Part Two: Satellites from NASA and other space agencies are revealing surprising new insights into atmospheric carbon dioxide, the principal
Great info on how we collect data about our atmosphere using the OCO 2 satellite
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Part Two: Satellites from NASA and other space agencies are revealing surprising new insights into atmospheric carbon dioxide, the principal
Great info on how we collect data about our atmosphere using the OCO 2 satellite
Pinpointing the Cause of Earth’s Recent Record CO2 Spike
A new NASA study provides space-based evidence that Earth’s tropical regions were the cause of the largest annual increases in atmospheric carbon dioxide concentration seen in at least 2,000 years.
What was the cause of this?
Scientists suspect that the 2015-2016 El Niño – one of the largest on record – was responsible. El Niño is a cyclical warming pattern of ocean circulation in the Pacific Ocean that affects weather all over the world. Before OCO-2, we didn’t have enough data to understand exactly how El Nino played a part.
Analyzing the first 28 months of data from our Orbiting Carbon Observatory (OCO-2) satellite, researchers conclude that impacts of El Niño-related heat and drought occurring in the tropical regions of South America, Africa and Indonesia were responsible for the record spike in global carbon dioxide.
These three tropical regions released 2.5 gigatons more carbon into the atmosphere than they did in 2011. This extra carbon dioxide explains the difference in atmospheric carbon dioxide growth rates between 2011 and the peak years of 2015-16.
In 2015 and 2016, OCO-2 recorded atmospheric carbon dioxide increases that were 50% larger than the average increase seen in recent years preceding these observations.
In eastern and southern tropical South America, including the Amazon rainforest, severe drought spurred by El Niño made 2015 the driest year in the past 30 years. Temperatures were also higher than normal. These drier and hotter conditions stressed vegetation and reduced photosynthesis, meaning trees and plants absorbed less carbon from the atmosphere. The effect was to increase the net amount of carbon released into the atmosphere.
In contrast, rainfall in tropical Africa was at normal levels, but ecosystems endured hotter-than-normal temperatures. Dead trees and plants decomposed more, resulting in more carbon being released into the atmosphere.
Meanwhile, tropical Asia had the second-driest year in the past 30 years. Its increased carbon release, primarily from Indonesia, was mainly due to increased peat and forest fires - also measured by satellites.
We knew El Niños were one factor in these variations, but until now we didn’t understand, at the scale of these regions, what the most important processes were. OCO-2’s geographic coverage and data density are allowing us to study each region separately.
Why does the amount of carbon dioxide in our atmosphere matter?
The concentration of carbon dioxide in Earth’s atmosphere is constantly changing. It changes from season to season as plants grow and die, with higher concentrations in the winter and lower amounts in the summer. Annually averaged atmospheric carbon dioxide concentrations have generally increased year over year since the 1800s – the start of the widespread Industrial Revolution. Before then, Earth’s atmosphere naturally contained about 595 gigatons of carbon in the form of carbon dioxide. Currently, that number is 850 gigatons.
Carbon dioxide is a greenhouse gas, which means that it can trap heat. Since greenhouse gas is the principal human-produced driver of climate change, better understanding how it moves through the Earth system at regional scales and how it changes over time are important aspects to monitor.
Get more information about these data HERE.
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A little preview of my Face Features for OCO2 mod remake. Some of these need reworking but I’m very happy with how Khajiit markings turned out.
Um... help? Tf is wrong with his mouth?
Day 2: Playing sports!
NASA This week talking about the beginning of data collection for the Orbiting carbon Observatory 2 spacecraft.
LEDs will slash energy use for lighting by 95%
LEDs will slash energy use for lighting by 95%
By Matthew Wright LEDs will slash energy use for lighting by 95%, delivering huge savings to consumers but adding another ingredient to the death spiral for utilities.
Source: Renew Economy
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We Have Liftoff: Watching the Earth Breathe from Space
By Diane Wild
T-46 seconds.
We could hear the anticipation in the voices crackling over the loudspeaker broadcasting from the control room: a calm voice with its rapid-fire listing of each system, and before the last syllable ended a new eager voice would chime in with “go”.
All systems go for the Orbiting Carbon Observatory-2 launch … until T-46 when a failure in the water system made the voices grow somber. A 30 second launch window doesn't give a lot of time to fix problems that aren’t found until 46 seconds before it begins, but the voices consulted their manual and started another checklist until time ran out and the crowd deflated.
“What does that mean?” we asked our Vandenberg Air Force Base guide for the day, Chief of Community Relations Larry Hill. “What’s a water system failure?”
