Bark beetles in the Tatra Mountains. International research 1998-2005 - an overview

• Autorzy: Grodzki W. , Turcani M. , Jakus R. , Hlasny T. , Rasi R. , McManus M. L.
• Języki publikacji: EN

Abstrakty

EN

This paper is a review of fundamental information on bark beetles and their interactions with several predisposing factors (air pollution, drought/temperature interactions, windthrows, management activities) that are thought to contribute to the outbreaks in the High Tatra Mountains. The findings of many research projects indicate that the impact of air pollution on bark beetle populations is indirect and complex and that the disturbances in the physiology and natural resistance of trees may be of crucial importance to bark beetle population dynamics. An active forest protection approach is needed to be applied to the secondary Norway spruce forests affected in the past by human activity. Bark beetle populations in natural and near-natural forests (mainly in the upper montane zone) are regulated by natural mechanisms; bark beetles are therefore a natural factor contributing to forest development, including the transition of future generations of spruce.

Słowa kluczowe

EN

bark beetle; beetle; Tatras Mountains; Picea abies; population dynamics; Poland; Slovakia

• Wydawca: -
• Czasopismo: Folia Forestalia Polonica. Series A . Forestry
• Rocznik: 2010
• Tom: 52
• Numer: 2
• Opis fizyczny: p.114-130,fig.,ref.

Twórcy

autor

Grodzki W.

• Forest Research Institute, Fredry 39, 30-605 Krakow, Poland

autor

Turcani M.

• Czech University of Life Sciences, Kamycka 129, 165 21 Praha 6 Suchdol, Czech Republic

autor

Jakus R.

• Institute of Forest Ecology, Slovak Academy of Sciences, L.Stura 2, 960 53 Zvolen, Slovakia

autor

Hlasny T.

• National Forest Centre, Forest Research Institute, T.G.Masaryka 22, 960 92 Zvolen, Slovakia

autor

Rasi R.

• National Forest Centre, Forest Research Institute, T.G.Masaryka 22, 960 92 Zvolen, Slovakia

autor

McManus M. L.

• USDA Forest Service, Northern Research Station, 51 Millpond Rd. Hamden, CT. 06514, USA

