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Urban Soils in the Vadose Zone

Kluge, B., Markert, A., Facklam, M. et al. (2016). Metal accumulation and hydraulic performance of bioretention systems after long-term operation. J Soils Sediments. doi:10.1007/s11368-016-1533-z

Werkenthin, M., Kluge, B. & Wessolek, G. (2016). Assessment of metal retention in newly constructed highway embankments. Environ Sci Pollut Res. doi:10.1007/s11356-016-7526-z

Nehls, T, Menzel, M, Wessolek, G. (2015) Depression storage capacities of different ideal pavements as quantified by a terrestrial laser scanning based method. Water Science and Technology (WST-EM141036)

Abel, S., Nehls, T., Mekiffer, B., & Wessolek, G. (2014). Heavy metals and benzo [a] pyrene in soils from construction and demolition rubble. Journal of Soils and Sediments, DOI:  10.1007/s11368-014-0959-4;
Link dazu: http://link.springer.com/article/10.1007/s11368-014-0959-4

Abel, S., Nehls, T., Mekiffer, B., Mathes, M., Thieme, J., & Wessolek, G. (2014). Pools of sulfur in urban rubble soils. Journal of Soils and Sediments, DOI: 10.1007/s11368-014-1014-1;
Link dazu: http://link.springer.com/article/10.1007/s11368-014-1014-1

Schweiker, C., A. Wagner, A. Peters, W. A. Bischoff, M. Kaupenjohann (2014): Biochar reduces zinc and cadmium but not copper and lead leaching on a former sewage field, Journal of Environmental Quality, in press.

Werkenthin, M., Kluge, B., & Wessolek, G. (2014). Metals in European roadside soils and soil solution–A review. Environmental Pollution, 189, 98-110.

Kluge, B., Werkenthin, M., & Wessolek, G. (2014). Metal leaching in a highway embankment on field and laboratory scale. Science of The Total Environment, 493, 495-504.

Schonsky, H., Peters, A., Lang, F., Abel, S., Mekiffer, B., & Wessolek, G. (2012). Sulfate transport and release in technogenic soil substrates: experiments and numerical modeling. Journal of Soils and Sediments, Vol. 13, Issue 3, 606-615. link.springer.com/article/10.1007%2Fs11368-012-0615-9

Nehls, T., Rokia, S., Mekiffer, B., Schwartz, C. and Wessolek, G. (2012): Contribution of bricks to urban soil properties. J Soils Sediments.
DOI 10.1007/s11368-012-0559-0

Wessolek, G. et al. (2011): Urban Soils in the Vadose Zone. In: Perspectives in Urban Ecology, Eds. W. Endlicher et al., Springer, 89-135.

Nehls, T., Rim, Y.N. and Wessolek, G., (2011): Technical note on measuring run-off dynamics from pavements using a new device: the weighable tipping bucket. Hydrology and Earth System Sciences, 15(5): 1379-1386.

Mekiffer, B. und G. Wessolek (2011): Trümmerschuttböden und Sulfatfreisetzung. Boden des Jahres 2010 – Stadtböden, Berlin und seine Böden. Berliner Geographische Arbeiten, Band 117, 33-37.

Kluge, B. and Wessolek, G. (2011). Heavy metal pattern and solute concentration in soils along the oldest Highway of the world - The AVUS Autobahn. Environmental Monitoring and Assessment. DOI 10.1007/s10661-011-2433-8.

Schelle H., S.C. Iden, A. Peters, und W. Durner (2010): Analysis of the agreement of soil hydraulic properties obtained from multistep-outflow and evaporation methods, Vadose Zone Journal, 9, 1080–1091, doi:10.2136/vzj2010.0050. https://www.soils.org/publications/vzj/abstracts/9/4/1080

Nehls, T., Jozefaciuk, G., Sokolowska, Z., Hajnos, M., Wessolek, G. (2008): Filter properties of seam material from paved urban soils. Hydrology and Earth System Sciences, 12, (2) 691-702.

Nehls, T; Jozefaciuk, G; Sokolowska, Z; Hajnos, M; Wessolek, G (2006): Pore system characteristics of pavement seam materials of urban sites. J. Plant Nutr. Soil Sci. 169 (1):16-24.

