View More View Less
  • 1 Department of Botany, Hungarian Natural History Museum H-1087 Budapest, Könyves K. krt. 40, Hungary
  • | 2 H-8300 Tapolca, Deák F. u. 7, Hungary
Restricted access

Purchase article

USD  $25.00

1 year subscription (Individual Only)

USD  $692.00

In order to examine the complex role of the vegetation structure determining microclimate, the authors carried out temperature and relative humidity measurements in beany fens, drying fens, semidry grasslands, hayfields, steppe grasslands, rocky grasslands and open sandy grasslands of the Transdanubian mountains. In the course of this process, measurement and data recording took place annually with four repetitions (June, July, August, September) per sampling area in identical weather conditions, resulting in altogether 162 sampling occasions in 84 sampling areas on the ground surface and at a height of 10, 20, 30 and 120 cm in the grassland. In the present paper measurement data concerning the humidity of grasslands researched to a lesser extent in previous works are assessed. The comparative study ascertains that based on the relative humidity curves depicting microclimate, the samples of the examined types of grassland should be handled as separate groups in each sampling period. A further result to be seen is that in the case of several grasslands (semidry grasslands, drying fens) aspect change can also be detected in the change of microclimate (decrease of the relative humidity). The shift in relative humidity curves towards drying can be most conspicuously seen in the case of semidry grasslands.

  • Berényi, D. and Nagy, L. (1968): Mikroklíma-megfigyelések az újszentmargitai védett erdöben és annak környezetében. (Microclimatological observations within the nature conservancy of Újszentmargita and its surroundings.) - Debreceni KLTE Met. Int. Kozl. 23: 35-43.

    'Mikroklíma-megfigyelések az újszentmargitai védett erdöben és annak környezetében. (Microclimatological observations within the nature conservancy of Újszentmargita and its surroundings.) ' () 23 Debreceni KLTE Met. Int. Kozl. : 35 -43.

    • Search Google Scholar
  • Borhidi, A. (1984): A Zselic erdei. (Forests of Zselic.) - Dunántuli Dolg. Term Tud. (Studia Pannonica series historico-naturalis)4: 1-145.

    'A Zselic erdei. (Forests of Zselic.) ' () 4 Dunántuli Dolg. Term Tud. (Studia Pannonica series historico-naturalis) : 1 -145.

    • Search Google Scholar
  • Báldi, A. (1999): Microclimate and vegetation edge effects in a reedbeed in Hungary. - Biodiv. and Cons.8: 1697-1706.

    'Microclimate and vegetation edge effects in a reedbeed in Hungary ' () 8 Biodiv. and Cons. : 1697 -1706.

    • Search Google Scholar
  • Jakucs, P. (1954): Mikroklímamérések a Tornai Karszton, tekintettel a fatömegprodukcióra és a karsztfásitásra. (Microclimatic measurements on the karst areas of the Torna karst region with regard to mass timber production and karst afforestation.) - Annls hist.- nat. Mus. natn. Hung.5: 149-173.

    'Mikroklímamérések a Tornai Karszton, tekintettel a fatömegprodukcióra és a karsztfásitásra. (Microclimatic measurements on the karst areas of the Torna karst region with regard to mass timber production and karst afforestation.) ' () 5 Annls hist.- nat. Mus. natn. Hung. : 149 -173.

    • Search Google Scholar
  • Jakucs, P. (1959): Mikroklimaverhältnisse der Flaumeichen-Buschwälder in Ungarn. - Acta Agronom. Hung.9: 209-236.

    'Mikroklimaverhältnisse der Flaumeichen-Buschwälder in Ungarn ' () 9 Acta Agronom. Hung. : 209 -236.

    • Search Google Scholar
  • Jakucs, P. (1961): Die phytozönologischen Verhältnisse der Flaumeichen-Buschwälder Südostmit-teleuropas. - Akadémiai Kiadó, Budapest, 314 pp.

    Die phytozönologischen Verhältnisse der Flaumeichen-Buschwälder Südostmit-teleuropas , () 314.

    • Search Google Scholar
  • Jakucs, P. (1967): Mikroklimatische Untersuchungen im Berührungsgebiet der mediterra-nen und submediterranen Vegetation Albaniens. - Arch. Naturschutz. und Landschaftsforsch.7: 3-30.

