.国产短视频

国产短视频

国产短视频College of Marine Science

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Measuring biodiversity from space

NASA scientists use satellites to map the vegetation index, which is the "greenness" of all of the land on Earth. Dark green areas indicate a lot of green leaf growth; light greens show where there was some green leaf growth; and tan areas show little or no growth. Black means no data. Credit: NASA

NASA scientists use satellites to map the vegetation index, which is the "greenness" of all of the land on Earth. Dark green areas indicate a lot of green leaf growth; light greens show where there was some green leaf growth; and tan areas show little or no growth. Black means no data. Credit: NASA

Written by Kristen Kusek, Former Communications Director for 国产短视频CMS

Scientists have warned us for years that we could be entering the sixth mass extinction event in planetary history 鈥 this time, caused by human activities. Escalating biodiversity loss threatens valuable ecosystem services and human well-being, from agriculture and fisheries, medicines and tourism.

We know that our activities are causing the extinction of some plant and animals species on the planet. But monitoring and measuring biodiversity over any region and across the planet is hard to do. It鈥檚 a bit like trying to measure how many grams of sugar are in a pitcher of lemonade when the pitcher is leaking.

Complicating matters is the fact that scientists have different ways to measure and report on biodiversity, from a genetic level and classical taxonomy to measuring  diversity of a whole ecosystem .

In a new publication in , a team led by Prof Dr. Andrew Skidmore from the University of Twente in the Netherlands share a new tool to add to the biodiversity toolkit: measuring biodiversity from space.

The team, which includes Dr. Frank Muller-Karger from the 国产短视频College of Marine Science, identified 120 essential variables that can be measured using satellite remote sensing data, such as land cover and ecosystem disturbances (e.g., how the land cover changes after a forest fire).

鈥淭his new method significantly enhances what we can see from field work on the ground, in our rivers, lakes, and in the ocean,鈥 said Muller-Karger. 鈥淲e still have a lot to do to refine the idea that we can measure the diversity of life from cameras orbiting the Earth, but it鈥檚 a great step forward at a time when we need it the most.鈥

From space, satellites can see Earth breathe. A new NASA visualization shows 20 years of continuous observations of plant life on land and at the  ocean鈥檚 surface, from September 1997 to September 2017. On land, vegetation appears on a scale from brown (low vegetation) to dark green (lots  of vegetation); at the ocean surface, phytoplankton are indicated on a scale from purple (low) to yellow (high). This visualization was created with  data from satellites including SeaWiFS, and instruments including the NASA/NOAA Visible Infrared Imaging Radiometer Suite and the Moderate  Resolution Imaging Spectroradiometer. Credit: NASA

From space, satellites can see Earth breathe. A new NASA visualization shows 20 years of continuous observations of plant life on land and at the ocean鈥檚 surface, from September 1997 to September 2017. On land, vegetation appears on a scale from brown (low vegetation) to dark green (lots of vegetation); at the ocean surface, phytoplankton are indicated on a scale from purple (low) to yellow (high). This visualization was created with data from satellites including SeaWiFS, and instruments including the NASA/NOAA Visible Infrared Imaging Radiometer Suite and the Moderate Resolution Imaging Spectroradiometer. Credit: NASA

The method isn鈥檛 fool-proof. Genetic composition cannot be assessed using satellite data, for example.  Also, changes in biodiversity can occur in different places and overtime, which is tough to do from space.

鈥淚t鈥檚 relatively easy to measure land cover in an area with a satellite and also how this changes over time. But we cannot operationally measure species abundance from space,鈥 said Skidmore. Muller-Karger focuses much of his work on helping stand up a (MBON) to measure similar changes in coastal and marine areas around the US and working with international teams.

There is a gap in the work of ecologists, who developed ways to measure biodiversity, and remote sensing specialists, said Skidmore. Ecologists know what to look for to monitor biodiversity change, but often do not have the knowledge of remote sensing scientists and engineers about which products can be practically mapped from space.

鈥淏oth groups have to agree on what remote sensing products we have to focus on,鈥 says Skidmore.

*This story leveraged information in the original press release written by the University of Twente.

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