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Closing the Global Bomb Radiocarbon Budget Tobias Naegler 1,2 , Vago Hesshaimer 1 , and Ingeborg Levin 1 1 Institut für Umweltphysik, Universität Heidelberg, Germany 2 Laboratoire des Sciences du Climat et de l‘Environnement, Gif-Sur-Yvette, France. The global bomb 14 C cycle.
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Closing the Global Bomb Radiocarbon Budget Tobias Naegler1,2, Vago Hesshaimer1, and Ingeborg Levin1 1Institut für Umweltphysik, Universität Heidelberg, Germany 2Laboratoire des Sciences du Climat et de l‘Environnement, Gif-Sur-Yvette, France
The global bomb 14C cycle Stratosphere nuclear bombs nuclear bombs stratosphere-troposphere exchange (STE) Troposphere air-sea gas exchange carbon exchange biosphere-atmosphere Ocean Biosphere
Why simulating the bomb 14C budget? • test of carbon cycle models • consistency check of observation-based bomb 14C inventory estimates
Closing the global bomb 14C budget: difficulties to face (until ~2000) • bomb 14C production: large uncertainties • atmospheric models: not calibrated, • low resolution • observed bomb 14C inventories: • stratosphere (1955-1970) biased? • ocean (GEOSECS in 1970s) large spread • biosphere not available
New developments since 2000: • new extensive bomb test compilation • (Yang 2000) • re-evaluation of stratospheric 14C observations • (Hesshaimer & Levin 2000, Naegler 2005) • no or only small bias in stratospheric 14C observations • new ocean bomb 14C inventory estimates (GEOSECS, WOCE) • (Peacock 2004, Key et al. 2004) • Global RAdioCarbon Exploration Model (GRACE): data calibrated stratosphere-troposphere box model (Hesshaimer 1997, Naegler 2005) Re-evaluation of the global bomb 14C budget now possible
30km ATMOSPHERE 21km 15km 9km 0km 90°S 60°S 30°S 0° 30°N 60°N 90°N BIOSPHERE OCEAN Leaves Twigs Wood Soil Setup of the GRACE model bomb 14C 14C from nuclear industry natural 14C Land use change CO2 Fossil fuel & cement production CO2
Question: Is it possible to estimate a biospheric bomb 14C inventory based on atmospheric and oceanic observations?
YES! Basic assumptions: • bomb 14C production is known from GRACE • ocean bomb 14C inventories correct for 1975 and 1995 • shape of ocean bomb 14C inventory in GRACE is realistic history of ocean bomb 14C inventory given by simulated shape and observed GEOSECS and WOCE inventories
Conclusions I: • GRACE simulates bomb 14C inventories in good agreement with all available bomb 14C observations • bomb radiocarbon budget closed • indirect, but data-based estimate of the biospheric bomb 14C inventory • constraints for setup & parameterisation of biosphere models
Conclusions II • ocean inventory estimates from Peacock (2004) and Key et al. (2004) confirmed • ocean inventory estimate from Broecker et al. (1985)/Wanninkhof (1992) is too high • re-evaluation of the bomb 14C constraints on air sea gas exchange necessary • see poster FF249 by Naegler, Ciais, Rodgers & Levin
The End. Thank you.
Bomb 14C observations in the different carbon reservoirs information on carbon transfer rates between the reservoirs • stratosphere-troposphere exchange • air-sea gas exchange • biospheric turnover times
Cumulative explosive force (Mt TNT) Bomb 14C production • cumulative explosive force: 350-600 Mt TNT • radiocarbon yield: 0.5 - 2.0 RCU/Mt TNT (1 RCU = 1 RadioCarbon Unit = 1026 atoms 14C)
Calibration of the bomb 14C yield cumulated bomb radiocarbon production = cumulated explosive force · yield = observed stratospheric inventory + observed tropospheric inventory + observed ocean inventory + observed biospheric inventory observed stratospheric inventory + observed tropospheric inventory + modelledocean inventory + modelledbiospheric inventory
Tropospheric 14CO2 observations in the 1960s data from Nydal & Lövseth, Manning et al., Levin et al. etc...
Airborne observations of bomb 14CO2 from Telegadas, Hagemann
Stratospheric 14CO2 concentrations Comparison model - observations
D14C in the troposphere Comparison model - observations
Ocean bomb radiocarbon inventory estimates 1 corrected for missing ocean areas, Naegler 2005
Global bomb radiocarbon budget II bomb test compilation: Rath, biosphere: well-mixed
Global bomb radiocarbon budget III bomb test compilation: Yang, biosphere: lagged-response
NPP: D14CAtm RES: D14CPool Well-mixed Biosphere Model atmosphere: D14CAtm immediate response biospheric pool immediate mixing D14CPool
NPP: D14CAtm RES: D14CDead dying biomass: D14CLiving Lagged-Response Biosphere Model atmosphere: D14CAtm lagged response living biomass D14CLiving dead biomass D14CDead
Observed zonal profiles of ocean surface D14C data from Broecker et al., Key et al., Levin & Hesshaimer