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Population biology of the European woodwasp, Sirex noctilio, in Galicia, Spain

Published online by Cambridge University Press:  24 February 2016

M.J. Lombardero*
Affiliation:
Departamento de Producción Vegetal, Universidad de Santiago de Compostela, 27002 Lugo, Spain
M.P. Ayres
Affiliation:
Department of Biological Sciences, Dartmouth College, Hanover, NH 03755, USA
F.E. Krivak-Tetley
Affiliation:
Department of Biological Sciences, Dartmouth College, Hanover, NH 03755, USA
K.N.E. Fitza
Affiliation:
Department of Genetics, Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria, Pretoria 0028, South Africa
*
*Author for correspondence Phone: 34 982 823 150 Fax: 34 982 285 926 E-mail: [email protected]

Abstract

Sirex noctilio Fabricius (Hymenoptera, Siricidae) is rare and rarely studied where it is native in Eurasia, but is a widespread pest of pines in the Southern Hemisphere. Here we report on the abundance, basic biology, host use patterns and natural enemies of native S. noctilio in Galicia, Spain. Most trees attacked by S. noctilio failed to produce any adult progeny: >90% of emergences came from <20% of the attacked trees. The highest reproduction was in Pinus pinaster, followed by Pinus sylvestris and Pinus radiata. The proportions of S. noctilio requiring 1, 2 or 3 years for development were 0.72: 0.24: 0.04. Delayed development could be an adaptation to avoid parasitic nematodes, which sterilized 41.5% adults with one year generation time but only 19% of adults with 2 years generation time. Hymenoptera parasitoids accounted for 20% mortality. Sex ratios were male biased at 1: 2.9. Body size and fecundity were highly variable and lower than previously reported from the Southern Hemisphere. On attacked trees, there were 5–20 attacks per standard log (18 dm2), with usually 1–3 drills per attack. Attack densities and drills per attack were higher in trees that subsequently died. The production of S. noctilio per log was positively related to total attacks, and negatively related to: (1) attack density, (2) incidence of blue stain from Ophiostoma fungi and (3) frequency of lesions in plant tissue around points of attack. A preliminary life table for S. noctilio in Galicia estimated effects on potential population growth rate from (in decreasing order of importance) host suitability, unequal sex ratio, parasitic nematodes and Hymenoptera parasitoids.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 2016 

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References

Ayres, M.P., Pena, R., Lombardo, J.A. & Lombardero, M.J. (2014) Host use patterns by the European woodwasp, Sirex noctilio, in its native and invaded range. PLoS ONE 9, e90321.Google Scholar
Bates, D., Maechler, M., Bolker, B. & Walker, S. (2014) lme4: Linear mixed-effects models using Eigen and S4. R package version 1.1–7. Available online at http://CRAN.R-project.org/package=lme4.Google Scholar
Bedding, R. & Iede, E. (2005) Application of Beddingia siricidicola for Sirex woodwasp control. pp. 385399 in Grewal, P.S., Ehlers, R.-U. & Shapiro-Ilan, D.I. (Eds) Nematodes as Biocontrol Agents. London. CABI Publishing.Google Scholar
Bedding, R.A. & Akhurst, R.J. (1974) Use of the nematode Deladenus siricidicola in the biological control of Sirex noctilio in Australia. Journal of the Australian Entomological Society 13, 129135.Google Scholar
Benson, R.B. (1943) Studies in Siricidae, especially of Europe and southern Asia (Hymenoptera, Symphyta). Bulletin of Entomological Research 34, 2751.Google Scholar
