International audience ; Recent catastrophic flood events such as Elbe in 2002 or Rhône in 2003 have shown limits of flood management policies relying on dykes protection: worsening of flood impacts downstream, increased damage by dykes rupture. Those events, among others, contributes to radical changes on the philosophy of flood prevention, with the promotion of new orientations for mitigating flood exposition. Two new trends may have a significant impact on rural areas: floodplain restoration and vulnerability mitigation. The Rhône River program, which is an contract of objectives signed between French Government and local collectivites,is highly illustrative of these new trends and their impact on agricultural sector. In this program, it appears that areas to be concerned by floodplain restoration are agricultural ones, because their supposed vulnerability to flood is expected to be less important to urban areas. As a consequence, agricultural sector is particularly concerned by planned actions on mitigation of assets vulnerability, an important part of the program (financial support of European Union of 7.5 Million euros). Mitigation of agricultural assets vulnerability reveals particularly interesting for two following reasons. Firstly, it is a way to maintain agricultural activities in floodplains yet existing, without promoting flood protection. Secondly, in case of floodplain restoration, vulnerability mitigation is a way for local authorities to compensate over-flooding impacts. In practice, local authorities may financially support farmers for implementing measures to mitigate their farm vulnerability. On the Rhône River, an important work has already been done to identify farm vulnerability to flooding, and propose measures to mitigate it. More than 3 000 farms exposed to flood risk have been identified representing 88 690 ha of agricultural areas which is estimated to generate damage between 400 and 800 Million euros depending on the season of occurrence for a catastrophic flood. In the case of farm ...
International audience ; Recent catastrophic flood events such as Elbe in 2002 or Rhône in 2003 have shown limits of flood management policies relying on dykes protection: worsening of flood impacts downstream, increased damage by dykes rupture. Those events, among others, contributes to radical changes on the philosophy of flood prevention, with the promotion of new orientations for mitigating flood exposition. Two new trends may have a significant impact on rural areas: floodplain restoration and vulnerability mitigation. The Rhône River program, which is an contract of objectives signed between French Government and local collectivites,is highly illustrative of these new trends and their impact on agricultural sector. In this program, it appears that areas to be concerned by floodplain restoration are agricultural ones, because their supposed vulnerability to flood is expected to be less important to urban areas. As a consequence, agricultural sector is particularly concerned by planned actions on mitigation of assets vulnerability, an important part of the program (financial support of European Union of 7.5 Million euros). Mitigation of agricultural assets vulnerability reveals particularly interesting for two following reasons. Firstly, it is a way to maintain agricultural activities in floodplains yet existing, without promoting flood protection. Secondly, in case of floodplain restoration, vulnerability mitigation is a way for local authorities to compensate over-flooding impacts. In practice, local authorities may financially support farmers for implementing measures to mitigate their farm vulnerability. On the Rhône River, an important work has already been done to identify farm vulnerability to flooding, and propose measures to mitigate it. More than 3 000 farms exposed to flood risk have been identified representing 88 690 ha of agricultural areas which is estimated to generate damage between 400 and 800 Million euros depending on the season of occurrence for a catastrophic flood. In the case of farm activities, vulnerability mitigation consists in implementing measures which can be: physical (equipment or electric power system elevation), organizational (emergency or recovery plan) or financial (insurance). These measures aim at decreasing the total damage incurred by farmers in case of flooding. For instance, if equipment is elevated, it will not suffer direct damage such as degradation. As a consequence, equipment will be available to continue production or recovery tasks, thus, avoiding indirect damage such as delays, indebtedness. . . The effects of these policies on farms, in particular vulnerability mitigation cannot be appraised using current methodologies mainly because they do not consider farm as a whole and focus on direct damage at the land plot scale (loss of yield). Moreover, since vulnerability mitigation policies are quite recent, few examples of implementation exist and no feedback experience can be processed. Meanwhile, decision makers and financial actors require more justification of the efficiency of public fund by economic appraisal of the projects. On the Rhône River, decision makers asked for an economic evaluation of the program of farm vulnerability mitigation they plan to implement. This implies to identify the effects of the measures to mitigate farm vulnerability, and to classify them by comparing their efficacy (avoided damage) and their cost of implementation. In this presentation, we propose and discuss a conceptual model of vulnerability at the farm scale. The modelling,in Unified Modelling Language, enabled to represent the ties between spatial, organizational and temporal dimensions,which are central to understanding of farm vulnerability and resilience to flooding. Through this modelling,we encompass three goals: To improve the comprehension of farm vulnerability and create a framework that allow discussion with experts of different disciplines as well as with local farmers; To identify data which are needed to implement the model and to collect them, specifically using the focus group method; Based on the conceptual model, to program a mathematical model which will be used to simulate damage (direct and indirect) on farm due to flood. This last objective should enable us to appraise policy to mitigate vulnerability which is planned to be implemented on Rhône River at the individual and regional scale. Finally, we discuss the ossibility to use the UML modelling to develop a multi-agent system approach which could be interesting to take into account ties between farmers (solidarity, loan of equipment) or systemic effects due to the damage incurred by economic partners (loss of market share).
