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Yakov Kuzyakov

From Wikipedia, the free encyclopedia
Yakov Kuzyakov
Born27 August 1963
Moscow, USSR
Alma materRussian State Agrarian University, University of Halle
Scientific career
FieldsSoil science, Ecology, Land use, Carbon, Nitrogen, Rhizosphere, Climate change

Yakov Kuzyakov (born 27 August 1963) is a soil scientist professor.[1]

Research and career

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Kuzyakov graduated in 1986 from the Martin Luther University of Halle-Wittenberg in Halle. He defended his PhD at the Russian State Agrarian University – Moscow Timiryazev Agricultural Academy (Moscow) in 1990 under the supervision of Alexey Fokin. Then he headed the radioisotopic laboratory from 1990 to 1993 over there. Later in 1993 Kuzyakov continued his research at the Humboldt University of Berlin and the Leibniz Institute of Vegetable and Ornamental Crops. In 1997 he completed the habilitation at the University of Hohenheim under the supervision of Karl Stahr. In 2006 he took up a professorship at the department of Agroecosystem Research at the University of Bayreuth. Since 2011, he heads the department of Soil Science of Temperate Ecosystems and the department of Agricultural Soil Science at the University of Göttingen.[2][3]

Scientific achievements

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Kuzyakov is a highly cited researcher in the field of Agricultural Sciences for the 2015–2023,[4][5] he was also included in the list of the most cited Russian scientists in 2017.[6] The H-index is 114 (Scopus database). Yakov has published more than 860 scientific papers,[7][8] indexed by Web of Science and Scopus databases which include:

  • 17 papers in the Nature journal series,
  • 50 scientific reviews,
  • 51 highly cited papers (top 1% citations),
  • 16 hot papers (top 0,1 % citations)
  • 4 papers listed as the most cited over the last 50 years in Soil Biology and Biochemistry[9]
  • published 95 papers in 2023, or 4 days per paper[10]

He developed new concepts of Priming effect,[11][12] Microbial hotspots and hot moments in soil,[13] Transformation of low-molecular organic compounds in soil, Rhizosphere dynamics and stationarity,[14] Root exudation and its localization, Visualization of enzyme activity in soil,[15] Competition between microorganisms and roots for nutrients,[16] Pedogenic carbonates,[17] Agropedogenesis,[18] Partitioning and quantification of CO2 sources,[19] Biochar stability [20] etc. These concepts were investigated in the frame of global climate change conditions: global warming, elevated СО2 in the atmosphere, drought, N deposition and soil degradation. He is the first to use position specific isotope labelling, 14СО2 and 13СО2 plant labelling combined with autoradiography and zymography coupling with biomarkers. The concepts, ideas and methodical approaches developed by Yakov Kuzyakov group stimulated many research directions worldwide.[21]

Research interests

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Kuzyakov specialises in soil ecology and soil biogeochemistry (lipids, low molecular organic substances), agriculture, land use, agroecology, C and N cycles, priming effects, soil-plant interactions (rhizosphere processes), in-depth study of rhizodeposition, partitioning of CO2 fluxes from soil and application of radioactive and stable isotope labelling approaches in soil science.[22] He has conducted research in all climatic zones including cold deserts, tropical areas and in various ecosystems (agricultural lands, forests, mountains, pastures, etc).[23][24][25] The collaboration includes the projects with other research groups from Europe (Germany, Italy, France, Denmark, Russia, UK), Asia (China, South Korea, Indonesia), North and South America (USA, Chile), Africa (Tanzania) and Australia.[26]