Kocher, B; Wessolek, G; Stoffregen, H. (2005): Water and heavy metal transport in roadside soils. Pedosphere 15 (6):746-753.

Wessolek, G. & B. Kocher (2003): Verlagerung straßenverkehrsbedingter Stoffe mit dem Sickerwasser. Forschung Straßenbau und Straßentechnik, Heft 864, 99pp.

Kocher B., Täumer K., Wessolek G. (2002): Schadstofftransport in straßennahen Böden. Straße und Autobahn 6/2002, 297-302. Kirschbaum, Verlag, Bonn, ISSN 0039-2162.

Wessolek, G. (2001): Bodenüberformung und Versiegelung, Handbuch der Bodenkunde, 11. Erg. Lfg. 04/01, 1-29.

Glugla, G., M. Goedecke, G. Wessolek & G. Fürtig (1999): Langjährige Abflussbildung und Wasserhaushalt im urbanen Gebiet Berlin. Wasserwirtschaft 89, I, 34-42.

Wessolek, G. & M. Facklam (1999): Aspekte zur Wasserbilanz versiegelter Standorte. In: Regenwasserversickerung und Bodenschutz, BVB-Materialien, Band 2, 50-56, Erich Schmidt Verlag.

Wessolek, G. und M. Renger (1998) in H. Sukopp & R. Wittig (Hrsg.): Wasserhaushalt urbaner Böden. Stadtökologie, 186-200, G. Fischer Verlag.

Wessolek, G. & M. Facklam (1997): Standorteigenschaften und Wasserhaushalt von versiegelten Flächen. Z. Pflanzenernähr. Bodenk. 160, 41-46.

Marschner, B., U. Henke & G. Wessolek (1995): Effects of meliorative additives on the adsorption and binding forms of heavy metals in a contaminated topsoil from a former sewage farm. J. Plant Nut. Soil Sci., 158, 9-14.

Döll, P. & G. Wessolek (1994): Bodenphysikalische Eigenschaften und temperaturabhängiger Wasserhaushalt einer Tonabdichtung. Berichtsband des 10. Nürnberger Deponie-Seminars: Geotechnische Probleme beim Bau von Abfalldeponien, 281-295.

Wessolek, G. & C. Fahrenhorst (1994): Immobilization of heavy metals in a polluted soil of a sewage farm by application of a modified alumino-silicate: retardation and long-term displacement studies. Soil Technology, 7, 221-232.

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Water Flux and CO2-Release of Peat Soils

Kluge, B.,Werkenthin, M.,  Wessolek, G. (2013). Regionalisierung von CO2-Emissionen aus Niedermooren (PDF, 5,7 MB). Elan discussion paper No. 6. Hrsg. Leibniz-Zentrum für Agrarlandschaftsforschung (ZALF) e.V. ; ISBN 978-3-943679-11-3.

Kluge, B., Wessolek, G., Facklam, M., Lorenz, M., Schwärzel, K. (2008): Long-term carbon loss and CO2 -C release of drained peat land soils in northeast Germany. Europ. J. of Soil Sci. 59: 1076-1086.

Grossman M., O. Dietrich, U. Bangert, K. Schwärzel, G. Vater, V. Hartje, I. Kowarik, J. Quast & G. Wessolek (2002) Management strategies for regulated wetland ecosystems in the context of global change: Case study Spreewald. Glowa-Status-Report 2002: 14-17.

Renger, M., G. Wessolek und R. Sauerbrey (2003): Einfluss des Grundwasserflurabstandes auf C- und N-Freisetzung von Niedermooren. Wasser & Boden, 55, 39-47.

Wessolek, G. & K. Schwärzel (2001): Wasser- und Stoffumsatz in Niedermooren. Geographische Rundschau, 53, 24-34.

Wessolek, G., Lorenz, M., Schwärzel, K. & Kayser, M. (2003): Auswirkungen von Klimaänderungen auf bodenhydrologische Zustandsgrößen: Veränderungen des Bodenwasserhaushaltes, der Biomasseproduktion und der Degradierung der Niedermoore als Folgen des globalen Wandels. Endbericht BMBF, Forschergruppe „GLOWA“.

