C-CASCADES Peer-Reviewed Publications
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Here is the list of C-CASCADES peer-reviewed publications. In bold appear the names of authors part of the C-CASCADES consortium (senior scientists and Early-Stage Researchers). If you click on the publication title, you will access to the PDF file of the article or will be redirected to the journal webpage.

On each publication, there is the following statement to acknowledge the EU funding of C-CASCADES project: The research leading to these results has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 643052 (C-CASCADES project).

2020:

- Bowring, S., Lauerwald, R., Guenet, B., Zhu, D., Guimberteau, M., REGNIER, P., M., Tootchi, A., Ducharne, A.and Ciais, P. ORCHIDEE MICT-LEAK (r5459), a global model for the production, transport and transformation of dissolved organic carbon from Arctic permafrost regions, Part 2: Model evaluation over the Lena River basinGeosci. Model Dev., 13, 507–520 (2020) - doi.org/10.5194/gmd-13-507-2020

- Lacroix, F., Ilyina, T., and Hartmann, J. Oceanic CO2 outgassing and biological production hotspots induced by pre-industrial river loads of nutrients and carbon in a global modeling approach, Biogeosciences, 17, 55–88 (2020) doi.org/10.5194/bg-17-55-2020.

- Kneib, M., Cauvy-Fraunié, S., Escoffier, N., Boix Candell, M., Horgby, Å., Battin, T. J. Glacier retreat changes diurnal variation intensity and frequency of hydrological variables in Alpine and Andean streams. Journal of Hydrology, 583: 124578 (2020) doi.org/10.1016/j.jhydrol.2020.124578

Nydahl A. C.,Wallin M. B., Laudon H. and Weyhenmeyer G. A. Groundwater carbon within a boreal catchment - spatiotemporal variability of a hidden aquatic carbon pool. Journal of Geophysical Research – Biogeosciences, 125, e2019JG005244 (2020) doi:10.1029/2019JG005244

2019:

- Bowring, S., Lauerwald, R., Guenet, B., Zhu, D., Guimberteau, M., Tootchi, A., Ducharne, A. and Ciais, P., ORCHIDEE MICT-LEAK (r5459), a global model for the production, transport, and transformation of dissolved organic carbon from Arctic permafrost regions – Part 1: Rationale, model description, and simulation protocol. Geosci. Model Dev., 12, 3503–3521, (2019)doi.org/10.5194/gmd-12-3503-2019

- Puglini, M., Brovkin, V., Regnier, P., and Arndt, S. Assessing the potential for non-turbulent methane escape from the East Siberian Arctic Shelf, Biogeosciences Discuss. (2019)  doi.org/10.5194/bg-2019-264

Qiu, C., Zhu, D., Ciais, P., Guenet, B., Peng, S., Krinner, G., Tootchi, A., Ducharne, A., and Hastie, A.: Modelling northern peatland area and carbon dynamics since the Holocene with the ORCHIDEE-PEAT land surface model (SVN r5488), Geosci. Model Dev., 12, 2961–2982 (2019) doi.org/10.5194/gmd-12-2961-2019

Marescaux, A.,Thieu, V., Gypens, N., Silvestre, M., and Garnier, J. Modeling inorganic carbon dynamics in the Seine River continuum in France, HESS discussion (2019)  doi.org/10.5194/hess-2019-601

Terhaar J., Orr J.C. , Gehlen M., Ethé C. and Bopp L. Model constraints on the anthropogenic carbon budget of the Arctic Ocean. Biogeosciences, 16, 2343–2367 (2019) doi.org/10.5194/bg-16-2343-2019

Laruelle, G. G., Marescaux, A., Le Gendre R., Garnier J., Rabouille C., Thieu V. Carbon dynamics along the Seine River network: insight from a coupled estuarine/river modeling approach, Frontiers in Marine Science 6, 216 (2019) doi.org/10.3389/fmars.2019.00216

Terhaar J., J. C. Orr, C. Ethé, Regnier P. and  Bopp L. Simulated Arctic Ocean Response to Doubling of Riverine Carbon and Nutrient Delivery. Global Biogeochemical Cycles, vol 33, issue 8, 1048-1070 (2019) doi.org/10.1029/2019GB006200

- Horgby, Å., Segatto, P. L., Bertuzzo, E., Lauerwald, R., Lehner, B., Ulseth, A. J., Vennemann, T. W., Battin, T. J. Unexpected large evasion fluxes of carbon dioxide from turbulent streams draining the world’s mountains. Nature Communications, 10: 4888 (2019)