References

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  1. ^ "Yakov Kuzyakov / Яков Кузяков". scholar.google.com. Retrieved 2021-05-13.
  2. ^ "Staff list of Institute of Soil Science of Temperate Ecosystems". uni-goettingen.de. Retrieved 2022-04-01.
  3. ^ "Staff list of Institute of Soil Science". uni-goettingen.de. Retrieved 2022-04-01.
  4. ^ "Viel zitierte Göttinger Wissenschaftler". GT - Göttinger Tageblatt (in German). 19 February 2018. Retrieved 2020-08-20.
  5. ^ "Highly Cited Researchers". publons.com. Retrieved 2020-08-20.
  6. ^ Ирина Смазневич (2018-02-21). "Самые высокоцитируемые российские ученые 2017 года". 4science.
  7. ^ "Yakov Kuzyakov's Publons profile". publons.com. Retrieved 2020-08-20.
  8. ^ "Yakov Kuzyakov". wwwuser.gwdg.de. Retrieved 2020-08-20.
  9. ^ "Fifty years of SBB: The most cited articles for each year - Article Selections: Virtual Special Issues - Soil Biology and Biochemistry - Journal - Elsevier".
  10. ^ "Yakov Kuzyakov / Яков Кузяков". scholar.google.com. Retrieved 2024-03-08.
  11. ^ Kuzyakov, Y; Friedel, J.K.; Stahr, K. (2000). "Review of mechanisms and quantification of priming effects". Soil Biology & Biochemistry. 32 (11–12): 1485–1498. doi:10.1016/S0038-0717(00)00084-5.
  12. ^ Kuzyakov, Yakov (2002). "Review: Factors affecting rhizosphere priming effects". Plant Nutrition and Soil Science. 165 (4): 382–396. Bibcode:2002JPNSS.165..382K. doi:10.1002/1522-2624(200208)165:4<382::AID-JPLN382>3.0.CO;2-#.
  13. ^ Kuzyakov, Y; Blagodatskaya, E (2015). "Microbial hotspots and hot moments in soil: Concept & review". Soil Biology & Biochemistry. 83 (11–12): 184–199. doi:10.1016/j.soilbio.2015.01.025.
  14. ^ Kuzyakov, Y; Razavi, B.S. (2019). "Rhizosphere size and shape: Temporal dynamics and spatial stationarity". Soil Biology & Biochemistry. 135: 343–360. doi:10.1016/j.soilbio.2019.05.011.
  15. ^ Bilyera, N; Kuzyakov, Y (2024). "Soil zymography: A decade of rapid development in microbial hotspot imaging". Soil Biology & Biochemistry. 189: 109264. doi:10.1016/j.soilbio.2023.109264.
  16. ^ Kuzyakov, Y; Xu, X (2013). "Tansley Review: Competition between roots and microorganisms for N: mechanisms and ecological relevance". New Phytologist. 198 (3): 656–669. doi:10.1111/nph.12235.
  17. ^ Zamanian, K; Pustovoytov, K; Kuzyakov, Y (2016). "Pedogenic carbonates: forms and formation processes". Earth-Science Reviews. 157: 1–17. Bibcode:2016ESRv..157....1Z. doi:10.1016/j.earscirev.2016.03.003.
  18. ^ Kuzyakov, Y; Zamanian, K. (2019). "Reviews and syntheses: Agropedogenesis – Humankind as the sixth soil-forming factor and attractors of agricultural soil degradation". Biogeosciences. 16 (24): 4783–4803. Bibcode:2019BGeo...16.4783K. doi:10.5194/bg-16-4783-2019.
  19. ^ Kuzyakov, Y (2006). "Sources of CO2 efflux from soil and review of partitioning methods". Soil Biology & Biochemistry. 38 (3): 425–448. doi:10.1016/j.soilbio.2005.08.020.
  20. ^ Kuzyakov, Y; Subbotina, I; Chen, H; Bogomolova, I; Xu, X (2009). "Black carbon decomposition and incorporation into soil microbial biomass estimated by 14C labeling". Soil Biology & Biochemistry. 41 (2): 210–219. doi:10.1016/j.soilbio.2008.10.016.
  21. ^ Jia, L; Wang, W; Zvomuya, F; He, H (2024). "Trends in Soil Science over the Past Three Decades (1992–2022) Based on the Scientometric Analysis of 39 Soil Science Journals." Agriculture . 14 (3): 445. doi:10.3390/agriculture14030445.
  22. ^ "Bayceer mitarbeiter". Retrieved May 12, 2024.
  23. ^ Stock, S; Koester, M; Najera, F; Boy, J; Matus, F; Merino, C; Abdallah, K; Spielvogel, S; Gorbushina, A; Dippold, M; Kuzyakov, Y (2022). "Vegetation strategies for nitrogen and potassium acquisition along a climate and vegetation gradient: From semi-desert to temperate rainforest". Geoderma. 425: 116077. doi:10.1016/j.geoderma.2022.116077.
  24. ^ Matus, F; Mendosa, D; Najera, F; Merino, C; Kuzyakov, Y; Wilhelm, K; Boy, J; Aburto, F; Jofré, I; Dippold, M (2023). "Freezing–thawing cycles affect organic matter decomposition in periglacial maritime Antarctic soils". Biogeochemistry . 163: 311–325. doi:10.1007/s10533-023-01032-z.
  25. ^ Kuzyakov, Y; Zamanian, K. (2019). "Reviews and syntheses: Agropedogenesis – Humankind as the sixth soil-forming factor and attractors of agricultural soil degradation". Biogeosciences. 16 (24): 4783–4803. Bibcode:2019BGeo...16.4783K. doi:10.5194/bg-16-4783-2019.
  26. ^ "Kuzyakov's CV /" (PDF). https:// wwwuser.gwdg.de. Retrieved 2024-05-08.
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