1 We investigated how modifications in winter and spring temperature conditions may affect the survival of a spring-hatching Lepidoptera, the oak processionary moth Thaumetopoea processionea. 2 Supercooling and chilling injury experiments indicate that eggs are especially cold hardy at the start of the winter period, although this ability is reduced later in the season. In the spring, young larvae are sufficiently cold hardy to ensure no direct mortality as a result of late frosts. 3 A comparison of phenological models shows that neonate larvae may await the unfolding of new oak leaves for relatively long periods (e.g. 1–30 days). Under both low (4 ◦C after 5 days at 16 ◦C) and high temperature experimental scenarios (constant 16 ◦C), the majority of neonate larvae can survive starvation for more than 2 weeks. 4 Larvae may also suffer from food depletion once their development has been initiated (e.g. during cold springs) if the threshold temperature for feeding is not reached for several consecutive days, or in the case of late frosts affecting foliage availability. When temperature is reduced to 4 ◦C, developing larvae become inactive and do not feed anymore; their starvation survival capability is reduced to approximately 2 weeks (cold spring hypothesis). At 16 ◦C, developing larvae that are deprived of food can only survive for 10 days (late frost hypothesis). 5 We conclude that, in the oak processionary moth, neonate larvae are relatively well adapted to early hatching relative to budburst, ensuring them the highest foliage quality for development. In some years, however, phenological asynchrony or cold spring conditions may affect the persistence of populations at the limits of the species’ range.
Andrewartha, The Distribution and Abundance of Animals. (1954)
van Asch Margriet, Visser Marcel E., Phenology of Forest Caterpillars and Their Host Trees: The Importance of Synchrony, 10.1146/annurev.ento.52.110405.091418
AUSSENAC G., Étude des gelées tardives en relation avec les problèmes de reboisement, 10.1051/forest/19730203
Bale J. S., Insects at Low Temperature: A Predictable Relationship?, 10.2307/2389267
Bale, Functional Ecology, 7, 751 (1993)
Bale Jeffery S., Masters Gregory J., Hodkinson Ian D., Awmack Caroline, Bezemer T. Martijn, Brown Valerie K., Butterfield Jennifer, Buse Alan, Coulson John C., Farrar John, Good John E. G., Harrington Richard, Hartley Susane, Jones T. Hefin, Lindroth Richard L., Press Malcolm C., Symrnioudis Ilias, Watt Allan D., Whittaker John B., Herbivory in global climate change research: direct effects of rising temperature on insect herbivores, 10.1046/j.1365-2486.2002.00451.x
Battisti Andrea, Stastny Michael, Netherer Sigrid, Robinet Christelle, Schopf Axel, Roques Alain, Larsson Stig, EXPANSION OF GEOGRAPHIC RANGE IN THE PINE PROCESSIONARY MOTH CAUSED BY INCREASED WINTER TEMPERATURES, 10.1890/04-1903
Briere Jean-Francois, Pracros Pascale, Le Roux Alain-Yves, Pierre Jean-Sebastien, A Novel Rate Model of Temperature-Dependent Development for Arthropods, 10.1093/ee/28.1.22
Campbell A., Frazer B. D., Gilbert N., Gutierrez A. P., Mackauer M., Temperature Requirements of Some Aphids and Their Parasites, 10.2307/2402197
Chaar Hatem, Colin Francis, Impact of late frost on height growth in young sessile oak regenerations, 10.1051/forest:19990506
Davidson J., On the Relationship between Temperature and Rate of Development of Insects at Constant Temperatures, 10.2307/1326
Denlinger David L., Lee Richard E., Yocum George D., Kukal Olga, Role of chilling in the acquisition of cold tolerance and the capacitation to express stress proteins in diapausing pharate larvae of the gypsy moth,Lymantria dispar, 10.1002/arch.940210404
Dissescu, Cercetari Asupra Bioecologiei Omizii Procesionare a Stejarului Thaumetopoea processionea L. (1968)
Duman John G., Walters Kent R., Sformo Todd, Carrasco Martin A., Nickell Philip K., Lin Xia, Barnes Brian M., Antifreeze and ice-nucleator proteins, Low Temperature Biology of Insects ISBN:9780511675997 p.59-90, 10.1017/cbo9780511675997.004
