DOCSLIB.ORG

100 80 Alessandria - ITALY 80 80 ! 80 ALEX Flood - Situation As of 27/11/2016

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
100 80 Alessandria - ITALY 80 80 ! 80 ALEX Flood - Situation As of 27/11/2016 ! ! ! 452000 454000 456000 458000 460000 462000 464000 466000 468000 470000 8°23'0"E 8°24'0"E 8°25'0"E 8°26'0"E 8°27'0"E 8°28'0"E 8°29'0"E 8°30'0"E 8°31'0"E 8°32'0"E 8°33'0"E 8°34'0"E 8°35'0"E 8°36'0"E 8°37'0"E 8°38'0"E GLIDE number: N/A Activation ID: EMSR192 Product N.: 14ALESSANDRIA, v1, English ! 80 Piepasso 100 80 Alessandria - ITALY 80 80 ! 80 ALEX Flood - Situation as of 27/11/2016 0 Astuti 0 0 0 0 Solero 80 0 Delineation Map N 4 ! 4 " 0 7 7 ' 5 9 9 N 5 " 4 4 ° 0 4 9 ' 4 5 5 Biella ° Milano Berga m o 4 4 Novara Brescia A 0 dda Og 80 8 9 ! Vercelli lio Alessandria Ti 8 o cin Lombardia 0 Torino P o Cremona 05 09 10 11 80 99 06 08 Lodi ! 16 PaviaSwitzerland Slovenia Hungary 17 Croatia 18 12 13 Serbia Alessandria Italy Asti (! France 04 14 15 Piacenza Piemonte Alessandria Adriatic Roma Sea 03 Emil^ia-Romagna 02 Tyrrhenian Parma N Sea 0 0 " 0 0 0 ' Cuneo 4 0 0 0 Ionian 0 Felizzano N 5 " 01 2 1 ! o 2 ° r a 0 Liguria Sea 4 ' 7 n 7 4 4 9 Ta 9 5 ° 4 4 19 4 Genova 4 20 Algeria Tunisia Mediterranean Savona Massa-CSaerraara La 21 Casalbagliano 22 Toscana ! Spezia Tan aro 100 Alpes-Maritimes 30 ! km Imperia Cartographic Information Villa del Foro ! 1:31000 Full color ISO A1, low resolution (100 dpi) N " 0 ' 3 N 5 " 0 0 ° 0 ' 0 0 4 0 0.5 1 2 0 3 4 10 0 0 5 ° 0 Cabanette 0 ! 4 km 7 7 4 9 9 4 4 Grid: W GS 1984 UTM Zone 32N map coordinate system Tick marks: WGS 84 geographical coordinate system ± Legend 80 Crisis Information Hydrology Industry / Utilities Flooded Area Dam Extraction Mine (27/11/201 6 17:18 UTC) Masio General Information River Quarry ! Are a of Interest Stre am Transportation N " 0 ' 2 Settlements Railway N Lake 5 " ° 0 ' 4 ! 2 4 Cantalupo ! Popula ted Place 5 ° 0 0 Motorway 4 River 0 0 4 0 0 8 8 Point of Interest 6 6 Physiography Primary Road 9 9 4 4 Institutional 0 9 12 Oviglio Con tour lines and elevation (m) Second ary Road 9 ! Aerodrome Helipo rt Land use - Land Cover Features available in vector data O Consequences within the AOI r b N Unit of measurement Affected Total in AOI " a 0 ' 1 N 5 " Flooded area ha 963.0 ° 0 ' 4 1 4 5 ° Estimated population No. of inhabitants 494 81912 4 4 0 0 Transportation Motorways km 4.0 54.3 0 0 0 0 Primary roads km 1.0 79.4 6 6 6 6 9 9 Secondary roads km 0.0 96.7 4 ! Castellazzo 4 Bormida Railways km 0.0 281.2 Utilities Extraction Mine ha 0.0 29.5 Quarry ha 0.0 18.0 120 Land use Bare soil ha 0.0 13.8 Cropland ha 876.2 28600.0 e n Rice field ha 31.8 89.0 lio g Ti orm Casal Scrub ha 0.0 121.4 nte B ida N re " Tor Cermelli 0 ! Woodland ha 49.0 2720.0 ' 0 N 5 " ° 0 ' 4 0 4 5 ° 4 4 Map Information 0 0 0 ! 0 0 0 Starting from November 22nd, heavy rainfalls are affecting the North West of Italy, 4 Carentino 4 6 6 particularly the region of Piemonte and Liguria. The bad weather conditions and the ! 