Carbon dioxide reaches dangerous levels, more than plants can take in
The average carbon dioxide level for May was 419.13 parts per mn.
And the average rate of increase is faster than ever, scientists reported Monday.
The National Oceanic and Atmospheric Administration said the average carbon dioxide level for May was 419.13 parts per million. That's 1.82 parts per million higher than May 2020 and 50% higher than the stable pre-industrial levels of 280 parts per million, said NOAA climate scientist Pieter Tans.
Carbon dioxide levels peak every May just before plant life in the Northern Hemisphere blossoms, sucking some of that carbon out of the atmosphere and into flowers, leaves, seeds and stems. The reprieve is temporary, though, because emissions of carbon dioxide from burning coal, oil and natural gas for transportation and electricity far exceed what plants can take in, pushing greenhouse gas levels to new records every year.
"Reaching 50% higher carbon dioxide than preindustrial is really setting a new benchmark and not in a good way," said Cornell University climate scientist Natalie Mahowald, who wasn't part of the research. "If we want to avoid the worst consequences of climate change, we need to work much harder to cut carbon dioxide emissions and right away."
Climate change does more than increase temperatures. It makes extreme weather - storms, wildfires, floods and droughts - worse and more frequent and causes oceans to rise and get more acidic, studies show. There are also health effects, including heat deaths and increased pollen. In 2015, countries signed the Paris agreement to try to keep climate change to below what's considered dangerous levels.
The one-year jump in carbon dioxide was not a record, mainly because of a La Nina weather pattern, when parts of the Pacific temporarily cool, said Scripps Institution of Oceanography geochemist Ralph Keeling. Keeling's father started the monitoring of carbon dioxide on top of the Hawaiian mountain Mauna Loa in 1958, and he has continued the work of charting the now famous Keeling Curve.
Scripps, which calculates the numbers slightly differently based on time and averaging, said the peak in May was 418.9.
Also, pandemic lockdowns slowed transportation, travel and other activity by about 7%, earlier studies show. But that was too small to make a significant difference. Carbon dioxide can stay in the air for 1,000 years or more, so year-to-year changes in emissions don't register much.
The 10-year average rate of increase also set a record, now up to 2.4 parts per million per year.
"Carbon dioxide going up in a few decades like that is extremely unusual," Tans said. "For example, when the Earth climbed out of the last ice age, carbon dioxide increased by about 80 parts per million and it took the Earth system, the natural system, 6,000 years. We have a much larger increase in the last few decades."
By comparison, it has taken only 42 years, from 1979 to 2021, to increase carbon dioxide by that same amount.
"The world is approaching the point where exceeding the Paris targets and entering a climate danger zone becomes almost inevitable," said Princeton University climate scientist Michael Oppenheimer, who wasn't part of the research.
Tech for energy storage, smart metering, clean cooking, innovative EV solutions, battery technologies, energy monitoring systems and hydro turbine technologies are among the 15 winning start-ups announced and felicitated by Government of India, BIRAC, Tata Trusts, TATA Power and Social Alpha at a felicitation ceremony and innovation showcase of the Social Alpha Energy Challenge 2.0 (SAEC 2.0), last week. The winners were selected from more than 150 applicants across the country which were screened for their unique technology and business model, strong focus on affordability and accessibility and social, economic and environmental impact.
The selection for the winners of Social Alpha Energy Challenge 2.0 was made for two categories respectively - ‘pre-pilot’ and ‘post-pilot’, to address the needs of technologies and start-ups in different stages of product development. The pre-pilot category winners will be supported in their very early stage through handholding and mentorship for product development, including support in physical prototype development and testing. The post-pilot category start-ups are the ones that have crossed the proof of concept stage and have demonstrated a working prototype, and will be supported in the go-to-market execution.
The winners will be incubated by the Clean Energy International Incubation Centre (CEIIC). CEIIC, Social Alpha’s deep-tech Energy Innovation Lab, which is the joint initiative of the Government of India and Tata Trusts, supported by Department of Biotechnology, BIRAC, Tata Power and Tata Power-Delhi Distribution Limited. CEIIC will support entrepreneurs by providing industry and field connect critical for product development .
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