Renger, M., G. Wessolek, K. Schwärzel, R. Sauerbrey and C. Siewert (2002): Aspects of peat conservation and water management. J. Plant Nutr. Soil Sci. 165, 487-493.

Wessolek, G., K. Schwärzel, M. Renger, R. Sauerbrey & C. Siewert (2002): Soil hydrology and CO2 mineralization of peat soils. J. Plant Nutr. Soil Sci. 165, 494-500.

Wessolek, G., D. Eschner, M. Facklam, M. Renger, R. Sauerbrey, K. Schwärzel & V. Siewert (1999) : Kennzeichnung der Bodenentwicklungsprozesse von Niedermooren. Humboldt-Universität Berlin, Ökologische Hefte 11, 96-125.

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Water Repellency

Stoffregen , H. and G. Wessolek (2014): Scaling the hydraulic functions of a water repellent sandy soil. International Agrophysics, 3, 28, 349-358.

Schonsky, H., A. Peters, und G. Wessolek (2014): Effects of Water Repellency on Partitioning Energy between Soil and Atmosphere – a Conceptual Approach, Pedosphere, 24, 498–507,doi: 10.1016/S1002-0160(14)60036-9. http://www.sciencedirect.com/science/article/pii/S1002016014600369

Greiffenhagen, A., Wessolek, G., Facklam, M., Renger, M., Stoffregen, H. (2006): Hydraulic functions and water repellency of forest floor horizons on sandy soils. Geoderma, 132 (1-2):182-195.

Wessolek, G., H. Stoffregen, K. Täumer (2009): Persistency of flow patterns in a water repellent sandy soil – Conclusions of TDR reading and a time-delaved double tracer experiment. Journal of Hydrology 375, 524-535.

Wessolek, G; Schwärzel, K; Greiffenhagen, A; Stoffregen, H. (2008): Percolation characteristics of a water-repellent sandy forest soil. Europ. J. of Soil Science 59: 14-23.

Täumer, K; Stoffregen, H; Wessolek, G. (2006): Seasonal dynamics of preferential flow in a water repellent soil. Vadose Zone Journal 5 (1):405-411.

Täumer, K., H. Stoffregen, G. Wessolek (2005): Determination of repellency distribution using soil organic matter and water content. Geoderma, 125, 107-115.

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Soil Hydraulic Properties and soil water related topics

A. Markert, A. Peters, and G. Wessolek. Analysis of the evaporation method to obtain soil thermal conductivity data in the full moisture range. Soil Sci. Soc. Am. J. 80:275-283, 2016. doi: 10.2136/sssaj2015.09.0316.

Kim, H.-S., Kim, K.-R., Yang, J.E., Ok, Y.S., Owens, G., Nehls, T., Wessolek, G. Kim, K.-H. (2015) Effect of biochar on reclaimed tidal land soil properties and maize (Zea mays L.) response. Chemosphere, dx.doi.org/10.1016/j.chemosphere.2015.06.041

Peters, A., T. Nehls, H. Schonsky und G. Wessolek (2014): Separating precipitation and evapotranspiration from noise - a new filter routine for high resolution lysimeter data, Hydrology and Earth System Sciences, 18, 1189–1198, doi:10.5194/hess-18-1189-2014. www.hydrol-earth-syst-sci.net/18/1189/2014/hess-18-1189-2014.html

Peters, A. (2013): Simple consistent models for water retention and hydraulic conductivity in the complete moisture range, Water Resources Research. 49, doi:10.1002/wrcr.20548. onlinelibrary.wiley.com/doi/10.1002/wrcr.20548/abstract;jsessionid=3C27B3487ECB4F723722B5350A9755D8.f01t01

Abel, S., Peters, A., Trinks, S., Schonsky, H., Facklam, M., & Wessolek, G. (2013). Impact of biochar and hydrochar addition on water retention and water repellency of sandy soil. Geoderma, Vol. 202, 183-191, http://www.sciencedirect.com/science/article/pii/S0016706113000803

Peters Andre; Durner Wolfgang; Wessolek Gerd (2011): Consistent parameter constraints for soil hydraulic functions. Advances in Water Recources.  Vol. 34   Issue: 10, 1352-1365. doi:10.1016/j.advwatres.2011.07.006.  http://www.sciencedirect.com/science/article/pii/S0309170811001357

