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Gy. Várallyay Hungarian Academy of Sciences, Budapest

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  • Adriano, D. C., Németh, T. & Gyori, Z. (Eds.), 2003. Natural Attenuation of Metals Along the Tisza River—Floodplain—Wetlands Continuum. University of Georgia, RISSAC, University of Debrecen.

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  • Birkás, M. , 2008. Environmentally-sound Adaptable Tillage. Akadémiai Kiadó. Buda-pest.

  • Csete, L. & Várallyay, Gy., 2004. Agroecology, environmental relations of agro-ecosystems and possibilities of their control (In Hungarian). Agro-21 Füzetek. 27. 217.

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  • Csorba, Sz., Berényi Üveges, J. & Makó, A., 2014. Relationship between soil properties and potentially toxic elements based on the dataset of the Soil Infor-mation and Monitoring System in Hungary. Central European Geology. 57. (3) 253263.

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  • Greenland, D. J. & Szabolcs, I. (Eds.), 1990. Soil Resilience and Sustainable Land Use. CAB International. Wallingford.

  • Kreybig, L. , 1956. Factors and Concepts of Agrotechnics (In Hungarian). Akadémiai Kiadó. Budapest.

  • Kocsis, M., Tóth, G., Berényi Üveges, J. & Makó, A., 2014. Presentation of soil data from The National Pedological and Crop Production Database (NPCPD) and investigations on spatial representativeness (In Hungarian). Agrokémia és Talaj-tan. 63. 223248

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  • Láng, I., Csete, L. & Harnos, Zs., 1983. Agro-ecological potential of Hungarian agriculture (In Hungarian). Mezogazdasági Kiadó. Budapest.

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  • Láng, I., Jolánkai, M. & Komíves, T., 2004. Pollution Processes in Agri-environment. Akaprint. Budapest.

  • Makó, A., Tóth, B., Hernádi, H., Farkas Cs. & Marth, P., 2010. Introduction of the Hungarian Detailed Soil Hydrophysical Database (MARTHA) and its use to test external pedotransfer functions. Agrokémia és Talajtan. 59. 2939.

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  • National Atlas of Hungary, 1989. Akadémiai Kiadó. Budapest.

  • Németh, T., Stefanovits, P. & Várallyay, Gy., 2005. Hungarian Soil Conservation Strategy (In Hungarian). Ministry of Environment Protection and Water Manage-ment. Budapest.

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  • Pálfai, I. (Ed.), 2000. The role and significance of water in the Hungarian Plain (In Hungarian). Nagyalföldi Alapítvány. Békéscsaba.

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  • Soil Atlas of Europe, 2005. EC DG Joint Research Centre. Office for Official Publica-tions of the European Communities. Luxembourg.

  • Somlyódy, L. , 2000. Strategy of Hungarian water management (In Hungarian). MTA Vízgazdálkodási Tudományos Kutatócsoportja. Budapest.

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  • Stefanovits, P. , 1963. Soils of Hungary (in Hungarian). Akadémia Kiadó. Budapest.

  • Stefanovits, P. , 1992. Soil Science (in Hungarian). Mezogazdasági Kiadó. Budapest.

  • Szabolcs, I. , 1965. Salt affected soils in Hungary. Agrokémia és Talajtan. 14. Suppl. 275290.

  • Szabolcs, I., Darab, K. & Várallyay, Gy., 1969. Methods for the prognosis of salinization and alkalization due to irrigation in the Hungarian Plain. Agrokémia és Talajtan. 18. Suppl. 351376.

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  • Szabolcs, I. & Várallyay, Gy., 1978. Limiting factors of soil fertility in Hungary (In Hungarian). Agrokémia és Talajtan. 27. 181202.

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  • Szabó, J., Pásztor, L., Suba, Zs. & Várallyay, Gy., 1998. Integration of remote sensing and GIS techniques in land degradation mapping. Agrokémia és Talajtan. 47. 6375.

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  • Várallyay, Gy. , 1968. Salt accumulation processes in the Hungarian Danube Valley. Transaction of the 9th Int. Congr. of Soil Sci. 1. 371380.