Bibliografia

• Bakke A. 1985. Deploying pheromone-baited traps for monitoring Ips typographus populations. Z. ang. Ent., 99 (1), 33– 39.
• Baltensweiler W. 1985. “Waldersterben”: forest pests and air pollution. Z. ang. Ent., 99 (1), 77– 85.
• Berryman A.A. 1972. Resistance of conifers to invasion by bark beetle-fungus associations. BioScience, 22, 598– 602.
• Botterweg P.F. 1982. Dispersal and flight behaviour of the spruce bark beetle Ips typographus in relation to sex, size and fat content. Z. ang. Ent., 94 (5), 466– 489.
• Bytnerowicz A., Godzik B., Frączek W., Grodzińska K., Krywult M., Badea O., Barancok P., Blum O., Cerny M., Godzik S., Maňkovska B., Manning W., Moravcik P., Musselman R., Oszlanyi J., Postelnicu D., Szdżuj J., Varšavova M., Zota M. 2002. Ozone, sulfur dioxide and nitrogen dioxide air pollution in forests of the Carpathian Mountains. NATO Science Series, Series I: Life and Behavioral Sciences, 345, 138– 160.
• Bzowski M., Dziewolski J. 1973. Zniszczenia w lasach Tatrzańskiego Parku Narodowego spowodowane przez wiatr halny wiosną 1968 r. Ochr. Przyr., 38, 115– 154.
• Capecki Z. 1978. Badania nad owadami kambio- i ksylofagicznymi rozwijającymi się w górskich lasach świerkowych uszkodzonych przez wiatr i okiść. Prace Inst. Bad. Leś., 563, 39– 117.
• Capecki Z. 1981. Zasady prognozowania zagrożenia oraz ochrona górskich lasów świerkowych przed owadami na tle szkód wyrządzanych przez wiatr i okiść. Prace Inst. Bad. Leś., 584: 3– 44.
• Christiansen E. 1989. Bark beetles and air pollution. Medd. Nor. Inst. Skogforsk. 42 (1), 101– 107.
• Christiansen E., Bakke A. 1988. The spruce bark beetle of Eurasia. [In:] Dynamics of forest insect populations (ed.: A.A. Berryman). Plenum Press, New York, 479– 503.
• Christiansen E., Bakke A. 1996. Does drought really enhance Ips typographus epidemics? – A Scandinavian perspective. [In:] Proceed. IUFRO Conference “Integrating cultural tactics into the management of bark beetles and reforestation pests” (eds.: J.-C. Grégoire, A.M. Liebhold, F.M. Stephen, K.R. Day, S.M. Salom), Vallombrosa 1– 4 September 1996, 163– 171.
• Christiansen E., Huse K.J. 1980. Infestation ability of Ips typographus in Norway spruce, in relation to butt rot, tree vitality and increment. Medd. Nor. Inst. Skogforsk., 35 (8), 473– 482.
• Christiansen E., Waring R.H., Berryman A.A. 1987. Resistance of conifers to bark beetle attack: searching for general relationships. For. Ecol. Manage., 22, 89– 106.
• Dutilleul P., Nef L., Frigon D. 2000. Assessment of site characteristics as predictors of the vulnerability of Norway spruce (Picea abies Karst.) stands to attack by Ips typographus L. (Col., Scolytidae). J. Appl. Ent., 124, 1–5.
• Eidmann H.H. 1992. Impact of bark beetles on forests and forestry in Sweden. J. Appl. Ent., 114 (2), 193– 200.
• Forsse E., Solbreck Ch. 1985. Migration in the bark beetle Ips typographus L.: duration, timing, and height of flight. Z. ang. Ent., 100, 47– 57.
• Forster B. 1998. Storm damages and bark beetle management: how to set priorities. [In:] Proceed. 1st Workshop of the IUFRO WP 7.03.10 “Methodology of forest insect and disease survey in Central Europe” (eds.: W. Grodzki, M. Knížek, B. Forster). 21– 24 April 1998, Ustroń–Jaszowiec, Poland, 161– 165.
• Göthlin E., Schroeder L.M., Lindelöw A. 2000. Attacks by Ips typographus and Pityogenes chalcographus on windthrown spruces (Picea abies) during the two years following a storm felling. Scand. J. For. Res., 15, 542– 549.
