Bacteria in plants may cause hailstones
 

Thursday, May 26, 2011 , by AFP
Bacteria in plants may cause hailstones

The plant pathogen known as Psuedomonas syringae. Its outer surface is
very efficient at collecting water molecules around it. Below: Remnant
ice particles after a hail storm.
Hail storms seem to arise out of nowhere, leaving those pummelled by
the coin- to fist-sized ice balls to wonder how they came to be.

US scientists said plant bac-teria may be to blame.

A Montana scientist collected some large hailstones measuring more
than five centimetres in diameter after a June storm last year, froze
them, and later analysed the water that melted away in layers.

“Bacteria have been found within the embryo, the first part of a
hailstone to develop,” said Alexander Michaud of Montana State
University in Bozeman, who presented the research at a meeting of
microbiologists in New Orleans.

“The embryo is a snapshot of what was involved with the event that
initiated growth of the hailstone,” said Dr Michaud, a lead researcher
in the field of bio-precipitation, the study of how bacteria may cause
rain, snow and hail.

In order for clouds to make ice, from which snow can fall, a particle
must be present for the ice crystals to grow around, known as an ice
nucleus.

“In order for precipitation to occur, a nucleating particle must be
present to allow for aggre-gation of water molecules,” said Dr
Michaud.

“There is growing evidence that these nuclei can be bacteria or other
biological particles.”

A plant pathogen known as Psuedomonas syringae is commonly at the root
of precipitation events, because its outer surface is so efficient at
collecting water molecules around it, said Brent Christner of
Louisiana State University.

“Ice nucleating strains of P. syringae possess a gene that encodes a
protein in their outer membrane that binds water molecules in an
ordered arrangement,” said Dr Christner, who also presented research
at the American Society for Microbiology in New Orleans.

This provides “a very efficient nucleating template that en-hances ice
crystal formation,” said Dr Christner.