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  • Várallyay, Gy. , 1985. Main types of water regimes and substance regimes in Hungarian soils (In Hungarian). Agrokémia és Talajtan. 34. 267298.

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  • Várallyay, Gy. , 1989. Soil degradation processes and their control in Hungary. Land Degradation and Rehabilitation. 1. 171188.

  • Várallyay, Gy. , 1994. Soil management and environmental relationships in Central and Eastern Europe. Agrokémia és Talajtan. 43. 4166.

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  • Várallyay, Gy. , 1996. Soil pollution management in Hungary. In: Remediation of Soil and Groundwater. Opportunities in Eastern Europe. (Eds.: Mcbean, E. A., Balek, J. & Clegg, B.) NATO ASI Series 2. Environment. Vol. 17. Part II. II/5. 87112. Kluwer Academic Publishers. Dordrecht–Boston–London.

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  • Várallyay, G. , 1998. Multifunctional soil management for sustainable development in Hungary. Agrokémia és Talajtan. 47. 722.

  • Várallyay, Gy. , 2000a. Risk assessment and prevention of soil degradation processes in Hungary. In: Foresight and Precaution. (Eds.: COTTAM et al.) 563567. Balkema. Rotterdam.

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  • Várallyay, Gy. , 2000b. Scientific bases of the control of soil processes (In Hun-garian). In: Székfoglalók, 1995–1998. Magyar Tudományos Akadémia. Budapest. 132.

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  • Várallyay, Gy. , 2003. Role of soil multifunctionality in future sustainable agricultural development. Acta Agronomica. 51. (1) 109124.

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  • Várallyay, Gy. , 2005. Soil survey and soil monitoring in Hungary. In: Soil Resources of Europe. (Eds.: Jones, R. J. A. et al.) 169179. ESB Research Report No. 9. (2nd ed.) JRC. Ispra, Italy.

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  • Várallyay, Gy. , 2006. Soil degradation processes and extreme soil moisture regime as environmental problems in the Carpathian Basin. Agrokémia és Talajtan. 55. 918.

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  • Várallyay, Gy. , 2010. Increasing importance of the water storage function of soils under climate change. Agrokémia és Talajtan. 59. 718.

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  • Várallyay, Gy. , 2011a. Environmental aspects of soil–water relationships in the Carpathian Basin. In: Pollution and Water Resources (Ed.: HALASI-KUN, J.) Columbia University Seminar Proceedings. Vol. XL. 2010–2011. Environmental Protection of Central Europe and USA. 237270.

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  • Várallyay, Gy. , 2011b. Water storage capacity of Hungarian soils. Agrokémia és Talajtan. 60. Suppl. (online) (ATON) 726.

  • Várallyay, Gy. , 2014. Environmental aspects of soil management and moisture control. In: Proc. 6th International Scientific and Expert Conference TEAM 2014, Kecskemét, 10–11 Nov., 2014. 2631.

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  • Várallyay, Gy. , 2015. Soil, as a multifunctional natural resource. Columella. 2. (1) 717.

  • Várallyay, Gy. & Leszták, M., 1990. Susceptibility of soils to physical degradation in Hungary. Soil Technology. 3. 289298.

  • Várallyay, Gy. & Rajkai, K., 1989. Model for the estimation of water and solute transport from the groundwater to the overlying soil horizons. Agrokémia és Tala-jtan. 38. 641656.

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  • Várallyay, Gy., Szücs, L., Rajkai, K., Zilahy, P. & Murányi, A., 1980. Hydro-physical properties of Hungarian soils and the map of their categories in the scale of 1:100 000 (In Hungarian). Agrokémia és Talajtan. 29. 77112.

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  • Várallyay, Gy., Szücs, L., Zilahy, P., Rajkai, K. & Murányi, A., 1985. Soil factors determining the agroecological potential of Hungary. Agrokémia és Talajtan. 34. Suppl. 9094.

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  • Várallyay, Gy., Rédly, M., Murányi, A. & Szabó, J., 1993. Map of the susceptibility of soils to acidification in Hungary. Agrokémia és Talajtan. 42. 3542.