Feeny Paul, Seasonal Changes in Oak Leaf Tannins and Nutrients as a Cause of Spring Feeding by Winter Moth Caterpillars, 10.2307/1934037
Flot, Les Cahiers du DSF, 1, 29 (1998)
Gomez Bustillo, Revista de Lepidopterologia, SHILAP, 5, 283 (1978)
Groenen Frans, Meurisse Nicolas, Historical distribution of the oak processionary moth Thaumetopoea processionea in Europe suggests recolonization instead of expansion, 10.1111/j.1461-9563.2011.00552.x
Hanec Wm., Cold-hardiness in the forest tent caterpillar, Malacosoma disstria Hübner (Lasiocampidae, Lepidoptera), 10.1016/0022-1910(66)90158-2
Hoch Gernot, Toffolo Edoardo Petrucco, Netherer Sigrid, Battisti Andrea, Schopf Axel, Survival at low temperature of larvae of the pine processionary mothThaumetopoea pityocampafrom an area of range expansion, 10.1111/j.1461-9563.2009.00431.x
HUNTER MARK D., Differential susceptibility to variable plant phenology and its role in competition between two insect herbivores on oak, 10.1111/j.1365-2311.1990.tb00823.x
Hunter Alison F., Gypsy Moth Population Sizes and the Window of Opportunity in Spring, 10.2307/3544922
Hurrell, Monthly Notices of the Royal Astronomical Society, 255, 1 (1995)
Jans, Tijdschrift Voor Diergeneeskunde, 133, 424 (2008)
Karl Thomas R., Knight Richard W., Gallo Kevin P., Peterson Thomas C., Jones Philip D., Kukla George, Plummer Neil, Razuvayev Vyacheslav, Lindseay Janette, Charlson Robert J., A New Perspective on Recent Global Warming: Asymmetric Trends of Daily Maximum and Minimum Temperature, 10.1175/1520-0477(1993)074<1007:anporg>2.0.co;2
Klein Tank A. M. G., Wijngaard J. B., Können G. P., Böhm R., Demarée G., Gocheva A., Mileta M., Pashiardis S., Hejkrlik L., Kern-Hansen C., Heino R., Bessemoulin P., Müller-Westermeier G., Tzanakou M., Szalai S., Pálsdóttir T., Fitzgerald D., Rubin S., Capaldo M., Maugeri M., Leitass A., Bukantis A., Aberfeld R., van Engelen A. F. V., Forland E., Mietus M., Coelho F., Mares C., Razuvaev V., Nieplova E., Cegnar T., Antonio López J., Dahlström B., Moberg A., Kirchhofer W., Ceylan A., Pachaliuk O., Alexander L. V., Petrovic P., Daily dataset of 20th-century surface air temperature and precipitation series for the European Climate Assessment : EUROPEAN TEMPERATURE AND PRECIPITATION SERIES, 10.1002/joc.773
Klok C.Jaco, Chown Steven L, Interactions between desiccation resistance, host-plant contact and the thermal biology of a leaf-dwelling sub-antarctic caterpillar, Embryonopsis halticella (Lepidoptera: Yponomeutidae), 10.1016/s0022-1910(98)00052-3
Kramer , K. 1996 Phenology and growth of European trees in relation to climate change Landbouw-Universiteit Wageningen.
Lactin Derek J., Holliday N. J., Johnson D. L., Craigen R., Improved Rate Model of Temperature-Dependent Development by Arthropods, 10.1093/ee/24.1.68
Lebourgeois, Revue Forestière Française, 60, 323 (2008)
Liepe K, Growth-chamber trial on frost hardiness and field trial on flushing of sessile oak (Quercus petraea Liebl), 10.1051/forest:19930719
Lindsey Alton A., Newman James E., Use of Official Wather Data in Spring Time: Temperature Analysis of an Indiana Phenological Record, 10.2307/1933072
Lockhart James A., Optimum growth initiation time for shoot buds of deciduous plants in a temperate climate, 10.1007/bf00379317
Maier H., Spiegel W., Kinaciyan T., Krehan H., Cabaj A., Schopf A., Honigsmann H., The oak processionary caterpillar as the cause of an epidemic airborne disease: survey and analysis, 10.1111/j.1365-2133.2003.05673.x
Maksymov, Die Forstschdlinge Europas, 391 (1978)
Mansingh Ajai, Studies on insect dormancy. II. Relationship of cold-hardiness to diapause and quiescence in the eastern tent caterpillar,Malacosoma americanum(Fab.), (Lasiocampidae: Lepidoptera), 10.1139/z74-080
MENZEL ANNETTE, SPARKS TIM H., ESTRELLA NICOLE, KOCH ELISABETH, AASA ANTO, AHAS REIN, ALM-KÜBLER KERSTIN, BISSOLLI PETER, BRASLAVSKÁ OL'GA, BRIEDE AGRITA, CHMIELEWSKI FRANK M., CREPINSEK ZALIKA, CURNEL YANNICK, DAHL ÅSLÖG, DEFILA CLAUDIO, DONNELLY ALISON, FILELLA YOLANDA, JATCZAK KATARZYNA, MÅGE FINN, MESTRE ANTONIO, NORDLI ØYVIND, PEÑUELAS JOSEP, PIRINEN PENTTI, REMIŠOVÁ VIERA, SCHEIFINGER HELFRIED, STRIZ MARTIN, SUSNIK ANDREJA, VAN VLIET ARNOLD J. H., WIELGOLASKI FRANS-EMIL, ZACH SUSANNE, ZUST ANA, European phenological response to climate change matches the warming pattern, 10.1111/j.1365-2486.2006.01193.x
