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Leaf damage of the Black Cherry, Prunus serotina Ehrh., by the leaf beetle, Gonioctena quinquepunctata Fabr. : an accidental foraging on a neophytic host, or an established trophic link?

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Abstrakty
EN
The Black Cherry (Prunus serotina Ehrh.), a North American forest tree, had been extensively planted for timber production in order to improve soil quality in pine plantations in European forests during the first half of the 20th century. Unfortunately, it failed to meet the foresters. expectations. It has instead spread rapidly in silvicultures becoming a notorious weed species, difficult to control. Although it still has alien plant status, it seems that 150 years of its presence on the European continent might suffice for this neophyte to become adopted as a host plant by the native fauna of insect herbivores. The observations of Prunus serotina were conducted in 2009-2010 in the Rudno Forest District, Lower Silesia, Poland, on Prunus serotina plants growing as a thick understorey shrub layer in fresh mixed deciduous forest. The analyses, performed in 7-10 day intervals from April until the end of July each year, aimed at monitoring the population dynamics of Gonioctena quinquepunctata on P. serotina plants, and the dynamics of leaf perforation caused by this herbivore, in order to determine the relation between these two species. The insects were observed on 100 shoots on 10 plants on each observation date, and were recorded in situ. Based on the estimates of the leaf damage, the mean perforation index (P[I]) (%) was calculated on each date for each plant shoot, expressed as the mean percentage of the perforated leaf blade area. P[I] (%) was subsequently correlated with the beetle and larvae density on the plants. It has been demonstrated that the feeding of G. quinquepunctata on Black Cherry plants is more closely associated with the presence of its larvae, than with that of the beetles. Although the mean PI value on each observation date was never higher than 12%, the maximum perforation of individual leaf blades occasionally exceeded 50%, whereas the maximum mean P[I] calculated for individual shoots on each observation date reached as much as 47%. The authors suggest that feeding of G. quinquepunctata on P. serotina may represent an example of a well established trophic link between a native herbivore and a plant species still considered a neophyte.
Rocznik
Strony
589--597
Opis fizyczny
Bibliogr. 23 poz.
Twórcy
autor
  • Department of Botany and Plant Ecology, Wrocław University of Environmental and Life Sciences, Grunwaldzki sq. 24a, 50-363 Wrocław, Poland, aleksandra.halarewicz@up.wroc.pl
Bibliografia
  • 1. Agrawal A.A., Kotanen P.M. 2003 – Herbivores and the success of exotic plants: A phylogenetically controlled experiment – Ecol. Lett. 6: 712–715.
  • 2. Andrew N.R., Hughes L. 2004 – Species diversity and structure of phytophagous beetle assemblages along a latitudinal gradient: predicting the potential impacts of climate change – Ecol. Entomol. 29: 527–542.
  • 3. Bieńkowski A.O. 2010 – Feeding behavior of leaf beetles (Coleoptera, Chrysomelidae) – Entomol. Rev. 90: 1–10.
  • 4. Bontems C. 1984 – La viviparité chez les Chrysomelinae (Col.) – Bull. Soc. Ent. France, 89: 973–981.
  • 5. Cavender-Bares J., Kozak K., Fine P., Kembel S. 2009 – The merging of community ecology and phylogenetic biology – Ecol. Lett. 12: 1–23.
  • 6. Jansen M.P.T., Stamp N.E. 1997 – Effects of light availability on host plant chemistry and the consequences for behavior and growth of an insect herbivore – Ent. Exp. Appl. 82: 319–333.
  • 7. Jermy T. 1984 – Evolution of insect/host-plant relationships – Am. Nat. 124: 609–630.
  • 8. Karolewski P., Grzebyta J., Oleksyn J., Giertych M.J. 2007 – Effects of temperature on larval survival rate and duration of development in Lymantria monacha ( L.) on needles of Pinus sylvestris (L.) and in L. dispar (L.) on leaves of Quercus robur (L.) – Pol. J. Ecol. 55: 595–600.
