') WestRivNvc_WM_ComNameLabel: Alliance Common Name Labels at the detail scale 256k to 1k WestRivNVC_WM_DetailNVCLabel: Alliance Scientific Name Labels at the detail scale 256k to 1kWestern Riverside CNPS: Alliance Vectors for California Fish & Wildlife/Calif Native Plant Society mapping in Riverside County WestRivNVC_WM_Detail: Alliance Vectors at base scale of 9k to 1k (scale bar value 600' to 100') WestRivNvc_WM_Moderate: Alliance Vectors at mid scale of 144k to 18k (scale bar value 2m to .3m) WestRivNVC_WM_Solid: Macrogroup Solid Polygons at outer scale of 18m to 256k (scale bar value 300m to 4m)

At this scale 1cm on the map represents 1km on the ground. Each map covers a minimum area of 0.5 degrees longitude by 0.5 degrees latitude or about 54 kilometres by 54 kilometres. The contour …Show full descriptionAt this scale 1cm on the map represents 1km on the ground. Each map covers a minimum area of 0.5 degrees longitude by 0.5 degrees latitude or about 54 kilometres by 54 kilometres. The contour interval is 20 metres. Many maps are supplemented by hill shading. These maps contain natural and constructed features including road and rail infrastructure, vegetation, hydrography, contours, localities and some administrative boundaries. Product Specifications Coverage: Australia is covered by more than 3000 x 1:100 000 scale maps, of which 1600 have been published as printed maps. Unpublished maps are available as compilations. Currency: Ranges from 1961 to 2009. Average 1997. Coordinates: Geographical and either AMG or MGA coordinates. Datum: AGD66, GDA94; AHD Projection: Universal Transverse Mercator UTM. Medium: Printed maps: Paper, flat and folded copies. Compilations: Paper or film, flat copies only.

This map is part of the series that covers the whole of Australia at a scale of 1:250 000 (1cm on a map represents 2.5 km on the ground) and comprises 513 maps. This is the largest scale at which published topographic maps cover the entire continent. Each standard map covers an area of 1.5 degrees longitude by 1 degree latitude or about 150 kilometres from east to west and 110 kilometres from north to south. There are about 50 special maps in the series and these maps cover a non-standard area. Typically, where a map produced on standard sheet lines is largely ocean it is combined with its landward neighbour. These maps contain natural and constructed features including road and rail infrastructure, vegetation, hydrography, contours (interval 50m), localities and some administrative boundaries. The topographic map and data index shows coverage of the sheets. Product Specifications Coverage: The series covers the whole of Australia with 513 maps. Currency: Ranges from 1995 to 2009. 95% of maps have a reliability date of 1994 or later. Coordinates: Geographical and either AMG or MGA (post-1993) Datum: AGD66, GDA94, AHD. Projection: Universal Traverse Mercator (UTM) Medium: Paper, flat and folded copies.

The NSW Topographic Map web service contains rasterised topographic maps covering NSW. This service displays the current standard Topographic maps from the 1:100,000; 1:50,000 and 1:25,000 series.

The sourced Geotiff file is cropped to the map window only, with no legend, disclaimers, map grid, scale bar or north arrow displayed. The NSW Topographic Map series is derived from the Digital Topographic Database (DTDB).

Information viewed in this web service includes:

• Roads

• Points of Interest

• Localities

• Contours

• Drainage

• Cultural data

• Parks and forests

• Property boundaries.

This is a database that contains all of the coordinates, heights and related information for NSW survey marks that form the official State Survey Control Network (SCIMS).

The scourced Geotiff file is cropped to the map window only, with no legend, disclaimers, map grip, scale bar or north arrow displayed. The NSW Topographic Map series is derived from the Digital Topographic Database (DTDB).

Information viewed in this web service includes: • Roads

• Points of Interest

• Localities

• Contours

• Drainage

• Cultural data

• Parks and forests

• Property boundaries.

The Digital Raster Graphic (DRG) is a scanned image of a US Geological Survey (USGS) standard series topographic map that includes all collar information (e.g., legend, scale bar, index map, etc.) The DRGE is a non-proprietary product of a USGS DRG in which the map collar information has been removed.