National audience ; Les politiques publiques de gestion des inondations s'orientent vers la restauration des champs d'expansion de crue et de réduction de la vulnérabilité, qui auront un impact important sur les exploitations agricoles. L'évaluation des effets de ces politiques sur les exploitations agricoles n'est pas envisageable avec les méthodologies actuelles et le retour d'expérience quasiment inexistant. Il était donc nécessaire de développer un modèle de simulation des dommages directs et induits en prenant en compte la dimension systémique de l'exploitation agricole. Pour cela, nous proposons un modèle conceptuel de la vulnérabilité à l'échelle de l'exploitation agricole et montrons comment il nous a permis de mettre en évidence l'importance des stratégies de gestion post-inondation pour la modélisation des dommages. Nous présentons ensuite les résultats des enquêtes réalisées sur les exploitations arboricoles de la zone aval du Rhône pour la caractérisation de ces stratégies. Enfin, nous montrons comment nous avons intégré dans le modèle de simulation des dommages, les données recueillies par enquêtes. Les premiers résultats de simulation des dommages confirment l'importance de prendre en compte les effets induits de l'inondation sur le système " exploitation agricole ". En perspective, l'utilisation du modèle de simulation des dommages dans le cadre d'une évaluation économique des politiques de réduction de la vulnérabilité des exploitations agricoles sur la zone aval du Rhône est discutée.
National audience ; Les politiques publiques de gestion des inondations s'orientent vers la restauration des champs d'expansion de crue et de réduction de la vulnérabilité, qui auront un impact important sur les exploitations agricoles. L'évaluation des effets de ces politiques sur les exploitations agricoles n'est pas envisageable avec les méthodologies actuelles et le retour d'expérience quasiment inexistant. Il était donc nécessaire de développer un modèle de simulation des dommages directs et induits en prenant en compte la dimension systémique de l'exploitation agricole. Pour cela, nous proposons un modèle conceptuel de la vulnérabilité à l'échelle de l'exploitation agricole et montrons comment il nous a permis de mettre en évidence l'importance des stratégies de gestion post-inondation pour la modélisation des dommages. Nous présentons ensuite les résultats des enquêtes réalisées sur les exploitations arboricoles de la zone aval du Rhône pour la caractérisation de ces stratégies. Enfin, nous montrons comment nous avons intégré dans le modèle de simulation des dommages, les données recueillies par enquêtes. Les premiers résultats de simulation des dommages confirment l'importance de prendre en compte les effets induits de l'inondation sur le système " exploitation agricole ". En perspective, l'utilisation du modèle de simulation des dommages dans le cadre d'une évaluation économique des politiques de réduction de la vulnérabilité des exploitations agricoles sur la zone aval du Rhône est discutée.
