Livrables
Linked to Task 3.3 Capture and leverage existing stakeholder knowledge in an iterative, place-based manner for co-creating technical, governance, learning arena and product innovations and Task 3.4 Evaluate stakeholder participation and the Living Labs user experience. This deliverable presents the outline for the monitoring and evaluation scheme elaborated and provided to the facilitators of the Living Labs at the demonstrator and concept case sites. The findings of the user satisfaction will be presented in D3.5.
NBS in-depth case study analysis of the characteristics of successful governance models; accompanied by a Policy BriefLinked to Task 5.1 Case studies of governance models for designing, financing and implementing NBS. This deliverable presents a comparative analysis of the institutional, legal, social and financial frameworks for co-designing and implementing nature-based solutions (NBS) across selected European and non-European countries (focusing on mountain regions).
Progress report 2Linked to Task 1.3. Progress report 2 will include evaluations of progress of all work packages until M27, including minutes and summaries from workshops and impact evaluations. Furthermore, reporting on the project impacts as well as outcomes of workshops that have taken place during the period will be included.
Progress report 1Linked to Task 1.3. Progress report 1 will include evaluations of progress of all work packages until M9, including minutes and summaries from workshops and impact evaluations. Furthermore, reporting on the project impacts as well as outcomes of workshops that have taken place during the period will be included.
Overview of submitted and approved NBSs for implementation during months 15-24Linked to Task 2.1 Selection of NBSs to be implemented and Task 2.2 Implementation of demonstration sites and Task 2.3 Implementation of NBS at concept sites. The deliverable gives an overview of NBS approved for implementation during months 15-24 of the project.
Long-term monitoring plans to document effectiveness of NBSThe deliverable will include tailored and feasible monitoring plans for each of the NBS that are implemented at the demonstrator case study sites The monitoring plans will be based on the indicators included in the tailored assessment framework tool input from D41 the most significant indicators from the hazard modelling that has been conducted input from D44 as well as from the monitoring activities that are currently being conducted at some of the case study sites This new deliverable aims to specify the most relevant indicators that can easily be monitored considering site features the resources needed to install and service monitoring stations as well as the frequency at which the monitoring surveys should be conducted The intention is that the site owners can then carrying out NBS monitoring after the completion of the PHUSICOS project
Monitoring & Evaluation scheme to assess stakeholder participation and user satisfaction with Living Labs experience, version 3Linked to Task 33 Capture and leverage existing stakeholder knowledge in an iterative placebased manner for cocreating technical governance learning arena and product innovations and Task 34 Evaluate stakeholder participation and the Living Labs user experienceThis deliverable presents the outline for the monitoring and evaluation scheme elaborated and provided to the facilitators of the Living Labs at the demonstrator and concept case sites The findings of the user satisfaction will be presented in D37
Plan for Mainstreaming NBSs in Europe - Innovative Approaches to reduce risksLinked to Task 84 Exploitation of key results and recommendations The fundamental intention of PHUSICOS is to bring NBS technology and philosophy into the mainstream of risk management for climate change in rural areas Exploitation of these results will be possible by developing interest and trust in these solutions and providing tools knowledge and experience to local organisations authorities and industry to help them develop commercial activities themselvesThe deliverable thus presents a plan for mainstreaming NBSs for consideration by the European authorities The plan will identify replication areas endusers and define the measures needed to actively inform the endusers of PHUSICOS results This is based on a workshopwith multiplier seminars and input from PERC and project networking activities to assess the relevance for NBS in other contexts
Report on lessons learned with Living Labs experience and lesson learned, draftLinked to Task 3.4 Evaluate stakeholder participation and the Living Labs user experience. This deliverable presents the results of the user satisfaction investigation based on the procedures presented in D3.3 and D3.4. The results provide a basis for comparison between the case study sites, and for assessing the Living Labs experience to provide further recommendations.
