This web map shows Daily maximum and mean UV indices in Hong Kong.It is created by Hong Kong Observatory under the Government of Hong Kong Special Administrative Region (the "Government") at https://portal.csdi.gov.hk ("CSDI Portal"). The source data has been processed and converted into Esri File Geodatabase format and then uploaded to Esri’s ArcGIS Online platform for sharing and reference purpose. The objectives are to facilitate our Hong Kong ArcGIS Online users to use the data in a spatial ready format and save their data conversion effort.For details about the data, source format and terms of conditions of usage, please refer to the website of CSDI Portal at https://portal.csdi.gov.hk.

Der UV-Index ist ein international normiertes Maß für die sonnenbrandwirksame Ultraviolettstrahlung. Er wurde unter anderen von der Weltgesundheitsorganisation (WHO) eingeführt und definiert Schutzmaßnahmen je nach Stufe des UV-Index. Je höher der UV-Index, desto höher die Gefahr eines Sonnenbrandes. Der UV-Index ist abhängig von Bewölkung und Sonnenstand (also der geografischen Breite, Tage- und Jahreszeit), der Dicke der Ozonschicht und der Höhenlage eines Ortes. (Wikipedia)Die Karte zeigt den aktuellen UV-Index. Sie beinhaltet den Layer UV-Index (max) des WMS (Web Map Service) DWD GeoServer WMS des Deutschen Wetterdienstes (DWD). Anhand der Legende können Sie für ein bestimmtes Gebiet den UV-Index einsehen und sich daran orientieren, welche Schutzmaßnahmen Sie ergreifen müssen, um Sonnenschäden zu verhindern. Informationen zum UV-Gefahrenindex, herausgegeben vom DWD, finden Sie hier.Quelle:Deutscher Wetterdienst Geodienstehttps://maps.dwd.de/geoserver/dwd/wms?service=WMS&request=GetCapabilities

Annual and five-year (5YA) average wet deposition maps for the non-sea-salt sulfate ion are available. The file formats include geodatabase files (*.gdb) compatible with geospatial software (e.g. ESRI ArcGIS) and KMZ files compatible with virtual globe software (e.g. Google Earth™). Maps can also be viewed online via Open Maps and the ArcGIS online viewer. Annual deposition from each site was screened for completeness using the following criteria: (1) precipitation amounts were recorded for >90% of the year and >60% of each quarter, and (2) sulfate concentrations were reported for >70% of the precipitation measured over the year and for >60% of each quarter. Five-year average wet deposition values are averaged annual deposition values with a completeness criterion >60% for the five-year period. Units for wet deposition fluxes are in kg of xSO4 per hectare per year (kg ha-1 y-1). Sources of measurement data and spatial interpolation method are described here: https://doi.org/10.18164/e8896575-1fb8-4e53-8acd-8579c3c055c2. Recommended citation: Environment and Climate Change Canada, [year published]. xSO4 Wet Deposition Maps. Air Quality Research Division, Environment and Climate Change Canada, Toronto, Ontario, Canada. [URL/DOI], accessed [date]. Recommended acknowledgement: The author(s) acknowledge Environment and Climate Change Canada for the provision of Canada-U.S. wet deposition kriging maps accessed from the Government of Canada Open Government Portal at open.canada.ca, and the data providers referenced therein.

Annual and five-year (5YA) average wet deposition maps for the nitrate ion are available. The file formats include geodatabase files (*.gdb) compatible with geospatial software (e.g. ESRI ArcGIS) and KMZ files compatible with virtual globe software (e.g. Google Earth™). Maps can also be viewed online via Open Maps and the ArcGIS online viewer. Annual deposition from each site was screened for completeness using the following criteria: (1) precipitation amounts were recorded for >90% of the year and >60% of each quarter, and (2) nitrate concentrations were reported for >70% of the precipitation measured over the year and for >60% of each quarter. Five-year average wet deposition values are averaged annual deposition values with a completeness criterion >60% for the five-year period. Units for wet deposition fluxes are in kg of NO3 per hectare per year (kg ha-1 y-1). Sources of measurement data and spatial interpolation method are described here: https://doi.org/10.18164/e8896575-1fb8-4e53-8acd-8579c3c055c2. Recommended citation: Environment and Climate Change Canada, [year published]. NO3 Wet Deposition Maps. Air Quality Research Division, Environment and Climate Change Canada, Toronto, Ontario, Canada. [URL/DOI], accessed [date]. Recommended acknowledgement: The author(s) acknowledge Environment and Climate Change Canada for the provision of Canada-U.S. wet deposition kriging maps accessed from the Government of Canada Open Government Portal at open.canada.ca, and the data providers referenced therein.