International audience ; Recent catastrophic flood events such as Elbe in 2002 or Rhône in 2003 have shown limits of flood management policies relying on dykes protection: worsening of flood impacts downstream, increased damage by dykes rupture. Those events, among others, contributes to radical changes on the philosophy of flood prevention, with the promotion of new orientations for mitigating flood exposition. Two new trends may have a significant impact on rural areas: floodplain restoration and vulnerability mitigation. The Rhône River program, which is an contract of objectives signed between French Government and local collectivites,is highly illustrative of these new trends and their impact on agricultural sector. In this program, it appears that areas to be concerned by floodplain restoration are agricultural ones, because their supposed vulnerability to flood is expected to be less important to urban areas. As a consequence, agricultural sector is particularly concerned by planned actions on mitigation of assets vulnerability, an important part of the program (financial support of European Union of 7.5 Million euros). Mitigation of agricultural assets vulnerability reveals particularly interesting for two following reasons. Firstly, it is a way to maintain agricultural activities in floodplains yet existing, without promoting flood protection. Secondly, in case of floodplain restoration, vulnerability mitigation is a way for local authorities to compensate over-flooding impacts. In practice, local authorities may financially support farmers for implementing measures to mitigate their farm vulnerability. On the Rhône River, an important work has already been done to identify farm vulnerability to flooding, and propose measures to mitigate it. More than 3 000 farms exposed to flood risk have been identified representing 88 690 ha of agricultural areas which is estimated to generate damage between 400 and 800 Million euros depending on the season of occurrence for a catastrophic flood. In the case of farm activities, vulnerability mitigation consists in implementing measures which can be: physical (equipment or electric power system elevation), organizational (emergency or recovery plan) or financial (insurance). These measures aim at decreasing the total damage incurred by farmers in case of flooding. For instance, if equipment is elevated, it will not suffer direct damage such as degradation. As a consequence, equipment will be available to continue production or recovery tasks, thus, avoiding indirect damage such as delays, indebtedness. . . The effects of these policies on farms, in particular vulnerability mitigation cannot be appraised using current methodologies mainly because they do not consider farm as a whole and focus on direct damage at the land plot scale (loss of yield). Moreover, since vulnerability mitigation policies are quite recent, few examples of implementation exist and no feedback experience can be processed. Meanwhile, decision makers and financial actors require more justification of the efficiency of public fund by economic appraisal of the projects. On the Rhône River, decision makers asked for an economic evaluation of the program of farm vulnerability mitigation they plan to implement. This implies to identify the effects of the measures to mitigate farm vulnerability, and to classify them by comparing their efficacy (avoided damage) and their cost of implementation. In this presentation, we propose and discuss a conceptual model of vulnerability at the farm scale. The modelling,in Unified Modelling Language, enabled to represent the ties between spatial, organizational and temporal dimensions,which are central to understanding of farm vulnerability and resilience to flooding. Through this modelling,we encompass three goals: To improve the comprehension of farm vulnerability and create a framework that allow discussion with experts of different disciplines as well as with local farmers; To identify data which are needed to implement the model and to collect them, specifically using the focus group method; Based on the conceptual model, to program a mathematical model which will be used to simulate damage (direct and indirect) on farm due to flood. This last objective should enable us to appraise policy to mitigate vulnerability which is planned to be implemented on Rhône River at the individual and regional scale. Finally, we discuss the ossibility to use the UML modelling to develop a multi-agent system approach which could be interesting to take into account ties between farmers (solidarity, loan of equipment) or systemic effects due to the damage incurred by economic partners (loss of market share).
National audience ; Les politiques publiques de gestion des inondations s'orientent vers la restauration des champs d'expansion de crue et de réduction de la vulnérabilité, qui auront un impact important sur les exploitations agricoles. L'évaluation des effets de ces politiques sur les exploitations agricoles n'est pas envisageable avec les méthodologies actuelles et le retour d'expérience quasiment inexistant. Il était donc nécessaire de développer un modèle de simulation des dommages directs et induits en prenant en compte la dimension systémique de l'exploitation agricole. Pour cela, nous proposons un modèle conceptuel de la vulnérabilité à l'échelle de l'exploitation agricole et montrons comment il nous a permis de mettre en évidence l'importance des stratégies de gestion post-inondation pour la modélisation des dommages. Nous présentons ensuite les résultats des enquêtes réalisées sur les exploitations arboricoles de la zone aval du Rhône pour la caractérisation de ces stratégies. Enfin, nous montrons comment nous avons intégré dans le modèle de simulation des dommages, les données recueillies par enquêtes. Les premiers résultats de simulation des dommages confirment l'importance de prendre en compte les effets induits de l'inondation sur le système " exploitation agricole ". En perspective, l'utilisation du modèle de simulation des dommages dans le cadre d'une évaluation économique des politiques de réduction de la vulnérabilité des exploitations agricoles sur la zone aval du Rhône est discutée.
