Vai ai contenuti. | Spostati sulla navigazione | Spostati sulla ricerca | Vai al menu | Contatti | Accessibilità

| Crea un account

Petrucco Toffolo, Edoardo (2008) Climate change and pine processionary moth role of the host plant. [Tesi di dottorato]

Full text disponibile come:

[img]
Anteprima
Documento PDF
1669Kb

Abstract (inglese)

The thesis shows some results about the pine processionary moth to low temperature, host-plants, carbon dioxide end snow cover.


Statistiche Download - Aggiungi a RefWorks
Tipo di EPrint:Tesi di dottorato
Relatore:Battisti, Andrea
Dottorato (corsi e scuole):Ciclo 20 > Scuole per il 20simo ciclo > SCIENZE DELLE PRODUZIONI VEGETALI > PROTEZIONE DELLE COLTURE
Data di deposito della tesi:Gennaio 2008
Anno di Pubblicazione:Gennaio 2008
Parole chiave (italiano / inglese):pine processionary moth, host-plants, climate change, cold hardiness, carbon dioxide, snow cover, larval performance,
Settori scientifico-disciplinari MIUR:Area 07 - Scienze agrarie e veterinarie > AGR/11 Entomologia generale e applicata
Struttura di riferimento:Dipartimenti > Dipartimento di Agronomia Ambientale e Produzioni Vegetali
Codice ID:322
Depositato il:07 Ott 2008
Simple Metadata
Full Metadata
EndNote Format

Bibliografia

I riferimenti della bibliografia possono essere cercati con Cerca la citazione di AIRE, copiando il titolo dell'articolo (o del libro) e la rivista (se presente) nei campi appositi di "Cerca la Citazione di AIRE".
Le url contenute in alcuni riferimenti sono raggiungibili cliccando sul link alla fine della citazione (Vai!) e tramite Google (Ricerca con Google). Il risultato dipende dalla formattazione della citazione.

1. Addo-Bediako, A., Chown, S.L. & Gaston, K.J. (2000) Thermal tolerance, climatic variability and latitude. Proceedings of the Royal Society of London B, 267, 739-745. Cerca con Google

2. Agosta, S.J. (2006) On ecological fitting, plant-insect associations, herbivore host shifts, and host plant selection. Oikos, 114, 556-565. Cerca con Google

3. Agrell, J., Anderson, P., Olezek, W., Stochmal, A. & Agrell, C. (2006) Elevated CO2 levels and herbivore damage alter host plant preferences. Oikos, 112, 63-72. Cerca con Google

4. Agrell, J., Kopper, B., McDonald, E.P. & Lindroth, R.L. (2005) CO2 and O3 effects on host plant preferences of the forest tent caterpillar (Malacosoma disstria). Global Change Biology, 11, 588-599. Cerca con Google

5. Aimi, A., Zocca, A., Minerbi, S., Hellrigl, K., Gatto, P. & Battisti, A. (2007) The outbreak of the pine processionary moth and their occurrence in Venosta/Vinschgau. Forest Observer, 2, 69-88. Cerca con Google

6. Andrew, N.R. & Hughes, L. (2007) Potential host colonization by insect herbivores in a warmer climate: a transplant experiment. Global Change Biology, 12, 1539-1549. Cerca con Google

7. Asshoff, R., & Hättenschwilwer, S. (2005) Growth and reproduction of the alpine grasshopper Miramella alpina feeding on CO2-enriched dwarf shrubs at treeline. Oecologia, 142, 191-201. Cerca con Google

8. Awmack, C.S. & Leather, S.R. (2002) Host plant quality and fecundity in herbivorous insects. Annual Review of Entomology, 47, 817-844. Cerca con Google

9. Ayres, M.P. & Lombardero, M.J. Assessing the consequences of global change for forest disturbance form herbivores and pathogens. The Sciences of the Total Environment, 262, 263-286. Cerca con Google

10. Bale, J.S. (1993) Classes of insect cold hardiness. Functional Ecology, 7, 751-753. Cerca con Google

11. Bale, J.S., Maters, G.J., Hodkinson, I.D., Anwmack, C., Bezemer, T.M., Brown, V.K., Butterfield, J., Buse, A., Coulson, J.C., Farrar, J., Good, J.E.G., Harrington, R., Hartey, S., Jones, T.H., Lindroth, R.L., Press, M.C., Symarnioudis, I., Watt, A.D. & Whittaker, J.B. (2002) Herbivory in global climatic change researches: direct effects of rising temperature on insect herbivores. Global Change Biology, 8, 1-16. Cerca con Google

12. Barre, F., Milsant, F., Palasse, C., Prigent, V., Goussard, F. & Geri, C. (2002) Preference and performance of the sawfly Diprion pini on host and non-host plants of the genus Pinus. Entomologia Experimentalis et Applicata, 102, 229-237. Cerca con Google

13. Battisti, A., Stastny, M., Netherer, S., Robinet, C., Schopf, A., Roques, A. & Larsson, S., (2005) Expansion of geographic range in the prossionary moth caused by increased winter temperatures. Ecological Applications, 15, 2084-2096. Cerca con Google

14. Battisti, A., Stastny, M., Buffo, E. & Larsson, S. (2006) A rapid altitudinal range expansion in the pine processionary moth produced by the 2003 climatic anomaly. Global Change Biology, 12, 662-671. Cerca con Google

15. Bauce, E., Bidon, Y., Berthiaume, R. (2002) Effects of food quality an Bacillus thuringiensis on feeding behaviour, food utilization and larval growth of spruce budworm Choristoneura fumiferana (Clem.) when exposed as fourth- and sixth-instar larvae. Agricultural and Forest Entomology, 4, 57-70. Cerca con Google

16. Beaumont, L.J. & Hughes, L. (2002) Potential changes in the distributions of latitudinally restricted Australian butterfly species in response to climate change. Global Change Biology, 8, 954-971. Cerca con Google

17. Benigni, M. & Battisti, A. (1999) Climate change and the pine processionary caterpillar: adaptation of a defoliator to changing environmental conditions. Italia Forestale e Montana, 54, 76-86. Cerca con Google

