Joachim Kuss - Publikationen
- 2024
- Kuss, J. (2024). Baltic Sea Long-term Observation Programme, Cruise No. EMB 337, 19 March - 3 April 2024, Rostock - Sassnitz - Visby (Sweden) - Rostock (Germany). EMB 337. Bonn: Begutachtungspanel Forschungsschiffe. 28 S. doi: 10.48433/cr_emb337 –open access–
- 2023
- Bieser, J., D. J. Amptmeijer, U. Daewel, J. Kuss, A. L. Sørensen and C. Schrum (2023). The 3D biogeochemical marine mercury cycling model MERCY v2.0 - linking atmospheric Hg to methylmercury in fish. Geosci. Model Dev. 16: 2649-2688, doi: 10.5194/gmd-16-2649-2023 –open access–
- Kuss, J. (2022). Baltic Sea Long-term Observation Programme, Cruise No. EMB 298, 4 August - 15 August 2022, Rostock - Sassnitz - Rostock (Germany). Bonn, Begutachtungspanel Forschungsschiffe. –open access–
- Kuss, J. (2022). Baltic Sea Long-term Observation Programme, Cruise No. EMB 305, 5 November - 18 November 2022, Rostock - Sassnitz - Kiel - Rostock (Germany). Bonn, Begutachtungspanel Forschungsschiffe.
- Kuss, J. (2023). Baltic Sea Long-term Observation Programme, Cruise No. EMB 323, 4 August - 16 August 2023, Rostock - Sassnitz - Rostock (Germany). EMB 323. Bonn: Begutachtungspanel Forschungsschiffe. 25 S. doi: 10.48433/cr_emb323 –open access–
- Naumann, M., U. Gräwe, V. Mohrholz, J. Kuss, M. Kanwischer, H. Osterholz, S. Feistel, I. Hand, J. J. Waniek and D. E. Schulz-Bull (2023). Hydrographic-hydrochemical assessment of the Baltic Sea 2021. Rostock: Leibniz Institute for Baltic Sea Research Warnemünde. 94 S. (Meereswissenschaftliche Berichte = Marine Science Reports ; 123), doi: 10.12754/msr-2021-0123 –open access–
- 2022
- Kuss, J. (2022), Cruise No. EMB 280, 4 November - 15 November 2021, Rostock - Sassnitz - Rostock (Germany). Gutachterpanel Forschungsschiffe, Bonn, Germany, p 24. https://doi.org/10.48433/cr_emb280, https://doi.org/10.48433/cr_emb280
- 2021
- Kuss, J. (2021). Cruise No. EMB 264, 4 May - 14 May 2021, Rostock - Rostock (Germany). EMB 264. Bonn: Gutachterpanel Forschungsschiffe. p. 26. https://doi.org/10.48433/cr_emb264
- Kuss, J., H. C. Frazão, D. E. Schulz-Bull, Y. Zhong, Y. Gao and J. J. Waniek (2021). The impact of typhoon “Mangkhut” on surface water nutrient and chlorophyll inventories of the South China Sea in September 2018. J. Geophys. Res. Biogeosciences 126: e2021JG006546, doi: 10.1029/2021JG006546 –open access–
- Kuss, J., Schulz Bull, D.E. 2021, Sauerstoff im Bodenwasser flacher Meeresgebiete als ein Kriterium für den guten Umweltzustand der westlichen Ostsee, 3. Bericht zum Projekt MEER, 25 pp, AquaEcology.
- Naumann, M., U. Gräwe, V. Mohrholz, J. Kuss, M. Kanwischer, H. Osterholz, S. Feistel, I. Hand, J. J. Waniek and D. E. Schulz-Bull (2021). Hydrographic-hydrochemical assessment of the Baltic Sea 2020. Rostock: Leibniz Institute for Baltic Sea Research Warnemünde. 106 S. (Meereswissenschaftliche Berichte = Marine Science Reports ; 119), doi: 10.12754/msr-2021-0119 –open access–
- 2020
- Emmerson, R., Nygård, H., Grimvall, A., Storr-Paulsen, M., Dinesen, G., Eigaard, O.R., Lehtiniemi, M., Mannio, J., Lips, I., Lips, U., Kuss, J., Attila, J., Naumann, M., Schulz-Bull, D.E., Hentzsch, B., Asker, N., and Lindegarth, M. (2019). "Holistic synthesis of reviews and analysis of current Baltic Sea monitoring and assessment - BONUS SEAM". (Gothenburg, Sweden: Swedish Institute for the Marine Environment (SIME)), pp. 80.
