Will There Be Lunar Water Wars?


How important is the Moon? Well, pretty darn important. Without the Moon we could pretty much say good-bye to life on Earth as we know it. The relationship between the Moon and Earth results in our ocean’s tidal systems. The movement of the ocean oxygenates the waters, keeping them healthy and providing oxygen for all the life living in the seas. This movement is also like an air conditioner for the entire world, moving cold arctic waters throughout warmer ocean regions to cool overall water temperature.  Although the Sun and wind would affect waves and tides, our ocean’s would still see a reduction in tidal movement by about one-third.

Also, if there was no Moon to light up the sky every night, our year would become much longer. That’s because without the gravitational effect of the Moon, the Earth would rotate slower. Days would become shorter, nights longer and a year of 365 days stretch to more than one thousand days.

In addition to helping keep all of Earth’s life-forms alive, the Moon is also a great source for poets, artists, song-writers and conspiracy theorists. Even though we still have the Moon, lunar conspiracy theorists may have to find a new past-time.

The gringa is talking about the conspiracists who believe that the Moon is hollow. The hollow Moon theory came about as a result of some experiments conducted by NASA in 1969 during the Apollo 12 mission. They deliberately crashed a spacecraft on the Moon as part of a geological study to measure the vibrations of the Moon.

After setting up seismographic equipment, the team of astronauts climbed back into their spacecraft. When they reached the right coordinates they jettisoned their lunar module and recorded the seismic results. Impact occurred at nearly 4,000 mph and made an impact crater. Upon impact, the astronauts said that the Moon sounded like a ringing bell with reverberations lasting for about an hour.

Did this ringing sound and vibrations really mean the Moon is hollow? Are these lunar conspiracy theorists on the right track or over-reacting? Watch Vintage Space’s video below and find out.

Well, considering that some go even further and claim that an abandoned space alien spaceship is parked in the center of our “hollow” Moon, the gringa thinks maybe they have gone too far. After all, I don’t think the Moon is a cosmic garage. But it is true that the relationship between the Moon and Earth does contain many unexplained mysteries.

Physicists are puzzled by the size relationship. It’s simply much more enormous than mathematics and physics say it should be. To enjoy such consistency in its orbital and gravitational relationship with Earth, the Moon should be about 40 miles in diameter. The reality is that it’s more than 2,000 miles in diameter.  That makes it about one-fourth the size of Earth.

Hollow Moon theorists claim that because the Moon is actually hollow, it has less mass which solves this physics anomaly. This also feeds their add-on conspiracy that the Moon is artificial, constructed by ancient aliens, and not a natural satellite. But Moon Express will soon be blowing these conspiracies out of the sky.

Moon Express has gotten approval  from the U.S. Federal Aviation Administration (FAA), Department of Defense, NASA, Federal Aviation Authority and the National Oceanic and Atmospheric Administration (NOAA) for a private Moon landing this year which will be the first step toward their goal of mining Moon minerals. The company will not be sending humans with pick-axes and spacesuits. They will engage in robotic mining. The MX-1E lander will launch with the aid of their Electron rocket. Once it lands the MX-1E will explore the Moon with an array of sophisticated instruments.

MX-1E won’t just be collecting geological samples. It will also be searching for water resources. Water will be the single most valuable natural resource on the Moon. It will be critical for future Moon missions as well as deep space missions.

Although it is very good news, indeed, that frozen water was discovered on the Moon, the gringa is very sad to hear one thing about this discovery. The founder of Moon Express, Bob Richards, had this to say,

“Water is the oil of the solar system, and the Moon has become the gas station in the sky.”

Unfortunately, Earthlings have been slaughtering one another and invading one another’s lands, fighting over control of the world’s oil supplies. The gringa hopes that the Moon doesn’t inspire the same kind of behavior. After all, the co-founder of Moon Express explains that space travel is the only way humanity can ensure the survival of the human race. How will we ever survive if we keep killing one another?

Sources:

www.space.com

Moon Express

Silicon Beat

Inside Science

Scientific American

Huffington Post

Express UK

Video Credit:  Vintage Space

Image Credit:  NASA

Tech & Nature – NOT Mutually Exclusive


Common sense might tell you that technology and nature are mutually exclusive. However, the reality is that with climate change poised to revolutionize where humans farm, technology innovators are poised to revolutionize how we farm. And there are all kinds of ideas out there that are as fascinating as they are practical.

Aquaponics is something the gringa would like to try. I have a small tropical fish aquarium I have experimented with over the past year. I feel ready for a greater challenge.  This method will not only provide me with vegetables, but they will be fertilized by the poop produced by the food fish I will also farm in the same tank. An added plus is that my pint sized vegetable patch and fish farm can be an interesting decorative addition to my pint size apartment. This may be the future of urban farming for apartment dwellers.

Easy DIY aquaponics project:

5 best fish for an aquaponics aquarium garden…

 

If you want to take your urban farming further than an apartment patio garden or indoor aquaponics garden, maybe the FarmBot is for you. If you live in a house with outdoor spaces, the FarmBot, which operates on a track system, can easily manage a backyard farm from beginning to end and provide enough fresh fruits and vegetables for a family of four each growing season. It plants seeds, waters and fertilizes each plant according to its variety needs, weeds the garden, and can be controlled from your smartphone or laptop just like playing a video game. The gringa thinks this sounds fun.