18. Beniston, M. (1997) Variations of snow dept and duration in the Swiss Alps over the last 50 years: links to change in large-scale climatic factors. Climatic Change, 36, 281-300. Cerca con Google

19. Bernays, E.A. & Chapman, R.F. (1994) Host-plant selection by phytophagous insects. Chapman & Hall, New York, U.S.A. Cerca con Google

20. Björkman, C., Larsson, S. & Bommarco, R. (1997) Oviposition preferences in pine sawflies: a trade-off between larval growth and defence against natural enemies. Oikos, 79, 45-52. Cerca con Google

21. Brown, J.H., Stevens, G.C. & Kaufman, D.M. (1996) The geographic range: size, shape, boundaries, and internal structure. Annual Review of Ecology and Systematics, 27, 597-623. Cerca con Google

22. Brown, R.D. (2000) Northern hemisphere snow cover variability and change, 1915-97. Journal of Climate, 13, 2339-2355. Cerca con Google

23. Buffo, E., Battisti, A., Stastny, M. & Larsson, S. (2007) Temperature as predictor of survival of the pine processionary moth in the Italian Alps. Agricultural and Forest Entomology, 9, 65-72. Cerca con Google

24. Calas, J. (1900) La processionnaire du pin (Cnethocampa pityocampa Schiff.) - Moeurs et métamorphoses, ravages et destructions. Imprimerie Nationale, Paris, France. Cerca con Google

25. Carriere, Y. (1998) Constraints on the evolution of host choice by phytophagous insects. Oikos, 82, 401-406. Cerca con Google

26. Carroll, A.L., Taylor, S.W., Régnière, J. & Safranyik, L. (2004) Effects of climate change on range expansion by the mountain pine beetle in British Columbia. In Shore, T.L., Brooks, J.E., Stone, J.E., editors. Mountain pine beetle symposium: challenges and solution. October 30-31, 2003, Kelowna, British Columbia. Victoria, BC Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, Information Report BC-X-339; 223-232. Cerca con Google

27. Chen, F., Wu, G., Ge, F., Parajulee, M.N. & Shrestha, R.B. (2005) Effects of elevated CO2 and transgenic Bt cotton on plant chemistry, performance, and feeding of an insect herbivore, the cotton bollworm. Entomologia Experimentalis et Applicata, 115, 341-350. Cerca con Google

28. Chornesky, E.A., Bartuska, A.M., Aplet, G.H., Britton K.O., Cummings-Carlson, J., Davis, F., Eskow, J., Gordon, D.R., Gottoschalk, K.W., Haack, R.A., Hasen, A.J., Mack, R.N., Rahel, F.J., Shannon M.A., Wainger, L.A. & Wigley, T.B. (2005) Science priorities for reducing the threat of invasive species to suitable forestry. Bioscience, 55, 335-348. Cerca con Google

29. Chown, S.L. & Nicholson, S.W. (2004) Insect Physiological ecology, pp. 254. Oxford University Press, U.K. Cerca con Google

30. Church J.A. & White N.J. (2006) A 20th century acceleration in global sea-level rise. Geophysical researches letters, 33, L01602, doi:10.1029/2005GL024826 Cerca con Google

31. Courtney, S.P. (1982) Coevolution of pierid butterflies and their cruciferous foodplants. V. Habitat selection, community structure and speciation. Oecologia, 54, 101-107. Cerca con Google

32. Courtney, S.P. & Kibota, T.T. (1989). Mother doesn't know best: selection of hosts by ovipositing insects. Insect-plant interactions, Vol. II. (ed. by Bernays, E.A.), pp. 161-188. CRC Press, Boca Raton, FL, U.S.A. Cerca con Google

33. Coviella, C.E., Stipanovic, R.D. & Trumble, J.H. (2002) Plant allocation to difensive compounds: interactions between elevated CO2 and nitrogen in transgenic cotton plants. Journal of Experimental Botany, 53, 323-331. Cerca con Google

34. Crozier, L. (2004) Warmer winters drive butterfly range expansion by increasing survivorship. Ecology, 84, 231-241. Cerca con Google

35. Cunningham, C., Zimmermann, N.E., Stoeckli, V. & Bugmann H. (2006) Growth of Norway spruce (Picea abies L.) saplings in subalpine forests in Switzerland: does spring climate matter? Forest Ecology and Management, 228, 19-32. Cerca con Google

36. Dallwitz, M.J. (1984) The influence of constant and fluctuating temperatures development rate and survival of pupae of the Australian sheep blowfly Lucilia cuprina. Entomological Experiment Applications, 36, 89-95. Cerca con Google

37. Davies, Z.G., Wilson, R.J., Coles, S. & Thomas, C.D. (2006) Changing habitat association of a thermally constrained species, the silver skipper butterfly, in response to climate warming. Journal of Animal Ecology, 75, 247-256. Cerca con Google

38. Démolin, G. (1969a) Bioecologia de la procesionaria del pino Thaumetopoea pityocampa Schiff. Incidencia de los factores climaticos. Boletin del Servicio de Plagas Forestales, 12, 9-24. Cerca con Google

39. Démolin, G. (1969b) Comportement des adultes de Thaumetopoea pityocampa Schiff.: dispersion spatiale, importance ecologique. Annales des Sciences Forestieres, 26, 81-102. Cerca con Google

40. Denno, R.F., Larsson, S. & Olmstead, K.L. (1990) Role of enemy-free space and plant quality in host-plant selection by willow beetles. Ecology, 71, 124-137. Cerca con Google

41. Dethier, V.G. (1954) Evolution of feeding preferences in phytophagous insects. Evolution, 8, 33-54. Cerca con Google

42. Devkota, B. & Schmidt, G.H. (1990) Larval development of Thaumetopoea pityocampa (Den. & Schiff.) (Lep., Thaumetopoeidae) from Greece as influenced by different host plants under laboratory conditions. Journal of Applied Entomology, 109, 321-330. Cerca con Google