    'Mikroklimatische Untersuchungen im Berührungsgebiet der mediterra-nen und submediterranen Vegetation Albaniens ' () 7 Arch. Naturschutz. und Landschaftsforsch. : 3 -30.

    • Search Google Scholar
  • Jakucs, P. (1968a): A new representation method for the daily course of microclimates (complex microclimate diagram). - Acat Bot. Acad. Sci. Hung.14(1-2): 59-61.

    'A new representation method for the daily course of microclimates (complex microclimate diagram) ' () 14 Acat Bot. Acad. Sci. Hung. : 59 -61.

    • Search Google Scholar
  • Jakucs, P. (1968b): Comparative and statistical investigations on some microclimatic elements of the biospaces of forests, shrub stands, woodland margins and open swards. - Acta Bot. Acad. Sci. Hung.14(3-4): 281-314.

    'Comparative and statistical investigations on some microclimatic elements of the biospaces of forests, shrub stands, woodland margins and open swards ' () 14 Acta Bot. Acad. Sci. Hung. : 281 -314.

    • Search Google Scholar
  • Jakucs, P. (1972): Dynamische Verbindung der Wälder und Rasen. Quantitative und qualitative Untersuchungen über die synökologischen, phytozönologischen und strukturellen Verhältnisse der Waldsäume. - Akadémiai Kiado, Budapest, 228 pp.

    Dynamische Verbindung der Wälder und Rasen. Quantitative und qualitative Untersuchungen über die synökologischen, phytozönologischen und strukturellen Verhältnisse der Waldsäume , () 228.

    • Search Google Scholar
  • Jakucs, P., Marosi, S. and Szilárd, J. (1967): Mikroklímamérések és komplex természeti földrajzi típusvizsgálatok a belső-somogyi futóhomokon. (Microclimatic measurements and complex natural geographical type-investigations on shifting sand areas in the interior of Comitat Somogy.) - Földr. Ert.16: 161-186.

    'Mikroklímamérések és komplex természeti földrajzi típusvizsgálatok a belső-somogyi futóhomokon. (Microclimatic measurements and complex natural geographical type-investigations on shifting sand areas in the interior of Comitat Somogy.) ' () 16 Földr. Ert. : 161 -186.

    • Search Google Scholar
  • Joern, A. (1982): Vegetation structure and microhabitat selection in grasshoppers (Ortho-ptera: Acrididae). - Southwest Nat.27: 197-209.

    'Vegetation structure and microhabitat selection in grasshoppers (Ortho-ptera: Acrididae) ' () 27 Southwest Nat. : 197 -209.

    • Search Google Scholar
  • Jakucs, P., Marosi, S. and Szilárd, J. (1968): Microclimatological investigations within the scope of complex physiographic landscape research in Hungary. - Studies in Geography in Hungary 5, Akadémiai Kiado, Budapest.

    Microclimatological investigations within the scope of complex physiographic landscape research in Hungary , ().

    • Search Google Scholar
  • Kenyeres, Z., Bauer, N. and Kisbenedek, T. (2004): Seasonal changes of the orthopteran assemblages relation to microclimatic conditions. - BfNPI, Veszprém, mscr.

    Seasonal changes of the orthopteran assemblages relation to microclimatic conditions , ().

    • Search Google Scholar
  • Kovács, M. (1958): Magyarország láprétjeinek ökológiai viszonyai (talaj- és mikroklíma-viszonyok). (Ecological relations (soil and microclimate) of the Hungarian beany fens.) - MTA Biol. Csop. Közl.1: 287-454.

    'Magyarország láprétjeinek ökológiai viszonyai (talaj- és mikroklíma-viszonyok). (Ecological relations (soil and microclimate) of the Hungarian beany fens.) ' () 1 MTA Biol. Csop. Közl. : 287 -454.

    • Search Google Scholar
  • Kovács, M. (1962): Die Moorviesen Ungarns. - Akadémiai Kiadó, Budapest, 214 pp.

    Die Moorviesen Ungarns , () 214.