 

For larger scale operations, artificial intelligence is taking over all sorts of chores that were once managed by humans. By using cameras and sensors, technology responds to climate conditions to optimize water usage. There is more to collected data than just evaluating rainfall and soil moisture levels. Plants are analyzed down to individual leaves for health and nutrition needs. Clouds are analyzed to predict potential rainfall which might result in delaying a watering activity that might otherwise have been performed, thus conserving one of Earth’s most precious natural resources. For farmers and gardeners interested in the latest sustainable methods. Some of the biggest retailers of agricultural products are being supplied by growers using this kind of technology: Wal Mart, Aldi and Tesco.

A promising future in agriculture awaits our youth who are interested in robotics, technology and saving the world.

Sources: www.kingsroost.com

gardening-abc.com

prospera.ag

Image Credit:  pinimg.com

 

 

Anyone Can Be A NASA Scientist


If the gringa were to attend a NASA recruitment conference, she would be sitting front and center. When the question was asked who would like to work for NASA the gringa would be the first to raise her hand and wave it like a madwoman. When the next question was asked, which would most certainly have something to do with appropriate qualifications and credentials, the gringa would then have to shamefacedly shrink into the background. No prestigious college degree here. But do all of us science fans have to live a life of utter disappointment and complete disenfranchisement of being a contributor to the world’s bank of scientific studies? The gringa is happy to announce that, no, we science buffs who, for whatever reasons, never achieved the glory of a diploma can still participate. NASA has many “citizen scientist” programs from astronomy observances to laboratory inventions of innovative technology. Take your pick. And, if you happen to live in the northeastern United States, you can be a part of a program that monitors algae blooms that develop in Lake Erie.

Your point of contact would be NASA’s senior scientist, Dr. Rafat Ansari. As the originator of the citizen science campaign, Ansari, along with airplane pilot Terry Schubert, work to mobilize citizen volunteers to monitor Lake Erie’s water quality as well as its coastline and conditions in related tributaries and waterways.

The goal of the program is to alert the coastal communities surrounding Lake Erie of conditions that contribute to algae blooms when they are in the early stages of development. Who could be a citizen scientist and participate in scientific service to their community?

  • Pilots
  • Folks handy with a GPS
  • People who can operate wing mounted, infrared cameras
  • Detail whizzes that can collate data
  • Computer savvy geeks for uploading data
  • Anyone who has a cellphone with a camera and likes to take nature walks

Who, in particular, uses the data collected from the images?

  • Students
  • Teachers
  • Researchers
  • Water quality experts
  • Legislators

What’s the point? I mean, the gringa likes to look at cool pictures and read interesting facts and trivia, but how is the data actually useful?

  • Determine quality of a community’s water source
  • Predict if fish and game need protective measure to be taken to preserve environmental integrity and their survival
  • Alert the public if water conditions are unsafe for recreational use

Why is a citizen scientist program preferred to the amazing technology of satellites in orbit? The real time factor is the main reason. It takes data about three days to travel from satellites to Earth. Then there is more time involved in disseminating the data into usable information. Citizen scientists in low flying aircraft and on the ground can provide usable information within hours. They can also obtain images at lower altitudes that escape the abilities of orbiting satellites. Volunteers can also reach areas in rivers and streams that are simply not on a satellites “radar”, so to speak.

So, if you feel the need to contribute, this is a great opportunity. Even if you are not a pilot and don’t know any pilots to partner with, if you have a cellphone with photo capability, you are sufficiently equipped to engage. If you have snorkeling or scuba gear along with an underwater camera, that, too, is an angle of participation. For more information visit the NASA page for this program. Dear readers can take their time and read all the interesting information posted and then scroll down to the bottom for contact information to begin your new adventure as a citizen scientist.

Source & Image Credit:  www.nasa.gov

 

 

 

Life In A Bubble


There are many different reasons to be interested in the science of climate change. Maybe you are a lover of nature, like the gringa. Maybe you are a doomsday prepper, anticipating worldwide failures of critical natural resources necessary for humanity’s survival. Perhaps you are a problem solver, interested in creating solutions to help us all survive. Or you could be an author of science fiction and fantasy and the realities of climate change provide a plethora of creative resources. Whatever the reason, then you will find the possibility of life in a bio-sphere bubble interesting to ponder.

Tucson, Arizona was recently host to an environmental event sponsored by One Young World, a group of leaders in innovative climate change survival solutions, particularly Biosphere 2 (Earth is #1).  The event featured experts in science, international diplomacy, political science and commercial industry who are all interested in humanity’s need for sustainable sources for food and energy. The speakers whom event attendees were, perhaps, most interested in were probably the former astronaut and individuals who have been living in Biosphere 2.

If a person was to take a tour of Biosphere 2, you might be expecting a sterile, technical, enclosed life support environment like the International Space Station. However, you will probably be pleasantly surprised to find a faux ocean the size of an Olympic swimming pool surrounded by a bamboo forest. As you continue exploration, you will stumble across a desert recreation complete with species of ants and cockroaches.

