mit-aeroastro-cubesat-study-on-ocean-health-launch

MIT AeroAstro CubeSat Study on Ocean Health Launches

Key Takeaways:

mit-aeroastro-cubesat-study-on-ocean-health-launch

  • AEROS Cubesat has launched to study ocean health, focusing on phytoplankton populations.
  • The satellite aims to improve understanding of climate change and its impact on oceans.
  • Researchers from MIT, NASA, and other institutes collaboratively developed this mission.
  • Different sensors on the satellite will collect data on ocean color and temperature.
  • Tracking phytoplankton can enhance knowledge of marine ecosystems and carbon cycle.

AEROS Cubesat, a small satellite developed by researchers from MIT, NASA, and other institutions, has been launched with the purpose of studying ocean health. The mission specifically focuses on monitoring phytoplankton populations and their interaction with climate change impacts on the world’s oceans. By collecting data on ocean color and temperature using various sensors on the satellite, the team aims to gain insights into phytoplankton distribution, which is crucial for understanding marine ecosystems and the carbon cycle. The launch of AEROS Cubesat represents a collaborative effort to advance scientific knowledge about the oceans and their response to environmental changes.

The satellite’s mission will play a vital role in deepening understanding of phytoplankton behavior and distribution patterns, thereby contributing to a more comprehensive comprehension of oceanic processes. Through the data collected by AEROS Cubesat, scientists will have the opportunity to assess the impact of climate change on phytoplankton, which are essential components of marine ecosystems. This initiative is of paramount importance in the context of climate change research, as phytoplankton play a significant role in regulating the Earth’s atmosphere and carbon cycles. The innovative technology onboard the satellite will enable researchers to gather valuable information that can shape future environmental policies and conservation efforts.

Read the full story by: MIT News