A new instrument that will provide a unique, space-based measurement of how plants respond to changes in water availability has arrived at NASA's Kennedy Space Center in Florida to begin final preparations for launch to the International Space Station this summer aboard a cargo resupply mission. NASA's ECOsystem Spaceborne Thermal Radiometer Experiment on Space Station (ECOSTRESS) left NASA's Jet Propulsion Laboratory in Pasadena, California, on April 6 by ground transport and arrived at Kennedy Space Center on April 9. A few days after it reaches the space station, ECOSTRESS will be robotically installed on the exterior of the station's Japanese Experiment Module Exposed Facility Unit. ECOSTRESS will give us new insights into plant health by quantifying the temperature of plants from space as never before, measuring regions as small as 230 feet (70 meters) on a side, or about the size of a small farm. It will do this by estimating how much water plants are releasing to cool themselves (i.e., evapotranspiration - the equivalent of sweating in humans). This will tell us how much water different plants use and need, and how they react to environmental stresses caused by water shortages.
ECOSTRESS will estimate how much water moves through and out of plants by tracking how the temperatures of plants change. The data from its minimum one-year mission will be used by ecologists, hydrologists, agriculturalists, meteorologists and other scientists.
"Most satellite measurements of plant surface temperature are made at a particular time of day, often in the mid-morning, when plants are not stressed," said Simon Hook, the project's principal investigator at JPL.
"ECOSTRESS takes advantage of the space station's orbit to obtain measurements at different times of day, allowing us to see how plants respond to water stress throughout the day."
Until now, scientists addressing this question globally have had to estimate how that same-time-of-day snapshot varies over the course of a day. ECOSTRESS promises to eliminate much of this guesswork.
ECOSTRESS is expected to provide key insights into how plants link Earth's global carbon and water cycles. ECOSTRESS data will be used in conjunction with other satellite and ground measurements, such as those from NASA's Orbiting Carbon Observatory-2 satellite.
By doing this, scientists hope to understand more clearly the total amount of carbon dioxide plants remove from the atmosphere during a typical day. In addition, they hope to better identify which areas on the planet require more or less water for the amount of carbon dioxide they take up.
In practical terms, the year of data gleaned from ECOSTRESS will be useful for agricultural water managers. This data should improve our understanding of how certain regions are affected by drought and help agricultural and water management communities better manage water use for agriculture.
The high ground spatial resolution of ECOSTRESS data will be useful for research on the effects of drought on agriculture at the field-scale.
"Most satellite measurements of plant surface temperature are made at a particular time of day, often in the mid-morning, when plants are not stressed," said Simon Hook, the project's principal investigator at JPL.
"ECOSTRESS takes advantage of the space station's orbit to obtain measurements at different times of day, allowing us to see how plants respond to water stress throughout the day."
Until now, scientists addressing this question globally have had to estimate how that same-time-of-day snapshot varies over the course of a day. ECOSTRESS promises to eliminate much of this guesswork.
ECOSTRESS is expected to provide key insights into how plants link Earth's global carbon and water cycles. ECOSTRESS data will be used in conjunction with other satellite and ground measurements, such as those from NASA's Orbiting Carbon Observatory-2 satellite.
By doing this, scientists hope to understand more clearly the total amount of carbon dioxide plants remove from the atmosphere during a typical day. In addition, they hope to better identify which areas on the planet require more or less water for the amount of carbon dioxide they take up.
In practical terms, the year of data gleaned from ECOSTRESS will be useful for agricultural water managers. This data should improve our understanding of how certain regions are affected by drought and help agricultural and water management communities better manage water use for agriculture.
The high ground spatial resolution of ECOSTRESS data will be useful for research on the effects of drought on agriculture at the field-scale.
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