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  The CO2 record at the Amazon Tall Tower Observatory: A new opportunity to study processes on seasonal and inter-annual scales

Botia, S., Komiya, S., Marshall, J., Koch, T., Galkowski, M., Lavric, J., et al. (2022). The CO2 record at the Amazon Tall Tower Observatory: A new opportunity to study processes on seasonal and inter-annual scales. Global Change Biology, 28(2), 588-611. doi:10.1111/gcb.15905.

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 Creators:
Botia, Santiago1, Author
Komiya, Shujiro1, Author
Marshall, Julia1, Author
Koch, Thomas1, Author
Galkowski, Michal1, Author
Lavric, Jost1, Author
Gomes-Alves, Eliane1, Author
Walter, David1, Author
Fisch, Gilberto1, Author
Pinho, Davieliton M.1, Author
Nelson, Bruce W.1, Author
Martins, Giordane1, Author
Luijkx, Ingrid T.1, Author
Koren, Gerbrand1, Author
Florentie, Liesbeth1, Author
de Araujo, Alessandro Carioca1, Author
Sa, Marta1, Author
Andreae, Meinrat O.2, Author              
Heimann, Martin1, Author
Peters, Wouter1, Author
Gerbig, Christoph1, Author more..
Affiliations:
1external, ou_persistent22              
2Multiphase Chemistry, Max Planck Institute for Chemistry, Max Planck Society, ou_1826290              

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 Abstract: High-quality atmospheric CO2 measurements are sparse in Amazonia, but can provide critical insights into the spatial and temporal variability of sources and sinks of CO2. In this study, we present the first 6 years (2014–2019) of continuous, high-precision measurements of atmospheric CO2 at the Amazon Tall Tower Observatory (ATTO, 2.1°S, 58.9°W). After subtracting the simulated background concentrations from our observational record, we define a CO2 regional signal (urn:x-wiley:13541013:media:gcb15905:gcb15905-math-1802) that has a marked seasonal cycle with an amplitude of about 4 ppm. At both seasonal and inter-annual scales, we find differences in phase between urn:x-wiley:13541013:media:gcb15905:gcb15905-math-0001 and the local eddy covariance net ecosystem exchange (EC-NEE), which is interpreted as an indicator of a decoupling between local and non-local drivers of urn:x-wiley:13541013:media:gcb15905:gcb15905-math-0002. In addition, we present how the 2015–2016 El Niño-induced drought was captured by our atmospheric record as a positive 2σ anomaly in both the wet and dry season of 2016. Furthermore, we analyzed the observed seasonal cycle and inter-annual variability of urn:x-wiley:13541013:media:gcb15905:gcb15905-math-0004 together with net ecosystem exchange (NEE) using a suite of modeled flux products representing biospheric and aquatic CO2 exchange. We use both non-optimized and optimized (i.e., resulting from atmospheric inverse modeling) NEE fluxes as input in an atmospheric transport model (STILT). The observed shape and amplitude of the seasonal cycle was captured neither by the simulations using the optimized fluxes nor by those using the diagnostic Vegetation and Photosynthesis Respiration Model (VPRM). We show that including the contribution of CO2 from river evasion improves the simulated shape (not the magnitude) of the seasonal cycle when using a data-driven non-optimized NEE product (FLUXCOM). The simulated contribution from river evasion was found to be 25% of the seasonal cycle amplitude. Our study demonstrates the importance of the ATTO record to better understand the Amazon carbon cycle at various spatial and temporal scales.

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 Dates: 2021-09-252022
 Publication Status: Published in print
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 Rev. Type: -
 Identifiers: ISI: 000710981900001
DOI: 10.1111/gcb.15905
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Title: Global Change Biology
Source Genre: Journal
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Publ. Info: Oxford, UK : Blackwell Science
Pages: - Volume / Issue: 28 (2) Sequence Number: - Start / End Page: 588 - 611 Identifier: ISSN: 1354-1013
CoNE: https://pure.mpg.de/cone/journals/resource/954925618107