  • 9. Karolewski P., Zadworny M., Mucha J., Napierała-Filipiak A., Oleksyn J. 2010 – Link between defoliation and light treatments on root vitality of five understorey shrubs with different resistance to insect herbivory – Tree Physiology 30: 969–978.
  • 10. Keane R.M., Crawley M.J. 2002 – Exotic plant invasions and the enemy release hypothesis – Trends Ecol. Evol. 17: 164–170.
  • 11. Mardulyn P., Milinkovitch M.C., Pasteels J.M. 1997 – Phylogenetic analyses of DNA and allozyme data suggest that Gonioctena leaf beetles (Coleoptera; Chrysomelidae) experienced convergent evolution in their history of host-plant family shifts – Syst. Biol. 46: 722–747.
  • 12. Nowakowska K., Halarewicz A. 2006a – Coleoptera found on neophyte Prunus serotina (Ehrh.) within forest community and open habitat – Electronic Journal of Polish Agricultural Universities, Biology, 9 (1): #05.
  • 13. Nowakowska K., Halarewicz A. 2006b – Prunus serotina (Ehrh.) – new food resource for polyphagous Lepidoptera – Electronic Journal of Polish Agricultural Universities, Biology, 9 (1): #13.
  • 14. Pearse I.S., Hipp A.L. 2009 – Phylogenetic and trait similarity to a native species predict herbivory on non-native oaks – PNAS, 106: 18097–18102.
  • 15. Reinhart K.O., Packer A., Van der Putten W.H., Clay K. 2003 – Plant-soil biota interactions and spatial distribution of Black Cherry in its native and invasive ranges – Ecol. Lett. 6: 1046–1050.
  • 16. Richards O.W., Waloff N. 1961 – A study of a natural population of Phytodecta olivacea(Forster) (Coleoptera, Chrysomeloidea) – Phil. Trans. R. Soc. Lond. B 21 (244): 205–257.
  • 17. Starfinger U. 1997 – Introduction and naturalization of Prunus serotina in Central Europe (In: Plant Invasions: Studies from North America and Europe, Eds: J.H. Brock, M. Wade, P. Pysek, D. Green) – Backhuys Publishers, Leiden, pp. 161–171.
  • 18. Starfinger U., Kowarik I., Rode M., Schepker H. 2003 – From desirable ornamental plant to pest to accepted addition to the flora? The perception of alien tree species through the centuries – Biol. Inv. 5: 323–335.
  • 19. Urban J. 1998 – Pøíspìvek k poznání mandelinky Gonioctena (= Phytodecta) quinquepunctata F. (Chrysomelidae, Coleoptera) [A contribution to the knowledge of a chrysomelid beetle Gonioctena (=Phytodecta) quinquepunctata F. (Chrysomelidae, Coleoptera] – Acta Univ. Agric. et Silvic. Mendel. Brun. XLVI: 7–23. (in Czech with English summary).
  • 20. Warchałowski A. 1994 – Chrysomelidae – Stonkowate (Insecta: Coleoptera) IV. Fauna Polski 16., Warszawa [Chrysomelidae – chrysomelid beetles (Insecta: Coleoptera) IV. Fauna of Poland 16] – Muzeum i Instytut Zoologii PAN, Warszawa, 301 pp. (in Polish).
  • 21. Wimmer W., Winkel W. 2000 – Zum Auftreten von Gonioctena quinquepunctata (Fabr.) (Coleoptera, Chrysomelidae) an Prunus serotina Ehrh. und der Nestlingsnahrung hohlenbrutender Singvogel im Emsland – Braunschw. Naturkundl. Schr. 6: 131– 138.
  • 22. Zerbe S., Wirth P. 2006 – Non-indigenous plant species and their ecological range in Central European pine (Pinus sylvestris L.) forests – Ann. For. Sci. 63: 189–203.
  • 23. Żmuda M., Karolewski P., Giertych M.J., Żytkowiak R., Bąkowski M., Grzebyta J., Oleksyn J. 2008 – The effect of light conditions on leaf injury in underbrush shrubs caused by leaf-eating insects – Acta. Sci. Pol. Silv. Colendar. Rat. Ind. Lignar. 7: 47–57.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3303-2793
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