Bordeaux, J.M., Lorenz, W.W., Johnson, D., Badgett, M.J., Glushka, J., Orlando, R. & Dean, J.F.D. (2014) Noctilisin, a venom glycopeptide of Sirex noctilio (Hymenoptera: Siricidae), causes needle wilt and defense gene responses in pines. Journal of Economic Entomology 107, 19311945.Google Scholar
Cameron, E.A. (2012) Parasitoids in the management of Sirex noctilio: looking back and looking ahead. pp. 103117 in Slippers, B., de Groot, P. & Wingfield, M.J. (Eds) The Sirex Woodwasp and its Fungal Symbiont: Research and Management of a Worldwide Invasive Pest. Dordrecht, Springer.Google Scholar
Carnegie, A.J., Eldridge, R.H. & Waterson, D.G. (2005) History and management of Sirex wood wasp in pine plantations in New South Wales, Australia. New Zealand Journal of Forestry Science 35, 324.Google Scholar
Carnegie, A.J. & Basford, R. (2012) Sirex woodwasp in Australia: Current management strategies, research and emerging issues. pp. 175201 in Slippers, B., de Groot, P. & Wingfield, M.J. (Eds) The Sirex Woodwasp and its Fungal Symbiont: Research and Management of a Worldwide Invasive Pest. Dordrecht, Springer.CrossRefGoogle Scholar
Ceballos, P. (1963) Sirícidos españoles (Hymenoptera). Graellsia 20, 5567.Google Scholar
Chrystal, R.N. (1928) The Sirex wood-wasps and their importance in forestry. Bulletin of Entomological Research 19, 219247.Google Scholar
Cochran, W.G. (1977) Sampling Techniques. New York, John Wiley & Sons.Google Scholar
Collett, N.G. & Elms, S. (2009) The control of sirex wood wasp using biological control agents in Victoria, Australia. Agricultural and Forest Entomology 11, 283294.Google Scholar
Corley, J.C. & Villacide, J.M. (2012) Population dynamics of Sirex noctilio: influence of diapause, spatial aggregation and Flight Potential on Outbreaks and Spread. pp. 5164 in Slippers, B., de Groot, P. & Wingfield, M.J. (Eds) The Sirex Woodwasp and its Fungal Symbiont: Research and Management of a Worldwide Invasive Pest. Dordrecht, Springer.Google Scholar
Corley, J.C., Villacide, J.M. & Bruzzone, O.A. (2007) Spatial dynamics of a Sirex noctilio woodwasp population within a pine plantation in Patagonia, Argentina. Entomologia Experimentalis et Applicata 125, 231236.CrossRefGoogle Scholar
Coutts, M.P. (1969 a) The mechanism of pathogenicity of Sirex noctilio on Pinus radiata. I. Effects of the symbiotic fungus Amylostereum sp. (Thelophoraceae). Australian Journal of Biological Sciences 22, 915924.Google Scholar
Coutts, M.P. (1969 b) The mechanism of pathogenicity of Sirex noctilio on Pinus radiata. II. Effects of Sirex noctilio mucus. Australian Journal of Biological Sciences 22, 11531161.Google Scholar
Coutts, M.P. & Dolezal, J.E. (1965) Sirex noctilio, its associated fungus, and some aspects of wood moisture content. Australian Forest Research 1, 313.Google Scholar
Coutts, M.P. & Dolezal, J.E. (1966) Polyphenols and Resin in the Resistance Mechanism of Pinus radiata Attacked by the Wood Wasp, Sirex noctilio, and its Associated Fungus. Canberra, Australia, Forestry and Timber Bureau Leaflet No. 101.Google Scholar
Coutts, M.P. & Dolezal, J.E. (1969) Emplacement of fungal spores by the woodwasp, Sirex Noctilio, during oviposition. Forest Science 15, 412416.Google Scholar
de Groot, P., Nystrom, K. & Scarr, T. (2006) Discovery of Sirex noctilio (Hymenoptera: Siricidae) in Ontario, Canada. Great Lakes Entomologist 39, 4953.Google Scholar
Dodds, K.I., Cooke, R.R. & Gilmore, D.W. (2007) Silvicultural options to reduce pine susceptibility to attack by a newly detected invasive species, Sirex noctilio . Northern Journal of Applied Forestry 24, 165167.Google Scholar
Dodds, K.J., Cooke, R.R. & Hanavan, R.P. (2014) The effects of silvicultural treatment on Sirex noctilio attacks and tree health in Northeastern United States. Forests 5, 28102824.Google Scholar