Vector datasets of CWHR range maps are one component of California Wildlife Habitat Relationships (CWHR), a comprehensive information system and predictive model for California's wildlife. The CWHR System was developed to support habitat conservation and management, land use planning, impact assessment, education, and research involving terrestrial vertebrates in California. CWHR contains information on life history, management status, geographic distribution, and habitat relationships for wildlife species known to occur regularly in California. Range maps represent the maximum, current geographic extent of each species within California. They were originally delineated at a scale of 1:5,000,000 by species-level experts and have gradually been revised at a scale of 1:1,000,000. For more information about CWHR, visit the CWHR webpage (https://www.wildlife.ca.gov/Data/CWHR). The webpage provides links to download CWHR data and user documents such as a look up table of available range maps including species code, species name, and range map revision history; a full set of CWHR GIS data; .pdf files of each range map or species life history accounts; and a User Guide.

The R502 series of maps has been replaced by the National Topographic Map Series (NTMS). The R502 series consists of 542 map sheets and covers Australia at a scale of 1:250,000. It was compiled from aerial photography, but only about one quarter of the series was contoured. The standard sheet size is 1 degree of latitude by 1.5 degrees of longitude. Transverse Mercator map projection and Clark 1858 datum were used. Coverage of the country was completed in 1968.

This webmap is a collaboration between the California Native Plant Society (CNPS) and the California Dept of Fish and Game (CDFG).The CNPS Vegetation Program has worked for over 15 years to provide standards and tools for identifying and representing vegetation, as an important feature of California's natural heritage and biodiversity. Many knowledgeable ecologists and botanists support the program as volunteers and paid staff. Through grants, contracts, and grass-roots efforts, CNPS collects field data and compiles information into reports, manuals, and maps on California's vegetation, ecology and rare plants in order to better protect and manage them. We provide these services to governmental, non-governmental and other organizations, and we collaborate on vegetation resource assessment projects around the state. CNPS is also the publisher of the authoritative Manual of California Vegetation, you can purchase a copy HERE. To support the work of the CNPS, please JOIN NOW and become a member!The CDFG Vegetation Classification and Mapping Program develops and maintains California's expression of the National Vegetation Classification System. We implement its use through assessment and mapping projects in high-priority conservation and management areas, through training programs, and through working continuously on best management practices for field assessment, classification of vegetation data, and fine-scale vegetation mapping.HOW THE OVERLAY LAYERS WERE CREATED:Nserve and GapLC Sources: Early shortcomings in the NVC standard led to Natureserve's development of a mid-scale mapping-friendly "Ecological Systems" standard roughly corresponding to the "Group" level of the NVC, which facilitated NVC-based mapping of entire continents. Current scientific work is leading to the incorporation of Ecological Systems into the NVC as group and macrogroup concepts are revised. Natureserve and Gap Ecological Systems layers differ slightly even though both were created from 30m landsat data and both follow the NVC-related Ecological Systems Classification curated by Natureserve. In either case, the vector overlay was created by first enforcing a .3ha minimum mapping unit, that required deleting any classes consisting of fewer than 4 contiguous landsat cells either side-side or cornerwise. This got around the statistical problem of numerous single-cell classes with types that seemed improbable given their matrix, and would have been inaccurate to use as an n=1 sample compared to the weak but useable n=4 sample. A primary goal in this elimination was to best preserve riparian and road features that might only be one pixel wide, hence the use of cornerwise contiguous groupings. Eliminated cell groups were absorbed into whatever neighboring class they shared the longest boundary with. The remaining raster groups were vectorized with light simplification to smooth out the stairstep patterns of raster data and hopefully improve the fidelity of the boundaries with the landscape. The resultant vectors show a range of fidelity with the landscape, where there is less apparent fidelity it must be remembered that ecosystems are normally classified with a mixture of visible and non-visible characteristics including soil, elevation and slope. Boundaries can be assigned based on the difference between 10% shrub cover and 20% shrub cover. CNPS / CDFW / National Park Service Sources: Unlike the Landsat-based raster modelling of the Natureserve and Gap national ecological systems, the CNPS/CDFW/NPS data date back to the origin of the National Vegetation Classification effort to map the US national parks in the mid 1990's.
These mapping efforts are a hybrid of photo-interpretation, satellite and corollary data to create draft ecological land units, which are then sampled by field crews and traditional vegetation plot surveys to quantify and analyze vegetation composition and distribution into the final vector boundaries of the formal NVC classes identified and classified. As such these are much more accurate maps, but the tradeoff is they are only done on one field project area at a time so there is not yet a national or even statewide coverage of these detailed maps.
