Utah's Great Salt Lake has an average salinity seven times higher than that of the oceans. Very few multicellular organisms live in this harsh environment. An example is the brine shrimp, which must devote a large portion of its metabolic energy to osmoregulation. These brine shrimp must _____.

When an organism actively regulates the osmotic pressure of the bodily fluids present in the body in order to maintain homeostasis in the body then this is termed as osmoregulation.
Since, the Great salt lake in Utah has a lot of salt in it, the water content in the surroundings of the brine shrimp is much less and hence, the water will move out of the brine shrimp's body as osmosis causes the movement of the water from higher concentration of water to lower concentration of water.
However, movement of water out from shrimp's body would cause it to desiccate and hence, it must have an actively pumping system that pumps the water back into their cells in order to compensate for the water lost due to osmosis.

aliasger2709 aliasger2709 · Answer 2 · 2021-12-17T11:50:48+01:00

The water that comprises a high salt concentration is called salty water. The organism thriving in the such conditions are called halophiles. They can withstand extreme salty circumstances.

The brine shrimps must energetically pump water back into their cells to oppose its loss due to osmosis.

Osmoregulation is the approach by which the dynamic regulation of bodily fluids is done to preserve homeostasis.

The salt content in the Great lake is high and the water concentration is less so water from shrimp will shift towards the more subordinate concentration region of water.

To compensate for the water loss due to osmosis shrimp must actively pump back the water in its body.

To learn about osmoregulation in halophiles follow the link:

https://brainly.com/question/506402