Peters, A., und W. Durner (2010): Reply to comment on ”A simple model for describing hydraulic conductivity in unsaturated porous media accounting for film and capillary flow”, Water Resources Research, 46, W06802, doi:10.1029/2010WR009181. http://onlinelibrary.wiley.com/doi/10.1029/2010WR009181/abstract

Peters, A., and W. Durner (2009), Large zero-tension plate lysimeters for soil water and solute collection in undisturbed soils, Hydrology and Earth System Sciences, 13, 1671– 1683. http://www.hydrol-earth-syst-sci.net/13/1671/2009/hess-13-1671-2009.html

Schwärzel, K; Simunek, J., Stoffregen, H; Wessolek, G.; van Genuchten, M.T. (2006): Estimation of the unsaturated hydraulic conductivity of peat soils: Laboratory versus field data. Vadose Zone Journal 5 (2):628-640.

Schwärzel, K. & H. Bohl (2003): An easily installable groundwater lysimeter to determine water balance components and hydraulic properties of peat soils. Hydrology and Earth System Science 7, 23-32.

Schwärzel, K., M. Renger, R. Sauerbrey & G. Wessolek (2002): Soil physical characteristics of peat soils. J. Plant Nutr. Soil Sci. 165, 479-486.

Stoffregen, H., U. Yaramanci, T. Zenker, G. Wessolek (2003): Accuracy of soil water content measurements soil using ground penetrating radar: comparison of ground penetrating radar and lysimeter data. J. Hydrology 267, 201-206.

Hajnos, H., G. Jozefaciuk, Z. Sokolowska, A. Greifenhagen & G. Wessolek (2003): Water storage, surface, and structural properties of sandy forest humus horizons. J. Plant Nutr. Soil Sci. 166, 625-634.

Slawinski, C., Sobczuk, H. Stoffregen , R. Walcak & G. Wessolek (2002): Effect of data resolution on soil hydraulic conductivity prediction. J. Plant Nutr. Sci.165.

Stoffregen, H. & G. Wessolek (2001): Messung hydraulischer Eigenschaften deponiespezifischer Materialien. Wasser & Boden, 6, 12-16.

Wessolek, G., J. Gross & K. Hammel (2000): Water and bromide transport in a heterogeneous glacial sand. J. Plant Nutr. Soil Sci. 163, 13-20.

Hammel, K., J. Gross, G. Wessolek & K. Roth (1999): Field scale transport of a conservative solute for transient, unsaturated flow in a heterogeneous soil: Experiment and numerical simulation. Europ. Journal of Soil Science, 50, 633-647.

Roth, C.H., K.L. Bristow, J. Brunotte, M. Facklam-Moniak & G. Wessolek (1999): Impact of Tillage and Field Traffic Induced Variability of Soil Hydraulic Properties on Unsaturated Conductivity and Water Balances Calculations. Proceedings of the International Worshop on Characterization and Measurement of Hydraulic Properties of Unsaturated Porous Media, Riverside, Part I, 489-497.

Stoffregen, H., P. Döll, G. Wessolek, S. Melchior, B. Vielhaber, U. Holzlöhner, R. Horn, T. Baumgartl, W. Gräsle, K. Bohne und M. Schmidt (1999): Rissgefährdung von Kombinationsdichtungen durch temperaturabhängige Austrocknung. Müll und Abfall, 1, 29-35.

Wessolek, G., R. Plagge, F.J. Leij & M.Th. van Genuchten (1994): Analysing problems in describing field and laboratory measured soil hydraulic properties. Geoderma, 64, 93-110.

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Pedo-Transfer-Functions and Hydro-Pedo-Transfer-Functions (HPTFs)

Miegel, K., Bohne, K., Wessolek, G. (2013): Prediction of long-term groundwater recharge by using hydropedotransfer functions. Int. Agrophysics 2013,27,31-37 doi:10.2478/v10 247-012-0065-z

Wessolek, G., K. Bohne, W. Duijnisveld and S. Trinks (2011): Development of hydro-pedotransfer functions to predict capillary rise and actual evapotranspiration for grassland sites. Journal of Hydrology, Vol. 400,  Issue: 3-4, 429-437.