However, with almost 2/3d's of California already mapped, that time is approaching. The challenge in creating standard map layers for this wide diversity of projects over the 2 decades since NVC began is the extensive evolution in the NVC standard itself as well as evolution in the field techniques and tools. To create a consistent set of map layers, a master crosswalk table was built using every different classification known at the time each map was created and then crosswalking each as best as could be done into a master list of the currently-accepted classifications. This field is called the "NVC_NAME" in each of these layers, and it contains a mixture of scientific names and common names at many levels of the classification from association to division, whatever the ecologists were able to determine at the time. For further precision, this field is split out into scientific name equivalents and common name equivalents.MAP LAYER NAMING: The data sublayers in this webmap are all based on the US National Vegetation Classification, a partnership of the USGS GAP program, US Forest Service, Ecological Society of America and Natureserve, with adoption and support from many federal & state agencies and nonprofit conservation groups. The USNVC grew out of the US National Park Service Vegetation Mapping Program, a mid-1990's effort led by The Nature Conservancy, Esri and the University of California. The classification standard is now an international standard, with associated ecological mapping occurring around the world. NVC is a hierarchical taxonomy of 8 levels, from top down: Class, Subclass, Formation, Division, Macrogroup, Group, Alliance, Association LAYER NAMING: Layer names follow this pattern: Source - Program - Level - Scale - RegionSource - Program = who created the data: Nserve = Natureserve, GapLC = USGS Gap Program Landcover Data PADUS = USGS Gap Protected Areas of the USA program Cnps/Cdfw = California Native Plant Society/Calif Dept of Fish & Wildlife, often followed by the project name such as: SFhill = Sierra Foothills, Marin Open Space, MMWD = Marin Municipal Water District etc. National Parks are included and may be named by their standard 4-letter code ie YOSE = Yosemite, PORE = Point Reyes.Level: The level in the NVC Hierarchy which this layer is based on: Base = Alliances and Associations Mac = Macrogroups Sub = SubclassesScale: One of 3 basic scales at which this layer will appear: Base = base scale, approx 1:1k up to 1:36k Mid = 72k to about 500k Out = 1m to 10mRegion: The region that this layer covers, ie USA=USA, WEST= western USA,
Marin = Marin County. May not appear if redundant to the Source-Program text.LABEL & COLOR: These overlays utilize a separate labelling layer to make it easy to include or not include labels, as needed. These are named the same as the layer they label, with "LABEL" added, and often the color used for that label layer in order to help tell them apart on the map. Note there can be multiple different label layers for the same set of polygons, depending upon the attribute or naming style desired, ie scientific names or common names. Finally the order of these services in the sublayers of a map service is normally designed so that ALL of the label services appear above ANY/ALL of the vector services they refer to, to prevent a vector service writing on top of a label and obscuring it.MAP LAYER CATALOGThis map includes a test segment of Natureserve Ecological Systems in the US Southwest, with the following layers and sublayers:Boundary Masks ALB2: A grid showing the boundaries that define each partition tile of the database, regional and state boundaries in the USGS Gap US Albers projectionNserve Label 72to1m SW: A cached layer of Subclass and Macrogroup Labels Subclass Labels - blue: Subclass labels in blue, visible from 18 million to 2 million scale (scale bar value 300m to 30m) Macrogroup label teal: Macrogroup Labels in teal, visible from 1 million to 72k scale (scale bar value 20m to .1m)Nserve 72to1m SW: A cached layer of Subclass and Macrogroup vectors EslfSubOut_SW: Subclass vectors at the outer scales of 18 million to 2 million EslfMacMid_SW: Macrogroup vectors at the middle scales of 1 million to 72kNserveMacro FS 72k only: A test layer of Macrogroup Midscale vectors as a vector feature service. Draws more slowly.Nserve Eco Labels-green: Base scale Ecological System Labels at 36k to 1k scale (scale bar value .6m to 100') (Sublayers will show all 31 different tiles included in the Southwest region)Nserve Ecosys FS 1k-36k: Base scale Ecological System vectors as a vector feature service, 1k to 36k scales (Sublayers will show all 31 different tiles included in the Southwest region)Also included are examples of field-based NVC Alliance and Association mapping that is ongoing in the National Parks and several states.Western Riverside Labels: Alliance Labels for California Fish & Wildlife/Calif Native Plant Society mapping in Riverside County WestRivNVC_WM_DetailMGLabel: Macrogroup Labels at the detail scale 256k to 1k (scale bar value 4m to 100') WestRivNvc_WM_ComNameLabel: Alliance Common Name Labels at the detail scale 256k to 1k WestRivNVC_WM_DetailNVCLabel: Alliance Scientific Name Labels at the detail scale 256k to 1kWestern Riverside CNPS: Alliance Vectors for California Fish & Wildlife/Calif Native Plant Society mapping in Riverside County WestRivNVC_WM_Detail: Alliance Vectors at base scale of 9k to 1k (scale bar value 600'