• Grodzki W. 1995a. Wpływ osłabienia świerka przez zanieczyszczenia przemysłowe w Sudetach Zachodnich na zagrożenie ze strony szkodników wtórnych. Prace Inst. Bad. Leś., Seria B, 25/1, 145– 162.
• Grodzki W. 1995b. Zanieczyszczenia przemysłowe a gradacje szkodników owadzich w lasach górskich. Sylwan, 5, 13– 19.
• Grodzki W. 1997a. Changes in the occurrence of bark beetles on Norway spruce in a forest decline area in the Sudety Mountains in Poland. [In:] Proceed. IUFRO Conference “Integrating cultural tactics into the management of bark beetles and reforestation pests” (eds.: J.-C. Grégoire, A.M. Liebhold, F.M. Stephen, K.R. Day, S.M. Salom), Vallombrosa 1– 4 September 1996, 105– 111.
• Grodzki W. 1997b. Pityogenes chalcographus – an indicator of man-made changes in Norway spruce stands. Biológia, Bratislava, 52 (2), 217– 220.
• Grodzki W. 1998a. Threats to mountain forests in Poland by bark beetles. An outline. [In:] Proceed. 1st Workshop of the IUFRO WP 7.03.10 “Methodology of forest insect and disease survey in Central Europe” (eds.: W. Grodzki, M. Knížek, B. Forster). 21– 24 April 1998, Ustroń – Jaszowiec, Poland, 167– 172.
• Grodzki W. 1998b. Wybrane objawy stresu w świerczynach Sudetów Zachodnich w aspekcie oddziaływania czynników abiotycznych i skutków masowego pojawu wskaźnicy modrzewianeczki Zeiraphera griseana Hb. (Lepidoptera: Tortricidae). Prace Inst. Bad. Leś., A, 848, 127– 155.
• Grodzki W. 2007. Wykorzystanie pułapek feromonowych do monitoringu populacji kornika drukarza w wybranych parkach narodowych w Karpatach. Prace Inst. Bad. Leś., Rozpr. i Monogr. 8, 1– 127.
• Grodzki W. 2010. The decline of Norway spruce Picea abies (L.) Karst. stands in Beskid Śląski and Żywiecki: theoretical concept and reality. Beskydy, 3 (1), 19– 26.
• Grodzki W., Jakuš R., Gazda M. 2003. Patterns of bark beetle occurrence in Norway spruce stands of national parks in Tatra Mts. in Poland and Slovakia. Anz. Schädlingskunde / J. Pest Science, 76 (3), 78– 82.
• Grodzki W., Jakuš R., Sitkova Z., Gazda M. 2002. Ocena zagrożenia i postępowanie ochronne w wybranych ekosystemach leśnych Tatr objętych gradacjami owadów kambiofagicznych. [In:] Przemiany środowiska przyrodniczego Tatr (eds.: W. Borowiec, A. Kotarba, A. Kownacki, Z. Krzan, Z. Mirek) PTPNoZ – TPN, Kraków – Zakopane, 243– 246.
• Grodzki W., Jakuš R., Lajzová E., Sitková Z., Mączka T., Škvarenina J. 2006a. Effects of intensive versus no management strategies during an outbreak of the bark beetle Ips typographus (L.) (Col.: Curculionidae, Scolytinae) in the Tatra Mts. in Poland and Slovakia. Ann. For. Sci., 63, 55– 61.
• Grodzki W., McManus M., Knížek M., Meshkova V., Mihalciuc V., Novotny J., Turčáni M., Slobodyan Y. 2004. Occurrence of spruce bark beetles in forest stands at different levels of air pollution stress. Environm. Poll., 130/1, 73– 83.
• Grodzki W., Starzyk J.R., Kosibowicz M., Mączka T., Michalcewicz J. 2006b. Windthrowns and spruce bark beetles in protected areas in Polish mountains. Survey and experiences. [In:] Proceed. IUFRO Unit 7.03.10 “Methodology of Forest Insect and Disease Survey in Central Europe” (eds.: U. Hoyer- Tomiczek, M. Knížek, B. Forster, W. Grodzki), 11– 14.09.2006, BFW Vienna, Austria, 9– 16.
• Jakuš R. 1998. A method for the protection of spruce stands against Ips typographus by t he u se of b arriers of pheromone traps in north-eastern Slovakia. Anz. Schädlingskde, Pflanzenschutz, Umweltschutz, 71, 152– 158.
