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{{Short description|Graph of CO2 accumulated in the Earth's atmosphere as measured at Mauna Loa from 1958 until today}}
{{Short description|Graph of CO<sub>2</sub> accumulated in the Earth's atmosphere as measured at Mauna Loa from 1958 until today}}
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[[File:Mauna Loa CO2 monthly mean concentration.svg|thumb|Atmospheric [[carbon dioxide]] ({{CO2}}) concentrations from 1958 to 2020|500px]]
[[File:Mauna Loa CO2 monthly mean concentration.svg|thumb|Atmospheric [[carbon dioxide]] ({{CO2}}) concentrations from 1958 to 2020|500px]]

Revision as of 18:29, 16 February 2021

Atmospheric carbon dioxide (CO2) concentrations from 1958 to 2020

The Keeling Curve is a graph of the accumulation of carbon dioxide in the Earth's atmosphere based on continuous measurements taken at the Mauna Loa Observatory on the island of Hawaii from 1958 to the present day. The curve is named for the scientist Charles David Keeling, who started the monitoring program and supervised it until his death in 2005.

Keeling's measurements showed the first significant evidence of rapidly increasing carbon dioxide (CO2) levels in the atmosphere.[1] According to Dr Naomi Oreskes, Professor of History of Science at Harvard University, the Keeling curve is one of the most important scientific works of the 20th century.[2] Many scientists credit the Keeling curve with first bringing the world's attention to the current increase of CO2 in the atmosphere.[3]

Background

Prior to the 1950s, measurements of atmospheric CO2 concentrations had been taken on an ad hoc basis at a variety of locations. In 1938, engineer and amateur meteorologist Guy Stewart Callendar compared datasets of atmospheric CO2 from Kew in 1898–1901, which averaged 274 parts per million by volume (ppmv),[4] and from the eastern United States in 1936–1938, which averaged 310 ppmv, and concluded that CO2 concentrations were rising due to anthropogenic emissions.[5] However, Callendar's findings were not widely accepted by the scientific community due to the patchy nature of the measurements.[6][7]

Charles David Keeling, of Scripps Institution of Oceanography at UC San Diego, was the first person to make frequent regular measurements of atmospheric CO2 concentrations in Antarctica, and on Mauna Loa, Hawaii from March 1958 onwards.[8] Keeling had previously tested and employed measurement techniques at locations including Big Sur near Monterey, rain forests of the Olympic Peninsula in Washington state, and high mountain forests in Arizona.[1] He observed strong diurnal behavior of CO2, with excess CO2 at night due to respiration by plants and soils, and afternoon values representative of the "free atmosphere" over the Northern hemisphere.[1]

Mauna Loa measurements

The Mauna Loa Observatory

In 1957–1958, the International Geophysical Year, Keeling obtained funding from the Weather Bureau to install infrared gas analyzers at remote locations, including the South Pole and on the volcano of Mauna Loa on the island of Hawaii. Mauna Loa was chosen as a long-term monitoring site due to its remote location far from continents and its lack of vegetation. Keeling and his collaborators measured the incoming ocean breeze above the thermal inversion layer to minimize local contamination from volcanic vents.[8] The data were normalized to remove any influence from local contamination. Due to funding cuts in the mid-1960s, Keeling was forced to abandon continuous monitoring efforts at the South Pole, but he scraped together enough money to maintain operations at the Mauna Loa Observatory, which have continued to the present day.[9]

External videos
video icon Scripps Institution of Oceanography at UC San Diego, The Keeling Curve Animation, Scripps Institution of Oceanography at UC San Diego
video icon Ralph Keeling, "The (Ralph) Keeling Curve", Scripps Institution of Oceanography at UC San Diego
video icon Dr. John Barnes, Mauna Loa Observatory I Exploratorium, Exploratorium
video icon Charles David Keeling, "The Keeling Curve Turns 50"
video icon Charles David Keeling, 2005 "Tyler Prize Laureate Lecture"

Keeling's Tellus article of 1960 presented the first monthly CO2 records from Mauna Loa and Antarctica (1957 to 1960), finding a "distinct seasonal cycle...and possibly, a worldwide rise in CO2 from year to year."[10][9]: 41–42  By the 1970s, it was well established that the increase of atmospheric carbon dioxide was ongoing and due to anthropogenic emissions.[11][12]

Carbon dioxide measurements at the Mauna Loa Observatory in Hawaii are made with a type of infrared spectrophotometer, now known as a nondispersive infrared sensor, that is calibrated using World Meteorological Organization standards.[13] This type of instrument, originally called a capnograph, was first invented by John Tyndall in 1864, and recorded by pen traces on a strip chart recorder.[14] Currently, several laser-based sensors are being added to run concurrently with the infrared spectrophotometer at Scripps Institute of Oceanography, while NOAA measurements at Mauna Loa still use the nondispersive infrared sensor.

