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Specifics of soil temperature under winter wheat canopy

. Revue Suisse d‘Agriculture, 37, 61-64. Devine W. D., Harrington C. A., 2007: Influence of harvest residues and vegetation on microsite soil and air temperatures in a young conifer plantation. Agricultural and Forest Meteorology, 145, 125-138. Fortin M. C., 1993: Soil temperature, soil water, and no-till corn development following in-row residue removal. Agronomy Journal, 85, 3, 571-576. Franzaring J., H¨ogy P., Erbs M., Fangmeier A., 2010: Responses of canopy and soil climate in a six year free-air CO2 enrichment study

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Specifics of soil temperature under winter oilseed rape canopy

Science, 37, 3, 844-849. Wu B. M., Subbarao K. V., 2008: Effects of soil temperature, moisture and burial depths on carpogenic germination of Sclerotinia sclerotiorum and S. minor. Phytopathol- ogy, 98, 10, 1144-1152.

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Similarity of empirical copulas of flood peak-volume relationships: a regional case study of North-West Austria

., Robichaud É., 2012: Multivariate analysis of flood characteristics in a climate change context of the watershed of the Baskatong reservoir, Province of Québec, Canada. Hydrological Processes, 26 , 130–142, doi: 10.1002/hyp.8117. Chapman T. G., Maxwell A. I., 1996: Baseflow separation—comparison of numerical methods with tracer experiments. In: 23 rd Hydrology and Water Resources Symposium: Water and the Environment, Natl. Conf. Publ., 96/05, Inst. of Eng., Barton, A.C.T., Australia, pp. 539–545. Chebana F., Ouarda T. B. M. J., 2007: Multivariate L

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Evaluation of recent Earth’s global gravity field models with terrestrial gravity data

References Brockmann J. M., Zehentner N., Höck E., Pail R., Loth I., Mayer-Gürr T., Schuh W.-D., 2014: EGM_TIM_RL05: An independent geoid with centimeter accuracy purely based on the GOCE mission. Geophysical Research Letters, 41 , 8089–8099. Bruinsma S. L., Marty J. C., Balmino G., Biancale R., Foerste C., Abrikosov O., Neumayer H., 2010: GOCE Gravity Field Recovery by Means of the Direct Numerical Method, Proceeding at the ESA Living Planet Symposium, 27th June – 2nd July 2010, Bergen, Norway. Drinkwater M., Floberghagen R., Haagmans R., Muzi

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Process-based selection of copula types for flood peak-volume relationships in Northwest Austria: a case study

: Baseflow separation-comparison of numerical methods with tracer experiments. In: 23rd Hydrology and Water Resources Symposium: Water and the Environment, Natl. Conf. Publ., 96/05, pp. 539-545. Inst. of Eng., Barton, A.C.T., Australia. Chowdhary H., Escobar L. A., Singh V. P., 2011: Identification of suitable copulas for bivariate frequency analysis of flood peak and flood volume data. Hydrology Research, 42, 2-3, 193-216, doi: 10.2166/nh.2011.065. De Michele C., Salvadori G., Vezzoli R., Pecora S., 2013: Multivariate assessment of

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Tectonic classification of vertical crustal motions – a case study for New Zealand

References Altamimi Z., Collilieux X., Metivier L., 2011: ITRF2008: an improved solution of the international terrestrial reference frame. J. Geod., 85 , 5, 457–473, doi: 10.1007/s00190-011-0444-4. Amiri-Simkooei A. R., Tiberius C. C. J. M., Teunissen P. J. G., 2007: Assessment of noise in GPS coordinate time series: methodology and results. J. Geophys. Res., 112 , B07413, doi: 10.1029/2006JB004913. Barnes P. M., Mercier de Lepinay B., 1997: Rates and mechanics of rapid frontal accretion along the very obliquely convergent southern Hikurangi

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Refined prediction of vertical gradient of gravity at Etna volcano gravity network (Italy)

References Battaglia M., Gottsmann J., Carbone D., Fernández J., 2008: 4D volcano gravimetry. Geophysics 73 , 6, WA3–WA18, doi: 10.1190/1.2977792. Bisson M., Spinetti C., Neri M., Bonforte A., 2015: Mt. Etna volcano high-resolution topography: airborne LiDAR modelling validated by GPS data. International Journal of Digital Earth, doi: 10.1080/17538947.2015.1119208. Bonforte A., Carbone D., Greco F., Palano M., 2007: Intrusive mechanism of the 2002 NE-rift eruption at Mt. Etna (Italy) modelled using GPS and gravity data. Geophys. J. Int., 169

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State of bare soil surface as a spring drought indicator

agriculture, 7. 4, 661-668. Hlavinka P., Trnka M., Semerádová D., Dubrovský M., Žalud Z., Možný M.. 2009: Effect of drought on yield variability of key crops in Czech Republic. Agricultural and forest meteorology. 149. 3-4, 431-442. Owe M., De Jeu R., Holmes T., 2008: Multisensor historical climatology of satellite- derived global land surface moisture. Journal of Geophysical Research: Earth Sur- face, 113, F01002, doi:10.1029/2007JF000769. Potop V., Boronean^ C., Možný M., Stépánek P.. Skalák P., 2013: Observed spatiotem

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Determination of rock densities in the Carpathian-Pannonian Basin lithosphere: based on the CELEBRATION 2000 experiment

References Alasonati Tašárová Z., Bielik M., Götze H.-J., 2008: Stripped image of the gravity field of the Carpathian-Pannonian region based on the combined interpretation of the CELEBRATION 2000 data. Geologica Carpathica, 59, 3, 199-209. Alasonati Tašárová Z., Afonso J. C., Bielik M., Götze H.-J., Hók J., 2009: The lithospheric structure of the Western Carpathian-Pannonian region based on the CELEBRATION 2000 seismic experiment and gravity modeling. Tectonophysics, 475, 454-469, doi: 10.1016/j.tecto.2009

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Review on the role of geoelectrical surveys in characterizing and deriving the constraints and hydrogeological conditions in semi arid Khanasser Valley region in Syria

., 2007b: Geoelectrical investigation for characterizing the hydrogeological conditions in semi-arid region in Khanasser valley, Syria. J. Arid. Environ., 68 , 31–52, doi: 10.1016/j.jaridenv.2006.03.028. Asfahani J., 2007c: Electrical earth resistivity surveying for delineating the characteristics of ground water in semi arid region in Khanaser Valley, Northern Syria. Hydrol. Process, 21 , 1085–1097, doi: 10.1002/hyp.6290. Asfahani J., Radwan Y., 2007: Tectonic Evolution and Hydrogeological Characteristics of Khanasser Valley, Northern Syria, Derived from

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