43. Díaz, S., Fraser, L.H., Grime, J.P. & Falczuk, V. (1998) The impact of elevated CO2 on plant-herbivore interactions: experimental evidence of moderating effects at the community level. Oecologia, 117, 177-186. Cerca con Google

44. Díaz-Fleischer F & Aluja, M. (2003) Behavioural plasticity in relation to egg and time limitation: the case of two fly species in the genus Anastrepha (Diptera: Tephritidae). Oikos, 100, 125-133. Cerca con Google

45. Dirnböck, T., Dullingher, S. & Gabherr, G. (2003) A regional impact assessment of climate and land-use change on alpine vegetation. Journal of Biogeography, 30, 401-417. Cerca con Google

46. Gordo, O. & Sanz, J.J. (2005) Phenology and climate change: a long term study in a Mediterranean locality. Oecologia, 146, 484-495. Cerca con Google

47. Duman, J.G., Wu, D.W., Xu, L., Tursman, D. & Olsen, T.M. (1991) Adaptations of insect to subzero temperatures. The Quarterly Review of Biology, 66, 347-410. Cerca con Google

48. Feely, A.R., Sabine C.L., Lee K., Bereleson, W., Kleypas, W., Fabry, V.J. & Millero, F.J. (2004) Impact of anthropogenic CO2 on the CaCO2 system in the Oceans. Science, 305, 362-366 Cerca con Google

49. Fitzgerald, T.D. & Blas, X.P.I. (2003) Mid-winter foraging of colonies of the pine processionary caterpillar Thaumetopoea pityocampa Schiff. (Thaumetopoeidae). Journal of the Lepidopterists' Society, 57, 161-167. Cerca con Google

50. Floater, G.J. & Zalucki, M.P. (2000) Habitat structure and egg distributions in the processionary caterpillar Ochrogaster lunifer: lessons for conservation and pest management. Journal of Applied Ecology, 37, 87-99. Cerca con Google

51. Franco, A.M.A., Hill, K.H., Kitsche, C., Collingham, Y.C., Roy, D.B., Fox, R., Huntley, B. & Thomas, C.D. (2006) Impacts of climate change warming and habitat loss on extinction at species' low-latitude range boundaries. Global Change Biology, 12, 1545-1553. Cerca con Google

52. Führer, E. (2000) Forest functions, ecosystem stability and management. Forest Ecology and Management, 132, 29-38. Cerca con Google

53. Gaston, K.J. (2003) The structure and dynamics of the geographic ranges. Oxford University, New York. Cerca con Google

54. Geri, C. & Millier, C. (1985) Evaluation of the populations of the pine processionary caterpillar (Thaumetopoea pityocampa) in Mont Ventoux, France. Annales des Sciences Forestieres, 42, 143-183. Cerca con Google

55. Gitay, H., Suarez, A., Waston, R.T., Anisimov, O., Chapin, F.S., Cruz, R.V., Fynlayson, M., Hoenstein , W.G., Insarov, G., Kundzewicz, Z., Leemans, R., Magazada, C., Nurse, L., Noble, I., Price, J., Ravindranath, N.H., Root, T.L., Scholes, B., Villamizar, A. & Rumei, X. (2002) Climate change and biodiversity. Intergovernmental Panel on Climate Change, Geneva, April 2002. IPCC Technical Paper V, pp. 77 Cerca con Google

56. Gomi, T., Nagasaka, M., Fukuda, T. & Hagihara, H. (2007) Shifting of the life cycle and life-history traits of the fall webworm in relation to climate change. Entomologia Experimentalis et Applicata, 125, 179-184. Cerca con Google

57. Gordo, O. & Sanz, J.J. (2005) Phenology and climate change: a long term study in a Mediterranean locality. Oecologia, 146, 484-495. Cerca con Google

58. Goverde, M. & Erhardt, A. (2003) Effects of elevated CO on development and larval food-plant preference in the butterfly Coenonympha pamphilus (Lepidoptera, Satyridae). Global Change Biology, 9, 74-83. Cerca con Google

59. Goverde, M., Bazin, A., Shykoff, J.A. & Erhardt, A. (1999) Influence of leaf chemistry of Lotus corniculatus (Fabaceae) on larval development of Polyommatus icarus (Lepidoptera, Lyccaenidae): effects of elevated CO2 and plant genotype. Functional Ecology, 13, 801-810. Cerca con Google

60. Goverde, M., Erhardt, A. & Niklaus, P. A. (2002) In situ development of a satyrid butterfly on calcereous grassland exposed to elevated carbon dioxide. Ecology, 83, 1399-1411. Cerca con Google

61. Griffin, K.L, Winner, W.E. & Strain B.R. (1996) Construction cost of loblolly and ponderosa pines leaves grown with varying carbon and nitrogen availability. Plant, Cell and Environment, 19, 729-738. Cerca con Google

62. Gutiérrez, D. & Thomas, C.D. (2000) Marginal range expansion in a host-limited butterfly species Gonepteryx rhamni. Ecological Entomology, 25, 165-170. Cerca con Google

63. Hagstrum, D.W. & Milliken, G.A. (1991) Modelling differences in insect developmental times between constant and fluctuating temperatures. Annals of the Entomological Society of America, 84, 369-379. Cerca con Google

64. Hamilton, J.G., Zangerl, A.R., Berenbaum, M.R., Pippen, J., Aldea, M. & DeLucia, E.H. (2004) Insect herbivory in an intact forest understory under experimental CO2 enrichment. Oecologia, 138, 566-573. Cerca con Google

65. Hampe, A. & Petit, R.J. (2005) Conserving biodiversity under climate change: the rear edge matters. Ecology Letters, 8, 461-467.+ Cerca con Google

66. Handa, I.T., Körner, C. & Hättenschwiller, S. (2005) Carbon economy in treeline conifers: a test of the carbon limitation hypothesis by in situ CO2 enrichment and defoliation. Ecology, 86, 1288-1300. Cerca con Google

67. Hansen, J. Sato, M., Ruedy, R. Lo, K., Lea, D.W. & Melinda-Elizade, M. (2006) Global temperature change. Proceedings of the National Academic of Sciences, 103, 14288-14293. Cerca con Google