The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

Annual and five-year (5YA) average wet deposition maps for the ammonium ion are available. The file formats include geodatabase files (*.gdb) compatible with geospatial software (e.g. ESRI ArcGIS) and KMZ files compatible with virtual globe software (e.g. Google Earth™). Maps can also be viewed online via Open Maps and the ArcGIS online viewer. Annual deposition from each site was screened for completeness using the following criteria: (1) precipitation amounts were recorded for >90% of the year and >60% of each quarter, and (2) ammonium concentrations were reported for >70% of the precipitation measured over the year and for >60% of each quarter. Five-year average wet deposition values are averaged annual deposition values with a completeness criterion >60% for the five-year period. Units for wet deposition fluxes are in kg of NH4 per hectare per year (kg ha-1 y-1). Sources of measurement data and spatial interpolation method are described here: https://doi.org/10.18164/e8896575-1fb8-4e53-8acd-8579c3c055c2. Recommended citation: Environment and Climate Change Canada, [year published]. NH4 Wet Deposition Maps. Air Quality Research Division, Environment and Climate Change Canada, Toronto, Ontario, Canada. [URL/DOI], accessed [date]. Recommended acknowledgement: The author(s) acknowledge Environment and Climate Change Canada for the provision of Canada-U.S. wet deposition kriging maps accessed from the Government of Canada Open Government Portal at open.canada.ca, and the data providers referenced therein.