The Biosphere idea was birthed more than two decades ago. In 1991 the dream was realized when eight individuals, four women and four men, donned their uniforms and entered the three acre terrarium smack dab in the middle of an Arizona desert where they would live confined for twenty-four months.

The habitat was constructed thanks to the generosity of a wealthy Texan who wants a place of safe retreat when the Apocalypse crashes down around our ears. He shelled out about $150 mill to recreate miniaturized versions of South America’s rainforest, the African Savannah, and a single ocean. The Biosphereans worked for two years to determine if this earthly microcosm would interconnect, survive and become a self-sustaining world producing oxygen and food.

Beneath the multiple geodesic domes of steel, glass and plastic transplanted nature began to fail the moments the doors were sealed. Precious oxygen was leaking and making its escape to the outside world. Despite the threat of suffocation, the Biosphereans soldiered on. They planted crops near the ocean. A sophisticated underground bellows system created wind. But small crops of oxygen producing plants and man-made breeze were not enough to make the habitat a survivable, much less pleasant, environment. For the sake of science the Biosphereans persevered through two years of oxygen deprivation yet finally called it quits when survival was only possible by pumping in outside-sourced oxygen.

But was this experiment really a failure? Of course not. It was a very valuable learning experience. Think of all the research that was accomplished on learning how vegetation, geography, water and air movement, and fresh water sources can all be successfully recreated and the knowledge of certain mistakes not to repeat in the process.

The Biosphere 2 is not a total physical loss either. The University of Arizona will continue studies on how to succeed in a biosphere lifestyle. Part of the property will be open to the public and re-christened “Land Evolution Observatory”. The university will launch a project that, over the span of a decade, will attempt to perfect the methods the Biosphereans began. The gringa considers these self-sacrificing and brave Biosphereans to be the pioneers of the Millennia.

The Biosphere story also has a romantic twist. The gringa, madly in love with her caveman, loves a good romance and is happy to learn that two of the individuals fell in love during their confinement together and married as soon as they had regained their freedom to the outside world. The couple, speaking to the Tucson audience, explained how profound their sense of inter-connectedness to their environment became. Daily they tracked carbon and oxygen levels, strongly aware that their survival depended on the right balance.  They felt aware, moment by moment, of each breath they took and each CO2 exhalation they made. The reality of the co-dependence the humans, plants, animals and insects all had with one another was always at the forefront of their mind.

When former astronaut Ron Garan addressed the audience, he discussed his six month stint enclosed in the self-sustained environment of the International Space Station. It was a profound experience that increased his environmental awareness and how tiny, fragile and singular our Earth is. His individual life perspective was completely changed as he worked beside the two Russian cosmonauts he shared duties with. Upon his return to Earth, he dedicated himself to collaboration with projects that will promote the survival of humans and the planet we call home. The only planet, mind you, that we have.

He recounted one of his most poignant experiences. It was the moment he returned to Earth. He peeked out the window of the capsule, saw a landscape of rocks, flowers and grass. His immediate mental and emotional response was, “I’m home” despite the fact that this American was actually in Kazakhstan. Once you’ve been off world, any square inch at any spot on the globe is home, regardless of politics, religion, nationality or ethnicity. The gringa finds this philosophy beautiful and inspirational. And I hope that we all figure it out together, how to save our home.

Source & Image Credit:  www.newsweek.com

 

 

Pardon Me, Is That An Asteroid On Your Finger?


The oldest rocks on Earth are zircon crystals. These highly refractive gemstones are often used to imitate diamonds or cubic zirconias in jewelry. Geologists have now announced the results of a study that has determined that zircons are quite possibly remnants of an ancient asteroid collision with Earth.

Other than simply having the pleasure of knowing you may have a bit of outer space asteroid glittering on your finger or about your ears, neck or wrist, what good is this information? Well, for one thing it dispels the previous theory that zircons were created by tectonic plate upheavals. But, more importantly, it helps scientists understand climate change. Yes, you heard the gringa right, climate change. A rock’s origins can often indicate what was going on with water on the planet at the time the rock was formed. Since zircon’s are produced by asteroids, Earthlings can also learn about the part of the cosmos that it originated from.

Researchers from Trinity College Dublin (Ireland) collected crystals from an impact crater that is considered “young”. Scientists wanted to compare the “young” crystals with older crystals from the Sudbury crater in Ontario, Canada. Sudbury is the best preserved impact crater on Earth and is about two billion years old.

The samples were taken to Stockholm’s “Swedish Museum of Natural History”.  Comparisons  concluded that the older crystals were the same as the younger ones. This then disproved the argument that the ancient zircon crystals could not have formed at the time the impact occurred. So, now we know that they could and probably did, making zircons the oldest rocks on Earth, as old as four billion years old which is the age of the oldest impact crater on our planet. The researchers also believe this supports the narrative that early Earth saw many more asteroid impacts than in its later life.

