Search Results - "Kiese, R."

Effects of soil temperature and moisture on methane uptake and nitrous oxide emissions across three different ecosystem types by Luo, G. J, Kiese, R, Wolf, B, Butterbach-Bahl, K

“…In this paper, we investigate similarities of effects of soil environmental drivers on year-round daily soil fluxes of nitrous oxide and methane for three…”
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Sampling frequency affects estimates of annual nitrous oxide fluxes by Barton, L., Wolf, B., Rowlings, D., Scheer, C., Kiese, R., Grace, P., Stefanova, K., Butterbach-Bahl, K.

“…Quantifying nitrous oxide (N 2 O) fluxes, a potent greenhouse gas, from soils is necessary to improve our knowledge of terrestrial N 2 O losses. Developing…”
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Environmental factors controlling temporal and spatial variability in the soil-atmosphere exchange of CO2, CH4 and N2O from an Australian subtropical rainforest by Rowlings, D. W., Grace, P. R., Kiese, R., Weier, K. L.

“…The temporal variations in CO2, CH4 and N2O fluxes were measured over two consecutive years from February 2007 to March 2009 from a subtropical rainforest in…”
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Processes that determine the interplay of root exudation, methane emission and yield in rice agriculture by Maurer, D, Kiese, R, Kreuzwieser, J, Rennenberg, H

“…Rice is the most important staple food for half of the world's population, but also accounts for about 10% of all anthropogenic CH emissions. In spite of a…”
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Historic nitrogen deposition determines future climate change effects on nitrogen retention in temperate forests by Dirnböck, T., Foldal, C., Djukic, I., Kobler, J., Haas, E., Kiese, R., Kitzler, B.

“…Nitrogen (N) cycle processes in terrestrial ecosystems are highly sensitive to temperature and soil moisture variations. Thus, future climate change may affect…”
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The TERENO Pre‐Alpine Observatory: Integrating Meteorological, Hydrological, and Biogeochemical Measurements and Modeling by Kiese, R., Fersch, B., Baessler, C., Brosy, C., Butterbach-Bahl, K., Chwala, C., Dannenmann, M., Fu, J., Gasche, R., Grote, R., Jahn, C., Klatt, J., Kunstmann, H., Mauder, M., Rödiger, T., Smiatek, G., Soltani, M., Steinbrecher, R., Völksch, I., Werhahn, J., Wolf, B., Zeeman, M., Schmid, H.P.

“…Core Ideas Pre‐alpine areas face more intense warming and extreme hydrological events than the global average. Climate and land management change have…”
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Substantial understory contribution to the C sink of a European temperate mountain forest landscape by Dirnböck, T., Kraus, D., Grote, R., Klatt, S., Kobler, J., Schindlbacher, A., Seidl, R., Thom, D., Kiese, R.

“…Context The contribution of forest understory to the temperate forest carbon sink is not well known, increasing the uncertainty in C cycling feedbacks on…”
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A global inventory of N2O emissions from tropical rainforest soils using a detailed biogeochemical model by Werner, C., Butterbach-Bahl, K., Haas, E., Hickler, T., Kiese, R.

“…Beside agricultural soils, tropical rainforest soils are the main source of atmospheric N2O. Current estimates of the global N2O source strength of tropical…”
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Cold season soil NO fluxes from a temperate forest: drivers and contribution to annual budgets by Medinets, S, Gasche, R, Skiba, U, Schindlbacher, A, Kiese, R, Butterbach-Bahl, K

“…Soils, and here specifically acidic forest soils exposed to high rates of atmospheric nitrogen deposition, are a significant source for the secondary…”
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Exploring impacts of vegetated buffer strips on nitrogen cycling using a spatially explicit hydro-biogeochemical modeling approach by Klatt, S., Kraus, D., Kraft, P., Breuer, L., Wlotzka, M., Heuveline, V., Haas, E., Kiese, R., Butterbach-Bahl, K.

“…Agriculture has been recognized as a major anthropogenic source of surplus loads of nitrogen in the environment. Losses of nitrate via subsurface pathways are…”
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TERENO-SOILCan: a lysimeter-network in Germany observing soil processes and plant diversity influenced by climate change by Pütz, Th, Kiese, R., Wollschläger, U., Groh, J., Rupp, H., Zacharias, S., Priesack, E., Gerke, H. H., Gasche, R., Bens, O., Borg, E., Baessler, C., Kaiser, K., Herbrich, M., Munch, J.-C., Sommer, M., Vogel, H.-J., Vanderborght, J., Vereecken, H.