Marine Beach Forecast Summary Web Service provides beach and surf zone information, which includes forecasts of swim risk, rip currents, outlet currents, channel currents, waves, weather, water temperature, links to local radar, ultraviolet index, surf height, max temperature and beach preparedness/safety information within a Weather Forecast Office’s (WFO’s) forecast area. This web service is designed for beach goers to easily view beach/surf zone forecasts and hazard information provided by WFOs. Surf Forecasts includes Beaches, Rip Current Risk, Surf Height, UV Index Risk, Water Temperature Weather Forecast, High Temperature, Winds and Tides (High and Low Times). This web service provides Beach Forecasts for the Great Lakes, Gulf of Mexico, some of the US territories and US Beaches along the Atlantic and Pacific Oceans.Swim Risk - Swim risk is the risk based on the threat of high waves, dangerous currents, and other hazardous conditions of the water. Beach hazard statements provide additional details on high swim risk days. Some of these risk include outlet currents, channel currents,longshore currents, structural currents and cold water.Rip Currents - Rip currents are powerful, channeled currents of water flowing away from shore. They typically extend from the shoreline, through the surf zone, and past the line of breaking waves. Rip currents can occur at any beach with breaking waves.Winds- includes wind direction, and speed.Swim Risk Levels Collected Great LakesLow- The risk to swimmers is low, however, life threatening conditions may still occur especially near groins, jetties, reefs, and piers. Always swim near a lifeguard and remember to heed the advice of the local beach patrol and flag warning systems.Moderate- Life threatening conditions to swimmers are possible. Always swim near a lifeguard and remember to heed the advice of the local beach patrol and flag warning systems.High- Life threatening conditions are likely. Water conditions are dangerous for all levels of swimmers. Stay out of the water. Remember to heed the advice of the local beach patrol and flag warning systems.Rip Current Risk Levels Collected(Non-Great Lakes)Low- The risk of rip currents is low, however, life threatening rip currents may still occur especially near groins, jetties, reefs, and piers. Always swim near a lifeguard and remember to heed the advice of the local beach patrol and flag warning systems.Moderate- Life threatening rip currents are possible. Always swim near a lifeguard and remember to heed the advice of the local beach patrol and flag warning systems.High- Life threatening rip currents are likely. The surf zone is dangerous for all levels of swimmers. Stay out of the water. Remember to heed the advice of the local beach patrol and flag warning systems.Ultraviolet(UV) Index Scale Risk Levels CollectedLow Risk - UV Index Scale of 2 or less. Low danger from the sun's UV rays for the average person. Wear sunglasses on bright days. If you burn easily, cover up and use sunscreen.Moderate Risk - UV Index Scale of 3 - 5. Moderate risk of harm from unprotected sun exposure. Take precautions, such as covering up, if you will be outside. Stay in shade near midday when the sun is strongest.High Risk - UV Index Scale of 6 - 7. High risk of harm from unprotected sun exposure. Protection against sunburn is needed. Reduce time in the sun between 10 a.m. and 4 p.m. Cover up, wear a hat and sunglasses, and use sunscreen.Very High Risk - UV Index Scale of 8 - 10. Very high risk of harm from unprotected sun exposure. Take extra precautions. Unprotected skin will be damaged and can burn quickly. Minimize sun exposure between 10 a.m. and 4 p.m. Otherwise, seek shade, cover up, wear a hat and sunglasses, and use sunscreen.Extreme Risk - UV Index Scale of 11 or greater. Extreme risk of harm from unprotected sun exposure. Take all precautions. Unprotected skin can burn in minutes. Beachgoers should know that white sand and other bright surfaces reflect UV and will increase UV exposure. Try to avoid sun exposure between 10 a.m. and 4 p.m. Seek shade, cover up, wear a hat and sunglasses, and use sunscreen.Update Frequency: Every 20 minutesLinks to graphical web pages:Experimental Beach Forecast Graphical Page: https://www.weather.gov/beach/Beach Forecast Graphical Experience: https://experience.arcgis.com/experience/4403e4e108914ab39b1eaf04a6fafd36Link