Fishing vessel employment agencies and fish processing

Welcome to Molajaya Samudera Crew Management

PT Molajaya Samudera Crew Management is a recruitment and placement company located in Jakarta and Bali, Indonesia.

We have been doing recruitment and placement of highly qualified and experienced Indonesian crew, fishing crew & seafood processor for working on fishing vessel and seafood processing plant in Asia, Australia and Europe for more than 26 years.

We are committed to meet our Principal’s expectation by continuously improve our Quality Management System in order to guarantee the quality and language skill of the crew, fishing crew & seafood processor that we supplied.










Excessive burst swimming impacts on salmon survival


Sockeye salmon. (Photo Credit: Alexandra Morton)
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Tuesday, August 26, 2014, 23:50 (GMT + 9)

Sockeye salmon that sprint to spawning grounds through fast-moving waters may be at risk, suggests new research by University of British Columbia (UBC) scientists.

When salmon encounter turbulent, fast-moving water -- such as rapids or areas downstream of dams -- they must move upstream using a type of behaviour known as “burst swimming,” which is similar to sprinting for humans.

“Days after sockeye passed through extremely fast-moving water, we started to see fish dying only a short distance from their spawning grounds,” said Nicholas Burnett, a research biologist at UBC and lead author of the study, published in Physiological and Biochemical Zoology.

Previous UBC lab research had found that burst swimming requires extra oxygen and energy, creates a build-up of stress metabolites like lactic acid in the blood, and may lead to cardiac collapse or heart attacks. This is the first study to show that excessive burst swimming can impair wild salmon and cause death later on in their migration. This phenomenon is known as ‘delayed mortality.’

Researchers found that fish that chose to burst swim for long periods through the high flows downstream of a dam were more likely to die en route to their spawning grounds, after they passed through the fast flows, than those that chose to swim a bit slower. Burst swimming had a greater impact on female fish, supporting this group’s research that shows female salmon are more sensitive to environmental hardships during migration.

“We now understand how this important but energetically costly swimming behaviour can impact the survival of sockeye during their upstream migration,” said Burnett, who worked on this study as part of his master’s research with UBC Forestry Professor Scott Hinch and Carleton University Professor Steven Cooke.

“Our work demonstrates how important it is for salmon to have easy access around obstacles in the river,” Burnett concluded.
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