Wednesday, August 31, 2016

From Green Car reports Landmark Gov. Bill!

Landmark CA climate bill could have wide effects on cars, energy



California already leads to the nation in efforts to limit air pollution and reduce carbon emissions.
The Golden State has promoted electric cars like no other, not to mention efforts to boost renewable energy and other technologies that cut emissions.
But a landmark climate bill recently passed by the California state legislature will require even greater work to meet emissions targets.
Senate Bill 32 (SB32) calls for California to reduce greenhouse-gas emission to 40 percent below 1990 levels by 2030.
That represents a major increase from California's current climate-change targets, notes The Mercury News.
SB 32 builds on AB 32, a climate bill signed into law by former Governor Arnold Schwarzenegger in 2006.

The earlier bill required California to cut greenhouse-gas emissions to 1990 levels by 2020.
The state is reportedly on track to meet that goal, having already cut emissions 9.4 percent from the peak reached in 2004, according to The Mercury News.
Now officials must find ways to cut them another 40 percent in just 15 years.
In 2014, the most recent year with available data, California emitted roughly 441 million metric tons (486 million tons) of greenhouse gases, according to data from Lawrence Berkeley National Lab.
The current goal for 2020 is 431 million metric tons (475 million tons), but emissions would have to be reduced to 260 million metric tons (286 million tons) to meet the requirements of SB 32.
That will necessitate even more ambitious climate policies, analysts say.

California now requires the six high-volume carmakers to sell zero-emission vehicles, and that program will expand to cover more auto companies and start to escalate the required numbers in 2018.
It has also mandated that utilities must produce 50 percent of their electricity from renewable sources by 2030.
To meet the new mandate, California may have to take measures like pushing the renewable-energy requirement beyond 50 percent, significantly increase sales of electric vehicles, and bring electrification into other types of vehicles (such as delivery trucks), analysts say.
Meanwhile, on the other side of the country, Massachusetts is moving toward stronger limits on greenhouse-gas emissions from electric generating plants.
On Monday, Gov. Charlie Barker's administration announced its support for stricter limits under the Regional Greenhouse Gas Initiative (RGGI), a program to reduce power-plant emissions run by nine Northeast and Mid-Atlantic states.

Massachusetts now supports doubling the rate at which emissions decrease as part of the RGGI, from 2.5 percent to 5.0 percent per year, between 2020 and 2030.
The announcement was made in the midst of a review of the RGGI by member states.
Green Car Reports respectfully reminds its readers that the scientific validity of climate change is not a topic for debate in our comments. We ask that any comments by climate-change denialists be flagged for moderation. Thank you in advance for helping us keep our comments civil, respectful, and fact-based.
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Monday, August 29, 2016

Safe water testing kits developed by NASA.

Friends of NASA

Shared publicly  -  5:59 PM
 
Benefits for Humanity: Know Your Water | NASA
Aug. 29, 2016: What if that clear, sparkling stream coming from the ground or a faucet were teeming with contaminants? How would you know? Whether you live in some remote region of Africa, a high rise in New York City or aboard an orbiting laboratory in space, you need reliable drinking water to survive. You now can check the cleanliness of your water using the mWater app on your mobile phone.

This handy tool, based in part on International Space Station technology, provides a global resource available for free download as an app or usable via the Web browser version of the app on most smartphones. Governments, health workers and the public all can make use of mWater to record and share water test results. During the first year of the beta release of mWater, more than 1,000 users downloaded it and mapped several thousand water sources.

For more information:
www.nasa.gov/mission_pages/station/research/benefits/mWater

Credit: NASA
Duration: 4 minutes, 43 seconds
Release Date: August 29, 2016

#NASA #Space #ISS #Science #Water #Human#Health #MWater #App #Smartphone #mWater#Microgravity #Laboratory #Environment #USA#UnitedStates
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Eloisa Gelido's profile photoMoney Press News Business Finance Personal's profile photoAngela Gonzalez's profile photoJoseph Raglione's profile photo
 
Good stuff, thank you for sharing, have a great evening, everyone and Safe Smooth Sailing #ISS 
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The Globe and Mail

Shared publicly  -  5:42 PM
 
Peacekeeping expected to cost less than non-UN missions: UN reimburses countries that provide soldiers to peacekeeping missions
UN reimburses countries that provide soldiers to peacekeeping missions
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Terry Cameron
7:30 PM
 
 
It's kinda like paying yourself to do a job that you donated your time and money to do. Kinda weird.
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NASA

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From Jupiter’s cousins to launching spacecrafts, here’s what you should know about the solar system this week:http://nasa.tumblr.com/post/149665961579/solar-system-things-to-know-this-week
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Denis Sherbakov
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В наса одни сказочники. Уже разучились ракеты делать
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Friends of NASA

Shared publicly  -  5:32 PM
 
First DNA Sequencing in Space a Game Changer | NASA
Image: NASA Astronaut Kate Rubins sequenced DNA in space for the first time ever for the Biomolecule Sequencer investigation, using the MinION sequencing device.
Aug. 29, 2016: For the first time ever, DNA was successfully sequenced in microgravity as part of the Biomolecule Sequencer experiment performed by NASA astronaut Kate Rubins this weekend aboard the International Space Station. The ability to sequence the DNA of living organisms in space opens a whole new world of scientific and medical possibilities. Scientists consider it a game changer.