He gestured helplessly. “I’m just a trumpet player from Albuquerque.”
He’s more than that, with 24 years of active service behind him, including, yes, playing trumpet in the Air Force Band. But no one had clear answers yet at the public viewing site where our NASA Social participants gathered for the 3 am launch on July 1. Bleary eyed, knowing we’d see little through the fog, knowing a scrub was a possibility but excited to be there, together -- our little social media mission with our major access to what many – but not us -- would consider a minor launch (as in, unmanned and orbiting Earth rather than sexier Mars).
The fact that many of us had travelled a great distance to attend the pre-launch event and dragged ourselves out of bed to the viewing site in the middle of the night didn’t seem to enter into the decision. We’d even eaten the lucky peanuts and sung a few bars of "The Final Countdown."
It was later explained as a problem with the Vandenberg launch pad, not the NASA satellite itself or United Launch Alliance’s Delta II rocket that would send it into orbit (US space travel is a cooperative effort between NASA, the air force, and private industry): “The system provides sound suppression to dampen acoustic waves at liftoff and protects a launch pad flame duct.” Right, of course.
“Better a good scrub than a bad launch,” said Stephanie Smith, one of our NASA guides and one of the brains behind NASA’s social media accounts, including Mars Curiosity Rover. And indeed, the disappointment of OCO-2’s one-day delay (it successfully launched 24 hours later) was nothing compared to the devastation of OCO-1’s crash into the ocean shortly after launch in 2009.
A small number of our group – those with more flexible itineraries -- stayed for the next day’s liftoff and saw not even the promised red glow through the heavy fog. But we all cheered that launch success, and the continuing news that OCO-2 is operating as expected so far.
It’s personal
This is our mission too, now. Faced with a disinterested media, budget cuts and questionable political support, NASA has turned to Twitter in particular to build an army of social media advocates. Their NASA Social events gather select social media users to get a crash course on a particular mission or project and maybe to witness a launch first-hand (preferably with no crash included).
The day leading up to that early morning, we had been given incredible access to the people behind the machines, from the mission scientists and engineers to NASA Administrator Charles Bolden. They were human beings to us now, and we felt their disappointment more keenly than our own.
When Project Architect Randy Pollock started on the original Orbiting Carbon Observatory project – the one that made a bottom-of-the-ocean synchronous orbit -- his son was in kindergarten; now he’s an intern at NASA JPL. That’s’ 13 years of Pollock’s life invested in a mission that was lucky to get a second chance. I suppose more important than our need to see the rocket's red glare was their need to have a long-awaited success.
At the launch pad site we asked questions of Administrator Bolden, who boldly stated that we’ll send humans to Mars by 2030, and encouraged us to share our excitement about our OCO-2 experience widely. The undercurrent, of course, is that future missions are in jeopardy due to current funding cuts.
One measure of our enthusiasm (apart from the number of selfies taken with the rocket) was our eagerness to see the launch from a prime vantage point. One of our group asked what would happen if we witnessed it from this very spot, metres away. Before enumerating the disastrous physical effects of standing too close, former shuttle astronaut Bolden said “I’ve never been this close before. Well actually I have; I’ve been on it.”
When pressed at the social media briefing earlier in the day what one message they’d like to convey, the OCO-2 team said “Science is fun.” They aren’t just words to NASA – they instill a spirit of fun and awe into their social media advocacy.
All that and a purpose too
OCO-2’s mission isn’t to prove climate change, nor to prove the human contribution to greenhouse gases. NASA’s earth scientists have moved on and call those questions a false debate. Scientists are able to accurately measure the amount of carbon dioxide in the atmosphere – the key driver of climate change -- both today and in the past, and see our impact.
“Climate change is real. Period. We have all the data to show it’s happening; we don’t have all the data to know how to address it," said Annmarie Eldering, OCO-2’s Deputy Project Scientist.
OCO-2 will gather that data about where all the carbon dioxide in our atmosphere comes from and how the various natural “sinks” – oceans and forests – absorb and later release carbon back into the atmosphere. Eldering knows more data won't convince skeptics, but believes the more we understand and can measure, the more informed our actions and policies can be.
When people found out I was going to see a rocket launch, a common question was "NASAs still does that?" With the demise of the shuttle and the US ability to send man into space, the media and public's attention has wandered.
Seeing a satellite-bearing rocket head into space, meeting the people who made it happen, and knowing the importance of the mission and the consequences of failure -- both in launch and in societal acceptance of climate change -- made it personal all right. I'll be cheering OCO-2 on as it makes its way into its orbit and starts collecting and transmitting its crucial data.