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Does Terrestrial Drought Explain Global CO2 Flux Anomalies Induced by El Nino?The El Nino Southern Oscillation is the dominant year-to-year mode of global climate variability. El Nino effects on terrestrial carbon cycling are mediated by associated climate anomalies, primarily drought, influencing fire emissions and biotic net ecosystem exchange (NEE). Here we evaluate whether El Nino produces a consistent response from the global carbon cycle. We apply a novel bottom-up approach to estimating global NEE anomalies based on FLUXNET data using land cover maps and weather reanalysis. We analyze 13 years (1997-2009) of globally gridded observational NEE anomalies derived from eddy covariance flux data, remotely-sensed fire emissions at the monthly time step, and NEE estimated from an atmospheric transport inversion. We evaluate the overall consistency of biospheric response to El Nino and, more generally, the link between global CO2 flux anomalies and El Nino-induced drought. Our findings, which are robust relative to uncertainty in both methods and time-lags in response, indicate that each event has a different spatial signature with only limited spatial coherence in Amazonia, Australia and southern Africa. For most regions, the sign of response changed across El Nino events. Biotic NEE anomalies, across 5 El Nino events, ranged from -1.34 to +0.98 Pg Cyr(exp -1, whereas fire emissions anomalies were generally smaller in magnitude (ranging from -0.49 to +0.53 Pg C yr(exp -1). Overall drought does not appear to impose consistent terrestrial CO2 flux anomalies during El Ninos, finding large variation in globally integrated responses from 11.15 to +0.49 Pg Cyr(exp -1). Despite the significant correlation between the CO2 flux and El Nino indices, we find that El Nino events have, when globally integrated, both enhanced and weakened terrestrial sink strength, with no consistent response across events
Document ID
20120013671
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
External Source(s)
doi:10.5194/bg-8-2493-2011
Authors
Schwalm. C. R. (Clark Univ. Worcester, MA, United States)
Williams, C. A. (Clark Univ. Worcester, MA, United States)
Schaefer, K. (Colorado Univ. Boulder, CO, United States)
Baker, I. (Colorado State Univ. Fort Collins, CO, United States)
Collatz, G. J. (NASA Goddard Space Flight Center Greenbelt, MD, United States)
Roedenbeck, C. (Max-Planck-Gesellschaft Jena, Germany)
Date Acquired
August 26, 2013
Publication Date
September 9, 2011
Publication Information
Publication: Biogeosciences
Volume: 8
Subject Category
Geophysics
Report/Patent Number
GSFC.JA.6430.2012
Funding Number(s)
CONTRACT_GRANT: ATM-0910766.
Distribution Limits
Public
Copyright
Public Use Permitted.

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