Opportunities and barriers to NBS at the EU, national, regional and local scales, with suggested reforms and innovationsLinked to Task 52 Scoping study of opportunities and barriers to NBSsThis deliverable identifies institutional legal regulatory social and economic opportunities as well as barriers to NBSs at the EU national regional and local scales
Evaluation of ecosystems and ecosystem services for alternative landscape scenarios with plan designs, draftLinked to Task 4.2 Monitoring of ecosystem services. This deliverable presents an evaluation of the ecosystems for the three demonstrator sites included in PHUSICOS. The report will be updated in M42.
Analysis report on the residual risk, comparing NBSs, grey solutions and other risk reduction measuresLinked to Task 45 Effectiveness of NBSs in comparisonintegration with grey solutions and other risk reduction measures as well as analysis of residual riskThis deliverable presents analyses of the limitations and benefits of NBSs compared to more technical grey infrastructures and other nonphysical risk mitigation measures The work is based on the deliverables D41 D43 D44 and D45
Dissemination and communication plan, version 2Linked to Task 8.1 Design and execute the plan for the dissemination and communication of results and Task 8.Establish and actively use multiple communication channels to include dissemination products. This deliverable presents a dissemination and communication plan, both for internal PHUSICOS matters and for external stakeholders. The plan includes details for all dissemination activities as listed in Part B. The plan will be updated in M36.
Guiding framework to tailored Living Labs establishment at concept and demonstrator case study sitesLinked to Task 3.1 Guide the establishment of tailor made Living Labs structures at demonstrator and concept case study sites. This deliverable presents guidelines with respect to user selection and stakeholder composition for the demonstration sites and case studies, as well as key factors for steering Living Labs in rural settings.
NBS Strategy TestamentLinked to Task 85 Build PHUSICOS LegacyThis deliverable presents a roadmap for PHUSICOS legacy documented in the NBS Strategy Testament It will include formalised commitments between project partners and industry practitioners or contractors to document the progress towards this objective
Governance innovations for the design, financing and implementation of NBS, and their applications to the concept and demonstration projects; accompanied by a Policy BriefLinked to Task 53 NBS Policy Business Forum for Governance InnovationThis deliverable presents the outcomes of the Policy Business Forum PBF which consists of experts and knowledgeable stakeholders at the international European and national scales whose task is to provide input to the project and complement the views and knowledge provided by the predominantly local stakeholders in the demonstration and concept cases
Overview of submitted and approved NBSs for implementation during months 1-14Linked to Task 2.1 Selection of NBSs to be implemented and Task 2.2 Implementation of demonstration sites and Task 2.3 Implementation of NBS at concept sites. The deliverable gives an overview of NBS approved for implementation during months 1-14 of the project.
Innovation Management PlanLinked to Task 1.1 Oversee overall project management, coordination of activities for implementation of NBSs and Task 1.2 Manage financial and administrative activities. This deliverable describes how the coordination of the innovation activities taking place in the work packages will be taken care of. The plan will ensure that the technical innovations of each work package is relevant and appropriate for the intended recipients. The deliverable constitutes milestone MS12.
Report on lessons learned with Living Labs experience and lesson learnedLinked to Task 34 Evaluate stakeholder participation and the Living Labs user experienceThis deliverable presents the results of the user satisfaction investigation based on the procedures presented in D33 The results provide a basis for comparison between the case study sites and for assessing the Living Labs experience to provide further recommendations
Dissemination and Communication Plan, version 1Linked to Task 8.1 Design and execute the plan for the dissemination and communication of results and Task 8.Establish and actively use multiple communication channels to include dissemination products. This deliverable presents a dissemination and communication plan, both for internal PHUSICOS matters and for external stakeholders. The plan includes details for all dissemination activities as listed in Part B. The plan will be updated in M18 and M36.
Evaluation of ecosystems and ecosystem services for alternative landscape scenarios with plan designsLinked to Task 42 Monitoring of ecosystem servicesThis deliverable presents an evaluation of the ecosystems for the three demonstrator sites included in PHUSICOS
Integrated digital shared database/platform for monitoring and early warningLinked to Task 4.3 Co-develop monitoring systems for NBSs with stakeholders and expert. This deliverable presents a complementary monitoring network (baseline monitoring, long-term monitoring and early warning) for demonstrator sites and concept cases.
