Sándor Hoffmann
University of Pannonia
32 Papers
148 Citations
Sándor Hoffmann is an academic researcher from University of Pannonia. The author has contributed to research in topics: Soil organic matter & Fertilizer. The author has an hindex of 7, co-authored 32 publications. Previous affiliations of Sándor Hoffmann include University of Agricultural Sciences, Dharwad.
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Papers
Effect of mineral and organic fertilization on crop yield, nitrogen uptake, carbon and nitrogen balances, as well as soil organic carbon content and dynamics: results from 20 European long-term field experiments of the twenty-first century
Martin Körschens,Erhard Albert,Martin Armbruster,Dietmar Barkusky,Michael Baumecker,Lothar Behle-Schalk,Reiner Bischoff,Zoran Čergan,Frank Ellmer,Friedhelm Herbst,Sándor Hoffmann,Bodo Hofmann,Tamás Kismányoky,Jaromír Kubát,Eva Kunzova,Christina Lopez-Fando,Ines Merbach,Wolfgang Merbach,Maria Teresa Pardor,Jutta Rogasik,Jörg Rühlmann,Heide Spiegel,Elke Schulz,Anton Tajnšek,Zoltán Tóth,Hans Wegener,Wilfried Zorn +26 more
TL;DR: In this article, the results from 20 European long-term experiments (LTE), mainly from the first decade of the twenty-first century, are presented, and the included LTEs from 17 sites are the responsibility of institutional members of the International Working Group of Long-term Experiments in the IUSS.
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Humus und Klimaänderung - Ergebnisse aus 15 langjährigen Dauerfeldversuchen
Martin Körschens,Erhard Albert,Michael Baumecker,Frank Ellmer,Michael Grunert,Sándor Hoffmann,Tamás Kismányoky,Jaromír Kubát,Eva Kunzova,Marc Marx,Jutta Rogasik,Jörg Rinklebe,Jörg Rühlmann,Carsten Schilli,Hubert Schröter,Susanne Schroetter,Kathlin Schweizer,Zoltán Tóth,Jörg Zimmer,Wilfried Zorn +19 more
TL;DR: In this paper, the authors analyse 15 Dauerfeldversuchen an zehn verschiedenen Standorten with rund 150 unterschiedlichen Dungungsvarianten ausgewertet.
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Influence of mineral and organic fertilizers on soil organic carbon pools
TL;DR: Despite the higher HWC content, FYM treatments lead to significantly less grain yields than equivalent NPK doses; Cmic content showed closer correlation to grain yields.
21
The Humus Content and Soil Biological Properties as a Function of Organic and Mineral Fertilization
TL;DR: Three soil enzymes (dehydrogenase, phosphatase and invertase) microbial biomass as biological variables and soil organic matter content (SOM) were investigated relative to fertilization and soil fertility at a long-term fertilization trial (Keszthely, Hungary).
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