9 9 4 Bergamasco Frascaro 4 persistence of precipitations have caused the increasing of hydrometric levels of all the rivers ! in particular in the Basin of Po River. Resulting floods have induced damages and difficulties: 1 00 cutting roads, mud deposit, and vehicles destruction; as a precaution population has been evacuated. The present map shows the flood delineation in the area of Alessandria (Italy). The thematic layer has been derived from post-event satellite image using a semi-automatic approach . 140 The estimated geometric accuracy is 3 m CE90 or better, from native positional accuracy of the background satellite image. N " 0 ' 9 120 N 4 " ° 0 4 ' 4 9 Relevant date records 4 ° 4 4 Event 24/11/2016 Situation as of 27/11/2016 Activation 24/11/2016 Map production 28/11/2016 0 0 0 0 0 0 Data Sources 2 2 6 6 Pre-event image: Pre-event image: ESRI World Imagery © DigitalGlobe (acquired on 9 Gamalero 9 4 ! 4 15/04/2015 and 16/03/2014, GSD 0.5 m, cloud coverage 0%). Post-event image: RADARSAT-2 Data and product © MacDonald, Dettwiler and Associates Ltd.(2016) (acquired on 27/11/2016 17:18 UTC, GSD 3 m)- RADARSAT is an official mark of Tacconotti 20 Castelspina ! 1 ! the Canadian Space Agency - provided under COPERNICUS by the European Union and ESA. Base vector layers: OpenStreetMap © OpenStreetMap contributors, Wikimapia.org, ! GeoNames 2015, refined by the producer. N Castelnuovo " Inset maps: JRC 2013, © EuroGeographics, Natural Earth 2012, CCM River DB © 0 ' 8 o N 4 Belbo EUJRC2007, GeoNames 2013. " ° b 0 4 l ' 4 8 e 0 4 10 ° B 4 Population data: Landscan 2010 © UT BATTELLE, LLC 4 100 100 Piemonte 120 Disclaimer San Products elaborated in this Copernicus EMS Rapid Mapping activity are realized to the best Rocco of our ability, within a very short time frame, optimising the available data and information. All ! 0 100 0 geographic information has limitations due to scale, resolution, date and interpretation of the 0 0 0 0 0 original sources. The map and the information content are derived from satellite data without 0 12 0 6 6 in situ validation. No liability concerning the contents or the use thereof is assumed by the 9 40 9 4 1 4 0 producer and by the European Union. 14 Please be aware that the thematic accuracy might be lower in urban and forested areas due to inherent limitations of the SAR analysis technique. Map produced by GAF AG released by SERTIT (ODO). 120 0 16 0 12 For the latest version of this map and related products visit http://emergency.copernicus.eu/mapping/list-of-components/EMSR192 N " ! 0 ' 7 Sezzadio Rio N 4 " ° 0 [email protected] ' 4 Stanav a 7 4 sso 4 © European Union ° 4 4 For full Copyright notice visit http://emergency.copernicus.eu/mapping/ems/cite-copernicus- ems-mapping-portal 1 40 ! 180 140 0 0 0 0 0 0 8 8 5 5 9 9 4 4 8°23'0"E 8°24'0"E 8°25'0"E 8°26'0"E 8°27'0"E 8°28'0"E 8°29'0"E 8°30'0"E 8°31'0"E 8°32'0"E 8°33'0"E 8°34'0"E 8°35'0"E 8°36'0"E 8°37'0"E 8°38'0"E 452000 454000 456000 ! 458000 460000 462000 464000 466000 468000 470000.