Learning from NBS implementation barriersThis deliverable will report on a deep dive into selected barriers that have been especially difficult to overcome during the PHUSICOS project period Thus the point of departure is cases of unsuccessful NBS implementation at the PHUSICOS demonstration cases for which three proposed projects have been cancelled and several more are confronting implementation difficulties The deliverable will aim to highlight whether NBS failure can be explained by the same factors as grey infrastructure failure and if not what characteristics differentiate it The deliverable will also highlight what governance innovations can mitigate the barriers and provide enablers Depending on the results from preliminary mapping the deep dive will include interviews with relevant stakeholders with experience from 13 of the implementation barriers i lack of knowledge on NBS effectiveness and longterm cobenefits ii the lack of NBS construction expertise on the part of contractors and iii barriers related to financing and insurance The deliverable will be in two parts i Part 1 would report on barriers to NBS implementation as compared to conventional infrastructure ii Part 2 would report on 13 selected barriers with suggestions on governance innovations to surmount them
Exploitation PlanTask 84 Exploitation of key results and recommendations This deliverable will address how the PHUSICOS results can be used by industry and local authorities to develop new commercial activities building on the techniques solutions and tools developed within PHUSICOS and placed in the public domain
Impact Evaluation ReportLinked to Task 1.1 Oversee overall project management, coordination of activities for implementation of NBSs and Task 1.3 Uphold open communication between partners and with the commission. The deliverable will provide mid-term evaluations of the expected impact of PHUSICOS to assess achievements towards objectives of interest. The evaluation report will then subsequently provide feedback into the short-term indicators specific to each WP. The deliverable constitutes milestone MS13.
Dissemination and communication plan, version 3Linked to Task 81 Design and execute the plan for the dissemination and communication of results and Task 8Establish and actively use multiple communication channels to include dissemination products This deliverable presents a dissemination and communication plan both for internal PHUSICOS matters and for external stakeholders The plan includes details for all dissemination activities as listed in Part B
Monitoring & Evaluation scheme to assess stakeholder participation and user satisfaction with Living Labs experience, version 2Linked to Task 3.3 Capture and leverage existing stakeholder knowledge in an iterative, place-based manner for co-creating technical, governance, learning arena and product innovations and Task 3.4 Evaluate stakeholder participation and the Living Labs user experience. This deliverable presents the outline for the monitoring and evaluation scheme elaborated and provided to the facilitators of the Living Labs at the demonstrator and concept case sites. The findings of the user satisfaction will be presented in D3.5.
Starter Toolbox for Stakeholder knowledge mapping to co-design NBS solutions at case study sitesLinked to Task 3.2 Initiate participatory processes with stakeholders at the case study sites and enable Living Labs to co-design NBS solutions to contribute to territorial cohesion. This deliverable presents guidelines for relevant participatory processes with stakeholders to set up a functioning Living Lab at each of the demonstration and case study sites, including training of the partners at the different sites with regard to Living Lab procedures, stakeholder management tools and other contents according to identified needs.
Comprehensive Framework for NBS assessmentLinked to Task 4.1 Develop assessment tools for the comprehensive framework to evaluate and verify the performance of NBSs. This deliverable presents a review of the state-of-the-art of NBSs and a comprehensive framework to enhance the verification of the performances of NBSs in the management risk processes.
Technical training for private companies and public authorities for NBS implementationsThis deliverable will summarise the training activities that will be conducted for public and private organisations that are working to reduce the risk of natural hazards in the mountain area with the Pyrenees demonstrator case study site as an example The specific training that will be conducted is targeting i private companies specialized in wooden works ii private companies specialized in construction works and iii public technicians bodies specialized on roads infrastructure and forest management The intention is to strengthen the knowledge and confidence in the use of wooden structures prototypes and local materials to improve the protective role of the forest
Linked to Task 7.2 Map existing data platforms and analysis of NBSs. This deliverable will map existing data platforms and identify knowledge gaps required for evaluating the NBS.