DNA, or deoxyribonucleic acid, contains the instructions each cell in an organism on Earth needs to live. These instructions are represented by the letters A, G, C and T, which stand for the four chemical bases of DNA, adenine, guanine, cytosine, and thymine. Both the number and arrangement of these bases differ among organisms, so their order, or sequence, can be used to identify a specific organism.

The Biomolecule Sequencer investigation moved us closer to this ability to sequence DNA in space by demonstrating, for the first time, that DNA sequencing is possible in an orbiting spacecraft.

With a way to sequence DNA in space, astronauts could diagnose an illness, or identify microbes growing in the International Space Station and determine whether or not they represent a health threat. A space-based DNA sequencer would be an important tool to help protect astronaut health during long duration missions on the journey to Mars, and future explorers could also potentially use the technology to identify DNA-based life forms beyond Earth.

The Biomolecule Sequencer investigation sent samples of mouse, virus and bacteria DNA to the space station to test a commercially available DNA sequencing device called MinION, developed by Oxford Nanopore Technologies. The MinION works by sending a positive current through pores embedded in membranes inside the device, called nanopores. At the same time, fluid containing a DNA sample passes through the device. Individual DNA molecules partially block the nanopores and change the current in a way that is unique to that particular DNA sequence. By looking at these changes, researchers can identify the specific DNA sequence.

Rubins, who has a background in molecular biology, conducted the test aboard the station while researchers simultaneously sequenced identical samples on the ground. The tests were set up to attempt to make spaceflight conditions, primarily microgravity, the only variables that could account for differences in results. For example, the samples were prepared on the ground for sequencing and researchers selected organisms whose DNA has already been completely sequenced so that they knew what results to expect.

Using the device in the microgravity environment introduces several potential challenges, according to Aaron Burton, NASA planetary scientist and principal investigator, including the formation of air bubbles in the fluid. On Earth, bubbles rise to the top of a liquid solution and can be removed by centrifuge, but in space, bubbles are less predictable.

“In space, if an air bubble is introduced, we don’t know how it will behave,” said Burton. “Our biggest concern is that it could block the nanopores.”

The technology demonstration also seeks to validate that the device is durable enough to withstand vibration during launch and can operate reliably in a microgravity environment when it comes to the measurement of changes in current or the conversion of those changes into DNA sequences. In addition, researchers will be looking for any other factors that could produce errors or impact performance on orbit.

“Those are just the potential problems we’ve identified,” said project manager and NASA microbiologist Sarah Castro-Wallace. “A lot of the things that might introduce errors are simply unknown at this point.”

To minimize those unknowns, researchers recently tested the entire sequencing process on a NASA Extreme Environment Mission Operation, or NEEMO, in the Aquarius Base research facility 60 feet underwater off the coast of Florida.

“The NEEMO tests went smoothly,” Castro-Wallace said. “In terms of a harsh environment, with different humidity, temperature and pressure, we looked at a lot of variables and the sequencer performed as expected.”

NEEMO aquanauts collected environmental samples from the habitat, extracted and prepared the DNA for sequencing, and finally sequenced the DNA as part of a continuation of the Biomolecule Sequencer investigation. Testing this sample-to-sequencer process in an extreme environment is an important step towards its use on the ISS.

The investigation team includes others at NASA’s Johnson Space Center, Goddard Space Flight Center and Ames Research Center, as well as partners at Weill Cornell Medical College and University of California at San Francisco.

As the researchers compare results from the sequences collected in microgravity and on Earth, so far everything seems to match up.

“A next step is to test the entire process in space, including sample preparation as well as performing the sequencing,” said Castro-Wallace. Then astronauts can move beyond creating a known DNA sequence and actually extract, prepare and sequence DNA to identify unknown microbes on orbit.

“Onboard sequencing makes it possible for the crew to know what is in their environment at any time,” Castro-Wallace said. “That allows us on the ground to take appropriate action – do we need to clean this up right away, or will taking antibiotics help or not? We can resupply the station with disinfectants and antibiotics now, but once crews move beyond the station’s low Earth orbit, we need to know when to save those precious resources and when to use them.”

In addition, the sequencer can become a tool for other science investigations aboard the station. For example, researchers could use it to examine changes in genetic material or gene expression on orbit rather than waiting for the samples to return to Earth for testing.

"Welcome to systems biology in space,” said Rubins after the first few DNA molecules had been sequenced successfully. She went on to thank the ground team for their efforts. “It is very exciting to be with you guys together at the dawn of genomics biology and systems biology in space."

Credit: NASA
Release Date: August 29, 2016

+NASA Johnson Space Center
+NASA Goddard
+NASA's Ames Research Center

#NASA #Space #ISS #Science #Biology #Genetics#DNA #Sequencer #Research #Astronaut #KateRubins#Scientist #Biology #UnitedStates #Spacecraft#Technology #Laboratory
#Microgravity #Spaceflight #Expedition48#JourneyToMars #STEM #Education #Women#RoleModel #Leader #Professional 
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Coni Ellis
6:11 PM
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Hello Astronaut Kate Rubins. Congratulations
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