  • Kovács, M. (1966): Die Wirkung der geomorphologischen (expositionsbedingten), mikro-klimatischen und Bodenfaktoren auf die Entwicklung des Standortes der azidophilen Wälder im Mátra-Gebirge. - Acta Bot.12: 293-324.

    'Die Wirkung der geomorphologischen (expositionsbedingten), mikro-klimatischen und Bodenfaktoren auf die Entwicklung des Standortes der azidophilen Wälder im Mátra-Gebirge ' () 12 Acta Bot. : 293 -324.

    • Search Google Scholar
  • Marchand, H. (1953): Die Bedeutung der Heuschrecken und Schnabelkerfe als Indikatoren verschiedener Graslandtypen. - Beitr. Entom.3: 116-162.

    'Die Bedeutung der Heuschrecken und Schnabelkerfe als Indikatoren verschiedener Graslandtypen ' () 3 Beitr. Entom. : 116 -162.

    • Search Google Scholar
  • Marsh, A. C. (1985): Microclimatic factors influencing foraging patterns and success of the thermophilic desert ant, Ocymyrex barbiger. - Insects Sociaux32: 286-296.

    'Microclimatic factors influencing foraging patterns and success of the thermophilic desert ant, Ocymyrex barbiger ' () 32 Insects Sociaux : 286 -296.

    • Search Google Scholar
  • Matlack, G. R. (1993): Microenvironment variation within and among forest edge sites in the Eastern United States. - Biol. Conserv.66: 185-194.

    'Microenvironment variation within and among forest edge sites in the Eastern United States ' () 66 Biol. Conserv. : 185 -194.

    • Search Google Scholar
  • Matus, G. and Tóthmérész, B. (1994): Correlation of indicator values with climatic and soil data in a ruderal succession. - Abstrada Botanica18(1): 7.

    'Correlation of indicator values with climatic and soil data in a ruderal succession ' () 18 Abstrada Botanica. : 7.

    • Search Google Scholar
  • Nagy, B. (1944): A Hortobágy sáska-és szöcskevilága I. (Die Heuschreckenwelt der Puszta Hortobágy I.) - Acta Sci. Math. Nat.26: 3-61.

    'A Hortobágy sáska-és szöcskevilága I. (Die Heuschreckenwelt der Puszta Hortobágy I.) ' () 26 Acta Sci. Math. Nat. : 3 -61.

    • Search Google Scholar
  • Nachabe, M., Shah, N., Ross, M. and Vomacka, J. (2004): Evapotranspiration of two vegetation covers in a shallow water table environment. - Agron. J.96: 384-390.

    'Evapotranspiration of two vegetation covers in a shallow water table environment ' () 96 Agron. J. : 384 -390.

    • Search Google Scholar
  • Précsényi, I. (1956): Mikroklíma-mérések a gödöllői Szárító-puszta legelőjen. (Microclimatic measurements on Száríto-puszta's pasture of Gödöllő.) - Bot. Közlem.46(3-4): 267-274.

    'Mikroklíma-mérések a gödöllői Szárító-puszta legelőjen. (Microclimatic measurements on Száríto-puszta's pasture of Gödöllő.) ' () 46 Bot. Közlem. : 267 -274.

    • Search Google Scholar
  • Rácz, I. (1998): Biogeographical survey of the Orthoptera Fauna in Central Part of the Carpathian Basin (Hungary): Fauna types and community types. - Articulata13(1): 53-69.

    'Biogeographical survey of the Orthoptera Fauna in Central Part of the Carpathian Basin (Hungary): Fauna types and community types ' () 13 Articulata. : 53 -69.

    • Search Google Scholar
  • Rees, C. J. C. (1983): Microclimate and the flying Hemiptera fauna of a primary lowland rain forest in Sulawesi. - Special Publ. Br. Ecol. Soc.2: 121-136.

    'Microclimate and the flying Hemiptera fauna of a primary lowland rain forest in Sulawesi ' () 2 Special Publ. Br. Ecol. Soc. : 121 -136.

    • Search Google Scholar
  • Röber, H. (1949): Insekten als Indikatoren des Mikroklimas. - Naturw. Rdsch.2: 496-499.

    'Insekten als Indikatoren des Mikroklimas ' () 2 Naturw. Rdsch. : 496 -499.