Hazard and risk maps to illustrate flood patterns and debris flows for different climate scenarios at demonstrator sites and concept casesLinked to Task 4.4 Modelling changing pattern of hazard and risk and identifying the return period of the extreme events that the NBSs could safely withstand.This deliverable presents a set of risk maps computed from slope stability and flood maps for identifying all possible impacts – mitigated or not by NBSs – at considered sites.
Web-based tool – module 1 (Inventory of NBSs)Linked to Task 7.1 Collect information on all NBSs related to DRR associated with extreme hydro-meteorological events in mountain landscapes. This deliverable presents an inventory of NBSs, based on an open-source database management system, where semantic, documentary, photographic and cartographic information will be stored.
Web-based tool - module 4 (Long-term support)Linked to Task 7.3 Co-develop with stakeholders a web-based tool for demonstrating and maintaining data for NBSs.This deliverable includes a final web-based tool for demonstrating and maintaining data for NBSs based on testing with stakeholders. The long-term maintenance platform will be established and collaboration presented in the deliverable.
The PHUSICOS game - A Complex Social-Ecological Simulation on NBS, with facilitation instructions and materialsLinked to Task 6.3 Explore an alternative learning platform based on social-ecological systems simulation (or serious games) to be co-developed with stakeholder.This deliverable contains an initial game prototype developed and tested interfacing with 1-2 selected Living Lab stakeholder processes. The product, an NBS simulation gane, will be used as an innovative topol to actively engage end-users and stakeholders to explore the potential and implementation challenges of NBSs, or, alternatively, as a collective self-reflection process leading to the understanding of unspoken assumptions guiding decisions and actions around NBS.
Slideshow to promote sustainable NBSsLinked to Task 8.3 Plan and execute outreach event. This deliverable presents a slideshow for promoting NBSs to a broader audience, including stakeholder integration workshops, European multiplier seminars, and International Public Conference.
Web-based tool - module 3 (Design)Linked to Task 7.3 Co-develop with stakeholders a web-based tool for demonstrating and maintaining data for NBSs.This deliverable includes a web-based tool for demonstrating and maintaining data for NBSs giving input from stakeholders to enhance that the tool meets standards of responsive design.
Linked to Task 2.2 Implementation of NBSs at demonstrator sites and Task 2.3 Implementation of NBSs at concept sites.This deliverable visually presents the NBS implemented at the various PHUSICOS Demonstration and case study sites.
Linked to Task 8.2 Establish and actively use multiple communication channels to include dissemination products.. This deliverable includes the project web site.
Training programme on costs and risks of NBSs - webinar with training materialLinked to Task 61 Codevelop a training programme for local authorities and decisionmakers on costs and risksA review of project design practices implementation laws and feasibility studies will be conducted to provide an overview over implementation procedures biding laws and responsibility among different authorities It is expected that the risk modelling WP4 the NBS overview database WP7 and the governance models for designing financing and implementing NBS WP5 will provide valuable input to the review The deliverable presents a training programme for local authorities and decisionmakers on costs and risks based on the review of best practices
Training video for local contractorsLinked to Task 62 Codevelop a communication and training programme to teach local practitioners how to implement and maintain the NBSsThis deliverable includes a video with a communication and training programme geared to teach the local developers and contractors on how to implement and maintain the NBSs
Publications
Auteurs:
Francesco Pugliese, Gerardo Caroppi, Aude Zingraff-Hamed, Gerd Lupp, Maurizio Giugni
Publié dans:
Environmental Sciences Proceedings, Numéro 2/1, 2020, Page(s) 30, ISSN 2673-4931
Éditeur:
MDPI
DOI:
10.3390/environsciproc2020002030
Auteurs:
Kondolf, G.M., Descombes, G., Zingraff‐Hamed A.
