Search Results - "WATTENBACH, M"

Sensitivity of simulated global-scale freshwater fluxes and storages to input data, hydrological model structure, human water use and calibration by Müller Schmied, H, Eisner, S, Franz, D, Wattenbach, M, Portmann, F. T, Flörke, M, Döll, P

“…Global-scale assessments of freshwater fluxes and storages by hydrological models under historic climate conditions are subject to a variety of uncertainties…”
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Spatial distribution of soil organic carbon stocks in France by Martin, M P, Wattenbach, M, Smith, P, Meersmans, J, Jolivet, C, Boulonne, L, Arrouays, D

“…Soil organic carbon plays a major role in the global carbon budget, and can act as a source or a sink of atmospheric carbon, thereby possibly influencing the…”
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How will organic carbon stocks in mineral soils evolve under future climate? Global projections using RothC for a range of climate change scenarios by Gottschalk, P, Smith, J.U, Wattenbach, M, Bellarby, J, Stehfest, E, Arnell, N, Osborn, T. J, Jones, C, Smith, P

“…We use a soil carbon (C) model (RothC), driven by a range of climate models for a range of climate scenarios to examine the impacts of future climate on global…”
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A new scheme for initializing process-based ecosystem models by scaling soil carbon pools by Hashimoto, S., Wattenbach, M., Smith, P.

“…► We propose a new scheme of initialization for ecosystem models. ► The scheme entails the scaling of the soil pools slowly during the spin-up. ► The…”
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Importance of methane and nitrous oxide for Europe's terrestrial greenhouse-gas balance by Schulze, E. D, Luyssaert, S, Ciais, P, Freibauer, A, Janssens, I. A

“…Carbon dioxide uptake by the terrestrial biosphere has the potential to mitigate fossil fuel emissions. Comprehensive estimates of Europe's greenhouse-gas…”
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European carbon balance. Part 2: croplands by CIAIS, P, WATTENBACH, M, VUICHARD, N, SMITH, P, PIAO, S.L, DON, A, LUYSSAERT, S, JANSSENS, I.A, BONDEAU, A, DECHOW, R, LEIP, A, SMITH, PC, BEER, C, VAN DER WERF, G.R, GERVOIS, S, VAN OOST, K, TOMELLERI, E, FREIBAUER, A, SCHULZE, E.D

“…We estimated the long-term carbon balance [net biome production (NBP)] of European (EU-25) croplands and its component fluxes, over the last two decades. Net…”
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ORCHIDEE-CROP (v0), a new process-based agro-land surface model: model description and evaluation over Europe by Wu, X, Vuichard, N, Ciais, P, Viovy, N, de Noblet-Ducoudré, N, Wang, X, Magliulo, V, Wattenbach, M, Vitale, L, Di Tommasi, P, Moors, E. J, Jans, W, Elbers, J, Ceschia, E, Tallec, T, Bernhofer, C, Grünwald, T, Moureaux, C, Manise, T, Ligne, A, Cellier, P, Loubet, B, Larmanou, E, Ripoche, D

“…The response of crops to changing climate and atmospheric CO2 concentration ([CO2]) could have large effects on food production, and impact carbon, water, and…”
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Management effects on net ecosystem carbon and GHG budgets at European crop sites by Ceschia, E., Béziat, P., Dejoux, J.F., Aubinet, M., Bernhofer, Ch, Bodson, B., Buchmann, N., Carrara, A., Cellier, P., Di Tommasi, P., Elbers, J.A., Eugster, W., Grünwald, T., Jacobs, C.M.J., Jans, W.W.P., Jones, M., Kutsch, W., Lanigan, G., Magliulo, E., Marloie, O., Moors, E.J., Moureaux, C., Olioso, A., Osborne, B., Sanz, M.J., Saunders, M., Smith, P., Soegaard, H., Wattenbach, M.

“…[Display omitted] ▶ Mean NEP was −284 ± 228 g C m −2 year −1 and most crops behaved as atmospheric sinks. ▶ Mean crop carbon budget was 138 ± 239 g C m −2 year…”
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The net biome production of full crop rotations in Europe by Kutsch, W.L., Aubinet, M., Buchmann, N., Smith, P., Osborne, B., Eugster, W., Wattenbach, M., Schrumpf, M., Schulze, E.D., Tomelleri, E., Ceschia, E., Bernhofer, C., Béziat, P., Carrara, A., Di Tommasi, P., Grünwald, T., Jones, M., Magliulo, V., Marloie, O., Moureaux, C., Olioso, A., Sanz, M.J., Saunders, M., Søgaard, H., Ziegler, W.

“…▶ ▪. ▶ This data-oriented approach from European cropland showed average carbon loss of 95 ± 87 g C m −2 y −1. ▶ The full GHG balance of the considered sites…”
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Application of the DNDC model to predict emissions of N2O from Irish agriculture by ABDALLA, M, WATTENBACH, M, SMITH, P, AMBUS, P, JONES, M, WILLIAMS, M

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Estimation of soil loss by water erosion in the Chinese Loess Plateau using Universal Soil Loss Equation and GRACE by Schnitzer, S., Seitz, F., Eicker, A., Güntner, A., Wattenbach, M., Menzel, A.