  • Samways, M. J. (1990): Landforms and winter habitat refugia in the conservation of montane grasshoppers in southern Africa. - Cons. Bid.4: 375-382.

    'Landforms and winter habitat refugia in the conservation of montane grasshoppers in southern Africa ' () 4 Cons. Bid. : 375 -382.

    • Search Google Scholar
  • Schoonhoven, L. M., Jermy, T. and van Loon, J. J. A. (1998): Insect-plant biology, from physiology to evolution. - Chapman and Hall, London, 405 pp.

    Insect-plant biology, from physiology to evolution , () 405.

  • Schubert, J. (1917): Niederschlag, Verdunstung, Bodenfeuchtigkeit, Schneedecke in Walbe-ständen und im Freien. - Met. Zeitschr.34: 145-153.

    'Niederschlag, Verdunstung, Bodenfeuchtigkeit, Schneedecke in Walbe-ständen und im Freien ' () 34 Met. Zeitschr. : 145 -153.

    • Search Google Scholar
  • Sennikov, A. P. (1953): A növények ökológiája. (Ecology of plants.) - Akadémiai Kiadó, Budapest, 456 pp.

    A növények ökológiája , () 456.

  • Suleiman, A. and Crago, R. (2003): Hourly and daytime evapotranspiration from grassland using radiometric surface temperatures. - Agron. J.95: 1504-1509.

    'Hourly and daytime evapotranspiration from grassland using radiometric surface temperatures ' () 95 Agron. J. : 1504 -1509.

    • Search Google Scholar
  • Shapiro, A. M. and Shapiro, A. R. (1973): The ecological associations of the butterflies of Staten Islands. - J. Res. Lepidoptera12(2): 65-128.

    'The ecological associations of the butterflies of Staten Islands ' () 12 J. Res. Lepidoptera. : 65 -128.

    • Search Google Scholar
  • Smith, D. L. and Johnson, L. (2004): Vegetation-mediated changes in microclimate reduce soil respiration as woodlands expand into grasslands. - Ecology85(12): 3348-3361.

    'Vegetation-mediated changes in microclimate reduce soil respiration as woodlands expand into grasslands ' () 85 Ecology. : 3348 -3361.

    • Search Google Scholar
  • Stollar, A. and Zsoldos, I. (1985): A talaj és a levegő hőmérséklete különböző expozíciójú lejtőkön. (Soil and air temperature on slopes with different exposition.) - Időjárás89(5): 300-308.

    'A talaj és a levegő hőmérséklete különböző expozíciójú lejtőkön. (Soil and air temperature on slopes with different exposition.) ' () 89 Időjárás : 300 -308.

    • Search Google Scholar
  • Száva-Kováts, J. and Berényi, D. (1948): A talajmenti légréteg éghajlata. (Climate of layer of air near the soil surface.) - Országos Meteorológiai és Földmágnességi Intézet, Budapest.

    A talajmenti légréteg éghajlata , ().

  • van Tooren, B. P., During, H. J. and Lensink, M. J. G. (1985): The influence of the bryophyte layer on the microclimate in chalk grasslands. - Abstracta Botanica9(2): 219.

    'The influence of the bryophyte layer on the microclimate in chalk grasslands ' () 9 Abstracta Botanica. : 219.

    • Search Google Scholar
  • Varga, Z. (1989): Die Waldsteppen des pannonischen Raumes aus biogeographischer Sicht. - Düsseldorfer Geobot. Kolloq.6: 35-50.

    'Die Waldsteppen des pannonischen Raumes aus biogeographischer Sicht ' () 6 Düsseldorfer Geobot. Kolloq. : 35 -50.

    • Search Google Scholar
  • Varga, Z. (1997): Trockenrasen im pannonischen Raum: Zusammenhang der physiognomischen Struktur und der floristischen Komposition mit den Insektenzönosen. - Phytocoenologia27(4): 509-571.

    'Trockenrasen im pannonischen Raum: Zusammenhang der physiognomischen Struktur und der floristischen Komposition mit den Insektenzönosen ' () 27 Phytocoenologia. : 509 -571.