68. Hanski, I., Erälahti, C., Kankare, M., Ovaskainen, O. & Sirén, H. (2004) Variations in migrations propensity among individuals maintained by landscape structure. Ecology Letters, 7, 958-966. Cerca con Google

69. Hanski, I., Saastamoinen, M. & Ovaskainen, O. (2006) Dispersal-related life-history trade-offs in a butterfly metatpopulation. Journal of Animal Ecology, 75, 91-100. Cerca con Google

70. Harrington, R., Fleming, R.A. & Woiwod I.A. (2001) Climate change impacts on insect management and conservation in temperate regions: can they be predicted? Agricultural and Forest Entomology, 3, 233-240. Cerca con Google

71. Hättenschwiller, S., Handa, I.T., Egli, L., Asshoff, R., Ammann, W. & Korner, C. (2002) Atmospheric CO2 enrichment of alpine treeline conifers. New Phytologist, 156, 363-575. Cerca con Google

72. Hickling, R., Roy, D.B., Hill J.K & Thomas, C.D. (2005) A northward shift of range margins in British Odonata. Global Change Biology, 11, 502-506. Cerca con Google

73. Hickling, R., Roy, B.R., Hill, J.K., Fox, R. & Thomas C.T. (2006) The distributions of a wide range of taxonomic groups are expanding polewards. Global Change Biology, 12, 450-455. Cerca con Google

74. Hill, J.K., Thomas, C.D. & Huntley, B. (1999) Climate change availability determine 20th century changes in a butterfly's range margin. Proceedings: Biological Sciences, 266, 1197-1206. Cerca con Google

75. Hodar, J.A., Castro, J. & Zamora, R. (2003) Pine processionary caterpillar Thaumetopoea pytiocampa as a new relict Meditteanean Scots pine forests under climatic warming. Biological Conservation, 110, 123-129. Cerca con Google

76. Hodar, J.A., Zamora, R. & Castro, J. (2002) Host utilisation by moth and larval survival of pine processionary caterpillar Thaumetopoea pityocampa in relation to food quality in three Pinus species. Ecological Entomology, 27, 292-301. Cerca con Google

77. Hodgkins, G.A. & Dudley, R.W. (2006) Changes in late-winter snowpack depth, water equivalent, and density in Maine, 1926-2004. Hydrological Processes, 20, 741-751. Cerca con Google

78. Hodkinson, I.D. (1999) Species response to global environment change or why ecophysiological models are important: a reply to Davies et al.. Journal of Animal Ecology, 68, 1259-1262. Cerca con Google

79. Honay, O., Verheyen, K., Butaye, J., Jacquemyn, H., Bossuyt, B. & Hermy, M. (2002) Possible effects of habitat fragmentation and climate change on the range of forest plant species. Ecology Letters, 5, 525-530. Cerca con Google

80. Houghton, J.T., Dring, J., Griggs, D.J, Nouguer, M., van der Linden, J.J., Dai, X., Maskell, K. & Johnson, C.A. (2001) Climate change 2001: The Scientific Basis. Contribution of Working Group 1 to Third Report of the International Panel on Climate Change. Cambridge University Press, New York. Cerca con Google

81. Huchon, H. & Démolin, G. (1970) La bioécologie de la processionaire du pin. Dispersion potentielle. Dispersion actuelle. Phytoma, 23, 11-20. Cerca con Google

82. Hughes, C.L., Hill, J.K. & Dytham, C. (2003) Evolutionary trade-offs between reproduction and dispersal in populations at expanding range boundaries. Proceedings of the Royal Society London B, 270, S147-S150. Cerca con Google

83. Hughes, C.L., Dytham, C. & Hill, J.K. (2007) Modelling and analysing evolution of dispersal in populations at expanding range boundaries, Ecological Entomology, 32, 437-445. Cerca con Google

84. Huhn, G. & Schulz, H. (1996) Contents of free amino acids in scots pine needles from field sites with different levels of nitrogen deposition. New Phytologist, 134, 95-101. Cerca con Google

85. Hunter, M.D. (2001) Effects of elevated atmospheric carbon dioxide on insect plant interactions. Agricultural and Forest Entomology, 3, 153-159. Cerca con Google

86. Inouye, D.W., Barr, B., Armitage, K.B. & Inouye, B.D. (2000) Climate change is affecting altitudinal migrants and hibernating species. Proceedings of the National Academy of Sciences, 97, 1630-1633. Cerca con Google

87. Jaenike, J. (1978) On optimal oviposition behaviour in phytophagous insects. Theoretical Population Biology, 14, 350-356. Cerca con Google

88. Jaenike, J. (1990) Host specialization in phytophagous insects. Annual Review of Ecology and Systematics, 21, 247-273. Cerca con Google

89. Jervis, M.A., Boggs, C.L. & Ferns, P.N. (2005) Egg maturation strategy and its associated trade-offs: a synthesis focusing on Lepidoptera. Ecological Entomology, 30, 359-375. Cerca con Google

90. Karl, T.R. & Trenberth, K.E. (2003) Modern climate change. Science, 302, 1719-1713. Cerca con Google

91. Karowe, D.N. (2007) Are a legume-feeding herbivores buffered against direct affects of elevated carbon dioxide on host plants? A test with the sulfur butterfly, Colias philodice. Global Change Biology, 13, 1-7. Cerca con Google

92. Kellomäki, S., Strandman, H., Nuutinen, T., Peltola, H., Korhonen, K.T. & Väisänen, H. (2005) Adaptation of forest ecosystems, forest and forestry to climate change. FINADAPT Working Paper 4, Finnish Environment Institute Mimeographs 334, Helsinki, 44 pp. Cerca con Google

93. Kiritani, K. (2006) Predicting impacts of global warming on population dynamics and distribution of arthropods in Japan. Population Ecology, 48, 5-12. Cerca con Google

94. Knepp, R.G., Hamilton, J.G., Mohan, J.E., Zangerl, A.R., Barenhaum, M.R. & DeLucia, E.H. (2005) Elevated CO2 reduces leaf damage by insect herbivores in a forest community. New Phytologist, 167, 207-218. Cerca con Google