- Hastie, A, Lauerwald, R, Ciais, P, Regnier, P. Aquatic carbon fluxes dampen the overall variation of net ecosystem productivity in the Amazon basin: An analysis of the interannual variability in the boundless carbon cycle. Glob Change Biol, 25: 2094– 2111 (2019) doi.org/10.1111/gcb.14620

Horgby, Å., Boix Canadell, M., Ulseth, A.J., Vennemann, T.W., Battin, T.J. High-resolution spatial sampling identifies groundwater as driver of CO2dynamics in an Alpine stream network. Journal of Geophysical Research: Biogeosciences,124: 1961-1976 (2019) doi.org/10.1029/2019JG005047

Nydahl A. C., Wallin M. B., Tranvik L. J., Hiller C., Attermeyer K., Garrison J. A., Chaguaceda F., Scharnweber K., and Weyhenmeyer G. A. Colored organic matter increases CO2in meso-eutrophic lake water through altered light climate and acidity. Limnology and Oceanography 64, 744-756 (2019) doi.org/10.1002/lno.11072

Horgby, Å., Gomez-Gener, L., Escoffier, N., Battin, T.J. Dynamics and potential drivers of CO2concentration and evasion across temporal scales in high-alpine streams. Environmental Research Letters, 14: 124082 (2019)

- Garnier, J., Le Noë, J, Marescaux, A., Sanz-Cobena, A., Lassaletta, L., Silvestre, M., Thieu, V., Billen, G.: Long term changes in greenhouse gas emissions of French agriculture (1852- 2014): from traditional agriculture to conventional intensive systems. Sci. Total Environ, 660, 1486–1501 (2019). doi: 10.1016/j.scitotenv.2019.01.048.

2018:

Hastie, A, Lauerwald, RWeyhenmeyer, G, Sobek, S, Verpoorter, C, Regnier, P. CO2 evasion from boreal lakes: Revised estimate, drivers of spatial variability, and future projections. Glob Change Biol. 2018; 24: 711– 728 (2018) doi.org/10.1111/gcb.13902

- Nydahl A. C., Wallin M. B., Tranvik L. J., Hiller C., Attermeyer K., Garrison J. A., Chaguaceda F., Scharnweber K. and Weyhenmeyer G. A: Colored organic matter increases CO2 in meso-eutrophic lake water through altered light climate and acidity. Limnology and Oceanography, 9999, 1-13 (2018). doi:10.1002/lno.11072.

- Marescaux, A., Thieu, V., Borges, A.V. and Garnier, J.: Seasonal and spatial variability of the partial pressure of carbon dioxide in the human-impacted Seine River in France, Scientific Reports, 8:13961 (2018). doi: 10.1038/s41598-018-32332-2 

- Hülse, D., Arndt, S., Daines, S., Regnier, P., and Ridgwell, A.: OMEN-SED 1.0: a novel, numerically efficient organic matter sediment diagenesis module for coupling to Earth system models, Geosci. Model Dev., 11, 2649-2689 (2018). doi: 10.5194/gmd-11-2649-2018

- Marescaux, A., Thieu, V. and Garnier, J.: Carbon dioxide, methane and nitrous oxide emissions from the human-impacted Seine watershed in France. Science of the Total Environment, 643, 247–259 (2018). doi: 10.1016/j.scitotenv.2018.06.151

- Murguia-Flores, F., Arndt, S., Ganesan, A. L., Murray-Tortarolo, G., and Hornibrook, E. R. C.: Soil Methanotrophy Model (MeMo v1.0): a process-based model to quantify global uptake of atmospheric methane by soil, Geosci. Model Dev., 11, 2009-2032 (2018). doi: 10.5194/gmd-11-2009-2018

- Roobaert, A., Laruelle, G. G., Landschützer, P., and Regnier, P.: Uncertainty in the global oceanic CO2 uptake induced by wind forcing: quantification and spatial analysis, Biogeosciences, 15, 1701-1720 (2018)  doi: 10.5194/bg-15-1701-2018

- Engel, F., Farrell, K.J., McCullough, I.M., Scordo, F., Denfeld, B.A., Dugan, H.A., de Eyto, E., Hanson, P.C., McClure, R.P., Nõges, P., Nõges, T., Ryder, E., Weathers, K.C. and Weyhenmeyer, G.A.: A lake classification concept for a more accurate global estimate of the dissolved inorganic carbon export from terrestrial ecosystems to inland waters. The Science of Nature, 105: 25 (2018). doi: 10.1007/s00114-018-1547-z

Nakhavali, M.Friedlingstein, P.Lauerwald, R., Tang, J., Chadburn, S., Camino-Serrano, M., Guenet, B., Harper, A., Walmsley, D., Peichl, M., and Gielen, B.: Representation of dissolved organic carbon in the JULES land surface model (vn4.4_JULES-DOCM). Geosci. Model Dev., 11, 593–609 (2018) doi: 10.5194/gmd-11-593-2018

