Analysis of atmospheric CO2 growth rates at Mauna Loa using CO2 fluxes derived from an inverse model

Carbon dioxide (CO2) growth rates are estimated for a period 1959–2004 from atmospheric CO2 measurements at Mauna Loa by the Scripps Institute of Oceanography. Only during a few short periods, 1965–1966, 1972–1973, 1987–1988 and 1997–1998, in the last 45 yr have growth rates of atmospheric CO2 been of a similar magnitude or higher than that due to the total emission from burning of fossil fuels. Using results from a time-dependent inverse (TDI) model, based on observations of atmospheric CO2 at 87 stations, we establish that El Nino-induced climate variations in the tropics and large-scale forest fires in the boreal regions are the main causes of anomalous growth rates of atmospheric CO2. The high growth rate of 2.8 ppm yr−1 in 2002 can be predicted fairly successfully by using the correlations between (1) the peak-to-trough amplitudes in the El Nino Southern Oscillation (ENSO) index and tropical flux anomaly, and (2) anomalies in CO2 flux and area burned by fire from the boreal regions. We suggest that the large interannual changes in CO2 growth rates can mostly be explained by natural climate variability. Our analysis also shows that the decadal average growth rate, linked primarily to human activity, has fluctuated around an all-time high value of ~1.5 ppm yr−1 over the past 20 yr. A statistical model analysis is performed to identify the regions which have the maximum influence on the observed growth rate anomaly at Mauna Loa.

[1]  Dennis D. Baldocchi,et al.  Response of a Deciduous Forest to the Mount Pinatubo Eruption: Enhanced Photosynthesis , 2003, Science.

[2]  J. Randerson,et al.  Continental-Scale Partitioning of Fire Emissions During the 1997 to 2001 El Niño/La Niña Period , 2003, Science.

[3]  P. Tans,et al.  Global Carbon Sinks and Their Variability Inferred from Atmospheric O2 and δ13C , 2000 .

[4]  I. C. Prentice,et al.  Climatic Control of the High-Latitude Vegetation Greening Trend and Pinatubo Effect , 2002, Science.

[5]  M. Wahlen,et al.  Interannual extremes in the rate of rise of atmospheric carbon dioxide since 1980 , 1995, Nature.

[6]  R. Houghton Revised estimates of the annual net flux of carbon to the atmosphere from changes in land use and land management 1850 – 2000 , 2003 .

[7]  Shamil Maksyutov,et al.  Interannual and decadal changes in the sea‐air CO2 flux from atmospheric CO2 inverse modeling , 2005 .

[8]  K. Hirsch,et al.  Large forest fires in Canada, 1959–1997 , 2002 .

[9]  K. Higuchi,et al.  Sensitivity of inter-annual variation of CO2 seasonal cycle at Mauna Loa to atmospheric transport , 2003 .

[10]  T. Swetnam,et al.  Fire-Southern Oscillation Relations in the Southwestern United States , 1990, Science.

[11]  Joel S. Levine,et al.  Satellite analysis of the severe 1987 forest fires in northern China and southeastern Siberia , 1994 .

[12]  Corinne Le Quéré,et al.  Regional changes in carbon dioxide fluxes of land and oceans since 1980. , 2000, Science.

[13]  Ian G. Enting,et al.  Reconstructing the recent carbon cycle from atmospheric CO2, δ13C and O2/N2 observations* , 1999 .

[14]  E. Kasischke,et al.  Emissions of carbon dioxide, carbon monoxide, and methane from boreal forest fires in 1998 , 2002 .

[15]  Ralph F. Keeling,et al.  THE CHANGE IN OCEANIC 02 INVENTORY ASSOCIATED WITH RECENT GLOBAL WARMING , 2022 .

[16]  R. Bacastow Dip in the atmospheric CO2 level during the mid‐1960's , 1979 .

[17]  M. Ishizawa,et al.  TWO CURVE FITTING METHODS APPLIED TO CO2 FLASK DATA , 1997 .

[18]  Shamil Maksyutov,et al.  Role of biomass burning and climate anomalies for land‐atmosphere carbon fluxes based on inverse modeling of atmospheric CO2 , 2005, Global Biogeochemical Cycles.

[19]  C. D. Keeling,et al.  Increased activity of northern vegetation inferred from atmospheric CO2 measurements , 1996, Nature.

[20]  C. Tucker,et al.  Climate-Driven Increases in Global Terrestrial Net Primary Production from 1982 to 1999 , 2003, Science.

[21]  C. Lorius,et al.  Vostok ice core provides 160,000-year record of atmospheric CO2 , 1987, Nature.