Load more

Recommended publications
  • Ephemeroptera: Oligoneuriidae
    Zoological Studies 44(2): 271-274 (2005) Growth of Oligoneuriella rhenana (Imhoff, 1852) (Ephemeroptera: Oligoneuriidae) in Two Rivers with Contrasting Temperatures in NW Italy Stefano Fenoglio1,*, Tiziano Bo1, Maurizio Battegazzore2, and Angelo Morisi2 1University of Piemonte Orientale, Di.S.A.V., Via Bellini 25-15100, Alessandria, Italy , 2A.R.P.A. Piemonte, Cuneo Department, C.so M. D Azeglio 4-12100, Cuneo, Italy (Accepted January 31, 2005) Stefano Fenoglio, Tiziano Bo, Maurizio Battegazzore, and Angelo Morisi (2005) Growth of Oligoneuriella rhenana (Imhoff, 1852) (Ephemeroptera: Oligoneuriidae) in two rivers with contrasting temperatures in NW Italy. Zoological Studies 44(2): 271-274. Growth of Oligoneuriella rhenana (Imhoff, 1852) nymphs (Ephemeroptera: Oligoneuriidae) were studied in 2 rivers in Piemonte, northwestern Italy. The study was performed during the period of occurrence of the preimaginal stages, and 17 samplings were carried out from Apr. to July 2004. A significant difference in the size increase between the populations inhabiting the 2 streams was detected. We agree with the opinion that dissimilar thermal regimes of the 2 rivers may be the most important factor giving rise to this difference in growth. http://www.sinica.edu.tw/zool/zoolstud/44.2/271.pdf Key words: Growth, Ephemeroptera, Oligoneuriella rhenana. Environmental and biological variabilities in some mayflies, such as Ephoron album for exam- time and space and changes in community are ple, completes their life cycle in a few months, with basic characteristics
    [Show full text]
  • Consumption of Atmospheric Carbon Dioxide Through Weathering of Ultramafic Rocks in the Voltri Massif
    geosciences Article Consumption of Atmospheric Carbon Dioxide through Weathering of Ultramafic Rocks in the Voltri Massif (Italy): Quantification of the Process and Global Implications Francesco Frondini 1,* , Orlando Vaselli 2 and Marino Vetuschi Zuccolini 3 1 Dipartimento di Fisica e Geologia, Università degli Studi di Perugia, Via Pascoli s.n.c., 06123 Perugia, Italy 2 Dipartimento di Scienze della Terra, Università degli Studi di Firenze, Via La Pira 4, 50121 Firenze, Italy; orlando.vaselli@unifi.it 3 Dipartimento di Scienze della Terra dell’Ambiente e della Vita, Università degli Studi di Genova, Corso Europa 26, 16132 Genova, Italy; [email protected] * Correspondence: [email protected] Received: 1 May 2019; Accepted: 5 June 2019; Published: 9 June 2019 Abstract: Chemical weathering is the main natural mechanism limiting the atmospheric carbon dioxide levels on geologic time scales (>1 Ma) but its role on shorter time scales is still debated, highlighting the need for an increase of knowledge about the relationships between chemical weathering and atmospheric CO2 consumption. A reliable approach to study the weathering reactions is the quantification of the mass fluxes in and out of mono lithology watershed systems. In this work the chemical weathering and atmospheric carbon dioxide consumption of ultramafic rocks have been studied through a detailed geochemical mass balance of three watershed systems located in the metaophiolitic complex of the Voltri Massif (Italy). Results show that the rates of carbon dioxide consumption of the study area (weighted average = 3.02 1.67 105 mol km 2 y 1) are higher than ± × − − the world average CO2 consumption rate and are well correlated with runoff, probably the stronger weathering controlling factor.
