2°30'0"E 2°27'0"E 2°24'0"E 2°21'0"E E " 0 ' 1 2 ° 2 N " 0 ' N " 6 0 3 ' ° 6 8 3 4 ° 8 4 E " 0 ' 4 2 ° 2

450000 455000 460000 465000 2°21'0"E 2°24'0"E

Activation ID: EMSN-028 P roduct N.:04-SAINT -FARGEAU -P O NT H IERRY , v1, English Saint-Fargeau-Ponthierry - Flood - June 2016 N

Y "

L 0 Estimated maximum flood extent and water depth '

L 3 I 3 ° M - Detail -

8 48°33'0"N 4 E D P roduction date: 07/09/2016 R e

n i AISNE P aris e ^ English Channel

S Seine-et-Marne P aris Yvelines a 01 ^ L Ile-de- Marne France France 02 03 Se Bay of Biscay in e S eine 04 05 06

Mediterranean Fontaiineblleau Sea 07 08 09 Saint-Fargeau-Ponthierry Y ! L o n o n i Aube 5 n e 0 10 11 g 12 !Chevannes

13 14 Yonne Loiret Montargiis Bourgogne- R SAIN 15 16 T-M Centre-Val Franche-Comté ART IN ! L 0 20 oire de Loire km 0 0 0 0 0 0 5 5 7 7

3 3 Cartographic Information 5 5 1:25 000 Full color A1, high resolution (100dpi) 0 1 2 K hôpital georges Km clemenceau Grid: W GS 1984 Z one 31 N map coordinate system ± T ick marks: W GS 84 geographical coordinate system Legend

Crisis Information Settlements Transportation ! r Estimated Max imum Flood Ex tent ! P opulated P lace

! Aerodrome ESSONNE Estimated water depth (m) Buildings £ Bridge Industry / Utilities "

Q uarry | H arbour H igh : 21 Low : 0 n P ower Station General Information !(u H elipad Physiography Area of Interest ")u H eliport # Spot elevation point (m) Administrative boundaries Railway Contour lines and Region elevation (10m spacing) Motorway !Nainville-les-Roches P rovince Hydrology P rimary Road Point of Interest #I H ydrographical Station Secondary Road N " Local Road 0 ' 9 Institutional River; S tream 0 N 3 5 "

° 0 0 '

8 Lake; Reservoir; River 0 4

3 K Medical ° 8 4 1 5 0

Map Information 0 0 1 From the 31st of May to early J une 2016, ex ceptional flooding occured after several days of heavy rain in France. T he Loing and Seine rivers burst their banks and 4,000 people were evacuated from the town of Nemours. Some areas reported the worst flooding seen in a century. T he Emergency Management Service Risk & Recovery activation ‘’EMSN-028 : Flood ! delineation and damage assessment, France’’ has been requested by the French authorities in order to map flooding, infer max imum flooding and flood water depths, and assess the damages of the floods occurred over the Seine River located upstream to P aris, and its tributary the Loing River, from Fontainebleau to Montargis.

63 0 # 0 1 Data Sources Estimated maximum flood extent and water depth: : derived from the observed flood ex tent and IGN BD ALT I® 2015 (GSD 5 m), © SERT IT . 0 0 0 Reference Imagery: 0 5 0 0 0

0 0 SP O T 6 and SP O T 7 © AIRBU S DS (2015), acquired on 10/09/2015 and 30/06/2015 (GSD 7 7

3 3 1.5 m). T his work was supported by public funds received in the framework of GEO SU D, a 5 5 project (ANR-10-EQ P X -20) of the program "Investissements d'Avenir" managed by the N French National Research Agency. MELU Vector layers: Administrative Boundaries, T ransport Network, H ydrologic Network, R DE Settlements based on IGN BD T O P O ®, P hysiography based on IGN BD ALT I® and H ydrographical stations based on Banque H ydro database (www.hydro.eaufrance.fr) refined DE LA FER R TE A by SERT IT . LA IS Inset maps based on: Administrative boundaries (J RC 2013, GISCO 2010, © G R !Soisy-sur-Ecole EuroGeographics, © IGN), H ydrology, T ransportation (Natural Earth, 2012, CCM River DB © AN DE EU -JRC 2007), Settlements (Geonames, 2013). R ! 78 # UE Saint-Germain-sur-Ecole All Data sources are complete and with no gaps. T he data provided is subject to the terms outlined in the arrangements concerning access to authoritative geospacial reference data for Copernicus emergency management service.

Dissemination/Publication Due to sensitivity of this activation's data, access to maps is limited to authorized end users !(u who can access it via our secure platform. For further information and/or data access requests you might want to contact [email protected]. Delivery formats are GeoT IFF, GeoP DF, GeoJP EG and vectors (shapefile and KML formats).

! REST RICT ED U SE Disclaimer T he products elaborated in the framework of current mapping in Risk and Recovery mode activation are realized to the best of our ability, optimising the available data and information. All geographic information has limitations due to scale, resolution, date and interpretation of

!Cély the original data sources. T he products are compliant with Copernicus EMS Risk and Recovery P roduct P ortfolio specifications.

Map Production T he present map shows the max imum flood ex tent and the associated water depths over the area of Saint-Fargeau-P onthierry (AO I04) during the flood event of end May - beginning 79 June 2016. T he max imum flood ex tent is a modelling derived from the observed flood ex tent # (flood waters and traces visible on Earth O bservation data acquired during the flood event) LY IL and the reference Digital Surface Model, the IGN BD Alti® (5m). T he water depths have been M E calculated thanks to the height difference between water surface of the max imum flood ! D N ex tent and the bottom values of the riverbed indicated in the DSM. Daily water heights and " TE 0

' R water flows taken at different river gauges are also represented in hydrographs in the map. 7 N " 2 T he thematic accuracy of this product is 80% or better, based on internal validation ° 0 0 ' 8 10 procedures. T he estimated geometric accuracy of this product is 0.5 m, from native positional 7 4 2

° accuracy of the background satellite image. Max imum flood ex tent and water depth 8

4 information are simulated products. T herefore, their quality depends on the accuracy of the input data. Some errors may subsist due to the presence of outliers.

100 Contact T he map was produced (under the Service Contract nr. 259811 of the European Commission) on 07/09/2016 by SERT IT . Name of the release inspector (quality control): J RC. E-mail: [email protected] http://emergency.copernicus.eu/mapping ! 124 # 0 0

0 100 0 0 0 5 5 6 6 3 3 5 5 2°21'0"E 2°24'0"E 2°27'0"E 450000 455000 460000 465000 E " 0 ' 0 3 ° 2