So, what this new determination tells mankind is that about four billion years ago an asteroid slammed into Earth. The crystals were able to form because water was present. Best estimates place the Earth’s age at four and a half billion years old so logic would assume then that it has always been a watery planet.  And what’s the big deal about an old, watery Earth?

Well, for one thing, water was required for life as we know it today to have evolved. But, the new discoveries about the crystals still does not solve the mystery of how life originated on planet Earth in the first place. And there are many theories on this subject that argue their own merits. Here are a few:

Electrified Primordial Soup – This school of thought believes that in the beginning of Earth’s life as a planet there was a life-giving electrical shock to the planet, such as lightning, that interacted with the ammonia, hydrogen and water on the planet. Lightning would deliver more than just a jolting electrical shock. The atmosphere, being filled with ammonia, hydrogen and water, would react with the electricity and create amino acids and sugars. These are the building blocks of microbial life.

Clay – A Scottish chemist has offered the theory that mineral crystals in clay is where all life began. He believes it is possible that clay, possibly at the bottom of the sea, was the perfect surface for molecules to organize themselves into patterns of amino acids and proteins which would later become DNA. Once the DNA evolved independently it no longer needed the clay medium but could organize itself on its own.

Hydrothermal Vents – Even now ocean biologists discover ecosystems surrounding hydrothermal vents deep within the Earth’s oceans that are teeming with life. Concentrations of molecules and minerals exist with the rocks surrounding these vents interacting with the hydrogen rich molecules provided by the vents action.

Panspermia – The hitchhiking life surviving the impact of an asteroid with Earth is yet one more possibility. If this theory is true, then the puzzle of the origins of life is not really to be worked out here on Earth, but to be solved by traveling the cosmos to find where it came from out there.

Although the many theories of how life originate on Earth are quite varied in their ideas, they all have one common thread… water. That would mean if the original microbes that evolved into humans over billions of years originally came from somewhere in outer space, to discover or “home planet”, Earthlings have to study planets that either have water now or had it at some time in their own history. By understanding this, a person then can understand the inspiration behind every space mission and why the space agencies of the world want to travel ever farther. They are not looking for little green men. They are looking for little molecules of water or ice. And one day, we may all call home a rock that exists in another galaxy or solar system.

 

Sources:  www.redorbit.com

www.geology.gsapubs.org

www.livescience.com

Image credits:  www.en.wikipedia.org

www.alluregems.blogspot.com

Amazing Grace and the Conveyor Belt


Is there a way to stem the tide of sea level rise due to climate change? I mean, if we can’t build a seawall around the coast of every continent and island, what other option is there other than an eventual mass human migration inland? Well, NASA thinks there very well may be a solution.

The Earth may be saving herself. Climate change researchers have been collecting data from NASA satellites to determine where all this extra liquid water from melted ice sheets and glaciers is ending up. It seems the Earth has absorbed over three trillion tons of water (that’s about the equivalent of what’s in Lake Huron) that are replenishing depleted lakes and underground aquifers. Now, this is great news but not a permanent fix. Researchers estimate this temporary band-aid will slow sea level rise by about twenty percent. Earth is buying us Earthlings some more time to get our you-know-what together and fix this mess we have created.

So, how does this “band-aid” work? The Earth’s regular water budget is provided by annual amounts of water evaporated from the oceans. This becomes precipitation that returns to the Earth through rainfall or snow. It then recycles back into the oceans as runoff or through rivers. As mankind’s use of groundwater has dramatically increased, the Earth has become quite thirsty as reservoirs are depleted. It has become a sponge, compensating for this unprecedented loss by absorbing what is melting from ice sheets and glaciers. This has served to curb rising sea levels despite the fact that glaciers and ice sheets continue to melt.

Now scientists are scrambling to recalculate future models and adjust previous projections of sea level rise as a result of the Earth’s warming oceans. So, although sea levels are still expected to rise, Earthlings have a little bit more time to solve the problems that will cause. But, once the Earth has slated her thirst, all that meltwater will then become a problem.

NASA is using a twin satellite system, GRACE (Gravity Recovery and Climate Experiment), to measure how much water is being stored within the Earth. Since scuba divers can’t delve into these underground reservoirs, just what kind of digital dipstick is being used? The satellites use gravity to measure liquid. The gringa scratches her head and says, “Um, what? A gravity yardstick? How does that work?”

As the twin satellites orbit the Earth, they measure the distance between themselves. Their measurements are so accurate and precise, they can get as close as a strand of human hair. Amazing! But, I digress. GRACE then transmits the data to Earthling researchers who use the information to measure any gravitational change in the Earth that is the result of any change Earth’s water distribution.

By using this method, scientists have measured how much water has been stored within Earth’s continents as a result of ice sheet and glacier melt. This is the first study of its kind. And, according to NASA’s mission to use technology to safeguard the future of Earth and the lives of Earthlings, the agency has shared this knowledge with other scientific communities around the world.

And GRACE is proving her mettle in other areas of climate change data as well. The satellites are tracking circulation and current patterns within the Atlantic Ocean. The typical current pattern of the Gulf Stream carries warm, tropical water northward to Greenland. By the time it arrives at its northern destination, the water has cooled significantly. Colder water is denser so the water that originated from the tropics, and was riding at the surface. has sunk as deep as two miles within the ocean by the time it gets to Greenland. The colder, heavier, bottom water is then dragged back South.