    • Search Google Scholar
  • Vinczeffy, I. (1965a): Changes in sward types as influenced by chemical fertilizer applications. - Acta Agr. Hung.14: 289-300.

    'Changes in sward types as influenced by chemical fertilizer applications ' () 14 Acta Agr. Hung. : 289 -300.

    • Search Google Scholar
  • Vinczeffy, I. (1965b): Változások a gyepek hidrológiai szerkezetében. (Changes on the hydrological structure of grasslands.) - Agrobotanika7(1): 49-64.

    'Változások a gyepek hidrológiai szerkezetében. (Changes on the hydrological structure of grasslands.) ' () 7 Agrobotanika : 49 -64.

    • Search Google Scholar
  • Wingerden, W. K. R. E., Kreveld, A. R. and Bongers, W. (1992): Analysis of species composition and abundance of grasshoppers (Orth., Acrididae) in natural and fertilized grasslands. - J. Appl. Ent.113: 138-152.

    'Analysis of species composition and abundance of grasshoppers (Orth., Acrididae) in natural and fertilized grasslands ' () 113 J. Appl. Ent. : 138 -152.

    • Search Google Scholar
  • Zólyomi, B. (1987): Coenoton, ecotone and their role in preserving relic species. - Acta Bot. Hung.33: 3-18.

    'Coenoton, ecotone and their role in preserving relic species ' () 33 Acta Bot. Hung. : 3 -18.

    • Search Google Scholar
  • Borhidi, A. (1996): Critical revision of the Hungarian plant communities. - Janus Pannonius Universiy, Pécs, 138 pp.

    Critical revision of the Hungarian plant communities , () 138.

  • Borhidi, A. (2003): Magyarország növénytársulásai. (Plant associations of Hungary.) - Akadémiai Kiadó, Budapest, 610 pp.

    Magyarország növénytársulásai , () 610.

  • Cox, C. B. and Moore, P. D. (1980): Biogeography, an ecological and evolutionary approach. - Blackwell, Oxford, 733 pp.

    Biogeography, an ecological and evolutionary approach , () 733.

  • Boros, J. and Bárány, I. (1975): Néhány adat egy bükki töbör keleti és nyugati lejtőjének felmelegedésére. (Some datas to warming up of eastern and western slopes of one doline in Bükk Mountains.) - Időjárás79: 297-300.

    'Néhány adat egy bükki töbör keleti és nyugati lejtőjének felmelegedésére. (Some datas to warming up of eastern and western slopes of one doline in Bükk Mountains.) ' () 79 Időjárás : 297 -300.

    • Search Google Scholar
  • Braun-Blanquet, J. (1928): Pflanzensoziologie Grundzüge der Vegetationskunde. - Biologische Studienbücher, Verlag von Julius Springer, Berlin, pp. 71-135.

    Pflanzensoziologie Grundzüge der Vegetationskunde , () 71 -135.

  • Braun-Blanquet, J. (1951): Pflanzensoziologie. II. Aufl. - Springer, Wien, pp. 141-142, 146,290.

    Pflanzensoziologie. II. Aufl , () 141 -142.

  • Buxton, P. A. (1932): Terrestrial insects and the humidity of the environment. - Biol. Rev.7: 275-319.

    'Terrestrial insects and the humidity of the environment ' () 7 Biol. Rev. : 275 -319.

  • Cloudsley-Thompson, J. L. (1962): Microclimates and the distribution of terrestrial arthropods. - Ann. Rev. Entomol.7: 199-222.

    'Microclimates and the distribution of terrestrial arthropods ' () 7 Ann. Rev. Entomol. : 199 -222.

    • Search Google Scholar
  • Chen, J., Franklin, J. F. and Spies, T. A. (1995): Growing-season microclimate gradients from clearcut edges into old-growth douglas-fir forests. - Ecol. Applications5: 74-86.

    'Growing-season microclimate gradients from clearcut edges into old-growth douglas-fir forests ' () 5 Ecol. Applications : 74 -86.

    • Search Google Scholar
  • Coxwell, C. C. and Bock, C. E. (1995): Spatial variation in diurnal surface temperatures and the distribution and abundance of an alpine grasshoppers. - Oecologia104: 433-439.

