A couple weeks ago I wrote about a radiation spike detected with the http://www.radiationnetwork.com/ monitoring station in Hawaii. At the time a number of commentators indicated that the spike might be a solar flare. On June 22 monitoring equipment in Hawaii picked up a second radiation spike:
Yesterday, June 22nd, our network’s Monitoring Station on the island of Kauai, within the Hawaiian island chain, broadcast yet another Radiation Alert over the Network, at 8:08 A.M. local time – a 3 minute surge of 209, 456, and 186 CPM (Counts per Minute) respectively, accompanied by a generally elevated level leading up to that, and followed by another blip at 2:52 P.M
At the time of the report, no major solar flare activity was impacting the Earth.
http://www.spaceweather.com/...
Radiation network gives some indication why this particular station is picking up fallout.
So the question is, “What is so special about the Kauai station?“. In answer, I think we what have here is “the perfect storm“:
* First, of all the US stations on our network, Kauai is about the closest to Japan, some 3,500 miles away (Anchorage, AK is, too). And as mentioned before, within the Hawaiian chain, Kauai is the “remote outpost” farthest north and west toward Japan, as compared to our stations on Maui and the Big Island. Having said this, while proximity is important, weather patterns are of at least equal importance when considering radiation fallout.
* The Kauai station, situated on the north shore in the community of Princeville, is in a very rainy place, getting about 60 to 80 inches per year. Some other parts of the island are in a rain shadow.
* The radiation detector on the Kauai station is an external probe model, and the wand itself is mounted outdoors, protected under the overhanging eaves of the structure, but readily available to ”sniff” the air, which in this case is often quite wet and occasionally contaminated, apparently.
* The Geiger-Mueller tube used in the probe is of the same pancake design as in the Inspector line of instruments, with a nominal 2″ diameter, finished out with a thin mica end window, categorizing this as an ultra-sensitive Geiger counter capable of detecting low levels of Alpha and Beta radiation, along with Gamma radiation.
So there is your “perfect storm” – in relatively close proximity, amidst a rainy environment, set up for outdoor monitoring, and using an ultra-sensitive detector.
After a little digging around on the radiation network site it seems like that is a spike to 4.56 microsev/hour. For comparison, if that were a sustained reading (which it isn't) residents of Hawaii would receive (4.56 * 24 * 365 / 1000 =) 39.95 milisieverts a year. That is twice the "safe" level of 20 milisieverts used by the Japanese government to define it's evacuation area. I should stress though that one three minute peak reading is not a sustained background count.
The bottom line though is this, we should not have to rely on volunteer station reporting readings in CPM to discover what is going on in Hawaii. The EPA should set up a mobile Radnet detector near this station and make results available in a reporting format understandable to the general public.