95. Knepp, R.G., Hamilton, J.G., Zangerl, A. R., Berenbaum, M.R. & DeLucia E.H. (2007) Foliage of Oaks grown elevated CO2 reduces performance of Antheraea polyphemus (Lepidoptera: Saturniidae) Environmental Entomology, 36, 609-617. Cerca con Google

96. Koizumi, T., Fujiyama, N. & Katakura, H. (1999) Host-plant specificity limits the geographic distribution of thistle feeding ladybird beetles. Entomologia Experimentalis et Applicata, 93, 165-171. Cerca con Google

97. Konvicka, M., Maradova, M., Benes, J., Fric, Z. & Kepka, P. (2003) Uphill shifts in distribution of butterflies in the Czech Republic: effects of changing climate detected on a regional scale. Global Change & Biogeography, 12, 403-410. Cerca con Google

98. Kullman, L. (2002) Rapid recent range-margin rise of tree and shrub species in the Swedish Scandes. Journal of Ecology, 90, 68-77. Cerca con Google

99. Kuussaari, M., Singer, M. & Hanski, I. (2000) Local specialization and landscape-level influence on host use in an herbivorous insect. Ecology, 81, 2177-2188. Cerca con Google

100. Lamy, M. (1990) Contact dermatitis (erucism) produced by processionary caterpillars (genus Thaumetopoea). Journal of Applied Entomology, 110, 425-437. Cerca con Google

101. Larsen, J.B. (1995) Ecological stability of forest and sustainable silviculture. Forest Ecology and Management, 73, 85-96. Cerca con Google

102. Larsson, S. & Ekbom, B. (1995) Oviposition mistakes in herbivorous insects: confusion or a step towards a new host plant? Oikos, 72, 155-160. Cerca con Google

103. Laterneser, M. & Schneebeli, M. (2003) Long-term snow climate trends of the Swiss Alps (1931-99). International Journal Climatology, 23, 733-750. Cerca con Google

104. Laurent-Hervouet, N. (1986) Measurement of radial growth losses in some Pinus species caused by two forest defoliators. Part 1: The pine processionary caterpillar in the Mediterranean region. Annales des Sciences Forestieres, 43, 239-262. Cerca con Google

105. Leather, S.R. & Burnand, A.C. (1987) Factors affecting life-history parameters of the pine beauty moth, Panolis flammea (D&S): the hidden costs of reproduction. Functional Ecology, 1, 331-338. Cerca con Google

106. Leather, S.R., Walters, K.F.A. & Bale, J.S. (1993) The Ecology of Insect Overwintering. Cambridge University Press, London. Cerca con Google

107. Lederberger S., Leadly P.W., Stöklin J., Baur B., (1998) Feeding behaviour of juvenile snails (Helix pomatia) to four plant species grown at elevated atmospheric CO2. Acta Oecologica, 19, 89-95. Cerca con Google

108. Levins, R. & MacArthur, R. (1969) An hypothesis to explain the incidence of monophagy. Ecology, 50, 910-911. Cerca con Google

109. Leyva, K.J., Clancy, K.M. & Price, P.W. (2000) Oviposition preference and larval performance of the western spruce budworm (Lepidoptera: Tortricidae). Environmental Entomology, 29, 281-289. Cerca con Google

110. Luterbacher, J., Dietrich, D., Xoplaki, E., Grosjean, M. & Wanner, H. (2004) European seasonal and annual temperature variability, trends, and extremes since 1500. Science, 303, 1499-1503. Cerca con Google

111. Mangel, M. (1989) An evolutionary interpretation of the motivation to oviposit. Journal of Evolutionary Biology, 2, 157-172. Cerca con Google

112. Masters, G.J., Brown, V.K., Clarke, I.P., Whittaker, J.B., Hollier J.A. (1998) Direct and indirect effects of climate change on insect herbivores: Auchenorryncha (Homoptera). Ecological Entomology, 23, 45-52. Cerca con Google

113. Masutti, L. & Battisti, A., 1990. Thaumetopoea pityocampa (Den. & Schiff.) in Italy. Bionomics and perspectives of integrated control. Journal of Applied Entomology, 110, 229-234. Cerca con Google

114. Mattson Jr., W.L. (1980) Herbivory in relation to plant nitrogen content, Annual Review of Ecology and Systematic, 11, 119-161. Cerca con Google

115. Mayhew, P.J. (1997) Adaptive patterns of host-plant selection by phytophagous insects. Oikos, 79, 417-428. Cerca con Google

116. McCarty, J.P. (2001) Ecological Consequences of recent climate change. Conservation Biology, 15, 320-331. Cerca con Google

117. Menzel, A., Sparks, T.H., Estrella, N., Koch, E., Aasa, A., Ahas, R., Alm-Kübler, K., Bissolli, P., Braslavská, O., Briede, A., Chmielewski, F.M., Crepinsek, Z., Curnel, Y., Dahl, A., Defila, C., Donnelly, A., Filela, Y., Jatczak, K., Mage, F., Mestre, A., Nordli, Ø., Peñula, J., Pirinen, P., Remišová, V., Scheifinger, H., Striz, M., Susnik, A., Van Vliet, A.J.H., Wielgolaski, F.E., Zach, S. & Zust, A. (2006)European phenological response to climate change matches the warming pattern. Global Change Biology, 12, 1969-1976. Cerca con Google

118. Merrill, R.M., Guitiérrez D., Lewis, O.T., Guitiérrez, J., Dìez, S.B. & Wilson, R.J. (2008) Combined effects of climate and biotic interactions on the elevations range of phytophagous insect. Journal of Animal Ecology, 77, 145-155. Cerca con Google

119. Mouna, M. (2005) Overwiew of entomological research on the forest ecosystem of the regions south of the Mediterranean Sea. Entomological Researches in Mediterranean Forest Ecosystem (ed by F. Lieutier & D. Ghaioule), pp. 107-116. INRA Editions, Paris, France. Cerca con Google