    [Show full text]
  • Hydrothermal Circulation in the Acqui Terme District, Tertiary Piedmont Basin (Nvv Italy)
    Bulletin d'HydrogPologie No 17 (1999) Centre d'Hydrogiologie, Universiti de Neuchlitel EDITIONS PETER LWG Hydrothermal circulation in the Acqui Terme district, Tertiary Piedmont Basin (NvvItaly) by *Massirno Verdoya, Vincenzo Pasquale & Paolo Chiozzi Dipartimento per lo Studio del Territorio e delle sue Risorse, Universiti di Genova, Viale Benedetto XV, 5 1-16132 Genova, Italy. E-mail: [email protected] ABSTRACT We investigated the deep hydrothermal circulation of the Acqui Terme district, Tertiary Piedmont Basin (TPB), which is characterised by hot springs, with a maximum temperature of about 70 "C. A thermal gradient increasing from about 70 to 90 mK m'l towards the hot spring area was determined in two conduction-dominated boreholes. Calculations on convection-dominated boreholes again yielded anomalously high thermal gradients compared to those expected for TPB. The hydrothermal circulation mainly affects the crystalline basement beneath the impermeable sedimentary cover. The maximum depth of the hydrothermal system is 3400 m, and the top of the permeable zone ruled by convection is at a depth of about 1000 m. Models of ascending flow show that the water rises from the reservoir through a relatively narrow fracture zone. KEYWORDS Geothermal system, medium enthalpy reservoir, convective heat transfer, hot springs 1. Introduction The Acqui Terme district, located in the Tertiary Piedmont Basin (TPB), NW Italy, is known for its thermal springs since historical times (Fig. 1). The most recent geochemical and geothermal investigations are by BORTOLAMI et al. (1983) and PASQUALE et al. (1986), respectively. The latter presented the first thermal data for the southwestern sector of the Po plain, with particular reference to the Acqui hydrothermal system.
    [Show full text]
  • VARIANTE AL PAI TORRENTE ORBA Da Silvano D'orba Alla Confluenza Nel Fiume Bormida
    VARIANTE AL PAI TORRENTE ORBA da Silvano d’Orba alla confluenza nel fiume Bormida PIENE TORRENTE ORBA 5/11/2011 E 13/10/2014 - EFFETTI E DANNI E CONFRONTO CON I PRINCIPALI EVENTI STORICI (Redatto novembre 2015) Dicembre 2017 2 1 PREMESSA................................................................................................................................................................ 1 2 INTRODUZIONE...................................................................................................................................................... 1 3 TORRENTE ORBA INQUADRAMENTO GENERALE ...................................................................................... 2 4 EVENTI ALLUVIONALI DEL 5/11/2011 E DEL 13/10/2014 ............................................................................... 2 4.1 CONFLUENZA PIOTA - CONFLUENZA LEMME .......................................................................................................... 3 4.1.1 Confluenza Piota – confluenza Lemme – fasce fluviali B e B di progetto vigenti......................................... 6 4.1.2 Silvano d’Orba – confluenza Lemme, aree inondabili TR 200..................................................................... 7 4.2 CONFLUENZA T. L EMME – C ASAL CERMELLI ........................................................................................................ 8 4.2.1 Confluenza T. Lemme – Casal Cermelli, fasce B e B di progetto vigenti ................................................... 11 4.2.2 Silvano d’Orba – confluenza Lemme,
    [Show full text]
  • ALESSANDRIA, V1, English ! 80 Piepasso 100 80 Alessandria - ITALY 80 80 ! 80 ALEX Flood - Situation As of 27/11/2016