- Kuss, J. and K. Fisch (2020). Cruise No. EMB 242, 14 July - 28 July 2020, Rostock - Rostock (Germany). EMB 242. Bonn: Gutachterpanel Forschungsschiffe. https://doi.org/10.48433/cr_emb242 –open access–
- Kuss, J., B. Hentzsch, M. Naumann, R. Prien, G. Rehder, D. E. Schulz-Bull, H. Nygård, M. Storr-Paulsen, J. Attila, M. Lehtiniemi, I. Lips and U. Lips (2020). Review of novel and cost-effective monitoring technologies and their applicability in monitoring and assessment of the Baltic Sea.University of Gothenburg/Swedish Institute for the Marine Environment (SIME). (Technical report on BONUS SEAM Task 3.1)
- Kuss, J., G. Nausch, C. Engelke, M. v. Weber, H. Lutterbeck, M. Naumann, J. J. Waniek and D. E. Schulz-Bull (2020). Changes of nutrient concentrations in the western Baltic Sea in the transition between inner coastal waters and the central basins: Time series from 1995 to 2016 with source analysis. Front. Earth Sci. 8: 106, doi: 10.3389/feart.2020.00106 –open access–
- Lindegarth, M., K. Künnis-Beres, J. Wikner, M. Lehtiniemi, J. Kuss, B. Hentzsch, D. Schulz-Bull, I. Lips, U. Lips and H. Nygård (2020). Review of novel and cost-effective monitoring technologies and their applicability in monitoring and assessment of the Baltic Sea.University of Gothenburg/Swedish Institute for the Marine Environment (SIME). (Technical report on BONUS SEAM Task 2.5)
- Naumann, M., U. Gräwe, V. Mohrholz, J. Kuss, M. Kanwischer, S. Feistel, I. Hand, J. J. Waniek and D. E. Schulz-Bull (2020). Hydrographic-hydrochemical assessment of the Baltic Sea 2019. Rostock: Leibniz Institute for Baltic Sea Research Warnemünde. 97 S. (Meereswissenschaftliche Berichte = Marine Science Reports ; 114), doi: 10.12754/msr-2020-0114 –open access–
- 2019
- Kuss, J. (2019). Baltic Sea Long-term Observation Programme, Cruise No. EMB 218, 29 July-09 August 2019. EMB 218. Bonn: Gutachterpanel Forschungsschiffe. https://doi.org/10.2312/cr_emb218 –open access–
- Naumann, M., U. Gräwe, V. Mohrholz, J. Kuss, H. Siegel, J. J. Waniek and D. E. Schulz-Bull (2019). Hydrographic-hydrochemical assessment of the Baltic Sea 2018. Rostock: Leibniz Institute for Baltic Sea Research Warnemünde. 92 S. (Meereswissenschaftliche Berichte = Marine Science Reports ; 110), doi: 10.12754/msr-2019-0110 –open access–
- Zhang, Y., H. Horowitz, J. Wang, Z. Xie, J. Kuss and A. L. Soerensen (2019). A coupled global atmosphere-ocean model for air-sea exchange of mercury: Insights into wet deposition and atmospheric redox chemistry. Environ. Sci. Technol. 53: 5052-5061, doi: 10.1021/acs.est.8b06205
- 2018
- Kuss, J., S. Krüger, J. Ruickoldt and K.-P. Wlost (2018). High-resolution measurements of elemental mercury in surface water for an improved quantitative understanding of the Baltic Sea as a source of atmospheric mercury. Atmos. Chem. Phys. 18: 4361-4376, doi: 10.5194/acp-18-4361-2018 –open access–
- Kuss, J., S. Krüger, J. Ruickoldt and K.-P. Wlost (2018). High-resolution measurements of elemental mercury in surface water for an improved quantitative understanding of the Baltic Sea as a source of atmospheric mercury. Atmos. Chem. Phys. 18: 4361-4376, doi: 10.5194/acp-18-4361-2018 –open access–
- Naumann, M., L. Umlauf, V. Mohrholz, J. Kuss, H. Siegel, J. J. Waniek and D. E. Schulz-Bull (2018). Hydrographic-hydrochemical assessment of the Baltic Sea 2017. Rostock: Leibniz Institute for Baltic Sea Research Warnemünde. 97 S. (Meereswissenschaftliche Berichte = Marine Science Reports ; 107), doi: 10.12754/msr-2018-0107 –open access–
- 2017
- Kuss, J., F. Cordes, V. Mohrholz, G. Nausch, M. Naumann, S. Krüger and D. E. Schulz-Bull (2017). The impact of the Major Baltic Inflow of December 2014 on the mercury species distribution in the Baltic Sea. Environ. Sci. Technol. 51: 11692-11700, doi: 10.1021/acs.est.7b03011