to metadataLinks to data downloads (geo-json):https://www.weather.gov/source/apx/beachforecast/APX_GIS_day1.jsonhttps://www.weather.gov/source/apx/beachforecast/APX_GIS_day2.jsonhttps://www.weather.gov/source/akq/beachforecast/AKQ_GIS_day1.jsonhttps://www.weather.gov/source/akq/beachforecast/AKQ_GIS_day2.jsonhttps://www.weather.gov/source/buf/beachforecast/BUF_GIS_day1.jsonhttps://www.weather.gov/source/buf/beachforecast/BUF_GIS_day2.jsonhttps://www.weather.gov/source/box/beachforecast/BOX_GIS_day1.jsonhttps://www.weather.gov/source/box/beachforecast/BOX_GIS_day2.jsonhttps://www.weather.gov/source/bro/beachforecast/BRO_GIS_day1.jsonhttps://www.weather.gov/source/bro/beachforecast/BRO_GIS_day2.jsonhttps://www.weather.gov/source/car/beachforecast/CAR_GIS_day1.jsonhttps://www.weather.gov/source/car/beachforecast/CAR_GIS_day2.jsonhttps://www.weather.gov/source/chs/beachforecast/CHS_GIS_day1.jsonhttps://www.weather.gov/source/chs/beachforecast/CHS_GIS_day2.jsonhttps://www.weather.gov/source/cle/beachforecast/CLE_GIS_day1.jsonhttps://www.weather.gov/source/cle/beachforecast/CLE_GIS_day2.jsonhttps://www.weather.gov/source/crp/beachforecast/CRP_GIS_day1.jsonhttps://www.weather.gov/source/crp/beachforecast/CRP_GIS_day2.jsonhttps://www.weather.gov/source/dlh/beachforecast/DLH_GIS_day1.jsonhttps://www.weather.gov/source/dlh/beachforecast/DLH_GIS_day2.jsonhttps://www.weather.gov/source/dtx/beachforecast/DTX_GIS_day1.jsonhttps://www.weather.gov/source/dtx/beachforecast/DTX_GIS_day2.jsonhttps://www.weather.gov/source/grb/beachforecast/GRB_GIS_day1.jsonhttps://www.weather.gov/source/grb/beachforecast/GRB_GIS_day2.jsonhttps://www.weather.gov/source/grr/beachforecast/GRR_GIS_day1.jsonhttps://www.weather.gov/source/grr/beachforecast/GRR_GIS_day2.jsonhttps://www.weather.gov/source/gum/beachforecast/GUM_GIS_day1.jsonhttps://www.weather.gov/source/gum/beachforecast/GUM_GIS_day2.jsonhttps://www.weather.gov/source/gyx/beachforecast/GYX_GIS_day1.jsonhttps://www.weather.gov/source/gyx/beachforecast/GYX_GIS_day2.jsonhttps://www.weather.gov/source/hfo/beachforecast/HFO_GIS_day1.jsonhttps://www.weather.gov/source/hfo/beachforecast/HFO_GIS_day2.jsonhttps://www.weather.gov/source/ilm/beachforecast/ILM_GIS_day1.jsonhttps://www.weather.gov/source/ilm/beachforecast/ILM_GIS_day2.jsonhttps://www.weather.gov/source/iwx/beachforecast/IWX_GIS_day1.jsonhttps://www.weather.gov/source/iwx/beachforecast/IWX_GIS_day2.jsonhttps://www.weather.gov/source/jax/beachforecast/JAX_GIS_day1.jsonhttps://www.weather.gov/source/jax/beachforecast/JAX_GIS_day2.jsonhttps://www.weather.gov/source/lot/beachforecast/LOT_GIS_day1.jsonhttps://www.weather.gov/source/lot/beachforecast/LOT_GIS_day2.jsonhttps://www.weather.gov/source/lox/beachforecast/LOX_GIS_day1.jsonhttps://www.weather.gov/source/lox/beachforecast/LOX_GIS_day2.jsonhttps://www.weather.gov/source/mfl/beachforecast/MFL_GIS_day1.jsonhttps://www.weather.gov/source/mfl/beachforecast/MFL_GIS_day2.jsonhttps://www.weather.gov/source/mhx/beachforecast/MHX_GIS_day1.jsonhttps://www.weather.gov/source/mhx/beachforecast/MHX_GIS_day2.jsonhttps://www.weather.gov/source/mlb/beachforecast/MLB_GIS_day1.jsonhttps://www.weather.gov/source/mlb/beachforecast/MLB_GIS_day2.jsonhttps://www.weather.gov/source/mkx/beachforecast/MKX_GIS_day1.jsonhttps://www.weather.gov/source/mkx/beachforecast/MKX_GIS_day2.jsonhttps://www.weather.gov/source/mob/beachforecast/MOB_GIS_day1.jsonhttps://www.weather.gov/source/mob/beachforecast/MOB_GIS_day2.jsonhttps://www.weather.gov/source/mqt/beachforecast/MQT_GIS_day1.jsonhttps://www.weather.gov/source/mqt/beachforecast/MQT_GIS_day2.jsonhttps://www.weather.gov/source/okx/beachforecast/OKX_GIS_day1.jsonhttps://www.weather.gov/source/okx/beachforecast/OKX_GIS_day2.jsonhttps://www.weather.gov/source/phi/beachforecast/PHI_GIS_day1.jsonhttps://www.weather.gov/source/phi/beachforecast/PHI_GIS_day2.jsonhttps://www.weather.gov/source/sgx/beachforecast/SGX_GIS_day1.jsonhttps://www.weather.gov/source/sgx/beachforecast/SGX_GIS_day2.jsonhttps://www.weather.gov/source/tae/beachforecast/TAE_GIS_day1.jsonhttps://www.weather.gov/source/tae/beachforecast/TAE_GIS_day2.jsonhttps://www.weather.gov/source/tbw/beachforecast/TBW_GIS_day1.jsonhttps://www.weather.gov/source/tbw/beachforecast/TBW_GIS_day2.jsonQuestions/Concerns: about the service, please contact the DISS GIS teamTime Information: This service is not time enabled.