120. Musolin, D.L. (2007) Insect in a warmer world: ecological, physiological and life-history responses of true bugs (Heteroptera) to climate change. Global Change Biology, 13, 1565-1585. Cerca con Google

121. Nedv?d, O. (1998) Modelling the relationship between cold injury and accumulation degree days in terrestrial arthropods. Cryoletters, 19, 267-274. Cerca con Google

122. Nedv?d, O. (2000) Show white and the seven dwarfs: a multivariate approach to classification of cold tolerance. Cryoletters, 21, 339-348. Cerca con Google

123. Norby, R.J., Wullschleger, S.D., Gundersson, C.A., Johnson, D.W. & Ceulamans, R. (1999) Tree responses to rising CO2 in field experiment: implications for future forests. Plant, Cell And Environment, 22, 683-714. Cerca con Google

124. Parmesan, C., Ryrholm, N., Stefanescu, C., Hill, J.K, Thomas C.D., Descimon H., Huntley, B., Kaila, L., Kullberg, J., Tammaru, T., Tennet, W.J., Thomas, J.A. & Warren, M. (1999) Polewards shifts in geographical ranges of butterfly species associated with regional warming. Nature, 399, 579-583. Cerca con Google

125. Parmesan, C. & Yohe, G. (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature, 421, 37-42. Cerca con Google

126. Parmesan, C. (2006) Ecological and evolutionary response to recent climate change. Annual Review of Ecology, Evolution, and Systematic, 37, 637-669. Cerca con Google

127. Pérez-Contreras, T., Soler, J.J. & Soler M. (2003) Why do pine processionary caterpillars Thaumetopoea pityocampa (Lepidoptera, Thaumetopoeidae) live in large groups? An experimental study. Annales Zoologici Fennici, 40, 505-515. Cerca con Google

128. Preszler, R.W. & Price, P.W. (1988) Host quality and sawfly population: a new approach to life table analysis. Ecology, 69, 2012-2020. Cerca con Google

129. Price, D.T., Zimmermann, N.E., van der Meer, P.J., Lexer, M.J., Leadley, P., Jorritsma, I.T.M., Schaber, J., Clark, D.F., Lasch, P., Mcnulty, S., Wu, J. & Smith, B., (2001) Regeneration in gap models: priority issues for studying forest responses to climate change. Climatic Change, 51, 475-508. Cerca con Google

130. Rausher, M.D. (1979) Larval habitat suitability and oviposition preference in 3 related butterflies. Ecology, 60, 503-511. Cerca con Google

131. Renault, D., Salin, C., Vannier, G. & Vernon, P. (2002) Survival at low temperature in insect: what is the ecological significance of the supercooling point? Cryoletters, 23, 217-228. Cerca con Google

132. Renwick, J.A.A. & Chew, F.S. (1994) Oviposition behaviour in Lepidoptera. Annual Review of Entomology, 39, 377-400. Cerca con Google

133. Richardson, S.J., Press, M.C., Parsons, A.N. & Hartely, S.E. (2002) How do nutrients and warming impact on plant communities and their insect herbivores? A 9-year study from a sub artic heath. Journal of Ecology, 90, 544-556. Cerca con Google

134. Robinet, C., Baier, P., Pennerstorfer, J., Schopf, A. & Roques, A. (2007) Modelling the effects of climate change on the potential feeding activity of Thaumetopoea pityocampa (Den. & Schiff.) (Lep., Notodontidae) in France. Global Ecology and Biogeography, 16, 460-471. Cerca con Google

135. Roininen, H. & Tahvanainen, J. (1989) Host selection and larval performance of two willow-feeding sawflies. Ecology, 70, 129-136. Cerca con Google

136. Root, T.L., Price, J.T., Hall, K.R., Schneider, S.H., Rosenzweig, C. & Pounds, J.A. (2003) Fingerprints of global warming on wild animals and plants. Nature, 421, 57-60. Cerca con Google

137. Roques, A., Boivin, S. & Auger-Rozenberg, M. A. (2002). Douglas-fir vs Lodgepole pine in Europe: colonization of exotic conifer species by naïve phytophagous insect depends on taxonomic isolation. Pacific Temperate Conifers International Symposium, IUFRO Working Parties S2.02.05 and S2.01.06, Orléans, France, 27-30 May 2002 Cerca con Google

138. Rosenheim, J.A. (1999) Characterizing the cost of oviposition in insects: a dynamic model. Evolutionary Ecology, 13, 141-165. Cerca con Google

139. Rosenzweig, C., Casassa, G., Karoly D.J., Imeson, A., Liu, C., Menzel, A., Rawlins, S., Root, T.L., Seguin, B. & Tryanowski, P. (2007) Assessment of observed changes and responses in natural and managed systems. Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Parry, M.L., Canziani, O.F., Palutikof, J.P., van der Linden, P.J. & Hanson, C.E. Eds., Cambridge University Press, Cambridge, UK, 79-131. Cerca con Google

140. Rousseaux, M.C., Julkunen-Tiitto, R., Sealrles, P.S., Scopel, A.L., Aphalo, P.J. & Ballaré, C.L. (2004) Solar UV-B radiation affects leaf quality and insect herbivory in the southern beech tree Nothofagus antartica. Oecologia, 138, 505-512. Cerca con Google

141. Roy, D.B. & Sparks, T.H. (2000) Phenology of British butterflies and climate change. Global Change Biology, 6, 407-416. Cerca con Google

142. Roy, D.B., Rothery, P., Moss., D., Pollard, E. & Thomas, J.A. (2001) Butterfly numbers and weather: predicting historical trends in abundance and the future effects of climate change. Journal of Animal Ecology, 70, 201-217. Cerca con Google

143. Runion, G.B., Entry, J.A., Prior, S.A., Mitchell, R.J.& Rogers, H.H. (1999) Tissue chemistry and carbon allocation in seedlings of Pinus palustris subjected to elevated atmospheric CO2 and water stress. Tree Physiology, 19, 329-335. Cerca con Google