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  • Várallyay, Gy., Szabó, J., Pásztor, L. & Michéli, E., 1994. SOTER (Soil and Terrain Digital Database) 1:500,000 and its application in Hungary. Agrokémia és Talajtan. 43. 87108.

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  • Várallyay, Gy., Szabóné Kele, G., Berényi Üveges, J., Marth, P., Karkalik, A. & Thury, I., 2010. Soil Conditions in Hungary Based on the Data from the Soil Conservation Information and Monitoring System (SIMS). Ministry of Agriculture and Rural Development. Budapest. ISBN 978-963-06-6861-3.

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Senior editors

Editor(s)-in-Chief: Szili-Kovács, Tibor

Technical Editor(s): Vass, Csaba

Section Editors

  • Filep, Tibor (Csillagászati és Földtudományi Központ, Földrajztudományi Intézet, Budapest) - soil chemistry, soil pollution
  • Makó, András (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest) - soil physics
  • Pásztor, László (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest) - soil mapping, spatial and spectral modelling
  • Ragályi, Péter (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest) - agrochemistry and plant nutrition
  • Rajkai, Kálmán (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest) - soil water flow modelling
  • Szili-Kovács Tibor (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest) - soil biology and biochemistry

Editorial Board

  • Bidló, András (Soproni Egyetem, Erdőmérnöki Kar, Környezet- és Földtudományi Intézet, Sopron)
  • Blaskó, Lajos (Debreceni Egyetem, Agrár Kutatóintézetek és Tangazdaság, Karcagi Kutatóintézet, Karcag)
  • Buzás, István (Magyar Agrár- és Élettudományi Egyetem, Georgikon Campus, Keszthely)
  • Dobos, Endre (Miskolci Egyetem, Természetföldrajz-Környezettan Tanszék, Miskolc)
  • Fodor, Nándor (Agrártudományi Kutatóközpont, Mezőgazdasági Intézet, Martonvásár)
  • Győri, Zoltán (Debreceni Egyetem, Mezőgazdaság-, Élelmiszertudományi és Környezetgazdálkodási Kar, Debrecen)
  • Imréné Takács Tünde (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest)
  • Jolánkai, Márton (Magyar Agrár- és Élettudományi Egyetem, Növénytermesztési-tudományok Intézet, Gödöllő)
  • Kátai, János (Debreceni Egyetem, Mezőgazdaság-, Élelmiszertudományi és Környezetgazdálkodási Kar, Debrecen)
  • Lehoczky, Éva (Magyar Agrár- és Élettudományi Egyetem, Környezettudományi Intézet, Gödöllő)
  • Michéli, Erika (Magyar Agrár- és Élettudományi Egyetem, Környezettudományi Intézet, Gödöllő)
  • Rékási, Márk (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest)
  • Schmidt, Rezső (Széchenyi István Egyetem, Mezőgazdaság- és Élelmiszertudományi Kar, Mosonmagyaróvár)
  • Tamás, János (Debreceni Egyetem, Mezőgazdaság-, Élelmiszertudományi és Környezetgazdálkodási Kar, Debrecen)
  • Tóth, Gergely (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest)
  • Tóth, Tibor (Agrártudományi Kutatóközpont, Talajtani Intézet, Budapest)
  • Tóth, Zoltán (Magyar Agrár- és Élettudományi Egyetem, Georgikon Campus, Keszthely)

International Editorial Board

  • Blum, Winfried E. H. (Institute for Soil Research, University of Natural Resources and Life Sciences (BOKU), Wien, Austria)
  • Hofman, Georges (Department of Soil Management, Ghent University, Gent, Belgium)
  • Horn, Rainer (Institute of Plant Nutrition and Soil Science, Christian Albrechts University, Kiel, Germany)
  • Inubushi, Kazuyuki (Graduate School of Horticulture, Chiba University, Japan)
  • Kätterer, Thomas (Swedish University of Agricultural Sciences (SLU), Sweden)
  • Lichner, Ljubomir (Institute of Hydrology, Slovak Academy of Sciences, Bratislava, Slovak Republic)
  • Nemes, Attila (Norwegian Institute of Bioeconomy Research, Ås, Norway)
  • Pachepsky, Yakov (Environmental Microbial and Food Safety Lab USDA, Beltsville, MD, USA)
  • Simota, Catalin Cristian (The Academy of Agricultural and Forestry Sciences, Bucharest, Romania)
  • Stolte, Jannes (Norwegian Institute of Bioeconomy Research, Ås, Norway)
  • Wendroth, Ole (Department of Plant and Soil Sciences, College of Agriculture, Food and Environment, University of Kentucky, USA)