“…The aim of TERENO (TERrestrial ENvironmental Observatories) is to collect long-term observation data on the hydrosphere, biosphere, pedosphere, lower…”
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How to adequately represent biological processes in modeling multifunctionality of arable soils by Vogel, H.-J., Amelung, W., Baum, C., Bonkowski, M., Blagodatsky, S., Grosch, R., Herbst, M., Kiese, R., Koch, S., Kuhwald, M., König, S., Leinweber, P., Lennartz, B., Müller, C. W., Pagel, H., Rillig, M. C., Rüschhoff, J., Russell, D., Schnepf, A., Schulz, S., Siebers, N., Vetterlein, D., Wachendorf, C., Weller, U., Wollschläger, U.

“…Essential soil functions such as plant productivity, C storage, nutrient cycling and the storage and purification of water all depend on soil biological…”
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Influence of nitrogen fertiliser application and timing on greenhouse gas emissions from a lychee (Litchi chinensis) orchard in humid subtropical Australia by Rowlings, D.W., Grace, P.R., Scheer, C., Kiese, R.

“…Nitrous oxide emissions from intensive, fertilised agricultural systems have been identified as significant contributors to both Australia's and the global…”
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A European-wide inventory of soil NO emissions using the biogeochemical models DNDC/Forest-DNDC by Butterbach-Bahl, K., Kahl, M., Mykhayliv, L., Werner, C., Kiese, R., Li, C.

“…Soils are a significant source for atmospheric NO. However, due to the limited number of measurements and in view of the high temporal and spatial variability…”
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Rejecting hydro-biogeochemical model structures by multi-criteria evaluation by Houska, T., Kraft, P., Liebermann, R., Klatt, S., Kraus, D., Haas, E., Santabarbara, I., Kiese, R., Butterbach-Bahl, K., Müller, C., Breuer, L.

“…This work presents a novel way for assessing and comparing different hydro-biogeochemical model structures and their performances. We used the LandscapeDNDC…”
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Soil-atmosphere exchange of greenhouse gases in a Eucalyptus marginata woodland, a clover-grass pasture, and Pinus radiata and Eucalyptus globulus plantations by LIVESLEY, S.J, KIESE, R, MIEHLE, P, WESTON, C.J, BUTTERBACH-BAHL, K, ARNDT, S.K

“…Soils provide the largest terrestrial carbon store, the largest atmospheric CO₂ source, the largest terrestrial N₂O source and the largest terrestrial CH₄…”
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A Bayesian framework for model calibration, comparison and analysis: Application to four models for the biogeochemistry of a Norway spruce forest by van Oijen, M., Cameron, D.R., Butterbach-Bahl, K., Farahbakhshazad, N., Jansson, P.-E., Kiese, R., Rahn, K.-H., Werner, C., Yeluripati, J.B.

“…► Four models of forest biogeochemistry were analysed in a Bayesian framework. ► The framework comprises model calibration, model comparison, analysis of…”
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Parameter-induced uncertainty quantification of soil N2O, NO and CO2 emission from Hoglwald spruce forest (Germany) using the LandscapeDNDC model by Rahn, K.-H, Werner, C, Kiese, R, Haas, E, Butterbach-Bahl, K

“…Assessing the uncertainties of simulation results of ecological models is becoming increasingly important, specifically if these models are used to estimate…”
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THE SCALEX CAMPAIGN: Scale-Crossing Land Surface and Boundary Layer Processes in the TERENO-preAlpine Observatory by Wolf, B., Chwala, C., Fersch, B., Garvelmann, J., Junkermann, W., Zeeman, M. J., Angerer, A., Adler, B., Beck, C., Brosy, C., Brugger, P., Emeis, S., Dannenmann, M., De Roo, F., Diaz-Pines, E., Haas, E., Hagen, M., Hajnsek, I., Jacobeit, J., Jagdhuber, T., Kalthoff, N., Kiese, R., Kunstmann, H., Kosak, O., Krieg, R., Malchow, C., Mauder, M., Merz, R., Notarnicola, C., Philipp, A., Reif, W., Reineke, S., Rödiger, T., Ruehr, N., Schäfer, K., Schrön, M., Senatore, A., Shupe, H., Völksch, I., Wanninger, C., Zacharias, S., Schmid, H. P.

“…ScaleX is a collaborative measurement campaign, collocated with a long-term environmental observatory of the German Terrestrial Environmental Observatories…”
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Number of Chamber Measurement Locations for Accurate Quantification of Landscape‐Scale Greenhouse Gas Fluxes: Importance of Land Use, Seasonality, and Greenhouse Gas Type by Wangari, E. G., Mwanake, R. M., Kraus, D., Werner, C., Gettel, G. M., Kiese, R., Breuer, L., Butterbach‐Bahl, K., Houska, T.

“…Accurate quantification of landscape soil greenhouse gas (GHG) exchange from chamber measurements is challenging due to the high spatial‐temporal variability…”
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