WEBVTT FILE 1 00:00:01.220 --> 00:00:05.640 In 2015, a prolific outbreak of mosquito-borne Dengue Fever 2 00:00:05.640 --> 00:00:12.960 struck Southeast Asia. In fact, something was causing outbreaks to pop up all over the world. 3 00:00:12.960 --> 00:00:15.270 So, what happened? 4 00:00:15.270 --> 00:00:18.520 Two to three months earlier, the ocean water in the equatorial 5 00:00:18.520 --> 00:00:22.490 Pacific began to dramatically warm-up resulting in a cascading series 6 00:00:22.490 --> 00:00:26.560 of events that eventually lead to disease outbreaks worldwide. 7 00:00:26.560 --> 00:00:30.750 This warming event is commonly known as El Nino. 8 00:00:30.750 --> 00:00:32.080 9 00:00:32.080 --> 00:00:35.550 The same El Nino that causes heavy rainfall in some parts of the world 10 00:00:35.550 --> 00:00:44.040 and droughts in others, the 2015-2016 El Nino was the strongest seen in the last 50 years. 11 00:00:44.040 --> 00:00:45.350 Here’s what happened: 12 00:00:45.350 --> 00:00:50.790 The El Nino-Southern Oscillation began showing signs of warming in early 2015. 13 00:00:50.790 --> 00:00:59.310 That led to changes in rainfall worldwide which directly impacted land surface temperatures across all continents. 14 00:00:59.310 --> 00:01:04.250 In the case of Southeast Asia, the region actually got less than average rain 15 00:01:04.250 --> 00:01:09.630 which caused the surface of the land to heat up and therefore produce drier conditions. 16 00:01:09.630 --> 00:01:15.860 That drew mosquitoes into populated, urban areas containing open water they needed for laying eggs. 17 00:01:15.860 --> 00:01:21.730 As the air warmed, mosquitoes grew hungrier and reached sexual maturity faster 18 00:01:21.730 --> 00:01:24.430 …which meant more mosquito bites. 19 00:01:24.430 --> 00:01:28.000 20 00:01:28.000 --> 00:01:31.560 The purple columns represent reported incidents of Dengue Fever. 21 00:01:31.560 --> 00:01:37.050 Mosquito-borne epidemics have a lag time of two to three months following these weather changes 22 00:01:37.050 --> 00:01:43.260 which is why the Dengue Amplification Period kicks in several months after land temperature begins heating up. 23 00:01:43.260 --> 00:01:45.350 The good news? 24 00:01:45.350 --> 00:01:51.000 Seasonal forecasts are an early warning system with the real potential to save lives. 25 00:01:51.000 --> 00:01:56.900 With an assist from scientists, countries can take strategic measures to prevent disease outbreaks 26 00:01:56.900 --> 00:01:59.730 …especially when they know they’re coming. 27 00:01:59.730 --> 00:02:04.257