Results and interpretation

The measurements collected at Mauna Loa Observatory show a steady increase in mean atmospheric CO2 concentration from 313 parts per million by volume (ppmv) in March 1958 to 406 ppmv in November 2018,[15] with a current increase of 2.48 ± 0.26 (mean ± 2 std dev) ppmv CO2 per year.[16] This increase in atmospheric CO2 is due to the combustion of fossil fuels, and has been accelerating in recent years. Since CO2 is a greenhouse gas, this has significant implications for global warming. Measurements of CO2 concentration in ancient air bubbles trapped in polar ice cores show that mean atmospheric CO2 concentration was between 275 and 285 ppmv during the Holocene epoch (9,000 BCE onwards), but started rising sharply at the beginning of the nineteenth century.[17]

The Keeling Curve also shows a cyclic variation of about 5 ppmv each year corresponding to the seasonal change in uptake of CO2 by the world's land vegetation. Most of this vegetation is in the Northern hemisphere where most of the land is located. From a maximum in May, the level decreases during the northern spring and summer as new plant growth takes CO2 out of the atmosphere through photosynthesis. After reaching a minimum in September, the level rises again in the northern fall and winter as plants and leaves die off and decay, releasing CO2 back into the atmosphere.[10][12]

Legacy

Global monitoring

Due in part to the significance of Keeling's findings,[9] NOAA began monitoring CO2 levels worldwide in the 1970s.[18] Today, atmospheric CO2 levels are monitored at about 100 sites around the globe through the Global Greenhouse Gas Reference Network.[19] Measurements at many other isolated sites have confirmed the long-term trend shown by the Keeling Curve,[20] although no sites have as long a record as Mauna Loa.[21]

Ralph Keeling

Since Charles David Keeling's death in 2005, responsibility and oversight of the project was transferred to Keeling's son, Ralph Keeling. On the fiftieth anniversary of the beginning of the project, the younger Keeling wrote an article in Science magazine describing his father's life and work, along with how the project has grown and evolved over time.[22] Along with more precise measurement materials and funds for the project of monitoring of the Earth's CO2 levels, Keeling wrote his pride for his father's work and how he has continued it in his memory.

Recognition

In 2015, the Keeling Curve was designated a National Historic Chemical Landmark by the American Chemical Society.[23] Commemorative plaques were installed at Mauna Loa Observatory and at the Scripps Institution of Oceanography at the University of California, San Diego.

Passing 400 ppm in 2013

On May 9, 2013, the daily mean concentration of CO2 in the atmosphere measured at Mauna Loa surpassed 400 parts per million (ppmv).[24] Estimates of CO2 during previous geologic eras suggest that CO2 has not reached this level since the mid-Pliocene, 2 to 4 million years ago.[25]

