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Volume 2, Issue 2, June 2017
General circulation models (GCMs) are essential tools for understanding climate behavior and projecting future global climate, but with limited applications for local vulnerability assessments, impact studies, and risk analyses.
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Volume 2, Issue 1, November 2016
Recently, corn farmers in Abuan Watershed and Isabela Province are experiencing declining crop yields caused by insufficient amount of rainfall. To increase crop yields and reduce production risks, research on better use of available rainfall and better understanding on effects of climate variability, and soil and field management on crop production is imperative.
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Volume 2, Issue 1, November 2016
Lately, the humanitarian community has been utilizing crowdsourcing to facilitate medical and disaster response. Grounded in Geiger et al.’s (2011) Crowdsourcing Information Systems (CIS) and Suroweicki’s (2004) Wisdom of the Crowds (WC), this study content-analyzed 23 humanitarian crowdsourcing websites to find out how crowdsourcing has enabled medical and disaster response, as evident in global humanitarian movements from 2010 to 2014.
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Volume 1, Issue 1, January 2016
Recent extreme weather events have brought devastating impacts on people’s lives and infrastructure in many parts of the world. The scale of the impact of Typhoon Haiyan in the Philippines revealed a high degree of vulnerability and exposure of coastal communities to extreme events in a region that is regularly hit by tropical cyclones.
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Volume 1, Issue 1, December 2015
The destruction left by Typhoon Haiyan in the Philippines highlighted not only the exposure of the country but also the underlying vulnerability of barangays (villages) to climate-related hazards. This study utilized Geographic Information System (GIS) to characterize social vulnerability to climate-related hazards of barangays of Tacloban City and Ormoc City using a modified social vulnerability index (SoVI).
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Volume 1, Issue 1, November 2015
Tacloban City is one of the hardest hit cities of the 2013 Super Typhoon Haiyan. Aside from the recorded thousands of death, Haiyan is predicted to have altered the terrestrial ecology of the affected area. In particular, this study investigated the probable impact on water resources as a result of the change in forest cover resulting from Haiyan.
