Abstract
In 2001–2006, ground beetles were pitfall-trapped in a temperate lowland area of South Slovakia in an experimental field divided in five plots fertilized by four different doses of manure or biosludge (25 t stable manure ha−1, 50 t biosludge ha−1, 50 t stable manure ha−1, 100 t biosludge ha−1 and without fertilization). The field was subsequently sown by spring barley, sugar beat, maize, sunflower, sugar beat and maize. The ground beetle assemblage consisted of 31 species, but only five species predominated: Pseudoophonus rufipes representing 82.6% of individuals and five species (Poecilus cupreus, Carabus scheidleri, Calathus fuscipes, Trechus quadristriatus, Pterostichus melanarius, Anchomenus dorsalis, Dolichus halensis) representing together 14.5% of individuals. Pseudophonus rufipes represented 81.7% of dry biomass and three species (Carabus scheidleri, Poecilus cupreus Pterostichus melanarius) 15.9% of biomass. There was no significant influence of organic fertilizing on assemblage structure. During the investigation, the number of individuals and their biomass increased in all plots until 2003 and than dropped to the starting values. The culmination of 2003 was preceded by a warmer and more humid season in 2002. After a cold and dry season of 2003 abundance decreased approximately to starting values. Simultaneously, the local maxima and minima of occurrence of ground beetles in individual plots shifted independently on the doses of organic material. At the same time, number of occurring species slightly decreased. The observed changes obviously represent part of long-termed fluctuations in wider surroundings.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Andersen A. 1999a. Carabidae and Staphylinidae (Coleoptera) frequently found in Norwegian agriculture fields. New data and review. Fauna Norv. Ser. B. 38: 65–76.
Andersen A. 1999b. Plant protection in spring cereal production with reduced tillage. Pests and beneficial insects. Crop Protection 18: 651–657.
Andersen A. & Eltun R. 2000. Long-term developments in carabid and staphilinid (Coleoptera) fauna during conversion from convetional to biological farming. J. Appl. Entomol. 124: 51–56.
Basedow T., Borg A., de Clerq R., Nijveldt W. & Scherney F. 1976. Untersuchungen über das Vorkommen der Laukäfer (Col. Carabidae) auf europäischen Getreidefeldern. Entomophaga 21: 59–77.
Boháč J. & Pospíšil J. 1984. Zuzhelitsy (Coleoptera, Carabidae) i stafilinidy (Coleoptera, Staphylinidae) pshenichnogo i kukuruznogo poleĭ vo vzaimosvyazi s okruzhayushchimi biotopami. Ekologiya 7: 22–34.
Burmeister F. 1939. Biologie, Ökologie und Verbreitung der europäischen Käfer aus systematischer Grundlage. I. Band; Adephaga, I. Familiengruppe: Caraboidea. Krefeld, 307 pp.
Chlpík J. & Pospíšil R. 2004. Area characterization of the mechanical and chemical characteristics of the soil at the research — experimental station of the Slovak University of Agriculture in Nitra, location Kolíňany. Acta Fytotechnica and Zootechnica 7: 6–10.
Clark M.S., Gage S.H. & Spence J.H. 1997. Habitats and management associated with common ground beetles (Coleoptera: Carabidae) in a Michigan agricultural landscape. Environ. Entomol. 26: 519–527.
Ericson D. 1978. Distribution, activity and density of some Carabidae (Coleoptera) in winter wheat fields. Pedobiologia 18: 202–217.
Fadl A., Purvis G. & Towey K. 1996. The effect of time of soil cultivation on the incidence of Pterostichus melanarius, Illig. (Coleoptera: Carabidae) in arable land in Ireland. Ann. Zool. Fenn. 33: 207–214.
Gruttke H. 1991. Characteristics of the Carabid fauna (Coleoptera) of small hedge-and woodland habitats within arable land, pp. 303–309. In: Proceedings of the 4th/XIII. SIIEC, Gödöllő.
Hengenveld R. 1979. The spatial analysis of patterns of some ground beetles (Col. Carabidae), pp. 333–346. In: Cormak R.M. & Ord J.K. (eds), Spatial and Temporal Analysis in Ecology National Co-operative Publishing House, Maryland.
Honěk A. 1997. The effect of temperature on the activity of Carabidae (Coleoptera) in a fallow field. Eur. J. Entomol. 94: 97–104.
Hůrka K. 1996. Carabidae of the Czech and Slovak Republics. Kabourek, Zlín, 565 pp.