Publié dans:
Landscape Architecture Frontiers, Numéro 7(4), 2021, Page(s) 10-27, ISSN 2095-5413
Éditeur:
Higher Education Press
DOI:
10.15302/j‐laf‐1‐020051
Auteurs:
Aude Zingraff-Hamed, Fritz Niklas George, Gerd Lupp, Stephan Pauleit
Publié dans:
Urban Forestry & Urban Greening, Numéro 67, 2022, Page(s) 127444, ISSN 1618-8667
Éditeur:
Urban & Fischer Verlag
DOI:
10.1016/j.ufug.2021.127444
Auteurs:
Lupp, Gerd; Huang, Joshua J.; Zingraff-Hamed, Aude; Oen, Amy M P; Del Sepia, Nicola; Martinelli, Alberto; Lucchesi, Massimo; Knutsen, Turid Wullf; Olsen, Mari; Fjøsne, Trine Frisli; Balaguer, Eva-Maria; Arauzo, Idoia; Solheim, Anders; Kalsnes, Bjørn; Pauleit, Stephan
Publié dans:
Frontiers in Environmental Science, Numéro 9, 2021, ISSN 2296-665X
Éditeur:
Frontiers
Auteurs:
Conitz, F., Zingraff‐Hamed A., Lupp, G., Pauleit, S.
Publié dans:
Hydrology, Numéro 8(4), 2021, Page(s) 167, ISSN 2306-5338
Éditeur:
MDPI
DOI:
10.3390/hydrology8040167
Auteurs:
Gerardo Caroppi; Francesco Pugliese; Carlo Gerundo; Francesco De Paola; Marialuce Stanganelli; Gianfranco Urciuoli; Farrokh Nadim; Amy Oen; Pilar Andrés; Maurizio Giugni
Publié dans:
Journal of Environmental Planning and Management, Numéro 8, 2023, ISSN 0964-0568
Éditeur:
Carfax Publishing Ltd.
DOI:
10.1080/09640568.2023.2166818
Auteurs:
Linnerooth‐Bayer, J.
Publié dans:
Risk Analysis, Numéro 41(6), 2021, Page(s) 866‐ 869, ISSN 1539-6924
Éditeur:
Wiley
DOI:
10.1111/risa.13750
Auteurs:
Mohammad Aminur Rahman Shah, Jiren Xu, Francesca Carisi, Francesco De Paola, Silvana Di Sabatino, Alessio Domeneghetti, Carlo Gerundo, Alejandro Gonzalez-Ollauri, Farrokh Nadim, Natasha Petruccelli, Annemarie Polderman, Francesco Pugliese, Beatrice Pulvirenti, Paolo Ruggieri, Giuseppe Speranza, Elena Toth, Thomas Zieher, Fabrice G. Renaud
Publié dans:
International Journal of Disaster Risk Reduction, 2023, ISSN 2212-4209
Éditeur:
Elsevier Limited
DOI:
10.1016/j.ijdrr.2023.103771
Auteurs:
Liu, W.
Publié dans:
Landscape Architect Fronteirs, Numéro 7(3), 2019, Page(s) 8-11, ISSN 2095-5413
Éditeur:
Higher Education Press
DOI:
10.15302/j‐laf‐1‐010002
Auteurs:
Zingraff‐Hamed A., Serra‐Llobet, A., Kondolf, G.M.
Publié dans:
Frontiers in Sustainable Cities, Numéro 4, 2022, ISSN 2624-9634
Éditeur:
Fronteirs
DOI:
10.3389/frsc.2022.907044
Auteurs:
Lisa-Maria Ohler, Stefan Haselberger, Stefan Janssen, Jan-Christoph Otto, Sabine Kraushaar, Robert R. Junker
Publié dans:
Basic and Applied Ecology, 2023, ISSN 1439-1791
Éditeur:
Elsevier BV
DOI:
10.1016/j.baae.2023.05.008
Auteurs:
Francesca Perosa, Laura Felicia Seitz, Aude Zingraff-Hamed, Markus Disse
Publié dans:
Environmental Science & Policy, Numéro 135, 2022, Page(s) 191-206, ISSN 1462-9011
Éditeur:
Elsevier BV
DOI:
10.1016/j.envsci.2022.05.004
Auteurs:
Audrey Baills, Manuel Garcin, Séverine Bernardie
Publié dans:
Sustainability, Numéro 13/3, 2021, Page(s) 1094, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13031094
Auteurs:
Laddaporn Ruangpan; Zoran Vojinovic; Silvana Di Sabatino; Laura S. Leo; Vittoria Capobianco; Amy M. P. Oen; Michael E. McClain; Elena Lopez-Gunn
Publié dans:
Nat. Hazards Earth Syst. Sci., Numéro 9, 2020, ISSN 1561-8633
Éditeur:
Copemicus Gesellschaften
DOI:
10.5194/nhess-2019-128
Auteurs:
Gerd Lupp, Aude Zingraff-Hamed, Josh J. Huang, Amy Oen, Stephan Pauleit
Publié dans:
Sustainability, Numéro 13/1, 2021, Page(s) 188, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13010188
Auteurs:
Zingraff‐Hamed, A., Martin, J., Lupp, G., Linnerooth‐Bayer, J., & Pauleit, S.