- Naumann, M., L. Umlauf, V. Mohrholz, J. Kuss, H. Siegel, J. Waniek and D. Schulz-Bull (2017). Hydrographic-hydrochemical assessment of the Baltic Sea 2016. Rostock: Leibniz Institute for Baltic Sea Research Warnemünde. 94 S. (Meereswissenschaftliche Berichte = Marine Science Reports ; 104), doi: 10.12754/msr-2016-0101 –open access–
- 2016
- Kuss, J. (2016). Cruise report r/v Elisabeth Mann Borgese, cruise EMB 135. EMB 135. Rostock-Warnemünde: Leibniz Institute for Baltic Sea Research Warnemünde. https://intranet.io-warnemuende.de/tl_files/xExpeditionsberichte/2016/cr16017.pdf –open access–
- Wurl, O., G. Nausch, M. Nausch, M. v. Pinxteren, J. Kuss and N. Loick-Wilde (2016). Biochemical processes in upwelling zones of the Baltic Sea. Cruise No. M117. July 23 - August 17, 2015. Hamburg (Germany) - Rostock (Germany). M117. Bremen: DFG-Senatskommission für Ozeanographie. doi: 10.2312/cr_m117 –open access–
- 2015
- Kuss, J., N. Wasmund, G. Nausch and M. Labrenz (2015). Mercury emission by the Baltic Sea: a consequence of cyanobacterial activity, photochemistry, and low-light mercury transformation. Environ. Sci. Technol. 49: 11449-11457, doi: 10.1021/acs.est.5b02204
- 2014
- Kuss, J. (2014). Water-air gas exchange of elemental mercury: an experimentally determined mercury diffusion coefficient for Hg0 water-air flux calculations. Limnol. oceanogr. 59: 1461-1467, doi:10.4319/lo.2014.59.5.1461
- Soerensen, A. L., R. P. Mason, P. H. Balcom, D. J. Jacob, Y. Zhang, J. Kuss and E. M. Sunderland (2014). Elemental mercury concentrations and fluxes in the tropical atmosphere and ocean. Environ. sci. technol. 48: 11312-11319, doi:10.1021/es503109p
- 2013
- Ziska, F., B. Quack, K. Abrahamsson, S. D. Archer, E. Atlas, T. Bell, J. H. Butler, L. J. Carpenter, C. E. Jones, N. R. P. Harris, H. Hepach, K. G. Heumann, C. Hughes, J. Kuss, K. Krüger, P. Liss, R. M. Moore, A. Orlikowska, S. Raimund, C. E. Reeves, W. Reifenhäuser, A. D. Robinson, C. Schall, T. Tanhua, S. Tegtmeier, S. Turner, L. Wang, D. Wallace, J. Williams, H. Yamamoto, S. Yvon-Lewis and Y. Yokouchi (2013). Global sea-to-air flux climatology for bromoform, dibromomethane and methyl iodide. Atmos. chem. phys. 13: 8915-8934, doi:10.5194/acp-13-8915-2013 –open access–
- 2012
- Kuss, J. (2012). Quecksilber - das wandlungsfähige Element im biogeochemischen Kreislauf. GIT Labor-Fachz. 56: 33-35
- Kuss, J., J. Ruickoldt, K.-P. Wlost and S. Krüger (2012). Analytik auf hoher See. Labor-Praxis 36: 22-24
- 2011
- Kuss, J., C. Zülicke, C. Pohl and B. Schneider (2011). Atlantic mercury emission determined from continuous analysis of the elemental mercury sea-air concentration difference within transects between 50°N and 50°S. Glob. biogeochem. cycles 25: GB3021, doi:10.1029/2010gb003998
- Slemr, F., E. G. Brunke, R. Ebinghaus and J. Kuss (2011). Worldwide trend of atmospheric mercury since 1995. Atmos. chem. phys. 11: 4779-4787, doi:10.5194/acp-11-4779-2011
- 2010
- Kuss, J., J. J. Waniek, K. Kremling and D. E. Schulz-Bull (2010). Seasonality of particle-associated trace element fluxes in the deep northeast Atlantic Ocean. Deep-sea res. Pt. 1. 57: 785-796, doi:10.1016/j.dsr.2010.04.002
- Kuss, J., M. Kunze, B. Schneider, K.-P. Wlost and D. Schulz-Bull (2010). Elemental mercury sea-air flux. Berichte zur Polar- und Meeresforschung 603: 41-45
- 2009
- Kuss, J., H. Kubsch, K.-P. Wlost and B. Schneider (2009). Elemental mercury sea-air flux. Berichte zur Polar- und Meeresforschung 594: 31-34
