Daniel Martín‐Vertedor scite author profile

A severe oak decline is taking place across the Mediterranean region since the 1980s. Among the climatic and biological factors involved in this complex syndrome, the longhorn C. welensii is currently considered a major element. Furthermore, larval damage to young or healthy trees is being increasingly important and thereby also the need to manage this emerging pest species. This paper deals with quantifying the adult populations in the field in order to evaluate the potential performance of mass trapping as control method against C. welensii. We used a mark-recapture protocol using feeding traps, which was complemented with some nocturnal observations and additional laboratory studies. Research was conducted in the Cornalvo Natural Park (southwestern Spain) during two consecutive years (2008)(2009). Data were analysed with classic closed population (CP) methods and Maximum Likelihood Spatially Explicit Capture-Recapture (ML SECR) detection models. The results strongly supported the potential success of mass trapping as control method for C. welensii, including a high trapping efficiency (70-81%), relatively low adult population density for a pest species (316 and 265 adults/ha in 2008 and 2009), movement pattern of flying adults and highly aggregated distribution of adults in trees with traps. We also found experimental evidence that most adults come to the traps close to emergence as showed body appearance, longevity estimates and female reproductive age at trapping time. We discuss the practical achievement of mass trapping as control method integrating behavioural and ecological perspectives and, though a large-scale field validation is still lacking, we conclude that mass trapping may be a potential tool to manage C. welensii populations in dehesa open woodlands.

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Effect of different baking treatments on the acrylamide formation and phenolic compounds in Californian-style black olives

Pérez‐Nevado

Cabrera‐Bañegil

Repilado

et al. 2018

Food Control

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Global warming affects phenology and voltinism of Lobesia botrana in Spain

Martín‐Vertedor

Ferrero-García

Torres‐Vila

2010

Agri and Forest Entomology

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1 Climate change is promoting alterations of a very diverse nature in the life cycle of an array of insect species, including changes in phenology and voltinism. In Spain, there is observational evidence that the moth Lobesia botrana Den. & Schiff. (Lep.: Tortricidae), a key vine pest that is usually trivoltine in Mediterranean latitudes, tends to advance spring emergence, displaying a partial fourth additional flight, a fact that is potentially attributable to global warming. 2 To verify this hypothesis, local temperatures were correlated with L. botrana phenology in six vine-growing areas of southwestern Spain during the last two decades by exploiting the database of flight curves obtained with sexual pheromone traps. The dates of second and third flight peaks of the moth were calculated for each area and year and then correlated with both time (years) and local temperatures. 3 The results obtained demonstrated a noteworthy trend towards local warming (as a result of global warming) in the last two decades, with mean increases in annual and spring temperatures of 0.9 and 3.0 • C, respectively. Therefore, L. botrana phenology has significantly advanced by more than 12 days. Moreover, the phenological advance contributed to increased moth voltinism in 2006 by promoting a complete fourth additional flight, a fact that has never been reported previously to our knowledge in the Iberian Peninsula. 4 The potential impact of an earlier phenology and increased voltinism in L. botrana is discussed from an agro-ecological perspective.

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