2016
DOI: 10.1016/j.foreco.2015.11.035
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Prolonged pupal diapause drives population dynamics of the pine processionary moth (Thaumetopoea pityocampa) in an outbreak expansion area

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Cited by 41 publications
(27 citation statements)
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“…Beyond summer heat, other climate characteristics such as winter and spring temperatures act as serious constraints upon the phenological shift of SP. However, in some cases, diapausing pupae of WP were observed to remain in the soil for over 8 years before emergence, suggesting that they are prone to resist cold winter temperatures (Aimi et al, 2006;Salman et al, 2016). It is generally expectable that relatively high spring temperatures should be required for SP reproduction, as mating takes place at night in May and cold weather may prevent adult activity.…”
Section: A Climatic Niche Shift Induced By Allochronic Speciationmentioning
confidence: 99%
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“…Beyond summer heat, other climate characteristics such as winter and spring temperatures act as serious constraints upon the phenological shift of SP. However, in some cases, diapausing pupae of WP were observed to remain in the soil for over 8 years before emergence, suggesting that they are prone to resist cold winter temperatures (Aimi et al, 2006;Salman et al, 2016). It is generally expectable that relatively high spring temperatures should be required for SP reproduction, as mating takes place at night in May and cold weather may prevent adult activity.…”
Section: A Climatic Niche Shift Induced By Allochronic Speciationmentioning
confidence: 99%
“…Low winter temperatures and high soil moisture are thought to cause high mortality to overwintering pupae of PPM in the soil (Markalas, 1989). However, in some cases, diapausing pupae of WP were observed to remain in the soil for over 8 years before emergence, suggesting that they are prone to resist cold winter temperatures (Aimi et al, 2006;Salman et al, 2016). Preliminary experiments showed that soil temperatures (at 10 and 20 cm depth) measured during the winter of 2008 in localities where SP is present, ranged from 5 to 14°C.…”
Section: A Climatic Niche Shift Induced By Allochronic Speciationmentioning
confidence: 99%
“…Therefore, O. lunifer and T. pityocampa pre-pupation processions may have been in search for 'cooler' and 'warmer' places, respectively for optimal development in suitable thermal niches. It may be particularly important for T. pityocampa to find warmer places because the pupae can diapause up to 8 years [36] with possibly less chance of fungal attack if the pupation site is dryer. More research is necessary to determine if light is used by the lead larva as a cue for pupation sites with suitable temperature characteristics.…”
Section: Discussionmentioning
confidence: 99%
“…The prolonged diapause allows the insect to travel in time and track intermittent resource peaks or escape catastrophic years or enemies with shorter generation times (Danks , , Hanski , Solbreck and Widenfalk , Salman et al. ).…”
Section: Introductionmentioning
confidence: 99%