Landfire ver 1.3 Vector Map of Existing Vegetation Types (EVT) for the USA. Part of the ECP vegetation cartography project, in this case to transform the existing Landfire national EVT raster into vector format for broader utility in visualization and analysis. A primary goal of this project was to develop ecological layers to use as overlays on top of high-resolution imagery, in order to help interpret and better understand the natural landscape. You can see the source national raster by clicking on the "Landfire Raw Rasters v130" at the bottom of the contents list.Using polygons has several advantages: Polygons are how most conservation plans and land decisions/managment are done so polygon-based outputs are more directly useable in management and planning. Unlike rasters, Polygons permit webmaps with clickable links to provide additional information about that ecological community. At the analysis level, polygons allow vegetation/ecological systems depicted to be enriched with additional ecological attributes for each polygon from multiple overlay sources be they raster or vector. These polygons were enriched with ecological data from the following sources:1. Landfire Slope, Aspect, Elevation, Percent Cover for Tree, Shrub and Herb layer, Height for Tree, Shrub and Herb Layer. These attributes are all statistically sampled from the source 30m rasters and assigned to each polygon as follows: Min value, Max value, Mean Value and Standard Deviation. The intent is to include all meaningful upper and lower habitat limits for each polygon, and a mean+std to allow further statistics.2. Vegbank.org site links, and classification and descriptive information, retrieved Jan 2015.3. Natureserve Ecological Systems classification and descriptive information as of Jan 2015 and site links to the Natureserve Explorer site for authoritative data on each ecological system4. Landfire EVT original attributes such as fuel code and Society of American Foresters classification5. NVCS higher level classification information from both Landfire and Natureserve. NOTE, To see these attributes you have to be zoomed in to 36k or beyond, (the scale bar will show 0.6 miles or less) before you click on a polygon, and the full attribute set is only available for natural systems, agriculture is a more limited set . This enrichment effort has been completed for most of the western sections, and is still in progress for the eastern US.The National Vegetation Classification System that helped on these national efforts has 8 hierarchical levels of classification, from Class and Subclass at the top, to Alliance and Association at the bottom. The Ecological Systems upon which this map is based are roughly equivalent to the "Group" level of the NVCS. This version of the vector service is laid out in 3 scales: "Base scale" EVT is a feature service on the core ecological systems class for use from 1k to 36k scales, with a separate labelling service of tan labels. Both are organized into 7 national project sections (more details below). You can turn any labels off or on at these section levels. Within each section are the actual tiles used to organize this 500-million-feature dataset into manageable chunks. Turn on the top "Boundaries, Sections, Tiles" layer to see all of all the tile names and outlines."Landfire Subcl Base Scale" is an NVCS subclass feature service, with one set of sections at 72k cartography, and another heavier boundary line for use at 1k-36k cartography as an overlay with the core ecological systems. There is also a separate set of subclass labels organized by section that you can turn off or on."Landfire Subcl mid-out scale" is a national map cached for speed as polygon boundary overlay cartography from 144k to 2 million, then as solid color polygons (for orientation only) at the 4 to 36 million scale.As mentioned above the base service contains about 500 million vector features partitioned in 300 tiles (light-blue 4-digit labels in