NASA – National Aeronautics and Space Administration
NASA and other federal agencies are using satellites that circle the Earth to help weed out a plant that’s affecting water supplies in the U.S. west.
Image left: Researchers use satellites to measure sunlight reflected off plants and their environments in which they are growing. The changing colors of the Tamarisk, or saltcedar, plant aided researchers in creating the National Tamarisk Map. Click on image to view full resolution.
NASA has been using its satellite and computer resources to help other organizations control invasive plant species. An “invasive species” is a non-native or alien to the ecosystem in which itвЂ™s found. Often, invasive species cause economic or environmental harm or harm to human health. Invasive species can be plants, animals, and other organisms (e.g., microbes). Human actions are the primary means of invasive species introductions.
Invasive plant species traditionally are located, identified and monitored by manual ground surveys. Such surveys are effective, but expensive, time consuming and difficult to manage over large areas. Now, a new tool developed by the U.S. Geological Survey (USGS) is taking advantage of observations from NASA satellites and NASA engineering to provide a service for land managers that predicts quickly and inexpensively the location and spread of invasive plants over regional areas. The tool, called the Invasive Species Forecasting System (ISFS) was recently used to make the first predictive map of tamarisk habitat in the United States.
Image right: Experts estimate that one large tamarisk plant has the potential to absorb up to 200 gallons of water per day вЂ“ thatвЂ™s twice the amount the average person uses in the same timeframe. Click on image to view full resolution.
Tamarisk is a large shrub to small tree native to Africa and Eurasia. It was introduced in the western U.S. in the early 1800s as “ornamental vegetation” and for wind and erosion control. Tamarisk has since spread and can be found from Minnesota to California and from Mexico to Canada. The U.S. Department of Agriculture recently identified tamarisk as one of the most harmful invasive species in the nation, because the plantвЂ™s long roots tap into underground aquifers. Its groundwater-absorbing qualities may be adding to the severity of the drought in the western U.S. Tamarisk also increases the salt concentration of the soil and degrades habitats for native species along river systems.
“The ISFS combines NASA satellite data with tens of thousands of field sampling measurements,” said Tom Stohlgren, director of the USGS NIISS. All of that data are then used to look at where non-native (or plants that normally don’t grow in a place) existed in the past, or where they exist today. Then, the ISFS tool can help predict where the invasive plants may grow or spread. People that manage lands, especially water supplies in the U.S. west, can use the color-coded maps that the ISFS produces to help predict and manage the spread of troublesome invasive species.
Image left: Researchers now estimate that tamarisk has infested more than 3.3 million acres in the western United States. With the invasion spreading like wildfire, this invasive poses a serious threat to the WestвЂ™s water supply. Click on image to view full resolution.
ISFS uses data from NASAвЂ™s Terra, Aqua, and Earth Observing-1 satellites, and the USGS Landsat satellites, together with field data from government and non-government contributors. All of these satellites observe and measure sunlight reflected by plants and the environments in which they are growing. The satellites are able to “lock in” on some of the reflected light to determine tamariskвЂ™s current locations as well as places where it may spread.
“Satellite data and computer modeling helps us understand where tamarisk is likely to be growing, even in remote locations that field researchers cannot easily reach,” said John Schnase, principal investigator of the ISFS project at NASAвЂ™s Goddard Space Flight Center in Greenbelt, Md.
Currently, USGS is using the ISFS to predict the spread of other species such as cheatgrass, Canadian star thistle, and certain aquatic species.
NASA – National Aeronautics and Space Administration Feature NASA and other federal agencies are using satellites that circle the Earth to help weed out a plant that’s affecting water
Did NASA Discover a New Planet Covered with Marijuana?
Planet X637Z-43 is reportedly a natural habitat for pot.
- Dan Evon
- David Mikkelson
- Published 28 May 2015
NASA has discovered a new planet covered in marijuana.
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On 2015, the web site published an article reporting that NASA had discovered a new planet completely covered in marijuana:
NASA discovers new planet covered with marijuana
NASA has announced this morning that they have discovered a planet completely covered with marijuana, a discovery that has completely taken scientists by surprise.
Planet X637Z-43, discovered using NASA’s Kepler satellite, would also allegedly be one of the very few planets potentially habitable according to NASA experts, who have detected sufficient levels of oxygen and nitrogen to support human life.
The presence of marijuana on other planets could strongly encourage future generations to take interest in space exploration, some experts believe.
“We always think young people aren’t interested by anything but it’s false. Young people love smoking pot,” explains David Charbonneau, astronomer at the Harvard-Smithsonian Center for Astrophysics.
There was no truth to this report, however. It originated with NewswWatch28, a junk news site that previously published fabricated clickbait stories about tranquilizer darts being sold for use on children and a death hoax concerning actor Al Pacino.
Sorry, but Planet X637Z-43 doesn't exist and therefore isn't a natural habitat for pot.