Renger, M., Bohne, K., Facklam, T. Harrach, W. Riek, W. Schäfer, G. Wessolek, S. Zacharias (2009): Ergebnisse und Vorschläge der DBG Arbeitsgruppe „Kennwerte des Bodengefüges“ zur Schätzung bodenphysikalischer Kennwerte. Bodenökologie und Bodengenese, Heft 40, 5-51.

Wessolek, G., W. Duijnisveld und S. Trinks (2009): Hydro-Pedotransferfunktionen zur Berechnung der Sickerwasserrate aus dem Boden: das TUB-BGR Verfahren. Bodenökologie und Bodengenese, Heft 40, 66-80.

Wessolek G.; Duijnisveld W. H. M.; Trinks S. (2008): Hydro-pedotransfer- functions (HPTFs) for predicting annual percolation rate on a regional scale. Journal of Hydrology, Vol. 356,   Issue: 1-2, 17-27.

Zacharias, S., Wessolek, G. (2007): Excluding organic matter content from pedo-transfer predictors of soil water retention Soil Science Society of America Journal (1):43-50.

Jankiewicz , P., J. Neumann, W. Duijnisveld ,G. Wessolek, P. Wycisk & V. Hennings (2005): Abflusshöhe Sickerwasserrate Grundwasserneubildung- Drei Themen im Hydrologischen Atlas von Deutschland. Z. Hydrologie und Wasserwirtschaft, 1, 1-10.

Wagner B; Tarnawski VR; Hennings V, R. Plagge (2002): Reply to comments on "Evaluation of pedotransfer functions for unsaturated soil hydraulic conductivity using an independent data set". Geoderma,  Vol. 108,  Issue: 3-4, 301-304.

Wagner, B., V.R. Tarnawski, V. Hennigs, U. Müller, G. Wessolek & R. Plagge (2001): Evaluation of pedotransfer functions for unsaturated soil hydraulic conductivity using an independent data set. Geoderma 102: 275-297.

Bohne, K., S. Zacharias und G. Wessolek (2000): Prüfung von drei Verfahren zur Vorhersage der hydraulischen Leitfähigkeit ungesättigter Böden aus Wasserretentionsdaten oder aus der Bodenart. J. Plant Nutr. Soil Sci. 163, 7-12.

Wagner, B., V.R. Tarnawski, G. Wessolek & R. Plagge (1999): Suitability of models for the estimation of soil hydraulic parameters. Geoderma, 86, 229-239.

Renger H; Stoffregen H; Klocke J, G. Wessolek (1999): An autoregressive procedure to predict the hydraulic conductivity - Comparison of measured and predicted results. J. Plant Nutr. Soil Sci., Vol. 162,  Issue: 2   Pages: 123-130.

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Water Supply and Plant Growth

Wessolek, G., W. Riek, A. von Lührte, & M. Facklam (2007): Wasserhaushalt und Dickenwachstum von Kiefern in Abhängigkeit des Grundwasserflurabstandes. Z. Pflanzenernähr. Bodenk., Vol. 158, 1, 15–22.

Wessolek, G. and S. Asseng (2006): Trade-off between wheat yield and drainage under current and climate change conditions in northeast Germany. Europ. J. of Agronomy, 24(4-24): 333-342.

Adiku, S.G.K., M. Renger, G. Wessolek, M. Facklam and C. Hecht-Buchholz (2001): Simulation of dry matter production and seed yield under varying water and salinity conditions. Agricultural Water Management, 47, 55-68.

Wessolek, G. (2001): Bestimmung von Wasserhaushaltskomponenten in Waldökosystemen. Probleme und Erfahrungen. Beitr. Forstwirtsch. u. Landsch. Ökol. 35, 2-4.

Renger, M. & G. Wessolek (2000): Influence of groundwater depth and available soil water on evapotranspiration and plant growth. Int. Agrophysics, 14, 127-134.

Renger, M., G. Wessolek, W. Riek & A. v. Lührte (2000): Einfluss des Bodenwasserhaushaltes auf das Wachstum von Kiefern im Berliner Raum. Naturschutz und Landschaftsplanung, 179-191. Mensch & Buch Verlag.