Publié dans:
Landscape Architecture Frontiers, Numéro 7(3), 2019, Page(s) 12-31, ISSN 2095-5413
Éditeur:
Higher Education Press
DOI:
10.15302/j-laf-1-020003
Auteurs:
Pilar Andrés, Enrique Doblas-Miranda, Stefania Mattana, Roberto Molowny-Horas, Jordi Vayreda, Moisès Guardiola, Joan Pino, Javier Gordillo
Publié dans:
Sustainability, Numéro 13/4, 2021, Page(s) 1913, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13041913
Auteurs:
James M. Strout, Amy M. P. Oen, Bjørn G. Kalsnes, Anders Solheim, Gerd Lupp, Francesco Pugliese, Séverine Bernardie
Publié dans:
Sustainability, Numéro 13/2, 2021, Page(s) 986, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13020986
Auteurs:
Andrew M. Cunliffe; Karen Anderson; Fabio Boschetti; Richard E. Brazier; Hugh A. Graham; Isla H. Myers-Smith; Thomas Astor; Matthias M. Boer; Leonor Calvo; Patrick E. Clark; Michael D. Cramer; Miguel S. Encinas-Lara; Stephen M. Escarzaga; José Manuel Fernández-Guisuraga; Adrian Fisher; Kateřina Gdulová; Breahna M. Gillespie; Anne Griebel; Niall P. Hanan; Muhammad S. Hanggito; Stefan Haselberge
Publié dans:
Remote Sensing in Ecology and Conservation, Numéro 8(1), 2021, Page(s) 57-71, ISSN 2056-3485
Éditeur:
WIley
DOI:
10.1002/rse2.228
Auteurs:
Francesco Pugliese; Gerardo Caroppi; Aude Zingraff-Hamed; Aude Zingraff-Hamed; Gerd Lupp; Carlo Gerundo
Publié dans:
Aqua‐Water infrastructure ecosystems and society, Numéro 71(1), 2022, Page(s) 42-61, ISSN 2709-8028
Éditeur:
IWA Publishing
DOI:
10.2166/aqua.2021.101
Auteurs:
Anders Solheim, Vittoria Capobianco, Amy Oen, Bjørn Kalsnes, Turid Wullf-Knutsen, Mari Olsen, Nicola Del Seppia, Idoia Arauzo, Eva Garcia Balaguer, James Michael Strout
Publié dans:
Sustainability, Numéro 13/3, 2021, Page(s) 1461, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13031461
Auteurs:
Serra-Llobet, Anna and Jähnig, Sonja C. and Geist, Juergen and Kondolf, G. Mathias and Damm, Christian and Scholz, Mathias and Lund, Jay and Opperman, Jeff J. and Yarnell, Sarah M. and Pawley, Anitra and Shader, Eileen and Cain, John and Zingraff-Hamed, Aude and Grantham, Theodore E. and Eisenstein, William and Schmitt, Rafael
Publié dans:
Frontiers in Environmental Science, Numéro 9, 2022, ISSN 2296-665X
Éditeur:
Fronteirs
DOI:
10.3389/fenvs.2021.778568
Auteurs:
Francesca Perosa, Marion Gelhaus, Veronika Zwirglmaier, Leonardo F. Arias-Rodriguez, Aude Zingraff-Hamed, Bernd Cyffka, Markus Disse
Publié dans:
Sustainability, Numéro 13/3, 2021, Page(s) 1482, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13031482
Auteurs:
Francesca Perosa, Sami Fanger, Aude Zingraff-Hamed, Markus Disse
Publié dans:
Science of The Total Environment, Numéro 777, 2021, Page(s) 146062, ISSN 0048-9697
Éditeur:
Elsevier BV
DOI:
10.1016/j.scitotenv.2021.146062
Auteurs:
Lisa-Maria Ohler; Sarah Seeleitner; Stefan Haselberger; Sabine Kraushaar; Jan-Christoph Otto; Birgit Mitter; Robert R. Junker
Publié dans:
Alp Botany, Numéro 1, 2021, Page(s) 301-314, ISSN 1664-221X
Éditeur:
Springer
DOI:
10.1007/s00035-021-00273-8
Auteurs:
Barbara Schröter, Aude Zingraff-Hamed, Edward Ott, Joshua Huang, Frank Hüesker, Claire Nicolas, Nadine Jenny Shirin Schröder
Publié dans:
Science of The Total Environment, Numéro 762, 2021, Page(s) 143074, ISSN 0048-9697
Éditeur:
Elsevier BV
DOI:
10.1016/j.scitotenv.2020.143074
Auteurs:
Juliette G. C. Martin, Anna Scolobig, JoAnne Linnerooth-Bayer, Wei Liu, Jörg Balsiger
Publié dans:
Sustainability, Numéro 13/4, 2021, Page(s) 1971, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13041971
Auteurs:
Aude Zingraff-Hamed, Frank Hüesker, Christian Albert, Mario Brillinger, Joshua Huang, Gerd Lupp, Sebastian Scheuer, Mareen Schlätel, Barbara Schröter
Publié dans:
Ambio, 2020, ISSN 0044-7447
Éditeur:
Kungliga Vetenskapsakademien/Royal Swedish Academy of Sciences
DOI:
10.1007/s13280-020-01412-x
Auteurs:
Ulrich Zangerl; Stefan Haselberger; Sabine Kraushaar
Publié dans:
Remote Sensing, Numéro 14 (19), 2022, Page(s) 4919, ISSN 2072-4292
Éditeur:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/rs14194919
Auteurs:
Martin, J.G.C.; Scolobig, A.; Pelling, M.; Linnerooth-Bayer, J.; Deubelli, T.; Liu, W.; Oen, A.
Publié dans:
Regional Environmental Change, Numéro 23(2), 2023, Page(s) 69, ISSN 1436-3798
Éditeur:
Springer Verlag
DOI:
10.1007/s10113-023-02066-7
Auteurs:
Karl Wantzen, Carlos Alves, Sidia Badiane, Raita Bala, Martín Blettler, Marcos Callisto, Yixin Cao, Melanie Kolb, G. Kondolf, Marina Leite, Diego Macedo, Obaidullah Mahdi, Moana Neves, M. Peralta, Vincent Rotgé, Guillermo Rueda-Delgado, Andres Scharager, Anna Serra-Llobet, Jean-Louis Yengué, Aude Zingraff-Hamed
Publié dans:
Sustainability, Numéro 11/18, 2019, Page(s) 4975, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su11184975
Auteurs:
Aude Zingraff-Hamed, Mathieu Bonnefond, Sebastien Bonthoux, Nicolas Legay, Sabine Greulich, Amélie Robert, Vincent Rotgé, José Serrano, Yixin Cao, Raita Bala, Alvin Vazha, Rebecca E. Tharme, Karl M. Wantzen
Publié dans:
Sustainability, Numéro 13/5, 2021, Page(s) 2864, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13052864
Auteurs:
Elisa Calliari, Sergio Castellari, McKenna Davis, Joanne Linnerooth-Bayer, Juliette Martin, Jaroslav Mysiak, Teresa Pastor, Emiliano Ramieri, Anna Scolobig, Marjolein Sterk, Clara Veerkamp, Laura Wendling, Marianne Zandersen
Publié dans:
Climate Risk Management, Numéro 37, 2022, Page(s) 100450, ISSN 2212-0963
Éditeur:
Elsevier
DOI:
10.1016/j.crm.2022.100450
Auteurs:
Enu, K. B., Zingraff-Hamed, A., Rahman, M. A., Stringer, L. C., and Pauleit, S.