• Jakuš R., Grodzki W., Ježik M., Jachym M. 2003. Definition of spatial patterns of bark beetle Ips typographus (L.) outbreak spreading in Tatra Mountains (Central Europe), using GIS. [In:] Proceed. IUFRO Conference “Ecology, Survey and Management of Forest Insects” (eds.: M. McManus, A. Liebhold), U.S. Department of Agriculture, Forest Service Northeastern Research Station Radnor, PA, Gen. Tech. Rep., NE-311, 25– 32.
• Kisielowski S. 1978. Czterooczak świerkowiec (Poligraphus polygraphus L.) w górskich drzewostanach opieńkowych. Sylwan, 7, 25– 29.
• Kula E. 1992. Poznamky k disperzi kurovcove hmoty v porostech Lesniho zavodu Horni Blatna. Lesnictvi – Forestry, 38 (3– 4), 221– 238.
• Kunca A., Zúbrik M. 2006. Vetrova kalamita z 19 Novembra 2004. Národné lesnícke centrum Zvolen, 40 pp.
• Lakatos F. 2002. Beetle dispersal reflected in genetic structure – migration potential of Ips typographus. [In:] Integrated risk assessment and new pest management technology in ecosystems affected by forest decline and bark beetle outbreaks. Final report from INCO-Copernicus project, http://www.vsv.slu.se/schlyter/tatry_pr/tatrypr.htm.
• Lindelöw A., Schroeder L.M. 1998. Spruce bark beetle (Ips typographus) attack within and outside protected areas after a stormfelling in November 1995. [In:] Proceed. First Workshop of the IUFRO WP 7.03.10 “Methodology of forest insect and disease survey in Central Europe” (eds.: W. Grodzki, M. Knížek, B. Forster). 21– 24 April 1998, Ustroń – Jaszowiec, Poland, 177– 180.
• Lindelöw A., Schroeder L.M. 2001. Attack dynamic of the spruce bark beetle (Ips typographus L.) within and outside unmanaged and managed spruce stands after a stormfelling. [In:] Proceed. IUFRO WP 7.03.10 “Methodology of forest insect and disease survey in Central Europe” (eds.: M. Knížek et al.). 24– 28.09.2001, Buşteni, Romania, 68– 71.
• Lohberger E. 1993. Zur Populationsdynamik von Ips typographus L . i m N ationalpark B ayerischer Wald: Entstehung und Entwiclung von ausgewählten Befallsflächen im Lusengebiet. Diplomarbeit der Forstwissenschafltichen Fakultät der Ludwig-Maximilians-Universität Munchen, 80 pp.
• Mirek Z. 1996. Tatry i Tatrzański Park Narodowy – informacje ogólne. Przyroda Tatrzańskiego Parku Narodowego. TPN – PAN, Kraków–Zakopane, 17– 26.
• Nef L. 1994. Estimation de la vulnerabilité de pessières aux attaques d’Ips typographus L. à partir de caractéristiques stationnelles. Silva Belgica, 101, 7– 14.
• Netherer S., Nopp-Mayr U. 2005. Predisposition assessment systems (PAS) as supportive tools in forest management-rating of site and stand-related hazards of bark beetle infestation in the High Tatra Mountains as an example for system application and verification. For. Ecol. Manage., 207, 99– 107.
• Økland B., Liebhold A.M., Bjornstad O.N., Erbilgin N., Krokene P. 2005. Are bark beetle outbreaks less synchronous than forest Lepidoptera outbreaks? Oecologia, 146, 365– 372.
• Otto L.F., Schreiber J. 2001. Spatial patterns of the distribution of trees infested by Ips typographus (L.) (Coleoptera, Scolytidae) in the National Park „Sächsische Schweiz” from 1996 to 2000. J. For. Sci., 47 (Special Issue No. 2), 139– 142.
• Raimondo S., Turčáni M., Patočka J., Liebhold A.M. 2004. Interspecific synchrony among foliage-feeding forest Lepidoptera species and the potential role of generalist predators as synchronizing agents. Oikos, 107, 462– 470.
• Reeve J.D., Ayres M.P., Lorio P.L. 1995. Host suitability, predation, and bark beetle population dynamics. [In:] Population Dynamics: New Approaches and Synthesis (eds.: N. Cappaccino, P.W. Price). Academic Press, San Diego, CA, 339–357.
