Karnataka woman who ran from home after fight raped by truck driver

Mangaluru, Jan 8: In an operation, forest officials of Puttur has arrested two persons as many elephant tusks at Puduvettu in Belathangadi taluk of Dakshina Kannada.

Forest officials said on Wednesday the accused nabbed last night were identified as PK Dinesh from Madikeri and V Kumar from Hassan district.

Both were caught while trying to sell tusks the value of which was estimated to be lakhs.

Bengaluru, Apr 24: The Karnataka Health Department is likely to shift the 119 accused in Padarayanapura violence to Bengaluru's Haj Bhavan from Ramnagar Jail.

This comes after two accused out of 121, who were shifted to Ramnagar jail, tested positive for coronavirus. They have been shifted to Victoria Hospital.

A ruckus erupted in Padarayanapura on Sunday allegedly over the shifting of 15 secondary contacts of corona positive patients to a quarantine facility by the Bruhat Bengaluru Mahanagara Palike (BBMP) officials.

Padarayanapura is recognised as a 'red zone'. When BBMP officials went to shift the suspected COVID-19 patients, some people created a ruckus, broke a barricade and removed the police post in the area.

The current physical distancing guidelines provided by the World Health Organisation (WHO) and by the US Centers for Disease Control and Prevention (CDC) may not be adequate to curb the coronavirus spread, according to a research which says the gas cloud from a cough or sneeze may help virus particles travel up to 8 metres. The research, published in the Journal of the American Medical Association, noted that the the current guidelines issued by the WHO and CDC are based on outdated models from the 1930s of how gas clouds from a cough, sneeze, or exhalation spread.

Study author, MIT associate professor Lydia Bourouiba, warned that droplets of all sizes can travel 23 to 27 feet, or 7-8 metres, carrying the pathogen.

According to Bourouiba, the current guidelines are based on "arbitrary" assumptions of droplet size, "overly simplified", and "may limit the effectiveness of the proposed interventions" against the deadly pandemic.

 She explained that the old guidelines assume droplets to be one of two categories, small or large, taking short-range semi-ballistic trajectories when a person exhales, coughs, or sneezes.

However based on more recent discoveries, the MIT scientist said, sneezes and coughs are made of a puff cloud that carries ambient air, transporting within it clusters of droplets of a wide range of sizes.

Bourouiba warned that this puff cloud, with ambient air entrapped in it, can offer the droplets moisture and warmth that can prevent it from evaporation in the outer environment.

"The locally moist and warm atmosphere within the turbulent gas cloud allows the contained droplets to evade evaporation for much longer than occurs with isolated droplets," she said.

"Under these conditions, the lifetime of a droplet could be considerably extended by a factor of up to 1000, from a fraction of a second to minutes," the researcher explained in the study.

The MIT scientist, who has researched the dynamics of coughs and sneezes for years, added that these droplets settle along the trajectory of a cough or sneeze contaminating surfaces, with their residues staying suspended in the air for hours.

"Even when maximum containment policies were enforced, the rapid international spread of COVID-19 suggests that using arbitrary droplet size cutoffs may not accurately reflect what actually occurs with respiratory emissions, possibly contributing to the ineffectiveness of some procedures used to limit the spread of respiratory disease," Bourouiba wrote in the study