عربي English Türkçe اردو فارسى
Logo
Latest News
Varieties

A NASA Spacecraft Will Make Another Close Pass of the Sun

This image made available by NASA shows an artist's rendering of the Parker Solar Probe approaching the Sun. (Steve Gribben/Johns Hopkins APL/NASA via AP, File)
This image made available by NASA shows an artist's rendering of the Parker Solar Probe approaching the Sun. (Steve Gribben/Johns Hopkins APL/NASA via AP, File)
TT
20
TT

A NASA Spacecraft Will Make Another Close Pass of the Sun

This image made available by NASA shows an artist's rendering of the Parker Solar Probe approaching the Sun. (Steve Gribben/Johns Hopkins APL/NASA via AP, File)
This image made available by NASA shows an artist's rendering of the Parker Solar Probe approaching the Sun. (Steve Gribben/Johns Hopkins APL/NASA via AP, File)

A NASA spacecraft will make another close brush with the sun, the second of three planned encounters through the sizzling solar atmosphere.

The Parker Solar Probe made its record-breaking first pass within 3.8 million miles (6 million kilometers) of the scorching sun in December, flying closer than any object sent before.

Plans called for it to attempt that journey again on Saturday. Since the flyby happens out of communication range, the mission team won't hear back from Parker until Tuesday afternoon.

Parker is the fastest spacecraft built by humans, and is once again set to hit 430,000 mph (690,000 kph) at closest approach.

Launched in 2018 to get a close-up look at the sun, Parker has since flown straight through its crownlike outer atmosphere, or corona.

Scientists hope the data from Parker will help them better understand why the sun’s outer atmosphere is hundreds of times hotter than its surface and what drives the solar wind, the supersonic stream of charged particles constantly blasting away from the sun.

Most Viewed

 
Varieties

KAUST: Unexpected Ecosystem Found Deep Below Red Sea Coral Reef

Located in Difat Farasan, also known as the Farasan Bank near the border between Saudi Arabia and Yemen, the deep waters were found to be inhabited by corals, fish, and other marine life not typically expected to survive in environments with such low oxygen and high acidity. (SPA)
Located in Difat Farasan, also known as the Farasan Bank near the border between Saudi Arabia and Yemen, the deep waters were found to be inhabited by corals, fish, and other marine life not typically expected to survive in environments with such low oxygen and high acidity. (SPA)
TT
20
TT

KAUST: Unexpected Ecosystem Found Deep Below Red Sea Coral Reef

Located in Difat Farasan, also known as the Farasan Bank near the border between Saudi Arabia and Yemen, the deep waters were found to be inhabited by corals, fish, and other marine life not typically expected to survive in environments with such low oxygen and high acidity. (SPA)
Located in Difat Farasan, also known as the Farasan Bank near the border between Saudi Arabia and Yemen, the deep waters were found to be inhabited by corals, fish, and other marine life not typically expected to survive in environments with such low oxygen and high acidity. (SPA)

Scientists from Saudi Arabia’s King Abdullah University of Science and Technology (KAUST) and the National Center for Wildlife (NCW) have reported the discovery of an unusual ecosystem beneath the world’s third-largest coral reef system—and the largest in the Red Sea.

Located in Difat Farasan, also known as the Farasan Bank near the border between Saudi Arabia and Yemen, the deep waters were found to be inhabited by corals, fish, and other marine life not typically expected to survive in environments with such low oxygen and high acidity.

According to a statement by KAUST, several of the species displayed unexpected coping strategies in the extreme conditions. Fish exhibited slower swimming patterns, and corals remained healthy despite environmental factors that would normally inhibit the calcification process essential for coral growth and survival.

KAUST Research Scientist Dr. Shannon Klein, who led the study, said: “The ability for these animals to live in warm, oxygen-depleted zones suggests they have an unusual ability to reduce how much oxygen they use to sustain life. This discovery highlights the need for greater marine exploration of deeper layers in tropical coastal areas, as they may hold unexpected ecosystems.”

“Although underwater, fish, corals, and many other sea creatures need oxygen to survive. While their bodies have evolved differently from land animals to metabolize oxygen, they too asphyxiate if oxygen levels drop dangerously low. However, in the Red Sea, there are resistant ecosystems,” Klein added.

“Considering that oxygen depletion in the sea is one consequence of rising temperatures, greater study of how these creatures exist there may help us understand how marine life can withstand the challenges of climate change. Coral reefs usually exist in shallow waters. But the study found depressions that went more than 200 meters deep throughout the Farasan Bank coral reef system,” she said.

CEO of the National Center for Wildlife and contributor to the study Dr. Mohammad Qurban stated: “This research highlights the significance of the Red Sea as a natural laboratory for studying marine resilience. Discovering ecosystems that thrive in extreme conditions expands our understanding of how marine life adapts and reinforces the need for continued exploration and conservation of these unique habitats.”