Asseng, S., Ch. Richter & G. Wessolek (1997): Modelling root growth of wheat as a linkage between crop and soil. Plant and Soil 190: 267-277.

Wessolek, G., W. H. M. Duynisveld, M. Renger, O. Strebel (1987): Berechnung der Biomasseproduktion von Grünland mit einem Photosynthese-Wasserhaushaltsmodell. J. of Agron. & Crop Sc.,158(2):99-106.

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Climate Change and Water Resources

Jänicke, B., Meier, F., Hoelscher, M., Scherer, D. (2015): Evaluating the Effects of Façade Greening on Human Bioclimate in a Complex Urban Environment. Advances in Meteorology, Article ID 747259.

Buchin, O, Hoelscher, M.-T., Meier, F., Nehls, T. and Ziegler, F. (2015) Evaluation of the health-risk reduction potential of countermeasures to urban heat islands. (PDF, 1,1 MB) Energy and Buildings, DOI:10.1016/j.enbuild.2015.06.038

Hoelscher, M.-T., Nehls, T., Jaenicke, B. and Wessolek, G. (2015) Quantifying cooling effects of facade greening: shading, transpiration and insulation. (PDF, 1,7 MB)Energy and Buildings, DOI:10.1016/j.enbuild.2015.06.047

Wessolek, G; Asseng, S. (2006): Trade-off between wheat yield and drainage under current and climate change conditions in northeast Germany. European Journal of Agronomy 24 (4):333-342.

Wessolek, G., F.W. Gerstengarbe & P.C. Werner (1998): A new climate scenario model and its application for regional water balance studies. Proceedings of the second international conference on climate and water, Espoo, Finland, Vol. I, 160-170.

Grossmann, M., O. Dietrich, U. Bangert, K. Schwärzel, G. Vater, V. Hartje, I. Kowarik, J. Quast & G. Wessolek (2002): Management strategies for regulated wetland ecosystems in the context of global change: Case study Spreewald. - In: German Programme on Global Change in the Hydrological Cycle (Phase I, 2000-2003): Status Report 2002: 14-17; München, GSF-Forschungszentrum für Umwelt und Gesundheit.

Wessolek, G. & S. Asseng (1994): Klimaänderungen und Wasserhaushalt: Szenarien für unterschiedliche Boden-, Klima- und Vegetationsbedingungen. VfU-Sonderheft zum Thema: Einfluss von Klimaänderungen auf den Wasserhaushalt in Norddeutschland, 1-11.

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Soil, Art, Society

Feller, C., E. R. Landa, A. Toland, G. Wessolek (2015): Case studies of soil in art. Soil, 1: 543-559.

Kluge, B., G. Wessolek und T. Nehls (2011): Schutz vor Versiegelung. In: Handbuch des Bodenschutzes. Eds. H.P. Blume, R. Horn, S. Thiele-Bruhn, Wiley-VCH, 565-567.

Wessolek, T. Nehls und B. Kluge (2011): Bodenüberformung und Versiegelung. In: Handbuch des Bodenschutzes. Eds. H.P. Blume, R. Horn, S. Thiele-Bruhn. Wiley-VCH, 155-169.

Nehls, T., B. Kluge und G. Wessolek (2011): Entsiegelungspotenziale und Entsiegelung von Böden. In: Handbuch des Bodenschutzes. Eds. H.P. Blume, R. Horn, S. Thiele-Bruhn. Wiley-VCH, 645-648.

Wessolek, G. (2010): Wie viel Boden braucht die Stadt- verhindert Bodenschutz wirtschaftliche Entwicklung? In: Boden des Jahres 2010, Hrsg.: M. Macki und M. Friedlinghaus. Berliner Geographische Arbeiten 117, 9-12.

Toland, A., Wessolek, G. (2010): Beneath the Pavement – The Vadose Zone. In: Franceschini & Milicevic (Hrsg.) Beneath the Pavement – A Garden. Loughborough University (UK), 80-105.

Toland, A., Wessolek, G. (2010): Core Samples of the Sublime – On the Aesthetics of Dirt. In: Feller and Landa (Hrsg.) Soil and Culture. Dordrecht, Heidelberg, London and New York: Springer Science + Business Media B.V., 239-260.