the "Boundaries.." service) containing 500,000 to 1m features each. These are grouped into 7 map/feature services for 7 regional sections covering the continental US, (Dark blue 2-letter codes: NW=northwest, SW=southwest, NC=north central, SC=south central, NE=northeast, SE=southeast, EA=eastAlso included as a reference layer for this webmap is a set of USGS PADUS (Protected Areas Database for USA) Protected Area Boundaries and Classifications.Also included is the raw source data used to create these vectors, from the USFS raster service version 1.3, called "Landfire Raw Rasters v130" in the map. It contains the following national rasters:(Raster Attributes incorporated into the vector overlay)US_130EVT: Existing Vegetation Type, source material for the polygons in the overlay map servicesUS_130EVC: Existing Vegetation Cover - vertically projected percent cover of the live canopy layer for a specific areaUS_130EVH: Existing Vegetation Height - average height of the dominant vegetationOther rasters included in the image service:US_130CBD: Forest Canopy Bulk Density - density of available canopy fuel in a stand, kg m‐3 * 100US_130CBH: Forest Canopy Base Height - average height from the ground to a forest stand's canopy bottom at which there is a sufficient amount of forest canopy fuel to propagatefire vertically into the canopy, meters * 10US_130CC: Forest Canopy Cover - proportion of the forest floor covered by the vertical projection of the tree crownsUS_130CH: Forest Canopy Height - average height of the top of the vegetated canopy, meters * 10US_130FBFM13: 13 Fire Behavior Fuel Models from Anderson, Hal E. 1982. Aids to determining fuel models for estimating fire behavior. Gen. Tech. Rep. INT-122. Ogden, UT: U.S. Dept. of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station. 22 p.US_130FBFM40: 40 Fire Behavior Fuel Models from Scott, J.H.; Burgan, R.E. 2005. Standard fire behavior fuel models: a comprehensive set for use with Rothermel’s surface fire spread model. Gen. Tech. Rep. RMRS-GTR-153. For Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 72 pUS_DIST##: Disturbance for given year (1999‐2010) spatial, temporal and severity information related to landscape change to model vegetation transitionsUS_FDIST##: Fuel Disturbance for given yearUS_VDIST##: Vegetation Disturbance for given yearUS_VTM##: Vegetation Transition Magnitude for given year - summary of the relationship between disturbance types and resulting effects on the vegetation in terms of changes in life‐form andcanopy coverUS_130BPS: Biophysical Settings - vegetation that may have been dominant on the landscape pre Euro‐American settlementUS_130ESP: Environmental Site Potential - vegetation that could be supported at a given site based on the biophysical environmentUS_130FRG: Fire Regime Groups - presumed historical fire regimes within landscapes based on interactions between vegetation dynamics, fire spread, fire effects, and spatial context,US_130MFRI: Mean Fire Return Interval - average period between fires under the presumed historical fire regimeUS_130PLS: Percent Low Severity Fire - low‐severity fires relative to mixed‐ and replacement‐severity fires under the presumed historical fire regimeUS_130PMS: Percent Mixed-Severity Fire - mixed‐severity fires relative to low‐ and replacement‐severity fires under the presumed historical fire regimeUS_130PRS: Percent Replacement-Severity Fire - replacement‐severity fires relative to low‐ and mixed‐severity fires under the presumed historical fire regimeThe legends are long and detailed so the webmap is best navigated using the middle "contents" icon in the left panel rather than the "Legend" icon. The Legends for each of the component tiles in the region are identical.Redraw times are not supposed to exceed 1-2 seconds per layer on this project, but it will be a bit slower the first time you load up the map, and the 144k & 72k feature service scales are currently slower in this test version.