Publié dans:
Nat. Hazards Earth Syst. Sci., Numéro 23, 2022, Page(s) 481-505, ISSN 1684-9981
Éditeur:
Copernicus
DOI:
10.5194/nhess-23-481-2023
Auteurs:
Stefan Haselberger, Lisa‐Maria Ohler, Robert R. Junker, Jan‐Christoph Otto, Thomas Glade, Sabine Kraushaar
Publié dans:
Earth Surface Processes and Landforms, 2021, ISSN 0197-9337
Éditeur:
John Wiley & Sons Inc.
DOI:
10.1002/esp.5136
Auteurs:
Aude Zingraff-Hamed, Frank Hüesker, Gerd Lupp, Chloe Begg, Josh Huang, Amy Oen, Zoran Vojinovic, Christian Kuhlicke, Stephan Pauleit
Publié dans:
Sustainability, Numéro 12/20, 2020, Page(s) 8625, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su12208625
Auteurs:
Zingraff-Hamed, Aude, Lupp, Gerd, Bäumler, Klaus, Huang, Joshua, Pauleit, Stephan
Publié dans:
River culture: life as a dance to the rythm of the waters, 2023, Page(s) 611-636
Éditeur:
UNESCO
Auteurs:
Scolobig A..
Publié dans:
2022
Éditeur:
Italian National Research Center
DOI:
10.26324/sia1.pns
Auteurs:
Antonio Pignalosa; Nicola Silvestri; Francesco Pugliese; Carlo Gerundo; Nicola Del Seppia; Massimo Lucchesi; Francesco De Paola
Publié dans:
Environmental Sciences Proceedings, Numéro 21(1), 2022
Éditeur:
MDPI
DOI:
10.3390/environsciproc2022021044
Auteurs:
Gerwien Veronika
Publié dans:
2020
Éditeur:
TUM
Auteurs:
Nina Biburger
Publié dans:
2021
Éditeur:
TUM
Auteurs:
Sumaiyya Saleem
Publié dans:
2021
Éditeur:
TUM
Auteurs:
Fabiana Siciliano
Publié dans:
2022
Éditeur:
UNINA
Auteurs:
Tibel, Malin
Publié dans:
2019
Éditeur:
TUM
Auteurs:
Mariana Carballo Nieto
Publié dans:
2022
Éditeur:
TUM
Auteurs:
Antonella Sollo
Publié dans:
2022
Éditeur:
UNINA
Auteurs:
Maria Fulvia Ridente
Publié dans:
2022
Éditeur:
UNINA
Auteurs:
Felix Conit
Publié dans:
2022
Éditeur:
TUM
Auteurs:
Sami Fanger
Publié dans:
2020
Éditeur:
TUM
Auteurs:
Katrin Koch
Publié dans:
2022
Éditeur:
TUM
Auteurs:
Ramirez, Dayana
Publié dans:
2019
Éditeur:
TUM
Auteurs:
Jones, Chelsea
Publié dans:
2019
Éditeur:
TUM
Auteurs:
Felix Lichtenstern
Publié dans:
2022
Éditeur:
TUM
Auteurs:
Onero, Serena
Publié dans:
2018
Éditeur:
UNINA
Auteurs:
Antonia Riedel
Publié dans:
2022
Éditeur:
TUM
Auteurs:
Linnerooth‐ Bayer J. (contributing author)
Publié dans:
2020
Éditeur:
IIASA
DOI:
10.22022/tnt/07-2020.16533
Auteurs:
Linnerooth‐ Bayer J. (chapter lead author)
Publié dans:
2022, ISBN 9789212320281
Éditeur:
UNDRR
Auteurs:
Gerd Lupp, Aude Zingraff-Hamed
Publié dans:
Sustainability, Numéro 13/6, 2021, Page(s) 3012, ISSN 2071-1050
Éditeur:
MDPI Open Access Publishing
DOI:
10.3390/su13063012
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