The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

The Prediction Of Worldwide Energy Resource (POWER) Project gathers NASA Earth Observation data and parameters related to the fields of surface solar irradiance and meteorology to serve the public in several free, easy-to-access, and easy-to-use methods. POWER helps communities become resilient amid observed climate variability by improving data accessibility, aiding research in renewable energy development, building energy efficiency, and agriculture sustainability. POWER is funded through the NASA Earth Action Program within the Earth Science Mission Directorate at NASA Langley Research Center (LaRC).---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------This annual radiation service provides time-enabled global Analysis Ready Data (ARD) parameters from 1984 to 2023 for POWER's communities.Time Interval: AnnualTime Extent: 1984/01/01 to 2023/12/31Time Standard: Local Sidereal Time (LST)Grid Size: 1.0 X 1.0 DegreeProjection: GCS WGS84Extent: GlobalSource: NASA Prediction Of Worldwide Energy Resources (POWER)For questions or issues please email: larc-power-project@mail.nasa.govRadiation Data Sources:NASA's GEWEX/SRB release 4.0 archive (Jan. 1, 1984 – Dec. 31, 2000)NASA's CERES SYN1deg (Jan. 1, 2001 – Dec. 31, 2023)Radiation Data Parameters:ALLSKY_KT (All Sky Insolation Clearness Index): A fraction representing clearness of the atmosphere; the all sky insolation that is transmitted through the atmosphere to strike the surface of the earth divided by the average of top of the atmosphere total solar irradiance incident.ALLSKY_SFC_LW_DWN (All Sky Surface Longwave Downward Irradiance): The downward thermal infrared irradiance under all sky conditions reaching a horizontal plane the surface of the earth. Also known as Horizontal Infrared Radiation Intensity from Sky.ALLSKY_SFC_LW_UP (All Sky Surface Longwave Upward Irradiance): The upward thermal infrared irradiance under all sky conditions.ALLSKY_SFC_PAR_TOT (All Sky Surface PAR Total): The total Photosynthetically Active Radiation (PAR) incident on a horizontal plane at the surface of the earth under all sky conditions.ALLSKY_SFC_SW_DIFF (All Sky Surface Shortwave Diffuse Irradiance): The diffuse (light energy scattered out of the direction of the sun) solar irradiance incident on a horizontal plane at the surface of the earth under all sky conditions.ALLSKY_SFC_SW_DNI (All Sky Surface Shortwave Downward Direct Normal Irradiance): The direct solar irradiance incident to a horizontal plane normal (perpendicular) to the direction of the sun's position under all sky conditions.ALLSKY_SFC_SW_DWN (All Sky Surface Shortwave Downward Irradiance): The total solar irradiance incident (direct plus diffuse) on a horizontal plane at the surface of the earth under all sky conditions. An alternative term for the total solar irradiance is the "Global Horizontal Irradiance" or GHI.ALLSKY_SFC_SW_UP (All Sky Surface Shortwave Upward Irradiance): The upward shortwave irradiance under all sky conditions.ALLSKY_SFC_UV_INDEX (All Sky Surface UV Index): The ultraviolet radiation exposure index.ALLSKY_SFC_UVA (All Sky Surface UVA Irradiance): The ultraviolet A (UVA 315nm-400nm) irradiance under all sky conditions.ALLSKY_SFC_UVB (All Sky Surface UVB Irradiance): The ultraviolet B (UVB 280nm-315nm) irradiance under all sky conditions.ALLSKY_SRF_ALB (All Sky Surface Albedo): The all sky rate of reflectivity of the earth's surface; the ratio of the solar energy reflected by the surface of the earth compared to the total solar energy incident reaching the surface of the earth.AOD_55 (Aerosol Optical Depth 55): The optical thickness at 0.55 um