Eager, P.T., Allen, D.C., Frair, J.L. & Fierke, M.K. (2011) Within-tree distributions of the Sirex noctilio Fabricius (Hymenoptera: Siricidae) – parasitoid complex and development of an optimal sampling scheme. Environmental Entomology 40, 12661275.Google Scholar
Eskiviski, E., de Coll, O., Faraldo, G.S. & Bennesch, M.A. (2003) Efficiency of New Isolations of Deladenus siricidicola B. in the Biological Control of Sirex noctilio F. Jornadas Tecnicas Forestales y Ambientales – FCF . UNaM – EEA Montecarlo, INTA. Misiones, Argentina.Google Scholar
Fenili, R., Mendes, C.J., Miquelluti, D.J., Mariano-da-Silva, S., Xavier, Y., Ribas, H.S. & Furlan, G. (2000) Deladenus siricidicola, bedding (Neotylenchidae) parasitism evaluation in adult Sirex noctilio, Fabricius, 1793 (Hymenoptera: Siricidae). Revista Brasileira de Biologia 60, 683687.Google Scholar
Guindon, S. & Gascuel, O. (2003) A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood. Systematic Biology 52, 696704.Google Scholar
Hall, M.J. (1968) A survey of siricid attack on radiata pine in Europe. Australian Forestry 32, 155162.Google Scholar
Hanson, H.S. (1939) Ecological notes on the Sirex wood wasps and their parasites. Bulletin of Entomological Research 30, 2765.Google Scholar
Hartig, T. (1860) Die Familien der Blatt- und Holzwespen. Berlin. Haude und Spenersche Buchhandlung Google Scholar
Hillis, W.E. & Inoue, T. (1968) The formation of polyphenols in trees – IV. The polyphenols formed in Pinus radiata after Sirex attack. Phytochemistry 7, 1322.Google Scholar
Hoebeke, E.R., Haugen, D.A. & Haack, R.A. (2005) Sirex noctilio: discovery of a palearctic siricid woodwasp in New York. Newsletter of the Michigan Entomological Society 50, 2425.Google Scholar
Hurley, B.P., Slippers, B. & Wingfield, M.J. (2007) A comparison of control results for the alien invasive woodwasp, Sirex noctilio, in the southern hemisphere. Agricultural and Forest Entomology 9, 159171.CrossRefGoogle Scholar
Hurley, B.P., Slippers, B., Croft, P.K., Hatting, H.J., van der Linde, M., Morris, A.R., Dyer, C. & Wingfield, M.J. (2008) Factors influencing parasitism of Sirex noctilio (Hymenoptera: Siricidae) by the nematode Deladenus siricidicola (Nematoda: Neotylenchidae) in summer rainfall areas of South Africa. Biological Control 45, 450459.CrossRefGoogle Scholar
Hurley, B.P., Hatting, H.J., Wingfield, M.J., Klepzig, K.D. & Slippers, B. (2012) The influence of Amylostereum areolatum diversity and competitive interactions on the fitness of the Sirex parasitic nematode Deladenus siricidicola . Biological Control 61, 207214.Google Scholar
Iede, E.T., Penteado, S.R.C. & Schaitza, E.G. (1998) Sirex noctilio problem in Brazil – detection, evaluation and control. pp. 4552 in Proceedings of a Conference: Training in the Control of Sirex noctilio by Use of Natural Enemies, Columbo, Brazil.Google Scholar
Iede, E.T., Penteado, S.R.C., Filho, W.R. & Schaitza, E.G. (2000) Updated situation of Sirex noctilio integrated management program in Brazil. Serie Tecnica IPEF 13, 1120.Google Scholar
IFN4 (2013) Cuarto Inventario Forestal Nacional. Comunidad Autónoma Pais Vasco/Euskadi. Madrid, Parques Nacionales.Google Scholar
Judeich, J.F. & Nitsche, H. (1895) Die Holzwespen. pp. 672681 in Judeich, J.F., Ratzeburg, J.T.C. & Nitsche, H. (Eds) Lehrbuch der Mitteleuropäischen Forstinsektenkunde I. Vienna, Hölzel.Google Scholar
Kirk, A.A. (1974) Bioclimates of Australian Pinus radiata areas and Sirex noctilio localities in the Northern Hemisphere. Australian Forestry 37, 126131.Google Scholar