See also

References

  1. ^ a b c "The Early Keeling Curve | Scripps CO2 Program". scrippsco2.ucsd.edu. Retrieved 2018-11-24.
  2. ^ Naomi Oreskes (23 January 2017). Climate Disruption (video). Awesome Documentaries TV. Retrieved 27 August 2017.
  3. ^ Nisbet, Euan (2007). "Cinderella science" (PDF). Nature. 450 (7171): 789–790. doi:10.1038/450789a. PMID 18063983.
  4. ^ Brown, Horace Tabberer; Escombe, F. (1905). "On the variations in the amount of carbon dioxide in the air of Kew during the years 1898-1901". Proc. R. Soc. Lond. B. 76 (507): 118–121. Bibcode:1905RSPSB..76..118B. doi:10.1098/rspb.1905.0004. ISSN 0950-1193.
  5. ^ Callendar, Guy Stewart (1938). "The artificial production of carbon dioxide and its influence on temperature" (PDF). Quarterly Journal of the Royal Meteorological Society. 64 (275): 223–240. Bibcode:1938QJRMS..64..223C. doi:10.1002/qj.49706427503.
  6. ^ Fleming, James Rodger (1998). Historical Perspectives on Climate Change. Oxford: Oxford University Press. ISBN 978-0195078701.
  7. ^ "The Carbon Dioxide Greenhouse Effect". history.aip.org. Retrieved 2018-11-24.
  8. ^ a b Harris, Daniel C. (2010). "Charles David Keeling and the Story of Atmospheric CO2 Measurements". Analytical Chemistry. 82 (19): 7865–7870. doi:10.1021/ac1001492. ISSN 0003-2700. PMID 20536268.
  9. ^ a b c Keeling, Charles D. (1998). "Rewards and Penalties of Monitoring the Earth". Annual Review of Energy and the Environment. 23: 25–82. CiteSeerX 10.1.1.173.2051. doi:10.1146/annurev.energy.23.1.25.
  10. ^ a b Keeling, Charles D. (1960). "The concentration and isotopic abundances of carbon dioxide in the atmosphere" (PDF). Tellus. 12 (2): 200–203. doi:10.3402/tellusa.v12i2.9366.
  11. ^ Pales, Jack C.; Keeling, Charles David (1965). "The Concentration of Atmospheric Carbon Dioxide in Hawaii". Journal of Geophysical Research. 70 (24): 6053–6076. Bibcode:1965JGR....70.6053P. doi:10.1029/JZ070i024p06053.
  12. ^ a b Keeling, Charles D.; Bacastow, Robert B.; Bainbridge, Arnold E.; Ekdahl Jr., Carl A.; Guenther, Peter R.; Waterman, Lee S.; Chin, John F. S. (1976). "Atmospheric carbon dioxide variations at Mauna Loa Observatory, Hawaii". Tellus. 28 (6): 538–551. doi:10.3402/tellusa.v28i6.11322. ISSN 0040-2826.
  13. ^ Tans, Pieter; Thoning, Kirk (March 2018). "How we measure background CO2 levels on Mauna Loa" (PDF).
  14. ^ "Sampling the Air". The New York Times. December 22, 2010.
  15. ^ "Recent Monthly Average Mauna Loa CO2". Earth System Research Laboratory. Retrieved 9 May 2016.
  16. ^ Rasmussen, Carl Edward. "Atmospheric Carbon Dioxide Growth Rate".
  17. ^ Neftel, A.; Moor, E.; Oeschger, H.; Stauffer, B. (1985). "Evidence from polar ice cores for the increase in atmospheric CO2 in the past two centuries". Nature. 315 (6014): 45–47. Bibcode:1985Natur.315...45N. doi:10.1038/315045a0.
  18. ^ Keeling, Charles D. (1978). "The Influence of Mauna Loa Observatory on the Development of Atmospheric CO2 Research". In Mauna Loa Observatory: A 20th Anniversary Report. (National Oceanic and Atmospheric Administration Special Report, September 1978), edited by John Miller, pp. 36–54. Boulder, CO: NOAA Environmental Research Laboratories.
  19. ^ Laboratory, US Department of Commerce, NOAA, Earth System Research. "ESRL Global Monitoring Division - Global Greenhouse Gas Reference Network". www.esrl.noaa.gov. Retrieved 2018-11-25.{{cite web}}: CS1 maint: multiple names: authors list (link)
  20. ^ Global Stations CO2 Concentration Trends. Scripps CO2 Program.
  21. ^ Keeling, Charles D.; Whorf, T. P. (2004). "Atmospheric CO2 from Continuous Air Samples at Mauna Loa Observatory, Hawaii, U.S.A." Archived from the original on 2016-03-03. Retrieved 2007-10-17.
  22. ^ Keeling, Ralph F. (2008). "Recording Earth's Vital Signs". Science. 319 (5871): 1771–1772. doi:10.1126/science.1156761. ISSN 0036-8075. PMID 18369129.
  23. ^ "Keeling Curve - American Chemical Society". American Chemical Society. Retrieved 2018-11-25.
  24. ^ Showstack, Randy (2013). "Carbon dioxide tops 400 ppm at Mauna Loa, Hawaii". Eos, Transactions American Geophysical Union. 94 (21): 192. Bibcode:2013EOSTr..94Q.192S. doi:10.1002/2013eo210004. ISSN 0096-3941.
  25. ^ Montaigne, Fen. "Son of Climate Science Pioneer Ponders A Sobering Milestone". Yale Environment 360. Yale School of Forestry & Environmental Studies. Archived from the original on 8 June 2013. Retrieved 14 May 2013.