“…For the estimation of soil loss by erosion in the strongly affected Chinese Loess Plateau we applied the Universal Soil Loss Equation (USLE) using a number of…”
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Estimating changes in Scottish soil carbon stocks using ECOSSE. I. Model description and uncertainties by Smith, Jo, Gottschalk, Pia, Bellarby, Jessica, Chapman, Stephen, Lilly, Allan, Towers, Willie, Bell, John, Coleman, Kevin, Nayak, Dali, Richards, Mark, Hillier, Jon, Flynn, Helen, Wattenbach, Martin, Aitkenhead, Matt, Yeluripati, Jagadeesh, Farmer, Jenny, Milne, Ronnie, Thomson, Amanda, Evans, Chris, Whitmore, Andy, Falloon, Pete, Smith, Pete

“…To predict the response of C-rich soils to external change, models are needed that accurately reflect the conditions of these soils. Estimation of Carbon in…”
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Climate-mediated spatiotemporal variability in terrestrial productivity across Europe by Wu, X, Babst, F, Ciais, P, Frank, D, Reichstein, M, Wattenbach, M, Zang, C, Mahecha, M. D

“…Quantifying the interannual variability (IAV) of the terrestrial ecosystem productivity and its sensitivity to climate is crucial for improving carbon budget…”
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A linked carbon cycle and crop developmental model: Description and evaluation against measurements of carbon fluxes and carbon stocks at several European agricultural sites by Sus, O., Williams, M., Bernhofer, C., Béziat, P., Buchmann, N., Ceschia, E., Doherty, R., Eugster, W., Grünwald, T., Kutsch, W., Smith, P., Wattenbach, M.

“…▶ High model accuracy for predicting daily carbon fluxes for 6 cropland sites in Europe ( R 2 = 0.83). ▶ One single, generic parameterisation for winter wheat…”
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Predicting the net carbon exchanges of crop rotations in Europe with an agro-ecosystem model by Lehuger, S., Gabrielle, B., Cellier, P., Loubet, B., Roche, R., Béziat, P., Ceschia, E., Wattenbach, M.

“…▶ Carbon fluxes between croplands and atmosphere are highly conditioned by farmer practices that involved intense atmospheric CO 2 uptake during crop growing…”
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A model for simulating the timelines of field operations at a European scale for use in complex dynamic models by Hutchings, N. J, Reinds, G. J, Leip, A, Wattenbach, M, Bienkowski, J. F, Dalgaard, T, Dragosits, U, Drouet, J. L, Durand, P, Maury, O, de Vries, W

“…Complex dynamic models of carbon and nitrogen are often used to investigate the consequences of climate change on agricultural production and greenhouse gas…”
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Runoff simulations on the macroscale with the ecohydrological model SWIM in the Elbe catchment-validation and uncertainty analysis by Hattermann, F. F., Wattenbach, M., Krysanova, V., Wechsung, F.

“…This study presents an example where the hydrological processes of the ecohydrological model SWIM (Soil and Water Integrated Model) are thoroughly analysed…”
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The European land and inland water CO2, CO, CH4 and N2O balance between 2001 and 2005 by Luyssaert, S, Abril, G, Andres, R, Bastviken, D, Bellassen, V, Bergamaschi, P, Bousquet, P, Chevallier, F, Ciais, P, Corazza, M, Dechow, R, Erb, K.-H, Etiope, G, tems-Cheiney, A, Grassi, G, Hartmann, J, Jung, M, Lathière, J, Lohila, A, Mayorga, E, Moosdorf, N, Njakou, D S, Otto, J, Papale, D, Peters, W, Peylin, P, Raymond, P, Rödenbeck, C, Saarnio, S, Schulze, E.-D, Szopa, S, Thompson, R, Verkerk, P J, Vuichard, N, Wang, R, Wattenbach, M, Zaehle, S

“…Globally, terrestrial ecosystems have absorbed about 30% of anthropogenic greenhouse gas emissions over the period 2000-2007 and inter-hemispheric gradients…”
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Comparison of Daily GRACE Gravity Field and Numerical Water Storage Models for De-aliasing of Satellite Gravimetry Observations by Zenner, L., Bergmann-Wolf, I., Dobslaw, H., Gruber, T., Güntner, A., Wattenbach, M., Esselborn, S., Dill, R.

“…Reducing aliasing effects of insufficiently modelled high-frequent, non-tidal mass variations of the atmosphere, the oceans and the hydrosphere in gravity…”
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Potential carbon stock in Japanese forest soils - simulated impact of forest management and climate change using the CENTURY model by Hashimoto, S., Ugawa, S., Morisada, K., Wattenbach, M., Smith, P., Matsuura, Y.

“…Forest management and climate change may have a substantial impact on future soil organic carbon (SOC) stocks at the country scale. Potential SOC in Japanese…”
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