Suitcase with corpse inside washes up on shore of Japanâs largest lake Local resident saw suitcase floating in the water days before it reached the shore.
Located in the center of Japanâs main island of Honshu, Shiga Prefectureâs Lake Biwa is the countryâs largest lake. Its scenic coastline, as shown in the photo above, is a soothing sight loved by both locals and tourists alike, but last Friday an 83-year-old resident of the town of Hikone spotted a black cloth suitcase bobbing in the lakeâs waters.
On Monday afternoon he saw the suitcase again, this time having washed up on a stretch of the eastern shore where he and a group of volunteer friends were picking up trash and other debris. Part of the material had been washed away, but they could see that there was something inside, wrapped in a plastic sheet. Curious as to what it contained, they unzipped the suitcase, partially unwrapped the sheet, and were immediately revolted to see a lump of discolored
«زي النهارده» محاولة اغتيال ولي عهد روسيا «حادثة أوتسو» 11 مايو 1891
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130 лет назад в Японии было совершено покушение на Николая II
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Abstract
Particle sorting is a fundamental method in various fields of medical and biological research. However, existing sorting applications are not capable for high-throughput sorting of large-size (>100 micrometers) particles. Here, we present a novel on-chip sorting method using traveling vortices generated by on-demand microjet flows, which locally exceed laminar flow condition, allowing for high-throughput sorting (5 kilohertz) with a record-wide sorting area of 520 micrometers. Using an activation system based on fluorescence detection, the method successfully sorted 160-micrometer microbeads and purified fossil pollen (maximum dimension around 170 micrometers) from lake sediments. Radiocarbon dates of sorting-derived fossil pollen concentrates proved accurate, demonstrating the method’s ability to enhance building chronologies for paleoenvironmental records from sedimentary archives. The method is capable to cover urgent needs for high-throughput large-particle sorting in