Abstract
The pine scale (Marchalina hellenica) has been introduced to Attica and reached unprecedented population densities. Using a randomised transect-based sampling design in eight sites, we sampled the insect in random 10 cm squares on the trunk and main branches of pine trees. The insect did not show any clumping other than a micro-site preference for fissures and cracks. Canonical discriminant analysis and generalised multinomial logit regression modelling were used to determine the most important ecological variables which were the following: the population density of the insects; crown transparency; mean distance between trees; and the quality of the habitat. The site and the distance from the line transect were insignificant. The interaction of crown transparency with the abundance of the insect, the mean distance between trees and the quality of each site were important in configuring the level of damage sustained by the pine tree.
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References
Aho T, Kuitunen M, Suhonen J, Jantti A, Hakkari T (1997) Behavioural responses of Eurasian treecreepers, Certhia familiaris, to competition with ants. Anim Behav 54:1283–1290
Anderson-Stojianovic VR, Jones JE (2002) Ancient beehives from Isthmia. Hesperia 71:345–376
Apatsides LD, Sifakis CG (1999) Electronic application APSI: for the calculation of static and dynamic elements of forest stands. Hell min agric, NAGREF, Inst Mediter Forest Ecosyst, Misc Publ, Athens, pp 1–64 [in Greek with English summary]
Ares A, Peinemann N (1992) Provisional site quality evaluation for coniferous plantations in Sierra de la Ventana, Argentina. For Ecol Manag 54:89–94
Aukema BH, Werner RA, Haberkern KE, Illman BL, Clayton NK, Raffa KF (2006) Quantifying sources of variation in the frequency of fungi associated with spruce beetles: implications for hypothesis testing and sampling methodology in bark beetle–symbiont relationships. For Ecol Manag 54:89–94
Bacandritsos N (2004) Establishment and honeydew honey production of Marchaliina hellenica (Coccoidea Margarodidae) on fir tree (Abies cephalonica). Bull Insectol 57:127–130
Bacandritsos N, Saitanis C, Papanastasiou I (2004) Morphology and life cycle of Marchalina hellenica (Gennadius) (Hemiptera: Margarodidae) on pine (Parnis Mt.) and fir (Helmos Mt.) forests of Greece. Ann Soc Entomol Fr 40:169–176
Balch RE, Clark J, Bonga JM (1964) Hormonal action in the production of tumours and compression wood by an aphid. Nature 202:721–722
Beers TW, Dress PE, Wensel LC (1966) Aspect transformation in site productivity research. J For 64:691–692
Bikos A (2000) The worker of pines: means of artificial infections. Hell Min Agric, Athens, pp 1–80 [in Greek with English summary]
Brandl R, Hacker M, Bagine RKN, Kaib M (2001) Geographic variation of polygyny in the termite Macrotermes michaelseni (Sjöstedt). Insect Soc 48:134–137
Erlinghagen F (2001) Portrait of an insect: Marchalina hellenica Genn. (Sternorrhyncha: Coccina: Margarodidae), important producer of honeydew in Greece. Apiacta 36:131–137
Georgevits R (1974) Phloeophagous—xylophagous insects on Pinus halepensis in Attica: observations in the years 1967–1971. Hellenic Ministry of Agriculture, Misc. Publ. 60, Athens [in Greek]
Gullan PJ, Kosztarab M (1997) Adaptations in scale insects. Ann Rev Entomol 42:23–50
Hartmann H, Beaudet M, Messier C (2008) Using longitudinal survival probabilities to test field vigour estimates in sugar maple (Acer saccharum Marsh.). For Ecol Manag 256:1771–1779
Herms DA, Mattson WJ (1992) The dilemma of plants: to grow or defend. Q Rev Biol 67:283–335
Holldöbler B, Wilson EO (1990) The ants. Springer, Berlin, pp 1–732
Hosmer DW, Lemeshow S (2000) Applied logistic regression. Wiley, New York, pp 1–375
Jantti A, Aho T, Hakkarainen H, Kuitunen M, Suhonen J (2001) Prey depletion by the foraging of the Eurasian treecreeper, Certhia familiaris, on the tree-trunk arthropods. Oecologia 128:488–491
Johnson RA, Wichern DW (1998) Applied multivariate statistical analysis. Prentice Hall, New Jersey, pp 1–820
Kleinbaum D, Kupper L, Chambliss L (1982) Logistic regression analysis of epidemiological data: theory and practice. Commun Stat Theor M 11:485–547
Kunkel H (1997) Soft scales as beneficial insects. Scale insect honeydew as forage for honey production. In: Ben-Dov Y, Hodgson CJ (eds) Soft scale insects—their biology, natural enemies and control. Elsevier, Amsterdam, pp 291–302
MacArhtur RH (1958) Population ecology of some warblers of northeastern coniferous forests. Ecology 39:599–619