144. Salvato, P., Battisti, A., Concato, S., Masutti, L., Patarnello, T. & Zane, L. (2002) Genetic differentiation in the winter moth (Thaumetopoea pytiocampa-wilkinsoni complex), inferred by AFLP and mitochondrial DNA markers. Molecular Ecology, 11, 2435-2444. Cerca con Google

145. Samways, M. (2007) Insect conservation: a synthetic management approach. Annual Review of Entomology, 52, 465-487. Cerca con Google

146. Scheirs, J. & De Bruyn, L. (2002) Integrating optimal foraging and optimal oviposition theory in plant-insect research. Oikos, 96, 187-191. Cerca con Google

147. Scheirs, J., De Bruyn, L. & Verhagen, R. (2000) Optimization of adult performance determines host choice in a grass miner. Proceedings of the Royal Society of London Series B, 267, 2065-2069. Cerca con Google

148. Schmidt, G.H., Mirchev, P. & Tsankov, G. (1993) The egg parasitoid of Thaumetopoea pytiocampa in the Atlas mountains near Marrakech (Morocco). Phytoparasitica, 25, 275-281. Cerca con Google

149. Schönenberger, W. & Frey, W. (1988) Untersuchungen zur Ökologie und Technik der Hochlagenaufforstung. Forschungsergebnisse aus dem Lawinenanrissgebiet Stillberg. Schweizerische Zeitschrift für das Forstwesen, 139, 735–820. Cerca con Google

150. Schopf, R. & Avtzis, N. (1987) The importance of needle compounds in the predisposition of five pine species to Thaumetopoea pityocampa (Schiff.). Journal of Applied Entomology, 103, 340-350. Cerca con Google

151. Scriber, J.M. & Ording, G.J. (2005) Ecological speciation without host plant specialization; possible origins of a recently described cryptic Papilio species. Entomologia Experimentalis et Applicata, 115, 247-263. Cerca con Google

152. Shädler, M., Roeder, M., Brandl, R. & Matthies, D. (2007) Interacting effects of elevated CO2 nutrient availability and plant species on a generalist invertebrate herbivore. Global Change Biology, 13, 1005-1015. Cerca con Google

153. Simberloff, D. (2000) Global change and introduced species in United States forests. The Science of the Total Environment, 262, 253-361. Cerca con Google

154. Sinclair, B.J. (1999) Insect cold tolerance: how many kinds of frozen? European Journal of Entomology, 96, 157-164. Cerca con Google

155. Sinclair, B.J., Vernon, P. Klok, C.J. & Chown, S.L. (2003) Insects at low temperatures: ecological perspective. Trends in Ecology and Evolution, 18, 257-262. Cerca con Google

156. Sokal, R.R. & Rohlf, F.J. (1995) Biometry. Freeman, New York, U.S.A. Cerca con Google

157. Solomon, S., Qin, D., Manning M., Alley, R.B., Berntsen, T., Bindoff, N.L., Chen, Z., Chidthaisong, A., Gregory, J.M., Hegerl, G.C., Heimann, M., Hewitson, B., Hoskins, B.J., Joos, F., Jouzel, J., Kattsov, V., Lohmann, U., Matsuno, T., Molina, M., Nicholls, N., Overpeck, J., Raga, G., Ramaswamy, V., Ren, J., Rusticucci M., Somerville, R., Stocker, T.F., Whetton, P., Wood, R.A. & Wratt D., (2007) Technical Summary. In: Climate change 2007: The Physical Sciences Basis. Contribution of working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change [Salomon, S., D. Qin, M., Manning, Z., Chen, M. Marquis, K.B. Averyt, M Tignor H.L. Miller (eds)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA. . Cerca con Google

158. Stamp, J.A., Krishnan, V.V. & Reid, M.L. (2005) Search costs and habitat selection by dispersers. Ecology, 86, 510-518. Cerca con Google

159. Stastny, M., Battisti, A., Petrucco-Toffolo, E., Schlyter, F. & Larsson, S. (2006) Host plant use in the range expansion of the pine processionary moth, Thaumetopoea pityocampa. Ecological Entomology, 31, 481-490. Cerca con Google

160. Stefanescu, C., Peñula, J. & Filella, I. (2003) Effects of climatic change on the phenology of butterflies in the northwest Mediterranean Basin. Global Change Biology, 9, 1494-1506. Cerca con Google

161. Stiling, P. & Cornalissen, T. (2007) How does elevated carbon dioxide (CO) affect plant-herbivore interactions? A field experiment and meta-analysis of CO-mediated changes on plant chemistry and herbivore performance. Global Change Biology, 13, 1-20. Cerca con Google

162. Strong, D.R., Lawton, J.H. & Southwood, T.R.E. (1984) Insects on Plants: Community Patterns and Mechanisms. Blackwell, Oxford, U.K. Cerca con Google

163. Tanton, M.T. (1962) The effect of leaf "toughness" on the feeding of larvae of the mustard beetle Phaedon cochleariae Fab. Entomologia Experimentalis et Applicata, 5, 74-78. Cerca con Google

164. Tenow, O., Nilssen, A.C., Holmgren, B. & Elverums, F. (1998) An insect (Argyresthia retienella, Lep., Yponomeutidae) outbreak in northern birch forest, released by climatic changes? Journal of Applied Ecology, 36, 111-122. Cerca con Google

165. Theurillat, J.P. & Guisan, A. (2001) Potential impact of climatic change on vegetation in the European Alps: a review. Climatic Change, 50, 77-19. Cerca con Google

166. Thomas, C.D., Bodsworth, E.J., Wilson, R.J., Simmons, A.D., Davies, Z.G., Musche, M. & Conradt, L. (2001) Ecological and evolutionary processes at expanding range margins. Nature, 411, 577-581. Cerca con Google

167. Thomas, C.D., Franco, A.M.A. & Hill, J.K. (2006) Range retractions and extinction in the face of climate change. Trends in Ecology and Evolution, 21, 415-416. Cerca con Google

168. Thompson, J.N. (1988) Evolutionary ecology of the relationship between oviposition preference and performance of offspring in phytophagous insects. Entomologia Experimentalis et Applicata, 47, 3-14. Cerca con Google