Toland, A., Wessolek, G. (2010): Merging Horizons – Soil Science and Soil Art. In: Feller and Landa (Hrsg.) Soil and Culture. Dordrecht, Heidelberg, London and New York: Springer Science + Business Media B.V., 45-66.

Toland, A., Wessolek, G. (2010): Soil Art – Bridging the Communication Gap. In: Makki and Frielinghaus (Hrsg.): Berliner Geographische Arbeiten 117; Boden des Jahres 2010 – Stadtböden. Humboldt Universität zu Berlin, 126-134.

Wessolek, G., A. Toland (2007): Questionnaire: Soil, Art, and Aesthetics. Newsletter of the Committee on the History, Philosophy, and Sociology of Soil Science International Union of Soil Science and Council on the History, Philosophy, and Sociology of Soil Science Soil Science Society of America, Vol. 15, 6-13.

Endlicher, W., Langner, M., Hesse, M., Mieg, H.A., Kowarik, I., Hostert, P., Kulke, E., Nützmann, G., Schulz, M., van der Meer, E., Wessolek, G., Wiegand, C. (2007): Urban Ecology - Definitions and Concepts. In: Langner, M., Endlicher, W. (Eds.): Shrinking Cities: Effects on Urban Ecology and Challenges for Urban Development: 1-15. Frankfurt a.M.

Wessolek G (2006): Some Reflections on the Future of Soil Science. In ‘The Future of Soil Science’. (Ed. A. Hartemink), ISBN 90-71556-16-6 pp. 150–152.

Vetter, A. und G. Wessolek (2004): Boden und Kunst - neue Wege der visuellen Kommunikation - Mitteilungen der Österreichischen Bodenk. Gesellschaft, Heft 72.

Vetter, A. (2003): Ästhetik des Bodens: Entdeckung des Verborgenen. Diplomarbeit am Fachgebiet  Standortkunde-Bodenschutz bei Prof. Wessolek, Fakultät VI, Technische Universität Berlin.

Wessolek, G. (2002): Art and Soil. Newsletter of the Committee on the History, Philosophy, and Sociology of Soil Science International Union of Soil Science and Council on the History, Philosophy, and Sociology of Soil Science Soil Science Society of America, Vol. 2, 14-16.

Young, W.C.,  H. Bohne, Buringh, P., R. Dudal,  D.J. Greenland, K.H. Hartge, M.O.C: Kürsten, K. Mollenhauer, C. Pieri, D. Pimentel, G. Varallyay, G. Wessolek, M.G. Wolman (1987): Assessment of Land Resources. Ed.: D.J. McLaren and B.J. Skinner. In: Resources and World Development.  Physical, Chemical, and Earth Science Report 6. J. Wiley and Sons. 940pp.

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Soil Microbiology and Processes

Zirkler, D., A. Peters, A., und M. Kaupenjohann (2014): Elemental composition of biogas residues: Variability and alteration during anaerobic digestion. Biomass and Bioenergy, 67, 89-98, doi: 10.1016/j.biombioe.2014.04.021.http://www.sciencedirect.com/science/article/pii/S0961953414002153

Kluge, B., Peters, A., Krüger, J and Wessolek, G. (2012): Detection of soil microorganism activity by infrared thermography (IRT). Soil Biology and Biochemistry, Available online 6 October 2012. www.sciencedirect.com/science/article/pii/S0038071712003707

 

 

 

 

Urban soil related topics

Nehls, T. Schwartz, C., Kye-Hoon Kim, J., Kaupenjohann, M., Wessolek, G., Morel, J.-L. (2015) Letter to the editors: Phyto-P-Mining - secondary urban green recycles phosphorus from soils constructed of urban wastes. (PDF, 456,8 KB) Journal of Soil and Sediments, DOI 10.1007/s11368-014-1023-0

Nehls, T., Jiang, Y., Dennehy, C., Zhan, X.,  Beesley, L. (im Druck) From Waste to Value: Urban Agriculture Enables Cycling of Resources in Cities. in: Frank Lohrberg, Lilli Licka, Lionella Scazzosi and Axel Timpe (eds): Urban Agriculture Europe. Jovis Verlag. Berlin.

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