Szili-Kovács, Tibor
ATK Talajtani Intézet
Herman Ottó út 15., H-1022 Budapest, Hungary
Phone: (+36 1) 212 2265
Fax: (+36 1) 485 5217
E-mail: editorial.agrokemia@atk.hu

Indexing and Abstracting Services:

  • CAB Abstracts
  • CABELLS Journalytics
  • CABI
  • EMBiology
  • Global Health
  • SCOPUS

2022  
Web of Science  
Total Cites
WoS
not indexed
Journal Impact Factor not indexed
Rank by Impact Factor

not indexed

Impact Factor
without
Journal Self Cites
not indexed
5 Year
Impact Factor
not indexed
Journal Citation Indicator not indexed
Rank by Journal Citation Indicator

not indexed

Scimago  
Scimago
H-index
10
Scimago
Journal Rank
0.151
Scimago Quartile Score

Agronomy and Crop Science (Q4)
Soil Science (Q4)

Scopus  
Scopus
Cite Score
0.6
Scopus
CIte Score Rank
Agronomy and Crop Science 335/376 (11th PCTL)
Soil Science 134/147 (9th PCTL)
Scopus
SNIP
0.263

2021  
Web of Science  
Total Cites
WoS
not indexed
Journal Impact Factor not indexed
Rank by Impact Factor

not indexed

Impact Factor
without
Journal Self Cites
not indexed
5 Year
Impact Factor
not indexed
Journal Citation Indicator not indexed
Rank by Journal Citation Indicator

not indexed

Scimago  
Scimago
H-index
10
Scimago
Journal Rank
0,138
Scimago Quartile Score Agronomy and Crop Science (Q4)
Soil Science (Q4)
Scopus  
Scopus
Cite Score
0,8
Scopus
CIte Score Rank
Agronomy and Crop Science 290/370 (Q4)
Soil Science 118/145 (Q4)
Scopus
SNIP
0,077

2020  
Scimago
H-index
9
Scimago
Journal Rank
0,179
Scimago
Quartile Score
Agronomy and Crop Science Q4
Soil Science Q4
Scopus
Cite Score
48/73=0,7
Scopus
Cite Score Rank
Agronomy and Crop Science 278/347 (Q4)
Soil Science 108/135 (Q4)
Scopus
SNIP
0,18
Scopus
Cites
48
Scopus
Documents
6
Days from submission to acceptance 130
Days from acceptance to publication 152
Acceptance
Rate
65%

 

2019  
Scimago
H-index
9
Scimago
Journal Rank
0,204
Scimago
Quartile Score
Agronomy and Crop Science Q4
Soil Science Q4
Scopus
Cite Score
49/88=0,6
Scopus
Cite Score Rank
Agronomy and Crop Science 276/334 (Q4)
Soil Science 104/126 (Q4)
Scopus
SNIP
0,423
Scopus
Cites
96
Scopus
Documents
27
Acceptance
Rate
91%

 

Agrokémia és Talajtan
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Agrokémia és Talajtan
Language Hungarian, English
Size B5
Year of
Foundation
1951
Volumes
per Year
1
Issues
per Year
2
Founder Magyar Tudományos Akadémia  
Founder's
Address
H-1051 Budapest, Hungary, Széchenyi István tér 9.
Publisher Akadémiai Kiadó
Publisher's
Address
H-1117 Budapest, Hungary 1516 Budapest, PO Box 245.
Responsible
Publisher
Chief Executive Officer, Akadémiai Kiadó
ISSN 0002-1873 (Print)
ISSN 1588-2713 (Online)

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