measured vertically; the component of the atmosphere to quantify the removal of radiant energy from an incident beam.AOD_55_ADJ (Adjusted Aerosol Optical Depth 55): The adjusted optical thickness at 0.55 um measured vertically; the component of the atmosphere to quantify the removal of radiant energy from an incident beam.CLOUD_AMT (Cloud Amount): The average percent of cloud amount during the temporal period.CLOUD_AMT_DAY (Cloud Amount at Daytime): The average percent of cloud amount during daylight.CLOUD_AMT_NIGHT (Cloud Amount at Nighttime): The average percent of cloud amount during nighttime.CLOUD_OD (Cloud Optical Visible Depth): The vertical optical thickness between the top and bottom of a cloud.CLRSKY_DAYS (Clear Sky Day): The number of Clear Sky Days if the daytime cloud amount is less than 10 percent.CLRSKY_KT (Clear Sky Insolation Clearness Index): A fraction representing clearness of the atmosphere; the clear sky insolation that is transmitted through the atmosphere to strike the surface of the earth divided by the average of top of the atmosphere total solar irradiance incident.CLRSKY_SFC_LW_DWN (Clear Sky Surface Longwave Downward Irradiance): The downward thermal infrared irradiance under clear sky conditions reaching a horizontal plane the surface of the earth. Also known as Horizontal Infrared Radiation Intensity from Sky.CLRSKY_SFC_LW_UP (Clear Sky Surface Longwave Upward Irradiance): The upward thermal infrared irradiance under clear sky conditions.CLRSKY_SFC_PAR_TOT (Clear Sky Surface PAR Total): The total Photosynthetically Active Radiation (PAR) incident on a horizontal plane at the surface of the earth under clear sky conditions.CLRSKY_SFC_SW_DIFF (Clear Sky Surface Shortwave Downward Diffuse Horizontal Irradiance): The diffuse (light energy scattered out of the direction of the sun) solar irradiance incident on a horizontal plane at the surface of the earth under clear sky conditions.CLRSKY_SFC_SW_DNI (Clear Sky Surface Shortwave Downward Direct Normal Irradiance): The direct solar irradiance incident to a horizontal plane normal (perpendicular) to the direction of the sun's position under clear sky conditions.CLRSKY_SFC_SW_DWN (Clear Sky Surface Shortwave Downward Irradiance): The total solar irradiance incident (direct plus diffuse) on a horizontal plane at the surface of the earth under clear sky conditions. An alternative term for the total solar irradiance is the "Global Horizontal Irradiance" or GHI.CLRSKY_SFC_SW_UP (Clear Sky Surface Shortwave Upward Irradiance): The upward shortwave irradiance under clearsky conditions.CLRSKY_SRF_ALB (Clear Sky Surface Albedo): The clear sky rate of reflectivity of the earth's surface; the ratio of the solar energy reflected by the surface of the earth compared to the total solar energy incident reaching the surface of the earth.MIDDAY_INSOL (Midday Insolation Incident): The total amount of solar irradiance (i.e. direct plus diffuse) incident on a horizontal plane at the earth's surface during the solar noon hour midday period.PW (Precipitable Water): The total atmospheric water vapor contained in a vertical column of the atmosphere.TOA_SW_DNI (Top-Of-Atmosphere Shortwave Direct Normal Radiation): The total solar irradiance incident (direct plus diffuse) on a horizontal plane where oriented to the sun's position at the top of the atmosphere (extraterrestrial radiation).TOA_SW_DWN (Top-Of-Atmosphere Shortwave Downward Irradiance): The total solar irradiance incident (direct plus diffuse) on a horizontal plane at the top of the atmosphere (extraterrestrial radiation).TS_ADJ (Earth Skin Temperature Adjusted): The adjusted average temperature at the earth's surface.