This map is for querying the location of a proposed NAWCA grant project in relation to the shorebird areas of continental importance.How:Type your coordinates (decimal degrees) into the search bar, negative longitude first (eg: -75.8, 35.7) or pan and zoom to your project area.This dataset was developed by the U.S. Shorebird Conservation Partnership to aid the ranking of wetland habitat project by NAWCA. This map is intended to recommend -- at the national scale -- areas of the U.S. where NAWCA projects should be developed and favored based on benefits to wetland-associated shorebirds.This map is for querying the location of a proposed NAWCA grant project in relation to the shorebird areas of continental importance.How:Type your coordinates (decimal degrees) into the search bar, negative longitude first (eg: -75.8, 35.7) or pan and zoom to your project area.This dataset was developed by the U.S. Shorebird Conservation Partnership to aid the ranking of wetland habitat project by NAWCA. This map is intended to recommend -- at the national scale -- areas of the U.S. where NAWCA projects should be developed and favored based on benefits to wetland-associated shorebirds.

TitleMap of LabradorSubjectLabrador (N.L.)--MapsLabrador (N.L.)--Boundaries--MapsQuébec (Province)--Boundaries--MapsScale[c.1:3,168,000]Coordinates[W 83° - W 55° / N 61° - N 50°]DescriptionBlack and white. Prime meridian Greenwich. Compass rose. Bar scale in statute miles. "To illustrate the report of A.P. Low, B.A.Sc. Reduced from field plotting subject to correction (Signed D.J.V. Eaton)" (title).CreatorGeological Survey of CanadaPlace of Publication[Ottawa]PublisherGeological Survey of CanadaDate[ca. 1894]Dimensions of Original46.2 x 61.7 cmContributorsLow, A. P. (Albert Peter), 1861-1942Eaton, D. J. V.LocationCanada--Newfoundland and Labrador--LabradorCanada--Québec (Province)Time Period19th CenturyLanguageengNotesCNS map no. 248.Local Call NumberG 3440 1894 G4 MAPTypeStill ImageResource TypeMapFormatimage/jpegRelationAccompanies: Quebec (Province). Legislature. Legislative Assembly. Return to an address of the Legislative Assembly... respecting the north and north-east frontiers of the Province of Quebec. This report is held in the CNS Rare collection, call no. F 1054 B7 Q4 1897 RARE.CollectionDigitized Maps from the Centre for Newfoundland StudiesSponsorCentre for Newfoundland StudiesSourcePrint map held in the Centre for Newfoundland Studies.RepositoryMemorial University of Newfoundland. Libraries. Centre for Newfoundland StudiesHigh ResolutionRight click link to download jpeg (11.4 MB) http://collections.mun.ca/maps/G_3440_1894_G4.jpg -- Right click link to download tif file (263 MB) http://collections.mun.ca/maps/G_3440_1894_G4.tifCONTENTdm file name58.jpg

TitleMap of part of Labrador illustrating the proposed northern boundary of the Province of QuebecSubjectQuébec (Province)--Boundaries--MapsLabrador (N.L.)--Boundaries--MapsScale[c.1:1,689,600]Coordinates[W 80° - W 58° / N 55° - N 51°]DescriptionColour. Bar scale in miles. The proposed boundary is shown in red."From A.P. Low's map of Labrador" (lower left corner). "To accompany the report of the Deputy Minister of the Interior, dated the 29th January, 1896" (title).CreatorCanada. Dept. of the InteriorPlace of Publication[Ottawa]PublisherDepartment of the InteriorDate1896Dimensions of Original29.3 x 90.7 cmContributorsLow, A. P. (Albert Peter), 1861-1942McGee, John J. (John Joseph), b. 1845LocationCanada--Newfoundland and Labrador--LabradorCanada--Québec (Province)Time Period19th CenturyLanguageengNotesCNS map no. 249. "A Privy Council P.C. 2623 O.C./8/7/96. Sgd John J. McGee, Canada" (note on map, left side center). "P.C. no. 2623-1896; Ref. 407, 990 on 154, 349" (top edge).Local Call NumberG 3441 F2 1896 C3 MAPTypeStill ImageResource TypeMapFormatimage/jpegRelationAccompanies: Québec (Province). Legislature. Legislative Assembly. Return to an address of the Legislative Assembly... respecting the north and north-east frontiers of the Province of Quebec.CollectionDigitized Maps from the Centre for Newfoundland StudiesSponsorCentre for Newfoundland StudiesSourcePrint map held in the Centre for Newfoundland Studies.RepositoryMemorial University of Newfoundland. Libraries. Centre for Newfoundland StudiesHigh ResolutionRight click link to download jpeg (3.45 MB) http://collections.mun.ca/maps/G_3441_F2_1896_C3.jpg -- Right click link to download tif file (99.5 MB) http://collections.mun.ca/maps/G_3441_F2_1896_C3.tifCONTENTdm file name62.jpg