In this way the waters of the Atlantic Ocean are consistently agitated, cooled, oxygenated and nutritionally refreshed. Oceanographers call this pattern the Atlantic Meridional Overturning Circulation (AMOC). However, the gringa prefers the common name, the “Conveyor Belt” of the Atlantic.

The Atlantic’s “Conveyor Belt” effect is like an air conditioner for the world’s oceans. It is critical to modulating the temperature of the Earth. Data collected from GRACE has revealed that the “Conveyor Belt” is slowing down. Researchers are uncertain if this is directly caused by climate change or if other factors are at play.

GRACE is going to help answer these questions. One way is by measuring gravity data from the bottom of the Atlantic Ocean. Changes in the ocean’s currents will result in pressure changes that GRACE can detect with gravitational measurements.

And GRACE is also contributing to the development of practical solutions that can be implemented right now, helping the people of Brazil. 2015 was the worst year in over three decades for drought in Brazil.

Hydrologists were able to use data collected from GRACE to calculate that in a three year period Brazil lost about fifteen trillion gallons of water each year. Water levels of aquifers and rivers were also analyzed.

Brazil is heavily dependent on the country’s rivers to provide water for their people, electricity production and for critical agriculture. The data provided by GRACE enables the Brazilian government to create models that will simulate future expected droughts. This makes it possible for the nation to plan effectively, monitor their water resources responsibly and continue to provide for the water needs of over 200 million Brazilians.

And those are just some of the facts about “Amazing GRACE”.

 

Source:  www.nasa.gov

Image Source:  www.nasa.gov

 

 

 

 

 

 

NASA & The Hub


The gringa often hears folks say things like, “NASA is really doing some amazing things, but it doesn’t seem like much of their technology is really helpful to us regular folks here on Earth.” Well, actually, there are great spin-off benefits to all that amazing space technology.

Consider the new program underway in Australia. An Australian organization, National Resources Management Spatial Hub (NRM Hub, or, more commonly, the Hub), is using satellite images of Earth provided by NASA, and other space agencies, to help them better manage rangeland. As global populations continue to grow, demand rises for meat production. Now, more than ever before, do Australia’s ranchers need every edge they can get to meet this demand by using sustainable methods.

With over eighty percent of Australia classified as rangeland, more commonly known as the “Outback”, Earth observation technology is helping ranchers make better land management decisions. This will help leave a stable environment for future generations. With so much land mass available for grazing in its natural condition, Australia is in a unique position to produce meat for the global community without the need to resort to slash and burn forests to create grazing areas. This is good news for climate change by recognizing one resource to utilize responsibly and reduce deforestation.

Earth observation data also helps Australia’s land managers develop innovative ways to manage their precious water resources. The data also provides an overall, panoramic, “big picture” perspective so that ranchers can determine which grassland areas may be overgrazed. They can then reorganize their grazing plans, moving herds to other areas and promote the health of their rangelands.

The Hub is comprised of over 20 Australian agencies, federal and state, as well as research organizations and industry related organizations. They put to good use the satellite images provided by NASA. The Aqua and Terra satellites provide new images on a 16 day cycle. As images are collected over the years, more knowledge is gained in tracking and understanding climate conditions such as drought. This gives ranchers the information they need to make critical ranching decisions.

Ranchers don’t just want to make money, they also want to maintain healthy land that can pass into the hands of their children who continue the ranching tradition. Many of Australia’s ranches have remained in families for generations. They take great pride not just in producing meat and wool, but also in being environmentally conscious.

The Hub has produced results that have impressed the agricultural community in Australia. It has grown from its original 40 properties to 120 ranches presently. At least another 100 are on a waiting list to join the program. This is the agriculture of the future, farming and ranching as a hi-tech, global community effort.

Similar techniques such as what the Hub uses in Australia are being put into practice in other areas like Niger, Mali and Burkina Faso where satellite data is used to measure potential agricultural output. In South Asia data monitors rice production, the grain upon which the world is most dependent.

After all this scribbling about meat production and such, the gringa is going to have to push herself away from the desk and throw a juicy T-bone on the grill. Ta!

Source & Photo Credit:  www.nasa.gov    www.nrmhub.com.au

 

 

 

Amazing Italy, From Art to Astronauts


My cosmic sister, Bea, hails from Italy and therefore has a special interest in the Italian Space Agency (ASI, Agenzia Spaziale Italiana). So, the gringa dedicates this post to Bea.

Since its inception in 1988, ASI has consistently made significant contributions to space technology development. ASI is part of the European Space Agency (ESA) and works closely with NASA as well. Italy has been, and will continue to be, a key player in the international space exploration community. Whether it is technology that gets a manned mission to Mars or technology that helps Earth observers intervene to prevent or respond to environmental disasters, the world can all extend a “brava” to Italy.