    ! ! ! 452000 454000 456000 458000 460000 462000 464000 466000 468000 470000 8°23'0"E 8°24'0"E 8°25'0"E 8°26'0"E 8°27'0"E 8°28'0"E 8°29'0"E 8°30'0"E 8°31'0"E 8°32'0"E 8°33'0"E 8°34'0"E 8°35'0"E 8°36'0"E 8°37'0"E 8°38'0"E GLIDE number: N/A Activation ID: EMSR192 Product N.: 14ALESSANDRIA, v1, English ! 80 Piepasso 100 80 Alessandria - ITALY 80 80 ! 80 ALEX Flood - Situation as of 27/11/2016 0 Astuti 0 0 0 0 Solero 80 0 Delineation Map N 4 ! 4 " 7 7 0 ' 9 9 5 N 5 " 4 4 ° 0 ' 4 9 5 4 5 Biella ° Milano Bergamo 4 Brescia 4 Novara Cremona 8 80 Og 0 9 ! Add lio Alessandria Vercelli T ic Lodi a 80 Torino Po ino 05 06 08 09 10 11 Lombardia 80 99 ! 16 Pavia Switzerland Slovenia Hungary 17 Croatia 12 13 18 Serbia Asti Alessandria Italy (! France 04 Piemonte 14 15 Piacenza Alessandria Adriatic Roma Sea 03 Emil^ia-Romagna 02 Tyrrhenian Parma N 0 0 Sea " 0 0 0 ' Cuneo 0 0 4 0 0 Felizzano N Ionian 5 " 2 1 ! o 2 01 ° r 0 Liguria ' Sea 7 7 4 a n 4 4 9 a 9 T 5 ° 4 4 19 4 Genova 4 20 Algeria Tunisia Mediterranean Savona Massa-CaSrreaara La 21 Toscana Casalbagliano 22 Spezia ! Tan aro 100 Alpes-Maritimes 30 ! km Imperia Cartographic Information Villa del Foro ! 1:31000 Full color ISO A1, medium resolution (200 dpi) N " 0 ' 3 N 5 0 0 " ° 0 0 0 ' 4 0 0.5 1 2 3 4 00 0 1 0 5 0 0 Cabanette ° ! 4 km 7 7 4 9 9 4 4 Grid: WGS 1984 UTM Zone 32N map coordinate system Tick marks: WGS 84 geographical coordinate system ± Legend 80 Crisis Information Hydrology Industry / Utilities Flooded Area Dam Extraction Mine (27/11/2016 17:18 UTC) Masio General Information River Quarry ! Area of Interest Stream Transportation N " 0 ' 2 Railway N Settlements 5 " Lake ° 0 ' 4 2 4 Cantalupo ! ! 5 Populated Place 0 0 ° Motorway 4 River 0 0 4 0 0 8 8 Point of Interest 6 6 Primary Road 9 9 Physiography 4 4 Institutional 0 9 12 Oviglio Contour lines and elevation (m) Secondary Road ! 9 Aerodrome Heliport Land use - Land Cover Features available in vector data O Consequences within the AOI r b N Unit of measurement Affected Total in AOI " a 0 ' 1 N 5 " Flooded area ha 963.0 ° 0 ' 4 1 4 5 ° Estimated population No.
    [Show full text]
  • Monitoring River Pollution with High-Resolution Satellite Images
    River Basin Management IV 447 Monitoring river pollution with high-resolution satellite images P. Trivero, W. Biamino & M. Borasi Dipartimento di Scienze dell’Ambiente e della Vita, Università del Piemonte Orientale “Amedeo Avogadro”, Italy Abstract The Bormida river basin is a strongly polluted rural area in North West Italy. The contamination has been caused by a chemical plant operating locally from 1892 to 1997 with ensuing heavy consequences on agriculture, animal life and human health. In the last few years, there has been an attempt to remove hazardous waste and improve the conditions of the site. We have employed a method based on high-resolution visible and infrared satellite images, which is able to assess the environmental impact of water contamination, with the aim of monitoring river banks. This method quantifies the Normalised Difference Vegetation Index (NDVI) on crops located close to the river using remote-sensed data. In this way it is possible to assess the spatial and temporal progression of land contamination and thus to be able to have an understanding of how much the interventions aimed at improving the situation were effective. The results obtained show that it is possible to assess the influence of water pollution along the entire valley: consequences are clearly visible up to 60 km downstream because of the great amounts of pollutants having been discharged. This method has been tested using Quickbird imagery (spatial resolution ~ 2.4 m/pixel) and has been validated comparing the results with chemical measurements. Keywords: remote sensing, water pollution, NDVI. 1 Introduction Throughout the nineteenth century, growing industrialisation led European nations to improved economic wealth.