    'Spatial variation in diurnal surface temperatures and the distribution and abundance of an alpine grasshoppers ' () 104 Oecologia : 433 -439.

    • Search Google Scholar
  • Endrődi, G. (1961): A domborzat hatása a hőmérséklet alakulására a Tihanyi-félszigeten. (Effects of the terrain to temperature in the Tihany Peninsula.) - Időjárás65: 105-110.

    'A domborzat hatása a hőmérséklet alakulására a Tihanyi-félszigeten. (Effects of the terrain to temperature in the Tihany Peninsula.) ' () 65 Időjárás : 105 -110.

    • Search Google Scholar
  • Jakovlev, V. (1957): Wasserdampfabgabe der Acrididen und Mikroklima ihrer Biotope. - Zool. Anz. Suppl.20: 136-142.

    'Wasserdampfabgabe der Acrididen und Mikroklima ihrer Biotope ' () 20 Zool. Anz. Suppl. : 136 -142.

    • Search Google Scholar
  • Jakovlev, V. (1959): Mikroklimatische Untersuchungen in einigen Acrididenbiotopen. - Zeitschr. Morph. Ökol. Tiere48: 89-101.

    'Mikroklimatische Untersuchungen in einigen Acrididenbiotopen ' () 48 Zeitschr. Morph. Ökol. Tiere : 89 -101.

    • Search Google Scholar
  • Fekete, G., Virágh, K., Aszalós, R. and Précsényi, I. (2000): Static and dynamic approaches to landscape heterogenity in the Hungarian forest-steppe zone. - J. Veg. Sci.11: 375-382.

    'Static and dynamic approaches to landscape heterogenity in the Hungarian forest-steppe zone ' () 11 J. Veg. Sci. : 375 -382.

    • Search Google Scholar
  • Filzer, P. (1936): Untersuchungen über das Mikroklima in niederwüchsigen Pflanzengesell-schaften. - Beih., Bot. Centralbl., Abtl. B., 55: 301-346.

    'Untersuchungen über das Mikroklima in niederwüchsigen Pflanzengesell-schaften ' () 55 Beih., Bot. Centralbl., Abtl. B. : 301 -346.

    • Search Google Scholar
  • Forsman, A. (2001): Some like it hot: intra-population variation in the behavioral thermo-regulation in color-polymorphic pygmy grasshoppers. - Evol. Ecol.14: 25-38.

    'Some like it hot: intra-population variation in the behavioral thermo-regulation in color-polymorphic pygmy grasshoppers ' () 14 Evol. Ecol. : 25 -38.

    • Search Google Scholar
  • Frank, A. B. (2002): Evapotranspiration from Northern Semiarid Grasslands. - Global Change Biology8(7): 599.

    'Evapotranspiration from Northern Semiarid Grasslands ' () 8 Global Change Biology. : 599.

    • Search Google Scholar
  • Franz, H. (1933): Aus Wirkungen des Mikroklimas auf die Verbreitung mitteleuropäischer xerophiler Orthopteren. - Zoogeographies1: 449-565.

    'Aus Wirkungen des Mikroklimas auf die Verbreitung mitteleuropäischer xerophiler Orthopteren ' () 1 Zoogeographies : 449 -565.

    • Search Google Scholar
  • Gehlhausen, S. M., Schwartz, M. W. and Augspurger, C. K. (2000): Vegetation and microclimatic edge effects in two mixed mesophytic forest fragments. - Plant Ecol.147(1): 21-35.

    'Vegetation and microclimatic edge effects in two mixed mesophytic forest fragments ' () 147 Plant Ecol. : 21 -35.

    • Search Google Scholar
  • Geiger, R. (1936): Weitere Bemerkungen zum Kleinklima am Bestandsrand. - Fortwiss. Centralbl58: 262-266.

    'Weitere Bemerkungen zum Kleinklima am Bestandsrand ' () 58 Fortwiss. Centralbl : 262 -266.

    • Search Google Scholar
  • Geiger, R. (1961): Das Klima der bodennahen Luftschicht. IV. Aufl. - Braunschweig, Die Wissensch., 75 pp.

    Das Klima der bodennahen Luftschicht. IV. Aufl , () 75.