Italy has three active space centers. Ten kilometers east of Matera is ASI’s “Space Geodesy Center”, which opened for business in 1983. Earth observation and imaging is the primary mission of the programs at work at SGC. The “Luigi Broglio” Space Center, in operation since the 1960’s, is located on the coast of the Indian Ocean near Malindi, Kenya. It has an Earth segment base and an ocean segment base which launch and control satellites. The center that manages and analyzes all collected scientific data (ASDC) can be found at ASI headquarters in Rome. Not only is data analyzed here but mission monitoring is also conducted at this center.

The primary missions Italy’s has high involvement with are:

  • Created Multi-Purpose Logistic Modules (MPLM) Leonardo, Raffaello and Donatello for transporting scientific research necessities to the International Space Station (ISS)
  • Space Habitability – March 2001, Italy became the 3rd nation to launch an element integrated into the ISS, the logistics module “Leonardo”
  • Life Sciences – Biotechnology research to improve knowledge of: the aging process and effective countermeasures, immunology, technologies to enable the colonization of space by humans, therapeutic studies for improving the quality of life for all humanity
  • Bioregenerative Environmental Control Project (CAB) – to put it in plain English, gringa language, scientists learn how to recycle and repurpose just about everything into something useful such as: plant based life support system, water purification through transpiration, space greenhouses, etc.
  • Motor and Cardiorespiratory Control Disturbances Project (DCMC) is a program with the goal of improving the quality of life for people who suffer from neuromotor and cardiorespiratory disabilities.
  • Osteoporosis and Muscular Atrophy Project (OSMA) is of particular interest because of how conditions of reduced gravity cause these debilitations, that are typically linked with aging, to affect young, healthy, physically fit astronauts. The research goal is to understand how gravity controls the functions of bone and muscle.
  • Bed-Rest is a study that simulates the effects of zero gravity by having volunteers stay in bed for 7-120 days in a head-down position so that studies of the cardiovascular and renal systems can be conducted.
  • Earth observation and telecommunication with satellites: Miosat, PRISMA, ROSA, COSMO-SkyMed, PRIMI, and COPERNICUS
  • High Energy Astrophysics study is an Italian only programme that conducts research on the most violent space phenomena that occurs throughout the Universe. Satellites involved in this programmed: GLAST/Fermi, SIMBOL-X, SWIFT, PAMELA, INTEGRAL, AMS, AGILE
  • Cosmology and Fundamental Physics programme studies the evolution of the Universe. Satellites involved in the programme: BOOMERANG, GAIA, EUCLID, GALILEO GALILEI, HERSCHEL, LARES, Olimpo, Planck, Plato, Lisa Pathfinder

Lisa Pathfinder is the most recent success of Italy’s space agency that has made worldwide headline news. Lisa’s purpose is to detect gravitational waves in space. Italy designed the overall architecture of Lisa and is managing the project with the cooperation of Italy’s National Institute of Physics as well as ESA partners.

Lisa launched successfully last month and will lock into its final orbit around mid-February. This is phase one of the future construction of a space observatory that will continue studies of gravitational waves. Project completion is expected to be around the end of 2034. Italian scientists are beside themselves with pride that finally, after Einstein published his theory of general relativity over a century ago, the search for gravitational waves has, at last, begun, thanks, in huge part, to Italy.

And what else does the world have to look forward to from Italy? Of course, the gringa’s favorite space subject, GETTING TO MARS! Italy boasts leadership of both phases of ESA’s two phase EXOMars mission. In 2016 a probe will launch to orbit Mars and study methane and other gases as well as attempt to detect any presence of life. Later, in 2018, a rover will land on Mars and begin analysis of the soil. One more objective is to study any possible risks for future manned missions.

So, Italian suits, Italian shoes, Sophia Loren, Galileo, Michelangelo, and… astronauts, scientists, researchers, technology mavens. THAT IS AMAZING, ITALY!

Source & Photo Credit:  www.asi.it

 

Warming Lakes & Rivers = Trouble


It’s pretty easy to find climate change articles discussing the changes that are taking place in the world’s oceans. But, the gringa asks, what about the lakes and rivers of the Earth?

I grew up on a river. I love rivers. I love canoeing and floating down rivers on tubes and camping out alongside the banks of a river. What’s happening with these rivers I love? And what about lakes? Every summer we take a traditional three day weekend family trip to one of the most beautiful lakes in Texas. What’s happening to this fabulous lake? Unfortunately, the research shows that these are all changing as well.

NASA’s response to this change is to create a “global water cycle budget”. It covers a ten year period of the Earth’s freshwater concerns. This will be the baseline by which future “global water cycle budget’s” will be compared.

The water cycle involves the entire environmental process of how water moves, in all forms, around this big, blue planet. As depicted in the image posted it is easy to trace how water evaporates from the surface of the Earth. As it rises into the atmosphere it cools, condenses into clouds, then returns to the Earth as precipitation (rain, snow, hail,  or sleet). This is the kind of science the gringa learned in elementary school but it is, perhaps, the most critical environmental cycle for the continuation of life on Earth.