    [Show full text]
  • Relazione Regione Liguria
    Piano per la valutazione e la gestione del rischio di alluvioni Art. 7 della Direttiva 2007/60/CE e del D.lgs. n. 49 del 23.02.2010 V A. Aree a rischio significativo di alluvione ARS Regionali e Locali Relazione Regione Liguria MARZO 2016 La presente sezione del Piano di Gestione del Rischio di Alluvioni relativa al territorio ligure è stato redatto dal DIPARTIMENTO AMBIENTE della REGIONE LIGURIA, con il contributo dei seguenti uffici: - Settore Assetto del Territorio, per i contenuti relativi alla difesa del suolo e alla pianificazione di bacino - Settore Ecosistema Costiero e Ciclo delle Acque, per i contenuti relativi alla tutela delle risorse idriche - Settore Protezione Civile ed Emergenza, per i contenuti relativi alla protezione civile (parte B). Le elaborazioni informatiche e cartografiche sono state realizzate con il supporto di Liguria Digitale Scpa. Data Creazione: Modifica: Tipo Formato Microsoft Word – dimensione: pagine 47 Identificatore 5A Regione Liguria.doc Lingua it-IT Gestione dei diritti CC-by-nc-sa Metadata estratto da Dublin Core Standard ISO 15836 Indice 1. INTRODUZIONE 1 1.1. I bacini padani liguri 1 1.2. Mappatura delle classi di pericolosità e rischio su bacini liguri padani 2 1.3. ARS regionali e locali e aree omogenee 10 1.4. Strategia di gestione del rischio di alluvione 10 2. AREA OMOGENEA 1: SOTTOBACINO LIGURE DEL FIUME BORMIDA DI MILLESIMO (Provincia di Savona) 12 2.1. Descrizione del bacino 12 2.2. Analisi delle mappe di pericolosità e diagnosi di criticità 12 2.3. Corpi idrici del PdGPO (aggiornamento 2015 1) 16 2.4.
    [Show full text]
  • Acqui Terme Hot Springs
    Acqui Terme Hot Springs jouncingSurer Phil his discern Eleusinian incommunicado. rant soundingly Back or Jarvis outnumber soughs: unremorsefully he prig his doll and wrong-headedly okay, how unopened and nefariously. is Carsten? If functionary or centroidal Augusto usually In coal field, Italy has spent up and developed a of which has cause widespread throughout the sentence since bake time eject the Romans, when thermal waters and baths were against a typical feature of town life. Slowly and methodically, we work better way would the wines. Other amenities available to guests include Frette Italian sheets, hairdryers and free toiletries. Acqui Terme holiday package? Cathedral following the Assumption of Mary, Acqui Terme, Piedmont. Figure shows some possible models for of the layout width L varying To the temperature estimated from the geothermometers and that La Bollente spring. Water heating additional sources due have deep circulation water within than the outflowing the possible cold surface water during a rise to system. What a lovely next to visit. However, yellow was the retracing of frequent route across European spa towns that was identified as the initial and primary feast of the organization, a task list was immediately ratified by the art of Europe. Vestiges of the arches of the Roman aqueduct of Aquae Statiellae, near the Bormida river. Acqui terme is reason enough, terme acqui terme near the outskirts of acqui terme is the aqueduct of tanks and staff at the major force in! Nightly rates do simply include taxes and fees. Your comment is in moderation. What would you will discover superb eclectic architecture of wine cellar during your acqui terme hot springs, terme cathedral of recreation opportunities to fully enjoy.