169. Thompson, J.N. & Pellmyr, O. (1991) Evolution of oviposition behaviour and host preference in Lepidoptera. Annual Review of Entomology, 36, 65-89. Cerca con Google

170. Thompson, J.N. (1996) Trade-offs in larval performance on normal and novel hosts. Entomologia Experimentalis et Applicata, 80, 133-139. Cerca con Google

171. Turnock, W.J., Boivin, G. & Ring, R.A., (1998) Interpopulation difference in the coldhardiness of Delia radicum (Diptera: Anthomyiidae). Canadian Entomologist, 131, 119-129. Cerca con Google

172. Turnock, W.J., & Fields, P.G. (2005) Winter climates and cold hardiness in terrestrial insects. European Journal of Entomology, 102, 561-576. Cerca con Google

173. Underwood, D.L.A. (1994) Intraspecific variability in host-plant quality and ovipositional preferences in Eucheira socialis (Lepidoptera, Pieridae). Ecological Entomology, 19, 245-256. Cerca con Google

174. Ungerer, M.J., Ayres, M.P. & Lombardero, M.J. (1999) Climate and the northern distribution limits of Dendroctonus frontalis Zimmermann (Coleoptera: Scolytidae). Journal of Biogeography, 26, 1133-1145. Cerca con Google

175. Van Asch, M. & Visser, E. (2007) Phenology of forest caterpillars and their host trees: the importance of synchrony. Annual Review of Entomology, 52, 37-55. Cerca con Google

176. Vanbergen, A.J., Hodgson, D.J., Thurlow, M., Hartley, S.E. & Watt, A.D. (2003) Food-plant effects on larval performance do not translate into differences in fitness between populations of Panolis flammea (Lepidoptera: Noctuidae). Bulletin of Entomological Research, 93, 553-559. Cerca con Google

177. Vanbergen, A.J., Raymond, B., Pearce, I.S.K., Watt, A.D., Hails, R.S. & Hartley, S.E. (2003) Host shifting by Operophtera brumata into novel environments leads to population differentiation in life-history traits. Ecological Entomology, 28, 604-612. Cerca con Google

178. Via, S. (1986) Genetic covariance between oviposition preference and larval performance in an insect herbivore. Evolution, 40, 778-785. Cerca con Google

179. Vidakovic, M. 1991. Conifers. Graficki Zavod Horvatske, Zagreb, Croatia. Cerca con Google

180. Visser, M.E. & Holleman, J.M. (2001) Warmer springs disrupt oak and moth phenology. Proceeding Royal Society of London B, 268, 289-294. Cerca con Google

181. Volney, W.J.A. & Fleming, R.A. (2000) Climate change and impacts of boreal forest insects, Agriculture, Ecosystem and Environment, 82, 283-294. Cerca con Google

182. Walther, G.R., Berger, S. & Sykes, M.T. (2005) An ecological "footprint" of climate change. Proceedings of the Royal Society B, 272, 1527-1432. Cerca con Google

183. Ward, S.A. (1987) Optimal habitat selection in time-limited dispersers. American Naturalist, 129, 568-579. Cerca con Google

184. West, S.A. & Cunningham, J.P. (2002) A general model for host plant selection in phytophagous insects. Journal of Theoretical Biology, 214, 499-513. Cerca con Google

185. Wiggins, D.A. (1997) Clutch size and oviposition site characteristics of a nocturnal African silk moth Imbrasia belina (Lepidoptera: Saturniidae). Annales Zoologici Fennici, 34, 235-240. Cerca con Google

186. Wiklund, C. (1975) Evolutionary relationship between adult oviposition preferences and larval host plant range in Papilio machaon, L. Oecologia, 18, 185-197. Cerca con Google

187. Williams, D.W. & Liebhold, A.M. (2002) Climate change and the outbreak ranges of two North American bark beetles. Agricultural and Forest Entomology, 4, 87-99. Cerca con Google

188. Williams, R.S, Lincoln, D.E. & Thomas, R.B. (1994) Loblolly pine grown under elevated CO2 effects early instar pine sawfly performance. Oecologia, 98, 64-71. Cerca con Google

189. Williams, R.S., Lincoln, D.E. & Norby, R.J. (2003) Development of gypsy moth larvae feeding on red maple saplings at elevated CO2 and temperature. Oecologia, 137, 114-122. Cerca con Google

190. Wilson, R.J., Gutiérrez, D., Gutiérrez D.M., Agudo R. & Monserrat, V.J. (2005) Changes to the elevation limits and extent of species ranges associated with climate change. Ecology Letters, 8, 1138-1146. Cerca con Google

191. Wu, G., Chen, F.J. & Ge, F. (2006) Response of multiple generations of cotton bollworm Helicoverpa armigera Hübner, feeding on spring wheat, to elevated CO2. Journal of Applied Entomology, 130, 2-9. Cerca con Google

192. Yukawa, J., Kiritani, K., Gyoutoku, N., Uechi, N., Yamaguchi, D. & Kamitani S. (2007) Distribution range shift of two allied species, Nezara viridula and N. antennata (Hemiptera: Pentatomidae), in Japan, possibly due to global warming. Applied Entomology and Zoology, 42, 205-215. Cerca con Google

193. Zamoum, M. & Démolin, G., (2005) The life cycle of the pine processionary caterpillar in the bioclimatic conditions of a sub-Saharan region. Entomological Researches in Mediterranean Forest Ecosystem (ed by F. Lieutier & D. Ghaioule), pp. 107-116. INRA Editions, Paris, France. Cerca con Google

194. Zeilstra, I., & Fisher, K. (2005) Cold tolerance in relation to developmental and adult temperature in a butterfly. Physiological Entomology, 30, 92-95. Cerca con Google

195. Zovi, D., Stastny, M., Battisti, A. & Larsson, S. (in press) Ecological costs on local adaptation of an insect herbivore imposed by host plants and natural enemies. Ecology. Cerca con Google

Download statistics

Solo per lo Staff dell Archivio: Modifica questo record