The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

Informationen i sammanfattning är hämtad ur rapporten för undersökningen: Riksantikvarieämbetet UV Öst utförde i månadsskiftet juli-augusti 2006 en arkeologisk utredning, etapp 2. Anledningen var att Fortifikationsverket har för avsikt att uppföra ett utbildningsgarage samt ett område för strid i bebyggelseområde inom Kvarns övningsområde, Motala kommun, Östergötland. Inom övningsområdet finns ett mindre antal forn- och kulturlämningar registrerade sedan tidigare, bland annat den medeltida bytomten Spång, RAÄ 19. Utredningen genomfördes på så sätt att sökschakt drogs med grävmaskin inom de båda exploateringsområdena. Inga fornlämningar framkom i samband med fältarbetet.

Syfte:

Informationen i syfte är hämtad ur rapporten för undersökningen: Syftet med den arkeologiska utredningen har varit att klargöra huruvida det förekommer lagskyddade fornlämningar inom de tidigare utpekade områdena H och I. Målsättningen var också att konstatera om den medeltida bytomten Spång sträckte sig in i område I. Utgångspunkten var att försöka styra arbetet på så sätt att eventuella lämningar inte skulle komma att beröras av exploateringen.

Informationen i sammanfattning är hämtad ur rapporten för undersökningen: Riksantikvarieämbetet UV Öst har under juli 2006 gjort en arkeologisk utredning, etapp 2, vid Malmens flygplats, Linköpings kommun. Anledningen är att Fortifikationsverket påbörjat en om- och tillbyggnad för flygskolan (FlygS). Inom exploateringsområdet finns inga kända fornlämningar men en tidigare utredning i området har pekat ut tre objekt (Obj I-III). Bedömningen skedde mot bakgrunden av fornlämningar i omgivningen samt de topografiska förutsättningarna inom exploateringsområdet. I samband med den arkeologiska utredningen, etapp 2, var två av objekten (Obj II resp III) aktuella för exploatering. Inget av antikvariskt intresse framkom vid sökschaktgrävning. Riksantikvarieämbetet, UV Öst föreslår därför inga vidare åtgärder inom Objekt II respektive III. Syfte: Informationen i syfte är hämtad ur rapporten för undersökningen: Syftet med den arkeologiska utredningen var att klargöra om fast fornlämning berörs av arbetsföretaget. ZIP-filen innehåller GIS-filer samt en Access datafil vilka innehåller information om schakt, fyndföremål, lämningstyper samt annan metadata om den arkeologiska undersökningen. The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

Informationen i sammanfattning är hämtad ur rapporten för undersökningen: På uppdrag av Länsstyrelsen i Östergötland har Riksantikvarieämbetet, UV Öst, utfört en arkeologisk utredning, etapp 2 samt förundersökning vid Östra Malmskogen, Rystad socken och Linköping stad, Linköpings kommun. Utredningen samt förundersökningen föranleddes av ett nytt detaljplaneprogram och utfördes i april 2004. Detaljplanen berörde ett flertal olika fornlämningsområden. Syftet med den arkeologiska utredningen var att konstatera om det inom den aktuella exploateringsytan finns spår av förhistoriska samt historiska aktiviteter. Ambitionen med utredningen var även att arkeologiskt försöka avgränsa de topografiskt uppskattade fornlämningsområdena inom varje delområde, samt att visa på fornlämningsfria ytor. Syftet med förundersökningen var att klargöra art och intensitet av fornlämningen, samt att begränsa fornlämningens utbredning. Den arkeologiska utredningen samt förundersökningen konstaterade att det inom den aktuella exploateringsytan finns spår av förhistoriska samt historiska aktiviteter. På grund av väderförhållanden och mycket sanka åkermarker var det inte möjligt att helt avgränsa alla fornlämningar. Syfte: Informationen i syfte är hämtad ur rapporten för undersökningen: Syftet med den arkeologiska utredningen, etapp 2, var i första hand att tillse att inga fasta fornlämningar kom att beröras av den planerade exploateringen. Ambitionen var även att om möjligt arkeologiskt klargöra avgränsningen för det topografiskt uppskattade fornlämningsområdet inom varje delområde, samt att visa på fornlämningsfria ytor. Syftet med den arkeologiska förundersökningen var att bedöma art, intensitet och utbredning av fornlämningen. Målsättningen var även att dokumentera, typbestämma och om möjligt datera anläggningar och fynd. ZIP-filen innehåller GIS-filer samt en Access datafil vilka innehåller information om schakt, fyndföremål, lämningstyper samt annan metadata om den arkeologiska undersökningen. The information in the abstract is translated from the archaeological report: By request of the County Administrative Board and due to local planning, the Swedish National Heritage Board's Contract Archaeology Service, UV Öst, has performed a desk-based assessment and a field evaluation by Malmskogen, Rystad parish in the city and municipality of Linköping in April 2004. The local plan might affect several areas with known ancient monuments and the purpose was thus to determine whether there were any remains in the development area in question. The evaluations showed that there are traces of prehistoric and historical activity within the development area, but due to weather conditions and waterlogged fields it was not possible to completely delimit all archaeological remains. Purpose: The information in the purpose is translated from the archaeological report: The purpose of the archaeological assessment was mainly to see to that no archaeological remains were damaged by the planned development. The aim was also to elucidate the limits of the topographically estimated archaeological sites within each survey area and to point out areas with no archaeological remains. The purpose of the field evaluation was to determine the type, intensity and extent of the archaeological remains and to document and, if possible, date the features and artefacts. The ZIP file consist of GIS files and an Access database with information about trenches, features, finds and other metadata about the archaeological survey.