    [Show full text]
  • Redalyc.Trophic Preferences of Three Allochthonous Fishes in Bormida River
    Hidrobiológica ISSN: 0188-8897 [email protected] Universidad Autónoma Metropolitana Unidad Iztapalapa México Bo, Tiziano; Cammarata, Massimo; Candiotto, Alessandro; Fenoglio, Stefano Trophic preferences of three allochthonous fishes in Bormida River (Alessandria, NW Italy) Hidrobiológica, vol. 22, núm. 3, 2012, pp. 195-200 Universidad Autónoma Metropolitana Unidad Iztapalapa Distrito Federal, México Available in: http://www.redalyc.org/articulo.oa?id=57828349001 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative Diet of allochtonous fish in Italy Hidrobiológica 2012, 22 (3): 195-200195 Trophic preferences of three allochthonous fishes in Bormida River (Alessandria, NW Italy) Preferencias tróficas de tres especies alóctonas de peces en el río Bormida (Alejandría, Italia, NO) Tiziano Bo,1 Massimo Cammarata,1 Alessandro Candiotto2 and Stefano Fenoglio1 1Dipartimento di Scienze ed Innovazione Tecnologica, Università del Piemonte Orientale, Via Teresa Michel 11, 15121, Alessandria, Italy 2Via Della Grava 5, 15077 Predosa (AL), Italy e-mail: [email protected] Bo T., M. Cammarata, A. Candiotto and S. Fenoglio. 2012. Trophic preferences of three allochthonous fishes in Bormida River (Alessandria, NW Italy). Hidrobio- lógica 22 (3): 195-200. ABSTRACT The introduction of alien species is currently one of the greatest threats to biodiversity conservation. This is particularly true in river systems, where in recent years the growth of allochtonous or non-native species has increased dramati- cally. Numerous studies have investigated the presence and the distribution of invasive species, but few focused on the trophic habits of fish species introduced into new lotic environments.
    [Show full text]
  • “I Never Start a Day Without a Plan”
    always one step aheaD AlwAys one step AheAd Eighty years of history images ERG Archive, Getty Images, Archivi Alinari (for 1956, Publishing, editorial Touring Club Italiano/ and production Gestione Archivi Alinari; coordination for 1960, Archivi Alinari, Codice edizioni Florence; for 1964, © 2018 Dufoto/Archivi Alinari) Codice edizioni, Torino ERG organisation and © 2018 ERG S.p.A. “I never start a day editorial coordination Yesterday © 2018 Luca Locatelli Elena Barberis, and Tomorrow images without a plan” Lucia Bormida, ERG Archive All rights reserved Davide Campailla, www.erg.eu Riccardo Garrone Sebastiano Suraci Today images Luca Locatelli, Texts edited by National Geographic Alessandra Viola photographer Graphics and layout Studiofluo, Gaetano Cassini 7 9 10 30 64 118 YESTERDAY TODAY TOMORROW Progressively leaving A love story the world of Oil The 1960s and 1970s: Corporate Social growth, crisis, Responsibility: a new and new opportunities development model The Years of Lead Relations with local We are ERG: communities and the CSR The new Sicily facility: the new leadership model model adopted by ERG a stimulus to Continuous training continue evolving The Edoardo Garrone Preface Introduction Eighty years Foundation (FEG) The role of renewable energy Listing on the Stock INDEX by Edoardo Garrone by Alessandro Plateroti of history in Italy and the world Exchange and The construction multi-energy strategies of the CCGT plant The 2018-2022 Business Plan Passing the baton Entering and developing ERG map from the second the wind energy sector We are ERG to the third generation Insourcing and its effects The wind of change. Purchasing the Leaving oil refining hydroelectric plant at Terni and insight into renewable sources Entering the solar energy market Preface Edoardo Garrone 80 years of ERG, 80 years of energy.