Irmler U. 2003. The spatial and temporal pattern of carabid beetles on arable fields in Norther Germany (Schleswig-Holstein) and their value as ecological indicators. Agric. Ecosyst. Environ. 98: 141–151. DOI 10.1016/S0167-8809(03)00076-8
Jarošík V. 1983. A comparison of the diversity of Carabid beetles (Col., Carabidae) of two floodplain forests differentially affected by emissions. Věst. Čs. Spol. Zool. 47: 215–220.
Kabacik-Wasylik D. 1986. Communities of Carabidae in crop fields with liquid manure treatment. Pol. Ecol. Stud. 12: 211–219.
Kádár F. & Szentkirályi F. 1997. Effect of climatic variations on long-term fluctuation pattern of ground beetles (Coleoptera, Carabidae) collected by light trapping in Hungary. Acta Phytopathol. Entomol. Hung. 32: 185–203.
Krejčová P., Bezděk I. & Hartman I. 2000. Species diversity of Carabidae (Coleoptera) in different agricultural production districts. Acta Univ. Agr. Silv. Mend. Brun. 48: 77–84.
Kromp B. 1989. Carabid beetle communities (Carabide, Coleoptera) in biologically and conventionally farmed agroecosystems. Agric. Ecosyst. Environ. 27: 241–251.
Kromp B. 1990. Carabid beetles (Coleoptera, Carabidae) as bioindicators of biological and conventional farming in Austrian potato fields. Biol. Fertil. Soils 9: 182–187. DOI 10.1016/S0167-8809(03)00077-X
Kromp B. & Steinberger K.H. 1992. Grassy field margins and arthropod diversity: a case study on ground beetles and spiders in eastern Austria (Coleoptera: Carabidae; Arachnida: Aranei, Opiliones). Agric. Ecosyst. Environ. 40: 71–93.
Larsson S. G. 1939. Entwicklungstypen und Entwicklungszeiten der dänischen Carabidae. Entomol. Medd. 20: 277–560.
Lindroth C.H. 1949. Die Fennoskandischen Carabidae. I. Spezieller Teil. Wettergren & Kerbers Förlag, Göteborg, 710 pp.
Lővei G. 1984. Ground beetles (Coleoptera, Carabidae) in two types of maize fields in Hungary. Pedobiologia 26: 57–63.
Lővei G. & Sárospataki M. 1990. Carabid beetles in agricultural fields in Eastern Europe. pp. 353–357. In: Stork N.E. (ed.), The Role of Ground Beetles in Ecological and Environmental Studies, Intercep, Andover — Hampshire.
Lővei G.L., Toft S. & Axelsen J.A. 2005. Composition and diversity of spring-active carabid beetle assemblages in relation to soil management in organic wheat fields in Denmark, pp. 173–182. In: European Carabidology 2003, Proceedings of the 11th European Carabidologists’ Meeting, Århus, July 2003, DIAS Reports.
Novák B. 1972. Saisondynamik der tageszeitlichen Aktivität bei Carabiden in einem Feldbiotop. Acta Univ. Palack. Olomuc. Fac. Rer. Nat. 39: 59–104.
Obrtel R. 1969. The insect fauna of the herbage stratum of lucerne fields in southern Moravia (Czechoslovakia). Acta Sci. Nat. Brno 3(10): 1–49.
Pauer R. 1975. Zur Ausbreitung der Carabiden in der Agrarlandschaft unter besonderer Berücksichtigung der Grenzbereiche verschiedener Feldkulturen. Z. Angew. Zool. 62: 458–489.
Pavuk D.M., Purrington F.F., Williams C.E. & Stinner B.R. 1997 Ground beetle (Coleoptera) activity density and community composition in vegetationally diverse corn agroecosystems. Am. Midl. Nat. 138: 14–28.
Petruška F. 1966. Střevlíkovití a mršníkovití jako součást entomocenóz řepných polí Hornomoravského úvalu (Col. Carabidae et Histeridae). PhD. Thesis. Department of Zoology and Anthropology, Palacký University Olomouc, Olomouc, 297 pp.
Petruška F. 1971. Vliv pěstované plodiny na vývoj populací polních střevlíkovitých. Acta Univ. Palack. Olomouc. Fac. Rer. Nat. 34: 151–191.
Petruška F. 1986. —Fluktuace v populacích střevlíkovitých v agroekosystémoch Uničovské roviny v letech 1981 až 1984. I. část. Acta Univ. Palack. Olomouc. Fac. Rer. Nat. 87, Biol. 26: 119–142.