- Kuss, J., J. Holzmann and R. Ludwig (2009). An elemental mercury diffusion coefficient for natural waters determined by molecular dynamics simulation Environ. sci. technol. 43: 3183-3186, doi:10.1021/es8034889
- 2007
- Kuss, J. and B. Schneider (2007). Variability of the gaseous elemental mercury sea-air flux of the Baltic Sea. Environ. sci. technol. 41: 8018-8023
- Weiss, A., J. Kuss, G. Peters and B. Schneider (2007). Evaluating transfer velocity-wind speed relationship using a long-term series of direct eddy correlation CO2 flux measurements. J. mar. syst. 66: 130-139
- 2006
- Kuss, J., W. Roeder, K.-P. Wlost and M. DeGrandpre (2006). Time-series of surface water CO2 and oxygen measurements on a platform in the central Arkona Sea (Baltic Sea) : seasonality of uptake and release. Mar. chem. 101: 220-232
- 2005
- Waniek, J. J., D. E. Schulz-Bull, J. Kuss and T. Blanz (2005). Long-time series of deep water particle flux in three biogeochemical provinces of the northeast Atlantic. J. mar. syst. 56: 391-415
- 2004
- Kuss, J. and B. Schneider (2004). Chemical enhancement of the CO2 gas exchange at a smooth seawater surface. Mar. chem. 91: 165-174
- Kuss, J., K. Nagel and B. Schneider (2004). Evidence from the Baltic Sea for an enhancend CO2 air-sea transfer velocity. Tellus 56B: 175-182, doi: 10.3402/tellusb.v56i2.16407
- Schneider, B. and J. Kuss (2004). Past and present productivity of the Baltic Sea as inferred from pCO2 data. Cont. Shelf Res. 24: 1611-1622., doi: 10.1016/j.csr.2004.06.023
- 2003
- Kuss, J. and B. Schneider (2003). The control of the air-sea flux of greenhouse gases by wind speed (abstract). In: Baltic Sea Science Congress 2003 Helsinki : August 24-28, 2003 ; abstract publication. Helsinki: Univ. Helsinki: 85
- Kuss, J., B. Schneider, A. Weiss and G. Peters (2003). Determination of the CO2 transfer velocity air-sea by turbulent flux and CO2 partial pressure measurements on a platform in the central Arkona Sea : instrumental setup and preliminary results (poster abstract). In: Baltic Sea Science Congress 2003 Helsinki : August 24-28, 2003 ; abstract publication. Helsinki: Univ. Helsinki: 174
- Schneider, B. and J. Kuss (2003). Increase of the productivity of the Baltic proper during the last century inferred from pCO2 data (abstract). In: Baltic Sea Science Congress 2003 Helsinki : August 24-28, 2003 ; abstract publication. Helsinki: Univ. Helsinki: 19
- 2001
- Antia, A. N., W. Koeve, G. Fischer, T. Blanz, D. E. Schulz-Bull, J. Scholten, S. Neuer, K. Kremling, J. Kuss, R. Peinert, D. Hebbeln, U. V. Bathmann, M. H. Conté, U. Fehner and B. Zeitzschel (2001). Basin-wide particulate carbon flux in the Atlantic Ocean: regional export patterns and potential for atmospheric CO2 sequestration. Glob. biogeochem. cycles 15: 845-862
- Kuss, J., C.-D. Garbe-Schönberg and K. Kremling (2001). Rare earth elements in suspended particulate material of North Atlantic surface waters. Geochim. cosmochim. acta 65: 187-199
- Scholten, J. C., J. Fietzke, S. Vogler, M. M. Rutgers van der Loeff, A. Mangini, W. Koeve, J. Waniek, P. Stoffers, A. Antia and J. Kuss (2001). Trapping efficiencies of sediment traps from the deep eastern North Atlantic: the 230Th calibration. Deep-sea res. Pt. 2. 48: 2383-2408
- 1999
- Brügmann, L. and J. Kuss (1999). Analyses of marine particles. In: Methods of seawater analysis. Ed. by K. Grasshoff, K. Kremling and M. Ehrhardt. Weinheim: Wiley-VCH: 345-359
- Kuss, J. and K. Kremling (1999). Particulate trace element fluxes in the deep northeast Atantic Ocean. Deep-sea res. Pt. 1. 46: 149-169
- Kuss, J. and K. Kremling (1999). Spatial variability of particle associated trace elements in near-surface waters of the North Atlantic (30oN/60oW to 60oN/2oW), derived by large volume sampling. Mar. chem. 68: 71-86