• Schaffelner C., Berger R., Fuehrer E. 1992. Pristiphora abietina (Hym.: Tenthredinidae) a bioindicator for air pollution? [In:] Proceed. 15th International Meeting of Specialists in Air Pollution Effects on Forest Ecosystems “Air pollution and interactions between organisms in forest ecosystems” (eds.: M. Tesche, S. Feiler) Tharandt/Dresden: 282.
• Schopf R., Köhler U. 1995. Untersuchungen zur Populationsdynamik der Fichtenborkenkäfer im Nationalpark Bayerischer Wald. 25 Jahre auf dem Weg zum Naturwald. Passavia Druckerei, GmbH, Passau, 88– 109.
• Schroeder L.M., Eidmann H.H. 1986. The effects of pure and blended atmospheric gases on the survival of three bark beetle species. Z. ang. Ent., 101 (4), 353– 359.
• Schroeder L.M., Eidmann H.H. 1993. Attacks of barkand wood-boring Coleoptera on snow-broken conifers over a two-year period. Scand. J. For. Res., 8 (2), 257– 265.
• Schwerdtfeger F. 1955. Pathogenese der Borkekäfer-Epidemie 1946– 1950 in Nordwestdeutschland.
• Schriftenreihe der Forstlichen Fakultät der Universität Göttingen und Mitteilungen der Niedersächsischen Forstlichen Versuchsansstalt, 13/14, 133 pp.
• Skuhravy V. 2002. Lýkožrout smrkový (Ips typographus L.) a jeho kalamity. Agrospoj, Praha, 196 pp.
• Stolina M. 1970. On the problem of indifference of Ips typographus. Zborník vedeckých prác lesníckej fakulty VŠLD vo Zvolene, 12 (3), 61– 76.
• Turčáni M., Grodzki W., Fleischer P. Novotný J., Hrašovec B. 2003. Can air pollution influence spruce bark beetle populations in the Central European mountains? Ekológia (Bratislava), Special Issue No. 2, 371– 382.
• Turčáni M., Novotný J. 1998. The importance of eighttoothed spruce bark beetle (Ips typographus L.) in Central Europe. [In:] Proceed. U.S. Department of Agriculture Interagency Gypsy Moth Research Forum 1998. U.S. Department of Agriculture, Forest Service, Northeastern Research Station Radnor, PA, Gen. Tech. Rep. NE-248, 62– 63.
• Turčáni M., Vakula J., Hlásny T. 2006. Analýza populácií podkôrnych škodcov na Kysuciach, prognóza ďalšieho vývoja a rámcový návrh opatrení. [In:] Aktuálne problémy v ochrane lesa 2006 (ed.: A. Kunca). Národné lesnícke centrum Zvolen, 84– 93.
• Varínsky J., Brutovský D., Finďo S., Konôpka B., Kunca A., Leontovyč R., Longauerová V., Turčáni M., Zúbrik M. 2003. Výskyt škodlivých činiteľov v lesoch Slovenska za rok 2002 a ich prognóza na rok 2003. Účelový elaborát. Lesnícky Výskumný Ústav Zvolen, 104 pp.
• Wichmann L., Ravn H.P. 2001. The spread of Ips typographus (L.) (Coleoptera, Scolytidae) attacks following heavy windthrow in Denmark, analysed using GIS. For. Ecol. Manage., 148, 31– 39.
• Worrell R. 1983. Damage by the spruce bark beetle in South Norway 1970– 80. A survey, and factors affecting its occurrence. Medd. Nor. Inst. Skogforsk, 38 (6), 1– 34.
• Zúbrik M., Brutovský D., Bučko J., Ferenčík J., Finďo S., Fleischer P., Hlaváč P., Jakuš R., Kaliský K., Kaštier P., Kodrík J., Konôpka B., Konôpka J., Koreň M., Kunca A., Novotný J., Pavlík M., Pavlík Š., Raši R., Turčáni M., Vakula J. 2005. Projekt ochrany leas na územi ŠL TANAPu po vetrovej kalamite zo dňa 19.11.2004 – realizačny projekt pre rok 2005. Lesnícky Výskumný Ústav Zvolen, 85 pp.
• Zúbrik M., Vakula J., Raši R., Turčáni M., Brutovský D., Novotný J., Jakuš R., Ferenčík J., Finďo S., Kaštier P., Bučko J., Kunca A., Leontovyč R., Longauerová V., Varínsky J. 2006. Projekty ochrany lesa na územiach postihnutých vetrovou kalamitou veľkeho rozsahu – druhý rok po kalamite. In: Kunca A. (ed.) Aktuálne problémy v ochrane lesa 2006. Národné lesnícke centrum Zvolen, 45– 58.