Petruška F. 1987. —Fluktuace v populacích střevlíkovitých v agroekosystémoch Uničovské roviny v letech 1981 až 1984. II. část. Acta Univ. Palack. Olomouc. Fac. Rer. Nat. 90, Biol. 27: 167–190.
Petruška F. 1988. Fluktuace v populacích střevlíkovitých v agroekosystémoch Uničovské roviny v letech 1981 až 1984. III. část. Acta Univ. Palack. Olomouc. Fac. Rer. Nat. 93, Biol. 28: 147–161.
Petřvalský V. & Porhajašová J. 2002. Occurrence of selected epigeic population related to homoestatic ability of agroecosystems. Agriculture 48: 324–328.
Porhajašová J. 2002. Evaluation of agroecosystems of homeostatic ability following selected soil organisms. PhD. Thesis. Agriculture University Nitra, Nitra, 98 pp.
Purvis G. & Curry J.P. 1984. The influence of weeds and farm-yard manure on the activity of Carabidae and other ground-dwelling Arthropods in a sugar beet crop. J. Appl. Ecol. 21: 271–283.
Raworth D.A., Robertson M.C. & Bittman S. 2004. Effects of dairy slurry application on carabid beetles in tall fescue, Britis Colombia. Agric. Ecosyst. Environ. 103: 527–534.
Repa Š. & Šiška B. 2002. Climatic characteristics in the year 2001 on locality. SPU, Nitra, 30 pp.
Repa Š. & Šiška B. 2004. Climatic characteristics in the year 2001 on locality SPU, Nitra, 24 pp.
Sekulić R., Horvatovich S. & Šileš I. 1973. Prilog proučuvanju faune fam. Carabidae na poljima pod pšenicom u okolini Osijeka. Zbornik za Prirodne Nauke 44: 85–90.
Sharova I.C. 1981. Zhiznenye formy zuzhelits (Coleoptera, Carabidae). Nauka, Moskva, 359 pp.
Sharova I.C. 1983. Zonal’nye zakonomernosti ekolog-faunisticheskogo raspredeleniya zhuzhelits v polevykh agrotsenozakh, pp. 62–76. In: Fauna i ekologia bezpozvonochnykh zhivotnykh, Moskva.
Skuhravý V. & Novák K. 1957. Entomofauna brambořiště a její vývoj. Rozpravy ČSAV 67(7): 1–50.
Skuhraý V., Louda J. & Sýkora J. 1971. Zur Verbreitung der Laufkäfer in Feldmonokulturen. Beitr. Entomol. 21: 539–546.
Skuhravý V., Novák K. & Starý P. 1959. Entomofauna jetele a její vývoj. Rozpravy ČSAV 69(7): 1–82.
Šály R., Bedrna Z. & Bublinec E. 2004. Morphological classification system of soil in Slovakia. VÚPOP, Bratislava, 76 pp.
Šiška B. & Repa Š. 2003. Climatic characteristics in the year 2002 on locality. SPU, Nitra, 32 pp.
Štepanovičová O. & Beláková A. 1960. Entomofauna kukuričného pol’a. Acta Fac. Rer. Nat. Comenianae Zool. 4(6–8): 301–352.
Štusák J. M. 1962. Entomofauna vojteškového pole na Karlštejnsku. Rozpravy ČSAV 72(9): 1–77.
Šustek Z. 1984. Bioindikačné vlastnosti bystruškovitých a drobčíkovitých (Coleoptera, Carabidae et Staphylinidae) stredoeurópskeho vel’komesta. Ph.D. Thesis, Ústav experimentálnej biológie a ekológie, Centrum biologických a ekologických vied SAV, Bratislava, 366 pp.
Šustek Z. 1985. Využitie modelových čel’adí chrobákov k bioindikaci vplyvu chemizácie vo vybraných agrocenózach, pp. 1–51. In: Šály A., Topercer E., Guoth S., Kalúz S., Šustek Z., Bakoš P. & Wirthová M., Etológia a ekológia vybraných skupín pôdnej fauny v geobiocenózach ovplyvňovaných chemizáciou, Final Report, Project ŠPZV VI-2-7/03, Ústav experimentálnej biológie a ekológie, Centrum biologických a ekologických vied SAV, Bratislava.