From the year 2000 until 2010 NASA collected satellite data  to estimate how much energy from the sun was required to move water. Hotter days means more evaporation of water within the soil. More evaporation means more moisture in the winds that transport this moisture throughout the world. Because the Earth is a closed system, any water that evaporates from its surface can be accounted for in the water vapor that eventually accumulates in the atmosphere. It’s kind of like taking a jar of pennies to the bank and getting dollars in return. It’s an even exchange of the same thing, money, but it exists in two different forms, pennies or bills. Water on Earth is the same. It’s either here on Earth as water or in the atmosphere as a form of precipitation.

However, the water model is a bit more complicated. Consider that each penny represents a different data set concerning where the water is specifically located, formed, or used. Such as: ocean, lake, evaporation from soil and plants, streams, rivers, human consumption. To help scientists manage all of this data they divide the Earth into seven land masses (Eurasia, South America, North America, Africa, Antarctica, Mainland Australia, Oceania/New Zealand/Tasmania) and nine ocean basins (North Pacific, South Pacific, Indian, North Atlantic, South Atlantic, Caribbean, Mediterranean, Arctic, Black Sea).

Over two dozen satellites provide scientists with data concerning precipitation and evaporation over the land masses and oceans. Researchers can track the movement of atmospheric water vapor, river runoff, groundwater reservoirs, soil moisture and snowpacks.

These important studies have already determined that lakes around the world are warming. This warming trend is affecting the ecosystems they are a part of as well as threatening the security of adequate freshwater supplies.

To come to the conclusion that lakes are warming, NASA used a twenty-five year compilation of data of ground measurements of over 200 lakes on six separate continents. On average, the lakes are warming about half a degree Fahrenheit every decade. Some lakes, the ones at higher latitudes, are warming even faster, one whole degree Fahrenheit per decade. That means that freshwater lakes are warming faster than the oceans.

As lakes warm, algal blooms increase. These rob the oxygen in the water from the fish. NASA’s models predict a twenty percent increase in these toxic algal blooms over the next century. Not only will this result in a chain reaction within the ecosystem wiping out the fish, as well as the wildlife and fauna that depend on those fish, but the blooms will also increase greenhouse gas emissions. Algal blooms are expected to produce methane emissions that will increase four percent over the next decade unless we Earthlings come up with a solution.

Solving the lake warming problem is a very important component of solving the climate change problem because methane emissions are 25 times more powerful than carbon emissions. A massive worldwide increase of algal blooms in freshwater lakes is a disaster we cannot allow to happen.

If the world’s lakes become a casualty of climate change, it won’t just be an environmental disaster, it will be a humanitarian disaster. These are important sources for drinking water, crop irrigation, and the production of food fish that are an important protein source for vulnerable populations around the world. Some researchers are already detecting evidence that productivity in warming lakes is already declining.

Out of the 37 largest aquifers on Earth, 21 are already past the sustainability tipping point and are being depleted. Another 13 are classified as “significantly distressed”. Eight are classified as “overstressed”. “Distressed” and “overstressed” means that these water sources have no natural replenishment to offset consumption. Five more were classified as “extremely stressed”, being depleted but with some replenishment occurring.

These were the conclusions of NASA’s study of ten years of data from the GRACE satellites. The GRACE satellites measure how Earth’s gravity is affected by existing masses of water. What NASA reports is alarming and difficult for the gringa to swallow, even with a glassful of water. That means that almost one third of our world’s groundwater is rapidly disappearing. And what’s even scarier is there is no reliable data that can predict just exactly when these wells will run dry. Yet, we continue to consume rather than conserve.

One of these overstressed reservoirs is the Arabian Aquifer System. It sustains over 60 million people. If we think there’s trouble in the Middle East right now over regional power struggles and the global fight to dominate the oilfields for profit, what the heck can we expect to see when these people have nothing left to drink? What kind of mass exodus will occur when that happens? This is a problem that must be solved. When climate change deniers scoff at the idea that climate change is the single most issue that threatens the national security of all peoples, they have no idea what they are talking about.

If Americans thought the California and Texas droughts were painful, consider what could occur in India and Pakistan, home to the second-most overstressed aquifer, the Indus Basin. Then there’s the third most overstressed water source, the Murzuk-Djado basin in north Africa. These regions are home to almost two billion people! Think about the Syrian refugee crisis. We ain’t seen nothin’ yet.

While working toward a solution, scientists cannot agree on any projected timeline of “time to depletion”. And when the gringa says they cannot agree, I’m talking about discrepancies of warnings of ten years to twenty-one THOUSAND years! However, one thing that these scientists DO agree on is that in a water-scarce society that is water dependent, this kind of ignorance is intolerable. Well, the gringa is glad to hear that.

Because groundwater reservoirs are so deep beneath the surface of the Earth, the only method to accurately measure just how much is down there is to drill, baby, drill. It’s gonna cost a lot of money, but the experts say it has to be done. NASA is committed to using its technology, personnel and data to help secure mankind’s future and improve lives around the world. By sharing knowledge freely with scientists around the world, the agency hopes to increase understanding that will lead to solutions.

The gringa waits to hear NASA’s announcement of a challenge like “Dig A Hole, Save The Planet”. The gringa has every confidence that NASA will continue to lead the charge to save us Earthlings from ourselves and the messes we continue to make. These challenges are simply a way for us to redeem ourselves after making such awful messes.