Des signes de modifications de la biodiversité terrestre, aquatique et marine, attribuables aux changements graduels induits par le changement climatique, sont d'ores et déjà observables. La biodiversité est affectée directement par la modification de la température et de la pluviométrie, à laquelle s'ajoute l'acidification des eaux en domaine marin. Protéger les espèces et les écosystèmes impose de réduire les pressions qui diminuent leur résilience : fragmentation des milieux naturels, artificialisation des sols, etc. Le groupe insiste sur le rôle des effets indirects à moyen terme, qui pourraient être au moins aussi importants (par exemple, la reconstruction des infrastructures littorales sur les espaces naturels en arrière des côtes). Il est donc essentiel d'analyser systématiquement les effets croisés des impacts du changement climatique d'une part et des adaptations spontanées ou planifiées d'autre part, afin de prévenir les conséquences négatives pour la biodiversité. L'évaluation des services rendus par la biodiversité pour certains types d'occupation du territoire les estime à 900¤/ha/an pour les forêts et 300¤/ha/an pour les prairies, dans un récent rapport du Centre d'Analyse Stratégique, ce qui permet de cerner les enjeux économiques. Des impacts négatifs sont révélés par cette approche, appliquée aux écosystèmes coralliens et aux services non-marchands fournis par la forêt. Plus globalement, des pertes économiques significatives liées à la diminution voire la disparition de services de production (forêts de hêtre du Sud et de l'Ouest par exemple) et de régulation (tels que le stockage du carbone, la prévention des crues et des inondations, la régulation de l'érosion) sont à envisager à des niveaux accrus à la fin du siècle. L'Outre-mer est particulièrement fragile du fait des impacts sur les récifs coralliens, les forêts tropicales et les nombreuses espèces endémiques. Grâce à une gouvernance des politiques d'adaptation conduites à des échelles spatiales pertinentes avec le plus grand nombre ...
This report presents the conceptual design of a new European research infrastructure EuPRAXIA. The concept has been established over the last four years in a unique collaboration of 41 laboratories within a Horizon 2020 design study funded by the European Union. EuPRAXIA is the first European project that develops a dedicated particle accelerator research infrastructure based on novel plasma acceleration concepts and laser technology. It focuses on the development of electron accelerators and underlying technologies, their user communities, and the exploitation of existing accelerator infrastructures in Europe. EuPRAXIA has involved, amongst others, the international laser community and industry to build links and bridges with accelerator science — through realising synergies, identifying disruptive ideas, innovating, and fostering knowledge exchange. The Eu-PRAXIA project aims at the construction of an innovative electron accelerator using laser- and electron-beam-driven plasma wakefield acceleration that offers a significant reduction in size and possible savings in cost over current state-of-the-art radiofrequency-based accelerators. The foreseen electron energy range of one to five gigaelectronvolts (GeV) and its performance goals will enable versatile applications in various domains, e.g. as a compact free-electron laser (FEL), compact sources for medical imaging and positron generation, table-top test beams for particle detectors, as well as deeply penetrating X-ray and gamma-ray sources for material testing. EuPRAXIA is designed to be the required stepping stone to possible future plasma-based facilities, such as linear colliders at the high-energy physics (HEP) energy frontier. Consistent with a high-confidence approach, the project includes measures to retire risk by establishing scaled technology demonstrators. This report includes preliminary models for project implementation, cost and schedule that would allow operation of the full Eu-PRAXIA facility within 8—10 years.