  • Harz, K. (1957): Die Geradflügler Mitteleuropas. - VEB Gustav Fischer Verlag, Jena, 494pp.

    Die Geradflügler Mitteleuropas , () 494.

  • Horánszky, A. (1957): Mikroklima-messungen am Szentmihály-berg bei Nagymaros (Ungarn). - Ann. Univ. Sci. Bp. de Rol. Eötvös, Sect. Biol.1: 89-131.

    'Mikroklima-messungen am Szentmihály-berg bei Nagymaros (Ungarn) ' () 1 Ann. Univ. Sci. Bp. de Rol. Eötvös, Sect. Biol. : 89 -131.

    • Search Google Scholar
  • Goetz, S. J., Prince, S. D. and Small, J. (2000): Advances in satellite remote sensing of environmental variables for epidemiological applications. - Advances in parasitology47: 289-307.

    'Advances in satellite remote sensing of environmental variables for epidemiological applications ' () 47 Advances in parasitology : 289 -307.

    • Search Google Scholar
  • Hadley, N. F., Knisley, C. B., Schultz, T. D. and Pearson, D. L. (1990): Water relations of tiger beetle larvae (Cicindela marutha) correlations with habitat microclimate and burrowing activity. - J. Arid Environ.19: 189-197.

    'Water relations of tiger beetle larvae (Cicindela marutha) correlations with habitat microclimate and burrowing activity ' () 19 J. Arid Environ. : 189 -197.

    • Search Google Scholar
  • Ingrisch, S. and Köhler, G. (1998): Die Heuschrecken Mitteleuropas. - Die Neue Brehm Bücherei, Westarp Wissenschaften, Magdeburg, Bd. 629, 460 pp.

    Die Heuschrecken Mitteleuropas , () 460.

  • Isely, F. B. (1937): Seasonal succession, soil relations, numbers, and regional distribution of northeastern Texas acridians. - Ecol. Monogr.7: 318-344.

    'Seasonal succession, soil relations, numbers, and regional distribution of northeastern Texas acridians ' () 7 Ecol. Monogr. : 318 -344.

    • Search Google Scholar
  • Hargitai, Z. (1942): Nagykőros élővilaga III. Mikroklima vizsgálatok a nagykőrösi nagyer-dőben. (Die Vegetation von Nagykőros III. Mikroklimatische Untersuchungen im Walde Nagyerdő von Nagykőros. - Acta geobot. hung.4(2): 197-240.

    'Nagykőros élővilaga III. Mikroklima vizsgálatok a nagykőrösi nagyer-dőben. (Die Vegetation von Nagykőros III. Mikroklimatische Untersuchungen im Walde Nagyerdő von Nagykőros ' () 4 Acta geobot. hung. : 197 -240.

    • Search Google Scholar
  • Horvát, A. O. and Papp, L. (1965): A nagyharsanyi Szársomlyón végzett mikroklímamé-rések eredményei. (Results of microclimatic measurements on Sźarsomlyó Hill of Nagyharsány.) - A Janus Pannonius Múzeum Évkönyve9: 43-55.

    'A nagyharsanyi Szársomlyón végzett mikroklímamé-rések eredményei. (Results of microclimatic measurements on Sźarsomlyó Hill of Nagyharsány.) ' () 9 A Janus Pannonius Múzeum Évkönyve : 43 -55.

    • Search Google Scholar
  • Horváth, I., Précsényi, I. and Fehér, V. I. (1963): Verwendung mathematisch-statistischer Methoden in der Abgrenzung von Mikroklimaräumen. - Acta Climat.2-3: 3-12.

    'Verwendung mathematisch-statistischer Methoden in der Abgrenzung von Mikroklimaräumen ' () 2-3 Acta Climat. : 3 -12.

    • Search Google Scholar
  • Joosse, E. N. G. and Verhoef, H. A. (1987): Developments in ecophysiological research on soil invertebrates. - Adv. Ecol. Res.16: 175-248.

    'Developments in ecophysiological research on soil invertebrates ' () 16 Adv. Ecol. Res. : 175 -248.

    • Search Google Scholar

 

The author instruction is available in PDF.
Please, download the file from HERE.