Nageleisen, Les Cahiers du DSF, 1, 13. (1992)
Nedved, Cryo Letters, 19, 267 (1998)
Netherer Sigrid, Schopf Axel, Potential effects of climate change on insect herbivores in European forests—General aspects and the pine processionary moth as specific example, 10.1016/j.foreco.2009.07.034
Nilssen Arne, Tenow Olle, Diapause, embryo growth and supercooling capacity of Epirrita autumnata eggs from northern Fennoscandia, 10.1111/j.1570-7458.1990.tb01414.x
Parmesan Camille, Gaines Steve, Gonzalez Laura, Kaufman Dawn M., Kingsolver Joel, Townsend Peterson A., Sagarin Rafe, Empirical perspectives on species borders: from traditional biogeography to global change, 10.1111/j.0030-1299.2005.13150.x
Price, Insect Ecology (1997)
Pullin A.S., Bale J.S., Effects of low temperature on diapausing Aglais urticae and inachis io (Lepidoptera: Nymphalidae): Cold hardiness and overwintering survival, 10.1016/0022-1910(89)90075-9
R Development Core Team 2010 R: A Language and Environment for Statistical Computing R Foundation for Statistical Computing http://www.R-project.org
Salt R. W., FACTORS INFLUENCING NUCLEATION IN SUPERCOOLED INSECTS, 10.1139/z66-009
Scheifinger H., Menzel A., Koch E., Peter Ch., Trends of spring time frost events and phenological dates in Central Europe, 10.1007/s00704-002-0704-6
Sinclair Brent J., Vernon Philippe, Jaco Klok C., Chown Steven L., Insects at low temperatures: an ecological perspective, 10.1016/s0169-5347(03)00014-4
Sømme Lauritz, FURTHER OBSERVATIONS ON GLYCEROL AND COLD-HARDINESS IN INSECTS, 10.1139/z65-079
Stigter, Proceedings of the Section Experimental and Applied Entomology of the Netherlands Entomological Society N.E.V, 8, 3 (1997)
TAMMARU TOOMAS, Determination of adult size in a folivorous moth: constraints at instar level?, 10.1046/j.1365-2311.1998.00106.x
Tauber, Seasonal Adaptations of Insects. (1986)
Tikkanen Olli-Pekka, Julkunen-Tiitto Riitta, Phenological variation as protection against defoliating insects: the case of Quercus robur and Operophtera brumata, 10.1007/s00442-003-1267-7
Thuiller Wilfried, Lavergne Sébastien, Roquet Cristina, Boulangeat Isabelle, Lafourcade Bruno, Araujo Miguel. B., Consequences of climate change on the tree of life in Europe, 10.1038/nature09705
Topp W., Kirsten K., Synchronisation of pre-imaginal development and reproductive success in the winter moth, Operophtera brumata
L., 10.1111/j.1439-0418.1991.tb00304.x
Dongen Stefan Van, Backeljau Thierry, Matthysen Erik, Dhondt Andre A., Synchronization of Hatching Date with Budburst of Individual Host Trees (Quercus robur) in the Winter Moth (Operophtera brumata) and its Fitness Consequences, 10.2307/5969
Visser M. E., Holleman L. J. M., Warmer springs disrupt the synchrony of oak and winter moth phenology, 10.1098/rspb.2000.1363
Vitasse Yann, Delzon Sylvain, Dufrêne Eric, Pontailler Jean-Yves, Louvet Jean-Marc, Kremer Antoine, Michalet Richard, Leaf phenology sensitivity to temperature in European trees: Do within-species populations exhibit similar responses?, 10.1016/j.agrformet.2008.10.019
Wagenhoff Eiko, Veit Holger, Five Years of Continuous Thaumetopoea processionea Monitoring: Tracing Population Dynamics in an Arable Landscape of South-Western Germany, 10.1007/s10343-011-0244-z
Webb T, Bartlein P J, Global Changes During the Last 3 Million Years: Climatic Controls and Biotic Responses, 10.1146/annurev.es.23.110192.001041
Williams D. A., Extra-Binomial Variation in Logistic Linear Models, 10.2307/2347977
Bibliographic reference
Meurisse, Nicolas ; Hoch, Gernot ; Schopf, Axel ; Battisti, Andrea ; Grégoire, Jean-Claude ; et. al. Low temperature tolerance and starvation ability of the oak processionary moth: implications in a context of increasing epidemics. In: Agricultural and Forest Entomology, Vol. 14, no.3, p. 239-250 (2012)
