M
Martin Heimann
Researcher at Max Planck Society
Publications - 322
Citations - 39871
Martin Heimann is an academic researcher from Max Planck Society. The author has contributed to research in topics: Carbon cycle & Climate change. The author has an hindex of 97, co-authored 315 publications receiving 36542 citations. Previous affiliations of Martin Heimann include VU University Amsterdam & University of Helsinki.
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Journal ArticleDOI
Pacific dominance to global air-sea CO2 flux variability: A novel atmospheric inversion agrees with ocean models
TL;DR: In this paper, both high-resolution atmospheric inversion calculations and global ocean biogeochemical models place the primary source of global CO2 air-sea flux variability in the Pacific Ocean.
Journal ArticleDOI
The substitution of high‐resolution terrestrial biosphere models and carbon sequestration in response to changing CO2 and climate
Robert Meyer,Fortunat Joos,Gerd Esser,Martin Heimann,Georg Hooss,G. H. Kohlmaier,Walter Sauf,Reinhard Voss,Uwe Wittenberg +8 more
TL;DR: In this article, the authors explore the high-resolution terrestrial biosphere model as implemented in the Community Terrestrial Biosphere Model (HRBM/CTBM), the Frankfurt Biosphere model (FBM), and the box-type biosphere of the Bern model.
Journal ArticleDOI
Gap-filling eddy covariance methane fluxes : Comparison of machine learning model predictions and uncertainties at FLUXNET-CH4 wetlands
Jeremy Irvin,Sharon Zhou,Gavin McNicol,Fred Lu,Vincent Liu,Etienne Fluet-Chouinard,Zutao Ouyang,Sara H. Knox,Antje Lucas-Moffat,Carlo Trotta,Dario Papale,Domenico Vitale,Ivan Mammarella,Pavel Alekseychik,Mika Aurela,Anand Avati,Dennis D. Baldocchi,Sheel Bansal,Gil Bohrer,David I. Campbell,Jiquan Chen,Housen Chu,Higo J. Dalmagro,Kyle B. Delwiche,Ankur R. Desai,Eugénie S. Euskirchen,Sarah Feron,Sarah Feron,M. Goeckede,Martin Heimann,Manuel Helbig,Carole Helfter,Kyle S. Hemes,Takashi Hirano,Hiroki Iwata,Gerald Jurasinski,Aram Kalhori,Andrew Kondrich,Derrick Y.F. Lai,Annalea Lohila,Avni Malhotra,Lutz Merbold,Bhaskar Mitra,Andrew Y. Ng,Mats Nilsson,Asko Noormets,Matthias Peichl,Camilo Rey-Sanchez,Andrew D. Richardson,Benjamin R. K. Runkle,Karina V. R. Schäfer,Oliver Sonnentag,Ellen Stuart-Haëntjens,Cove Sturtevant,Masahito Ueyama,Alex C. Valach,Rodrigo Vargas,George L. Vourlitis,E. J. Ward,Guan Xhuan Wong,Donatella Zona,M. C. R. Alberto,David P. Billesbach,Gerardo Celis,Han Dolman,Thomas Friborg,Kathrin Fuchs,Sébastien Gogo,Mangaliso J. Gondwe,Jordan P. Goodrich,Pia Gottschalk,Lukas Hörtnagl,Adrien Jacotot,Franziska Koebsch,Kuno Kasak,Regine Maier,Timothy H. Morin,Eiko Nemitz,Walter C. Oechel,Patricia Y. Oikawa,Keisuke Ono,Torsten Sachs,Ayaka Sakabe,Edward A. G. Schuur,Robert Shortt,Ryan C. Sullivan,Daphne Szutu,Eeva-Stiina Tuittila,Andrej Varlagin,Joeseph G. Verfaillie,Christian Wille,Lisamarie Windham-Myers,Benjamin Poulter,Robert B. Jackson +93 more
TL;DR: In this paper, the authors synthesize results of different gap-filling methods systematically applied at 17 wetland sites spanning boreal to tropical regions and including all major wetland classes and two rice paddies.
IPCC Working Group 1 Third Assessment Report
Michael L. Goulden,Iain Colin Prentice,Graham D. Farquhar,Mjr Fasham,M Goulden,Martin Heimann,Jaramillo,Haroon S. Kheshgi,C. Le Quéré,Robert J. Scholes,D. W. R. Wallace +10 more
TL;DR: The concentration of CO2 in the atmosphere has risen from close to 280 parts per million (ppm) in 1800, at first slowly and then progressively faster to a value of 367 ppm in 1999, echoing the increasing pace of global agricultural and industrial development.
Journal ArticleDOI
WRF-Chem simulations in the Amazon region during wet and dry season transitions: evaluation of methane models and wetland inundation maps
Veronika Beck,Christoph Gerbig,Thomas Koch,M. M. Bela,M. M. Bela,Karla Longo,Saulo R. Freitas,Jed O. Kaplan,C. Prigent,P. Bergamaschi,Martin Heimann +10 more
TL;DR: In this paper, a forward and inverse modeling framework for assessing the CH4 budget of the Amazon region is implemented, based on a modified version of the Weather Research and Forecasting model with chemistry that allows for passive tracer transport of CH4, carbon monoxide, and carbon dioxide (WRF-GHG), and three different wetland inundation maps, prescribing the fraction of inundated area per grid cell are evaluated.