Source & Photo Credit: www.nasa.gov

 

A Bit Of Sun & Hope For Humanity


Coming up in December is the one year anniversary of the test flight of the Orion spacecraft that launched from Kennedy Space Center December 5, 2014. The test flight was unmanned. Because of its success, the next time Orion punches through the Earth’s atmosphere, it will deliver astronauts to an asteroid in our Moon’s orbit to rehearse their Red Planet mission. That is the ultimate goal, after all, to have a full astronaut crew heading out to deep space with a final destination of Mars.

The amazing new technologies that will send astronauts farther than they have ever gone before is thanks, in part, to the students of science, technology, engineering and mathematics (STEM). NASA and Lockheed Martin offered students the opportunity to collaborate in this daring mission with a program called “Exploration Design Challenge”. What problem were these students asked to solve? The students were challenged to solve the most dangerous issue that faces humans in space – exposure to radiation. The gringa is very proud to say that these students rose to the challenge and their very own radiation experiment was on board for Orion’s test flight. If there was ever a reason for parents to encourage their children in STEM curriculum, parents, the time is NOW!

The emerging generation of scientists will inherit a planet that is rapidly changing. NASA needs this young talent more than ever. Researchers will manage the data collected from satellites and airborne missions. Engineers will keep these missions alive with their technological expertise. These are the critical thinkers the world needs to face the future challenges of rising sea levels and extreme weather events due to climate change. The next generation of astronaut explorers will be the ones to aid our planet in finding freshwater resources out in the cosmos to help replenish are own that are rapidly becoming depleted.

In 2014 NASA studies were published and revealed a rapidly melting western sheet of ice in Antarctica. This appears to be irreversible. Later in the same year, NASA, along with researchers at the University of California, Irvine, concluded that the potential threat of groundwater loss to America’s stable water supply may have previously been underestimated and things were worse than scientists thought. In August of 2014, NASA published research based on the discovery of a large amount of a compound creating ozone depletion. This was an unexpected surprise considering that for decades such a compound has been banned worldwide. Our world is in trouble and our best resource to solve these problems is in the minds of our youth.

The gringa is getting depressed with all this bad news so, let’s get back to the good news! The Orion! I simply must know all I can about this spaceship because the gringa is putting in that ship all her hopes that it is going to be the mother ship of a future fleet of ships that’s going to save humanity’s bacon.

The purpose of the test flight was to see if Orion was up to the task of the most dangerous parts of the mission. Those would be lift-off, entry, separations, the jettison of the Launch Abort System, descent and splashdown. However, most important of all was to test the heat shield that needed to be strong enough to protect astronauts, as well as all the technology on board, from 4,000 degree Fahrenheit temperatures and the related radiation. Is the dear reader dying to know Orion’s report card? The gringa is!

At 7:05am at Cape Canaveral Air Force Station in Florida, Orion was prepped to lift off with the help of a United Launch Alliance Delta IV Heavy rocket. Three RS-68 engines created almost two million pounds of thrust which then pushed a 1.63 million pound spacecraft into orbit. After about four minutes the side boosters disengaged and fell away to Earth. The center booster remained with Orion for another ninety seconds. When its fuel was spent, it disengaged and also fell back to Earth. The next thing to release its hold on Orion was the structural supports and the Launch Abort System. Orion was headed out of Earth’s atmosphere.

Seventeen minutes and thirty-nine seconds after lift-off, Orion began its orbit. Two hours into its flight, Orion traveled through the Van Allen radiation belts which are 3,609 miles away. Data recorders provided critical calculations on the doses of radiation within the cabin. This determined if the craft was of sound design and safe to man with a human crew. Three hours and twenty-three minutes into its flight, Orion headed for Earth’s atmosphere where the heat shield withstood the brutal re-entry friction.

What is re-entry like? Orion hit Earth’s atmosphere at a speed of 20,000 mph. The gringa can only say, “Incredible!” The spacecraft gets so amazingly hot at that speed, it is eventually enveloped in plasma. Plasma is considered the fourth state of matter after solids, liquids and gases. When plasma is created on Orion upon re-entry, what happens is that the heat and friction become so energized that electrons break free from their nucleus and travel along with them. That’s what the Sun does all the time. It’s just a big, ol’ ball of plasma. Orion creates a little bit of Sun on re-entry. The gringa’s mind is filled with the Beatles refrain, “Here comes the sun, little darlin’. Here comes the sun. And I say it’s alright.” After all, ultimately that IS the plan, RIGHT? Orion is going to help launch the scientific efforts that hopefully will make everything wrong with the environment alright? Or, at least give humanity some viable options and hope?

After picking up Orion as it bobbed amongst the waves of the Pacific of the coast of Baja, California, NASA used the data to make improvements for the upcoming manned mission. Astronauts will continue their own preparations for a mission that is sure to make history in so many ways. If everyone at NASA is excited about the future, then they truly believe in the mission. The gringa will take her cue from them and toss out the doom and gloom and grab hold of hope and positivity. I will hold fast to an exciting future that most certainly is full of change, but change is not necessarily always a bad thing.