Meiggs R (1982) Trees and timber in the ancient Mediterranean world. Clarendon Press, Oxford
Mendel Z (2000) The phytophagous insect fauna of Pinus halpensis and P. brutia in the Mediterannean. In: Ne’eman G, Trabaud L (eds) Ecology, biogeography and management of Pinus halepensis and P. brutia forest ecosystems in the Mediterranean basin. Backhuys Publishers, Leiden, pp 217–236
Mendel Z, Liphschitz N (1988) Unseasonable latewood and incrusted pits are the cause of drying in Pinus halepensis and P. eldarica infested with Matsucoccus josephi. J Exp Bot 39:951–959
Mita E, Tsitsimpikou C, Tziveleka L, Petrakis PV, Ortiz A, Vagias C, Roussis V (2002) Seasonal variation of oleoresin terpenoids from Pinus halepensis and P. pinea and host selection of the scale insect Marchalina hellenica (Gennadius) (Homoptera, Coccoidea, Margarodidae, Coelostomidiinae). Holzforschung 56:572–578
Mitchell RG, Preisler HK (1991) Analysis of spatial patterns of lodgepole pine attacked by outbreak populations of the mountain pine beetle. For Sci 37:1390–1408
Nicolopoulos CN (1965) Morphology and biology of the species Marchalina hellenica (Gennadius) (Hemiptera Margarodidae Coelostomidiinae). Ecole Hautes Etud Agronom Athenes, Labor Zool Agronom & Serie, Athens
Petrakis PV, Roussis V, Papadimitriou D, Vagias C, Tsitsimpikou C (2005) The effect of terpenoid extracts from 15 pine species on the feeding behavioural sequence of the late instars of the pine processionary caterpillar Thaumetopoea pityocampa. Behav Process 69:303–322
Pontius JA, Hallett RA, Jenkins JC (2006) Foliar chemistry linked to infestation and susceptibility to hemlock woolly adelgid (Homoptera: Adelgidae). Environ Entomol 35:112–120
Rackham O (1983) Observations on the historical ecology of Boeotia. Ann Br Sch Athens 78:291–351
Reid ML, Robb T (1999) Death of vigorous trees benefits bar beetles. Oecologia 120:555–562
Seco R, Penuelas J, Filella I (2008) Formaldehyde emission and uptake by Mediterranean trees Quercus ilex and Pinus halepensis. Atmos Environ 42:7907–7914
Snodgrass RE (1935) Principles of insect morphology. McGraw-Hill, New York
Stadler B, Mueller T, Orwig D, Cobb R (2005) Hemlock woolly adelgid in New England forests: canopy impacts transforming ecosystem processes and landscapes. Ecosystems 8:233–247
Steinberg D, Colla P (1999) Logistic regression. In: Wilkinson L (ed) SYSTAT 9: statistics I. SPSS Inc., Chicago, pp 547–614
Sutton BA, Woosley RS, Butcher DJ (1997) Determination of monoterpenes in oleoresin: a chemosystematic study of the interaction between fraser fir (Abies fraseri) and balsam woolly adelgid (Adelges piceae). Microchem J 56:332–342
van Hook RI, Nielsen MG, Shugart HH (1980) Energy and nitrogen relations for a Macrosiphum liriodendri (Homoptera: Aphididae) population in an east Tennessee Lirionendrontulipifera stand. Ecology 61:960–975
van Nouhuys S, Wee TT (2001) Causes and consequences of small population size for a specialist parasitoid wasp. Oecologia 128:126–133
Vite JP, Rudinski JA (1959) The water conducting systems in conifers and their importance to the distribution of trunk injected chemicals. Contrib Boyce Thompson 20:27–38
Waring RH, Thies WG, Muscato D (1980) Stem growth per unit of leaf area: a measure of tree vigor. For Sci 26:112–117
Wolfram S (2007) Mathematica. version 7. Wolfram Inc., Chicago
Yesil A, Gurkan B, Saracoglu C, Zengin H (2005) Effect of the pest Marchalina hellenica Gennadius (Homoptera, Margarodidae) on the growth parameters of Pinus brutia Ten. in Mugla region (Turkey). Pol J Ecol 53:451–458
Acknowledgments
A. Feest and K. Spanos are acknowledged for reading the manuscript critically and suggesting ideas in the course of the project. Alan Stewart is thanked for making suggestions regarding an early draft. Professor G. P. Patil (Pennsylvania State University) is greatly thanked for providing literature on sampling, and Vassilis Petrakis provided literature and expert advice on the archaeology of Attica. Dr. G. Baloutsos provided important climatic data and Dr. Martin Gaitlich is thanked for expert ornithological advice. E. Lahlou and A. Voulgaropoulou helped in laboratory work.
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Communicated by J. Müller.
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Petrakis, P.V., Roussis, V., Vagias, C. et al. The interaction of pine scale with pines in Attica, Greece. Eur J Forest Res 129, 1047–1056 (2010). https://doi.org/10.1007/s10342-010-0389-9
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DOI: https://doi.org/10.1007/s10342-010-0389-9