This report presents the conceptual design of a new European research infrastructure EuPRAXIA. The concept has been established over the last four years in a unique collaboration of 41 laboratories within a Horizon 2020 design study funded by the European Union. EuPRAXIA is the first European project that develops a dedicated particle accelerator research infrastructure based on novel plasma acceleration concepts and laser technology. It focuses on the development of electron accelerators and underlying technologies, their user communities, and the exploitation of existing accelerator infrastructures in Europe. EuPRAXIA has involved, amongst others, the international laser community and industry to build links and bridges with accelerator science — through realising synergies, identifying disruptive ideas, innovating, and fostering knowledge exchange. The Eu-PRAXIA project aims at the construction of an innovative electron accelerator using laser- and electron-beam-driven plasma wakefield acceleration that offers a significant reduction in size and possible savings in cost over current state-of-the-art radiofrequency-based accelerators. The foreseen electron energy range of one to five gigaelectronvolts (GeV) and its performance goals will enable versatile applications in various domains, e.g. as a compact free-electron laser (FEL), compact sources for medical imaging and positron generation, table-top test beams for particle detectors, as well as deeply penetrating X-ray and gamma-ray sources for material testing. EuPRAXIA is designed to be the required stepping stone to possible future plasma-based facilities, such as linear colliders at the high-energy physics (HEP) energy frontier. Consistent with a high-confidence approach, the project includes measures to retire risk by establishing scaled technology demonstrators. This report includes preliminary models for project implementation, cost and schedule that would allow operation of the full Eu-PRAXIA facility within 8—10 years.
In: Assmann , R W , Weikum , M K , Akhter , T , Alesini , D , Alexandrova , A S , Anania , M P , Andreev , N E , Andriyash , I , Artioli , M , Aschikhin , A , Audet , T , Bacci , A , Barna , I F , Bartocci , S , Bayramian , A , Beaton , A , Beck , A , Bellaveglia , M , Beluze , A , Bernhard , A , Biagioni , A , Bielawski , S , Bisesto , F G , Bonatto , A , Boulton , L , Brandi , F , Brinkmann , R , Briquez , F , Brottier , F , Bründermann , E , Büscher , M , Buonomo , B , Bussmann , M H , Bussolino , G , Campana , P , Cantarella , S , Cassou , K , Chancé , A , Chen , M , Chiadroni , E , Cianchi , A , Cioeta , F , Clarke , J A , Cole , J M , Costa , G , Couprie , M E , Cowley , J , Croia , M , Cros , B , Crump , P A , D'Arcy , R , Dattoli , G , Del Dotto , A , Delerue , N , Del Franco , M , Delinikolas , P , De Nicola , S , Dias , J M , Di Giovenale , D , Diomede , M , Di Pasquale , E , Di Pirro , G , Di Raddo , G , Dorda , U , Erlandson , A C , Ertel , K , Esposito , A , Falcoz , F , Falone , A , Fedele , R , Ferran Pousa , A , Ferrario , M , Filippi , F , Fils , J , Fiore , G , Fiorito , R , Fonseca , R A , Franzini , G , Galimberti , M , Gallo , A , Galvin , T C , Ghaith , A , Ghigo , A , Giove , D , Giribono , A , Gizzi , L A , Grüner , F J , Habib , A F , Haefner , C , Heinemann , T , Helm , A , Hidding , B , Holzer , B J , Hooker , S M , Hosokai , T , Hübner , M , Ibison , M , Incremona , S , Irman , A , Iungo , F , Jafarinia , F J , Jakobsson , O , Jaroszynski , D A , Jaster-Merz , S , Joshi , C , Kaluza , M , Kando , M , Karger , O S , Karsch , S , Khazanov , E , Khikhlukha , D , Kirchen , M , Kirwan , G , Kitégi , C , Knetsch , A , Kocon , D , Koester , P , Kononenko , O S , Korn , G , Kostyukov , I , Kruchinin , K O , Labate , L , Le Blanc , C , Lechner , C , Lee , P , Leemans , W , Lehrach , A , Li , X , Li , Y , Libov , V , Lifschitz , A , Lindstrøm , C A , Litvinenko , V , Lu , W , Lundh , O , Maier , A R , Malka , V , Manahan , G G , Mangles , S P D , Marcelli , A , Marchetti , B , Marcouillé , O , Marocchino , A , Marteau , F , Martinez de la Ossa , A , Martins , J L , Mason , P D , Massimo , F , Mathieu , F , Maynard , G , Mazzotta , Z , Mironov , S , Molodozhentsev , A Y , Morante , S , Mosnier , A , Mostacci , A , Müller , A S , Murphy , C D , Najmudin , Z , Nghiem , P A P , Nguyen , F , Niknejadi , P , Nutter , A , Osterhoff , J , Oumbarek Espinos , D , Paillard , J L , Papadopoulos , D N , Patrizi , B , Pattathil , R , Pellegrino , L , Petralia , A , Petrillo , V , Piersanti , L , Pocsai , M A , Poder , K , Pompili , R , Pribyl , L , Pugacheva , D , Reagan , B A , Resta-Lopez , J , Ricci , R , Romeo , S , Rossetti Conti , M , Rossi , A R , Rossmanith , R , Rotundo , U , Roussel , E , Sabbatini , L , Santangelo , P , Sarri , G , Schaper , L , Scherkl , P , Schramm , U , Schroeder , C B , Scifo , J , Serafini , L , Sharma , G , Sheng , Z M , Shpakov , V , Siders , C W , Silva , L O , Silva , T , Simon , C , Simon-Boisson , C , Sinha , U , Sistrunk , E , Specka , A , Spinka , T M , Stecchi , A , Stella , A , Stellato , F , Streeter , M J V , Sutherland , A , Svystun , E N , Symes , D , Szwaj , C , Tauscher , G E , Terzani , D , Toci , G , Tomassini , P , Torres , R , Ullmann , D , Vaccarezza , C , Valléau , M , Vannini , M , Vannozzi , A , Vescovi , S , Vieira , J M , Villa , F , Wahlström , C G , Walczak , R , Walker , P A , Wang , K , Welsch , A , Welsch , C P , Weng , S M , Wiggins , S M , Wolfenden , J , Xia , G , Yabashi , M , Zhang , H , Zhao , Y , Zhu , J & Zigler , A 2020 , ' EuPRAXIA Conceptual Design Report ' , European Physical Journal: Special Topics , vol. 229 , no. 24 , pp. 3675-4284 . https://doi.org/10.1140/epjst/e2020-000127-8
This report presents the conceptual design of a new European research infrastructure EuPRAXIA. The concept has been established over the last four years in a unique collaboration of 41 laboratories within a Horizon 2020 design study funded by the European Union. EuPRAXIA is the first European project that develops a dedicated particle accelerator research infrastructure based on novel plasma acceleration concepts and laser technology. It focuses on the development of electron accelerators and underlying technologies, their user communities, and the exploitation of existing accelerator infrastructures in Europe. EuPRAXIA has involved, amongst others, the international laser community and industry to build links and bridges with accelerator science — through realising synergies, identifying disruptive ideas, innovating, and fostering knowledge exchange. The Eu-PRAXIA project aims at the construction of an innovative electron accelerator using laser- and electron-beam-driven plasma wakefield acceleration that offers a significant reduction in size and possible savings in cost over current state-of-the-art radiofrequency-based accelerators. The foreseen electron energy range of one to five gigaelectronvolts (GeV) and its performance goals will enable versatile applications in various domains, e.g. as a compact free-electron laser (FEL), compact sources for medical imaging and positron generation, table-top test beams for particle detectors, as well as deeply penetrating X-ray and gamma-ray sources for material testing. EuPRAXIA is designed to be the required stepping stone to possible future plasma-based facilities, such as linear colliders at the high-energy physics (HEP) energy frontier. Consistent with a high-confidence approach, the project includes measures to retire risk by establishing scaled technology demonstrators. This report includes preliminary models for project implementation, cost and schedule that would allow operation of the full Eu-PRAXIA facility within 8—10 years.