Information Lookup is a configurable web application template that can be used to provide the general public, internal staff and other interested parties with information about a location. If no features are found at that location, a general message is displayed. Optionally, the location entered can be stored in a point layer.Configurable OptionsThe template can be configured using the following options:Lookup Layers: One or more polygon layers queried by the location specified. The pop-up defined in these layers combined into a single pop-up and displayed to the user. The layers can either be a feature service layer or a layer that is part of a dynamic map service. Use a vertical bar or pipe (|) to separate this list of layers. It is recommended that these layers visibility is turned off.Pop-up Title: The title of the pop-up when results are returned from one or more of the Lookup Layers.Pop-up Width: The width of the pop-up. pop-up Max Height: The maximum height title of the pop-up.Unavailable pop-up Title: The title of the pop-up when no results are returned from the Lookup Layers.Unavailable pop-up Message: The message to display in the pop-up when no results are returned from the Lookup Layers.Zoom Level for Location: The scale to set the map at when a location is specified.Store Location: Option to store the location specified in a point layer, if checked on, fill out the remaining parameters.Application Title: Enter a custom title for the application.Storage Layer Name: Name of the point feature service layer in the map to store the location. Editing must be enabled on this layer.Storage Layer Field: Field in the Storage Layer to store a value if a result was returned from the Lookup Layers.Yes Value: The value to store in the Storage Layer Field specified above when a result is returned from the Lookup Layers.No Value: The value to store in the Storage Layer Field specified above when no results are returned from the Lookup Layers.Display Splash Screen on Startup: Option to show a splash screen when the app loads.Splash Screen message: The message to display in the splash screen.Splash Screen Theme: The color scheme for the splash screen.Supported DevicesThis application is responsively designed to support use in browsers on desktops, mobile phones, and tablets.Data RequirementsThis web app includes the capability to edit a hosted feature service or an ArcGIS Server feature service. Creating hosted feature services requires an ArcGIS Online organizational subscription or an ArcGIS Developer account. Get Started This application can be created in the following ways:Click the Create a Web App button on this pageShare a map and choose to Create a Web AppOn the Content page, click Create - App - From Template Click the Download button to access the source code. Do this if you want to host the app on your own server and optionally customize it to add features or change styling.

TitleA diocesan map of the Church of England in Newfoundland and Labrador : showing the deaneries and missionsCreatorCurling, Joseph JamesContributorsMurray, Alexander, 1810-1884Edward Stanford Ltd.Stanford's Geographical Estabt.PublisherEdward Stanford, 55 Charing CrossPlace of PublicationLondonDate1877Physical Description1 map : hand col., mounted on linenDimensionsca. 94 x 60 cm sectioned to fold into coverScaleScale [ca. 1:1 250 000]Coordinates(W 65° 30’--W 52° 30’/N 61° 15’--N 46° 20’)SubjectChurch of England--Missions--Newfoundland and LabradorChurch of England--Dioceses--Newfoundland and LabradorMissions--Newfoundland and Labrador--Geography--MapsDioceses--Newfoundland and Labrador--MapsSubject ThemesGeography; Natural history; ReligionNotesPrime meridian Greenwich. Bar scale in English statute miles. Relief shown by hachures and spot heights in feet. Shows roads, telegraph and submarine telegraph cables. Includes extensive notes on the Church of England in Newfoundland, the Moravian Missions, as well as general notes. Coloured index of deaneries. Includes a table of distances by sea. Includes illustration: The Cathedral Church of the Church of England. Includes insets: [Labrador] -- [North Atlantic Ocean].ID NumberLIME_M0014LanguageEngTypeStill ImageResource TypeMapFormatImage/jpegLocal Call NumberBX 5611 N4 C87 1877 RARECollectionLabrador Inuit through Moravian EyesSponsorArchives and Special CollectionsOriginal CollectionotherRelationIs Part Of: Joseph James Curling, List of missions of the Church of England in Newfoundland and Labrador (London, 1877); this is the accompanying map.CONTENTdm file name25895.jpg