 

 

 

Senior editors

Managing Editors

  • László LŐKÖS
  • László PEREGOVITS

Editorial Board

  • Gy. BORBÉLY (Debrecen)
  • A. ČARNY (Ljubljana)
  • A. CSERGŐ (Dublin)
  • B. CZÚCZ (Paris)
  • M. HÖHN (Budapest)
  • K. T. KISS (Budapest)
  • A. KUZEMKO (Uman)
  • Z. LOSOSOVÁ (Brno)
  • I. MÁTHÉ (Szeged)
  • E. MIHALIK (Szeged)
  • S. ORBÁN (Eger)
  • R. PÁL (Butte)
  • Gy. PINKE (Mosonmagyaróvár)
  • T. PÓCS (Eger)
  • K. PRACH (České Budejovice)
  • E. S. RAUSCHERT (Cleveland)
  • E. RUPRECHT (Cluj Napoca)
  • G. SRAMKÓ (Debrecen)
  • A. T. SZABÓ (Veszprém)
  • É. SZŐKE (Budapest)
  • B. TOKARSKA-GUZIK (Katowice)
  • B. TÓTHMÉRÉSZ (Debrecen)
  • P. TÖRÖK (Debrecen)

Botta-Dukát, Zoltán
E-mail: botta-dukat.zoltan@okologia.mta.hu

or

Lőkös, László
E-mail: acta@bot.nhmus.hu
Institute: Botanical Department, Hungarian Natural History Museum
Address: Könyves K. krt. 40. H-1097 Budapest, Hungary

Indexing and Abstracting Services:

  • Biological Abstracts
  • BIOSIS Previews
  • CAB Abstracts
  • Chemical Abstracts
  • Global Health
  • Referativnyi Zhurnal

 

2020  
Scimago
H-index
19
Scimago
Journal Rank
0,417
Scimago
Quartile Score
Plant Science Q2
Ecology, Evolution, Behavior and Systematics Q3
Scopus
Cite Score
155/89=1,7
Scopus
Cite Score Rank
Plant Science 221/445 (Q2)
Ecology, Evolution, Behavior and Systematics 374/647 (Q3)
Scopus
SNIP
0,838
Scopus
Cites
260
Scopus
Documents
22
Days from submission to acceptance 127
Days from acceptance to publication 132
Acceptance
Rate
36%

 

2019  
Scimago
H-index
17
Scimago
Journal Rank
0,404
Scimago
Quartile Score
Plant Science Q2
Ecology, Evolution, Behavior and Systematics Q3
Scopus
Cite Score
164/91=1,8
Scopus
Cite Score Rank
Plant Science 209/431 (Q2)
Ecology, Evolution, Behavior and Systematics 358/629 (Q3)
Scopus
SNIP
0,699
Scopus
Cites
215
Scopus
Documents
23
Acceptance
Rate
30%

 

Acta Botanica Hungarica
Publication Model Hybrid
Submission Fee none
Article Processing Charge 900EUR/article
Printed Color Illustrations 40 EUR (or 10 000 HUF) + VAT / piece
Regional discounts on country of the funding agency World Bank Lower-middle-income economies: 50%
World Bank Low-income economies: 100%
Further Discounts Editorial Board / Advisory Board members: 50%
Corresponding authors, affiliated to an EISZ member institution subscribing to the journal package of Akadémiai Kiadó: 100%
Subscription Information Online subsscription: 580 EUR / 724 USD
Print + online subscription: 660 EUR / 824 USD
Online subscribers are entitled access to all back issues published by Akadémiai Kiadó for each title for the duration of the subscription, as well as Online First content for the subscribed content.
Purchase per Title Individual articles are sold on the displayed price.

Acta Botanica Hungarica
Language English
French
German
Russian
Spanish
Size B5
Year of
Foundation
1954
Publication
Programme
2021 Volume 63
Volumes
per Year
1
Issues
per Year
4
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 0236-6495 (Print)
ISSN 1588-2578 (Online)

 

Monthly Content Usage

Abstract Views Full Text Views PDF Downloads
Feb 2021 1 0 0
Mar 2021 0 0 0
Apr 2021 2 0 0
May 2021 11 0 0
Jun 2021 6 0 0
Jul 2021 2 0 0
Aug 2021 0 0 0