Šustek Z. 1987. Changes in body size structure of Carabid communities (Coleoptera, Carabidae) along an urbanisation gradient. Biológia 42: 145–156.
Šustek, Z. 1990. Vplyv chemizácie pôdy a inej antropickej činnosti na Carabidae a Staphylinidae, pp. 1–33. In: Šály A., Kalúz S., Čarnogurský J., Krumpálová-Ondrejková Z., Wirthová M., Šustek Z. & Švataráková L., Pôdna fauna, jej funkcie, význam a ovplyvňovanie l’udskou činnost’ou, Final Report, Project VII-1-6-09, Ústav zoológiea ekosozológie SAV, Bratislava.
Šustek Z. 1992. Windbreaks and line communities as migrations corridors for Carabids (Col. Carabidae) in the agricultural landscape of South Moravia. Ekológia (ČSFR) 11: 259–271.
Šustek Z. 1994a. Impact of pollution by nickel leaching rest on Carabidae, Silphidae and Staphylinidae in the surroundings of the nickel smelting plant at Sered’. Biologia 49: 709–721.
Šustek Z. 1994b. Windbreaks as migration corridors for carabids in an agricultural landscape, pp. 377–382. In: Desender K., Deufrene M., Loreau M., Luff M. L. & Maelfait J.-P. (eds), Carabid Beetles, Ecology and Evolution, Kluwer Academic Publ., Dordrecht, Boston, London.
Šustek Z. 1994c. Impact of water management on a Carabid community (Insecta, Coleoptera) in a Central European flood-plain forest. Quad. Staz. Ecol. Civ. Mus. St. Nat. Ferrara 6: 293–313.
Šustek Z. 1998. Biocorridors, theory and practice, pp. 281–296. In: Dower J.W. & Bunce R.G.H. (eds), Key Concepts in Landscape Ecology, IALE, Preston.
Šustek Z. 1999. Light attraction of carabid beetles and their survival in the city centre. Biologia 54: 539–551.
Šustek Z. 2004a. Carabid communities (Col. Carabidae) in degradation stages of pubescent oak forests (corni Quecta deg.) in oak vegetation tier, pp. 203–209. In: Polehla P. (ed.), Hodnocení stavu a vývoje lesních geobiocenóz, Geobiocenologické spisy, svazek 9, Lesnická a dřevařská fakulta MZLU v Brně, Brno.
Šustek Z. 2004b. Characteristics of humidity requirements and relations to vegetation cover of selected Central-European Carabids (Col., Carabidae), pp. 210–214. In: Polehla P. (ed.), Hodnocení stavu a vývoje lesních geobiocenóz, Geobiocenologické spisy, svazek 9, Lesnická a dřevařská fakulta MZLU v Brně, Brno.
Šustek Z. 2007. Svetelné znečistenie a prežívanie bystruškovitých (Coleoptera, Carabidae) v meste, p. 36. In: Stloukal J. (ed.), Zborník abstraktov z konferencie 13. Feriancove dni, Prírodovedecká fakulta Univerzity Komenského v Bratislave, 22. november 2007, Faunima, Bratislava.
Šustek Z. (In press). Distribution of Carabid beetles (Coleoptera, Carabidae) along a seminatural hedgerow in South Moravia. Oltenia, Studii şi Comunicări, Ştiinţele Naturii 24.
Šustek Z. & Žuffa M. 1988. Spoločenstvá bystruškovitých a drobčíkovitých (Coleoptera, Carabidae et Staphylinidae) Štátnej prírodnej rezervácie Kl’ačianska Magura v Chránenej krajinnej oblasti Malá Fatra. Ochrana Prírody 9: 229–251.
Thacker J.R.M. & Jepson P.C. 1990. Can within-field experiments be used to predict the harmful side-effects of pesticides on an Agricultural scale?, pp. 353–357. In: Stork N.E. (ed.), The role of ground beetles in ecological and environmental studies, Intercep, Andover — Hampshire.
Thiele H.-U. 1977. Carabid beetles in their environments. A Study on Habitat Selection by Adaptation in Physiology and behaviour, Springer-Verlag, Berlin, Heidelberg, New York, 369 pp.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Porhajašová, J., Petřvalský, V., Šustek, Z. et al. Long-termed changes in ground beetle (Coleoptera: Carabidae) assemblages in a field treated by organic fertilizers. Biologia 63, 1184–1195 (2008). https://doi.org/10.2478/s11756-008-0179-8
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.2478/s11756-008-0179-8