Informationen i sammanfattning är hämtad ur rapporten för undersökningen: Riksantikvarieämbetet, UV Öst, har utfört en utredning, etapp 2, intill korsningen inom Ogräset 1 och del av Gottfridsberg 1:1 i Linköping, då området ska detaljplaneras. I samband med en tidigare arkeologisk utredning, etapp 1, avgränsades ett område där eventuell exploatering kommer att komma i kontakt med möjlig fornlämning. Parkområdet som ska detaljplaneras sluttar svagt mot öster och benämns som ”Stenbröten” på kartmaterialet från 1700-talet. Höjden över havet är ca 70-75 m vilket motsvarar strandlinjen för Ancylussjön, mellan ca 8000 - 9000 BP. Under denna period var platsen en ö i den innerskärgård som Roxenviken utgjorde. Strax öster om aktuellt undersökningsområde finns ett mindre strandhak som är en topografisk markör för ett lämpligt boplatsläge. Detta sträcker sig sannolikt upp mot höjden där cykelvägen är planerad att gå. Den arkeologiska utredningen, etapp 2, utfördes i form av sökschaktsgrävning. I den nordöstra delen av sträckningen återfanns flera recenta avfallsgropar. Inga arkeologiska lämningar berördes eller fanns bevarade. Syfte: Informationen i syfte är hämtad ur rapporten för undersökningen: Syftet med den arkeologiska utredningen var att avgöra om fast fornlämning berörs av det planerade exploateringsarbetet. ZIP-filen innehåller GIS-filer samt en Access datafil vilka innehåller information om schakt, fyndföremål, lämningstyper samt annan metadata om den arkeologiska undersökningen. The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

Building Footprints based off data from 2008 for the buildings and 2010 vintage for UV SAL buildings in Cook County that are outside of the Chicago Open Data (which is various dates as collected) 2008 Cook County Lidar, UVM Spatial Analysis Lab 2010 Chicago Regional Land Cover (2008 Lidar building footprints were extracted using Esri software and UVM Spatial Analysis Lab building footprints were extracted/regularized using Esri software).

Informationen i sammanfattning är hämtad ur rapporten för undersökningen: Riksantikvarieämbetet UV Öst har i december 2007 utfört en förundersökning i form av antikvarisk kontroll i samband med nedläggning av elkabel vid Västerbränninge 1:51 och 1:8, strax öster om Ledberg. Inga fornlämningar framkom vid den antikvariska kontrollen.

Syfte:

Informationen i syfte är hämtad ur rapporten för undersökningen: Syftet med den antikvariska kontrollen var i första hand att att skydda eventuella fornlämningar från skada.

The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.

Building Footprints based off data from 2008 for the buildings and 2010 vintage for UV SAL buildings in Cook County that are outside of the Chicago Open Data (which is various dates as collected)

2008 Cook County Lidar, UVM Spatial Analysis Lab 2010 Chicago Regional Land Cover (2008 Lidar building footprints were extracted using Esri software and UVM Spatial Analysis Lab building footprints were extracted/regularized using Esri software).

The information in the abstract is translated from the archaeological report: By request of the County Administrative Board in Östergötland and due to laying of an electric cable, the Swedish National Heritage Board's Contract Archaeology Division, UV Öst, has performed an archaeological assessment, phase 2, within the properties Ledberg 10:1 and Lärbo 3:6, Ledberg parish, Linköping municipality. The survey verified that there are remains of prehistoric activity within the area, although no further archaeological measures are needed as the cable laying does not affect the remains to any great extent.

Purpose:

The information in the purpose is translated from the archaeological report: The purpose of the assessment was to determine whether any archaeological remains were going to be affected by the planned development works.

The ZIP file consist of GIS files and an Access database with information about the excavations, findings and other metadata about the archaeological survey.