Kroll, S.A., Hajek, A.E., Morris, E.E. & Long, S.J. (2013) Parasitism of Sirex noctilio by non-sterilizing Deladenus siricidicola in northeastern North America. Biological Control 67, 203211.Google Scholar
Llorente, G. & Gabuyo, S.F. (1984) Nuevos datos sobre los sínfitos de España (Hym. Symphyta). Boletín Asociación española de Entomología 8, 179193.Google Scholar
Madden, J.L. (1974) Oviposition behavior of the woodwasp, Sirex noctilio F. Australian Journal of Zoology 22, 341351.Google Scholar
Madden, J.L. (1977) Physiological reactions of Pinus radiata to attack by woodwasp, Sirex noctilio F. (Hymenoptera: Siricidae). Bulletin of Entomological Research 67, 405426.CrossRefGoogle Scholar
Madden, J.L. (1988) Sirex in Australasia. pp. 407429 in Berryman, A.A. (Ed.) Dynamics of Forest Insect Populations. New York, Plenum Press.Google Scholar
Martínez-Cortizas, A. & Pérez-Alberti, A. (1999) Atlas Climático de Galicia. Santiago de Compostela, Consellería de Medio Ambiente, Xunta de Galicia.Google Scholar
Morgan, F.D. (1968) Bionomics of Siricidae. Annual Review of Entomology 13, 239256.Google Scholar
Nahrung, H.F., Ramsden, M. & Griffiths, M. (2015) Sirex woodwasp range expansion in Australia: performance and parasitism on two commercial pine species. Forestry 0, 16. doi: 10.1093/forestry/cpv039.Google Scholar
Neumann, F.G. & Minko, G. (1981) The sirex wood wasp in Australian radiata pine plantations. Australian Forestry 44, 4663.Google Scholar
Neumann, F.G., Morey, J.L. & McKimm, R.J. (1987) The sirex wasp in Victoria. Melbourne, Bulletin No. 29 of the Department of Conservation, Forests and Lands.Google Scholar
Parker, J.D., Torchin, M., Hufbauer, R.A., Lemoine, N.P., Alba, C., Blumenthal, D.M., Bossdorf, O., Byers, J.E., Dunn, A.M., Heckman, R.W., Hejda, M., Jarošík, V., Kanarek, A.R., Martin, L.B., Perkins, S.E., Pyšek, P., Schierenbeck, K., Schlöder, C., van Klinken, R., Vaughn, K.J., Williams, W. & Wolfe, L.M. (2013) Do invasive species perform better in their new ranges? Ecology 94, 985994.Google Scholar
Posada, D. (2008) jModelTest: phylogenetic model averaging. Molecular Biology and Evolution 25, 12531256.Google Scholar
Ratzeburg, T. (1844) Die Forstinsekten, iii. Berlin Nicolaische Buchhandlung.Google Scholar
Ryan, K. & Hurley, B.P. (2012) Life History and Biology of Sirex noctilio . pp. 1530 in Slippers, B., de Groot, P. & Wingfield, M.J. (Eds) The Sirex Woodwasp and its Fungal Symbiont: Research and Management of a Worldwide Invasive Pest. Dordrecht, Springer.Google Scholar
Ryan, K., Moncalvo, J.-M., de Groot, P. & Smith, S.M. (2011) Interactions between the fungal symbiont of Sirex noctilio (Hymenoptera: Siricidae) and two bark beetle-vectored fungi. Canadian Entomologist 143, 224235.Google Scholar
Ryan, K., de Groot, P., Nott, R.W., Drabble, S., Ochoa, I., Davis, C., Smith, S.M. & Turgeon, J.J. (2012) Natural enemies associated with Sirex noctilio (Hymenoptera: Siricidae) and S. nigricornis in Ontario, Canada. Environmental Entomology 41, 289297.Google Scholar
Schiff, N., Valley, S., LaBonte, J. & Smith, D. (2006) Guide to the Siricid woodwasps of North America. USDA (FHTET-2006-15). Morgantown, WV.USA Google Scholar
Schiff, N., Goulet, H., Smith, D.R., Boudreault, C., Wilson, A.D. & Scheffler, B.E. (2012) Siricidae (Hymenoptera: Symphyta: Siricoidea) of the Western Hemisphere. Canadian Journal of Arthropod Identification 21, 1305.Google Scholar
Schneider, C.A., Rasband, W.S. & Eliceiri, K.W. (2012) NIH Image to ImageJ: 25 years of image analysis. Nature Methods 9, 671675.Google Scholar
Slippers, B., de Groot, P. & Wingfield, M.J. (2012) The Sirex Woodwasp and its Fungal Symbiont: Research and Management of a Worldwide Invasive Pest. Dordrecht, Springer.Google Scholar