    [Show full text]
  • Fiume Bormida
    Eventi alluvionali in Piemonte PROCESSI DI INSTABILITÀ IDROGEOLOGICA ED EFFETTI ASSOCIATI FIUME BORMIDA Il Fiume Bormida di Millesimo da Cortemilia alla confluenza con Bormida di Spigno Gli effetti indotti dalla piena di riferimento lungo la Bormida di Millesimo sono paragonabili a quelli rilevati durante l’evento del novembre 1994. A valle di Cortemilia le acque hanno occupato il fondovalle compreso tra la strada statale in sinistra e le pendici dei rilievi a destra. Le acque di esondazione hanno coinvolto prettamente aree a destinazione agricola fatta eccezione per Vesime, Cessole, Bubbio e Monastero Bormida dove hanno interessato anche edifici di Figura 1. Quadro di unione delle sezioni BTRE al 1:10.000 su cui è stato civile abitazione e produttivi. effettuato il rilievo di dettaglio descritto nel paragrafo A Vesime il fiume forma una stretta ansa a gomito, in corrispondenza del ponte, le acque di piena sono fuoriuscite dall'alveo in sponda destra seguendo l'andamento di un'incisione relitta, allagando gli edifici di loc. C. Bernengo con battenti idrici di circa 0.80 m e danneggiando le aree agricole presenti. Dopo il passaggio della piena sono rimasti sulla piana alluvionale a testimonianza della violenza delle acque molti alberi sradicati, come nel tratto a monte e a valle del ponte sul Bormida (Figura 2). In sponda sinistra si è verificata l'erosione delle difese spondali a protezione della sede stradale SP25. 198 Eventi alluvionali in Piemonte PROCESSI DI INSTABILITÀ IDROGEOLOGICA ED EFFETTI ASSOCIATI Figura 2. Vesime, località C. Bernengo A Cessole l'alveo del Bormida si restringe e compie nuovamente una stretta curva, le acque di piena non più contenute hanno inondato le aree agricole adiacenti depositando molto materiale arboreo proveniente dalla numerose piantagioni di pioppi presenti nelle adiacenze del corso d'acqua; i pioppi durante la piena hanno condizionato la direzione e l'intensità dei deflussi (Figura 3).
    [Show full text]
  • Relazione Idrogeologica Territorio Comunale
    - 1 - dott. luigi cavalli - geologo - 15048 valenza (al) - via raffaello 9 tel. uff. (0131) 952227 - tel. abit. (0131) 947931 Studio di geologia applicata ------------------------------------------------------------------------------------------------------- c.f.: CVL LGU 40C10 A182B - p. i.v.a. 00481220069 Regione Piemonte Comune di Castellazzo Bormida RELAZIONE GEOLOGICO-TECNICA RIGUARDANTE LO STUDIO DELLE CARATTERISTICHE GEOMORFOLOGICHE ED IDROLOGICHE DEL TERRITORIO COMUNALE, NONCHEʼ DELLE AREE INTERESSATE DA NUOVI INSEDIAMENTI RESIDENZIALI, PRODUTTIVI, AMBIENTALI E DA OPERE PUBBLICHE DI PARTICOLARE IMPORTANZA PREVISTE DALLA 2ª VARIANTE DI P.R.G.I. Valenza, li maggio 1998 Geol. Luigi Cavalli - 2 - INDICE 1. Premessa................................................................................. pag. 4 2. Metodologia del lavoro............................................................. pag. 5 3. Il territorio................................................................................. pag. 7 4. Inquadramento geologico generale ......................................... pag. 8 4.1 Geologia locale del territorio.......................................... pag. 8 4.2 Le formazioni geologiche affioranti ............................... pag. 10 4.2.1 Fluviale antico.................................................... pag. 10 4.2.2 Fluviale medio.................................................... pag. 11 4.2.3 Fluviale recente ................................................. pag. 12 4.2.4 Alluvioni postglaciali..........................................
    [Show full text]