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Selection: Marín Ferrer:M [3 articles] 

Publications by author Marín Ferrer:M.
 

Climatological risk: wildfires

  
In Science for disaster risk management 2017: knowing better and losing less, Vol. 28034 (2017), pp. 294-305

Abstract

[Excerpt: Conclusions and key messages] There is a vast amount of information on wildfires at local, regional and global scales. However, problems remain at different scales in terms of harmonising or standardising practices for the assessment and management of wildfire risk. [\n] Resilience theory is providing a suitable framework by which to explain abrupt changes in socioecological systems. The importance of community participation and building social capital through collective learning and governance mechanisms has been highlighted as a required basis for building disaster resilience (Aldunce et al., 2015; Aldunce et al., 2016; Montiel and Kraus, 2010; O’Brien et al., ...

References

  1. SCION, 2009. Fire behavioiur app. https://www.scionresearch.com/research/forest-science/rural-fire-research/tools/fire-behaviour-smartphone-apps .
  2. NFPA, 2016 Firewise Communities Program. http://www.firewise.org/ .
  3. GOV.UK, n.d. LH1: Management of lowland heathlandhttps://www.gov.uk/countryside-stewardship-grants/management-of-lowland-heathland-lh1 .
  4. KWFW, 2014. Wildfire Threat Analysis (WTA):NERC-funded scoping project with Forestry Commission. http://www.kfwf.org.uk/_assets/documents/Wildfire_Threat_Analysis_post-project_report.pdf .
  5. HM Tresaury, 2013. Orange book: management of risk - principles and concepts. https://www.gov.uk/government/publications/orange-book .
  6. Cabinet Office, 2015. National Risk
 

Meteorological risk: extra-tropical cyclones, tropical cyclones and convective storms

  
In Science for disaster risk management 2017: knowing better and losing less, Vol. 28034 (2017), pp. 246-256

Abstract

[Excerpt: Conclusions and key messages] [::Partnership] Collaboration between forecast providers and end users in real time is essential during DRM, since the interpretation of the available information, the uncertainty associated with it and how this changes as new information becomes available should be made in consultation with qualified meteorologists and National Meteorological Services in particular. Information sharing, particularly observational, impact and warning data across national boundaries in real time, is of key importance. Improvements in forecasts will in part be driven by the interaction between fundamental atmosphere and ocean science with operational forecasting, so continued collaboration between forecasting centres and universities and ...

References

  1. AIR Worldwide, 2015. Preparing for Europe's Winter Storm Season with a Look Back at Niklas and Kyrill. http://www.air-worldwide.com/Publications/AIR-Currents/2015/Preparing-for-Europe-s-Winter-Storm-Season-with-a-Look-Back-at-Niklas-and-Kyrill/ .
  2. Anderson, G., Klugmann, D., 2014. A European lightning density analysis using 5 years of ATDnet data. Natural Hazards and Earth System Sciences 14(4), 815-829.
  3. Antonescu, B., Schultz, D.M., Lomas, F., Kühne, T., 2016. Tornadoes in Europe: Synthesis of the observational datasets. Monthly Weather Review.
  4. Bauer, P., Thorpe,
 

The most recent view of vulnerability

  
In Science for disaster risk management 2017: knowing better and losing less, Vol. 28034 (2017), pp. 70-84

Abstract

[Excerpt: Conclusions and key messages] Over the past decades, vulnerability research has made considerable progress in understanding some of the root causes and dynamic pressures that influence the progression of vulnerability and raised awareness that disasters are not natural but predominantly a product of social, economic and political conditions (Wisner et al., 2004). [\n] Vulnerability assessments are a response to the call for evidence by decision- makers for use in pre-disaster risk assessment, prevention and reduction, as well as the development and implementation of appropriate preparedness and effective disaster response strategies by providing information on people, communities or regions at risk. [\n] ...

References

  1. Alexander, D., Magni, M., 2013. Mortality in the L'Aquila ( Central Italy ) Earthquake of 6 April 2009. PLOS Current Disasters, (April 2009).
  2. Alexander, D., 2010. The L'Aquila Earthquake of 6 April 2009 and Italian Government Policy on Disaster Response. Journal of Natural Resources Policy Research, 2(4), 325–342.
  3. Alexander, D., 2013. Resilience and disaster risk reduction: An etymological journey. Natural Hazards and Earth System Sciences, 13 (11), 2707–2716.
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Integrated Natural Resources Modelling and Management - Meta-information Database. http://mfkp.org/INRMM/author/Marín+Ferrer:M

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