Slippers, B., Hurley, B.P. & Wingfield, M.J. (2015) Sirex woodwasp: a model for evolving management paradigms of invasive forest pests. Annual Review of Entomology 60, 601619.Google Scholar
Spradbery, J.P. (1977) The oviposition biology of siricid woodwasps in Europe. Ecological Entomology 2, 225230.Google Scholar
Spradbery, J.P. & Kirk, A.A. (1978) Aspects of ecology of siricid woodwasps (Hymenoptera Siricidae) in Europe, North Africa and Turkey with special reference to biological control of Sirex noctilio F. in Australia. Bulletin of Entomological Research 68, 341359.Google Scholar
Taeger, A. & Blank, S.M. (2008) Fauna Europea: Siricidae in van Achterberg, K. (Ed.) Fauna Europea: Symphyta. Fauna Europea version 2.6.2. Available online at http://www.faunaeur.org.Google Scholar
Talbot, P.H.B. (1977) The Sirex-Amylostereum-Pinus association. Annual Review of Phytopathology 15, 4154.Google Scholar
Tarasco, E. & Notte, P. (2003) Sirex noctilio Fabricius (Hymenoptera – Siricidae) damage to pines on the Adriatic coast of Apulia [Pinus pinea L.]. Informatore Fitopatologico 53, 5254.Google Scholar
Thompson, B.M., Bodart, J., McEwen, C. & Gruner, D.S. (2014) Adaptations for symbiont-mediated external digestion in Sirex noctilio (Hymenoptera: Siricidae). Annals of the Entomological Society of America 107, 453460.CrossRefGoogle Scholar
Titze, J.F. (1965) Physiological suppression in Pinus radiata and its susceptibility to sirex. Australian Forest Research 1, 5155.Google Scholar
Tribe, G.D. & Cillié, J.J. (2004) The spread of Sirex noctilio Fabricius (Hymenoptera: Siricidae) in South African pine plantations and the introduction and establishment of its biological control agents. African Entomology 12, 917.Google Scholar
Wermelinger, B., Rigling, A., Mathis, D.S. & Dobbertin, M. (2008) Assessing the role of bark- and wood-boring insects in the decline of Scots pine (Pinus sylvestris) in the Swiss Rhone valley. Ecological Entomology 33, 239249.Google Scholar
Wolf, F. (1969 a) Les siricides en Belgique, leurs moeurs et leur importance en syliviculture. Bulletin et Annales de la Société Royale Entomologique de Belgique 76(6), 281301.Google Scholar
Wolf, F. (1969 b) Sur les ennemis des hymenopteres siricides. Bulletin et Annales de la Société Royale Entomologique de Belgique 105, 202224.Google Scholar
Wooding, A.L., Wingfield, M.J., Hurley, B.P., Garnas, J.R., de Groot, P. & Slippers, B. (2013) Lack of fidelity revealed in an insect − fungal mutualism after invasion. Biology Letters 9, 20130342.Google Scholar
Yee, T. W. (2015) VGAM: Vector Generalized Linear and Additive Models. R package version 0.9–7. Available online at http://CRAN.R-project.org/package=VGAM.Google Scholar
Yousuf, F., Carnegie, A.J., Bashford, R., Bedding, R.A., Nicol, H.I. & Gurr, G.M. (2014 a) Bark beetle (Ips grandicollis) disruption of woodwasp (Sirex noctilio) biocontrol: direct and indirect mechanisms. Forest Ecology and Management 323, 98104.Google Scholar
Yousuf, F., Gurr, G.M., Carnegie, A.J., Bedding, R.A., Bashford, R., Gitau, C.W. & Nicol, H.I. (2014 b) The bark beetle, Ips grandicollis, disrupts biological control of the woodwasp, Sirex noctilio, via fungal symbiont interactions. FEMS Microbiology Ecology 88, 3847.Google Scholar
Zondag, R. & Nuttall, M.J. (1977) Sirex noctilio Fabricius (Hymenoptera: Siricidae). New Zealand Forest Service, Forest and Timber Insects in New Zealand 20, 8.Google Scholar
Zylstra, K.E. & Mastro, V.C. (2012) Common mortality factors of woodwasp larvae in three northeastern United States host species. Journal of Insect Science 12, 18.Google Scholar
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