- Laruelle, G.G., Cai, W.-J., Hu, X., Gruber, N., Mackenzie, F.T. and Regnier, P.: Continental shelves as a variable but increasing global sink for atmospheric carbon dioxide. Nature Communications, 9:454 (2018) doi:10.1038/s41467-017-02738-z

2017:

- Lauerwald. R., Regnier, P., Camino-Serrano, M., Guenet, B., Guimberteau, M., Ducharne, A., Polcher, J., and Ciais, P.: ORCHILEAK (revision 3875): a new model branch to simulate carbon transfers along the terrestrial–aquatic continuum of the Amazon basin. Geosci. Model Dev., 10, 3821-3859 (2017) doi: 10.5194/gmd-10-3821-2017

- Laruelle, G. G., Landschützer, P., Gruber, N., Tison, J.-L., Delille, B., and Regnier, P.: Global high-resolution monthly pCO2 climatology for the coastal ocean derived from neural network interpolation. Biogeosciences, 14, 4545-4561 (2017) doi: 10.5194/bg-14-4545-2017

- Hastie, A., Lauerwald, R., Weyhenmeyer, G., Sobek, S., Verpoorter, C. and Regnier, P.: CO2 evasion from boreal lakes: revised estimate, drivers of spatial variability, and future projections. Glob Change Biol., 00:1–19 (2017) doi: 10.1111/gcb.13902

- Nydahl, A. C., Wallin, M. B. and Weyhenmeyer, G. A. No long-term trends in pCO2 despite increasing organic carbon concentrations in boreal lakes, streams, and rivers. Global Biogeochemical Cycles, 31 (2017)doi: 10.1002/2016GB005539

- Maavara, T., Lauerwald, R., Regnier, P. and Van Cappellen, P.: Global perturbation of organic carbon cycling by river damming. Nature Communications, 8:15347 (2017) doi: 10.1038/ncomms15347

- Hülse, D., Arndt, S., Wilson, J.D., Munhoven, G., Ridgwell, A.: Understanding the causes and consequences of past marine carbon cycling variability through models. Earth-Science Reviews 171 349–382 (2017) doi: 10.1016/j.earscirev.2017.06.004

- Wilson, J.D and Arndt, S. Modeling radiocarbon constraints on the dilution of dissolved organic carbon in the deep ocean. Global Biogeochemical Cycles, 31775786 (2017) doi:10.1002/2016GB005520

- Bradley, J. A., Anesio, A. M., and Arndt, S. Microbial and Biogeochemical Dynamics in Glacier Forefields Are Sensitive to Century-Scale Climate and Anthropogenic Change. Frontiers in Earth Science, 5:26 (2017) doi: 10.3389/feart.2017.00026

- Laruelle, G. G., Goossens, N., Arndt, S., Cai, W.-J., and Regnier, P.: Air–water CO2 evasion from US East Coast estuariesBiogeosciences, 14, 2441-2468 (2017) doi:10.5194/bg-14-2441-2017

- Weyhenmeyer, G.A., et al. Citizen science shows systematic changes in the temperature difference between air and inland waters with global warming. Scientific Reports, 7:43890 (2017) doi: 10.1038/srep43890

2016:

- de Wit, H.A., Valinia, S., Weyhenmeyer, G.A., Futter, M.N, Kortelainen, P., Austnes, K., Hessen, D.O., Räike, A., Laudon, H. and Vuorenmaa, J. Current Browning of Surface Waters Will Be Further Promoted by Wetter Climate. Environ. Sci. Technol. Lett., 3 (12), 430–435 (2016) doi: 10.1021/acs.estlett.6b00396

- Bourgeois, T., Orr, J. C., Resplandy, L., Terhaar, J., Ethé, C., Gehlen, M., and Bopp, L. Coastal-ocean uptake of anthropogenic carbon. Biogeosciences, 13, 4167-4185 (2016doi:10.5194/bg-13-4167-2016

- Volta, C., Laruelle, G. G., Arndt, S., and Regnier, P. Linking biogeochemistry to hydro-geometrical variability in tidal estuaries: a generic modeling approach. Hydrol. Earth Syst. Sci., 20, 991–1030 (2016doi:10.5194/hess-20-991-2016

2015:

- Weyhenmeyer, G. A., Kosten, S., Wallin, M. B., Tranvik, L. J., Jeppesen, E., and Roland, F. Significant fraction of CO2 emissions from boreal lakes derived from hydrologic inorganic carbon inputs. Nature Geoscience, 8, 933–936 (2015doi: 10.1038/ngeo2582