PROGRESS IN DUCTILE ALUMINIUM HIGH PRESSURE DIE CASTING ALLOYS FOR THE AUTOMOTIVE INDUSTRY

Today the die casting process is used to cast parts with high quality requirements such as engine cradles, cross members and nodes for space frame construction. This has presented the challenge to design alloys with superior mechanical properties. For crash relevant parts requiring high ductility (elongation > 12 %) one option to meet these properties is by heat treating a low iron Al-Si alloy to a T4 or T7 temper. However heat treatment can lead to part distortion and blistering resulting in higher costs for the producer. The second option is Al-Mg alloys type which fulfill these requirements in the as-cast state but the alloys are not easy to cast. Research was started using the easy to cast Al-Si alloy system targeting a high elongation (> 12 %) and yield-strength (> 120 MPa) already in temper F and not showing any long term aging behavior. This paper will discuss the technical progress which began in the early 1990ies, gaining in importance with the first series space frame Aluminum car, continuing with structural parts applied in the as-cast state and approaching a future with an increasing amount of light weight components replacing steel and heat treated Aluminum designs

Expansion of elevational range in a forest pest: Can parasitoids track their hosts?

We are thankful to Karim Senhadji and Ramon Ruiz-Puche for their help during the field work, and to Sara Garcia Morato for her contribution to quantifying rates of parasitism in PPM clutches at the laboratory. Two anonymous referees contributed to improve the manuscript. This study was supported by projects PROPINOL (PN22/2008), GESBOME (P06-RNM-1890) from Junta de Andalucia, REMEDINAL TE-CM (S2018/EMT-4338) from Comunidad de Madrid, ADAPTAMED (LIFE14 CCA/ES/000612) from LIFE program, and GILES (PCIN-2016-150) from the ERANET-LAC H2020 Programme.Gradients in elevation impose changes in environmental conditions, which in turn modulate species distribution and abundance as well as the interactions they maintain. Along the gradient, interacting species (e.g., predators, parasitoids) can respond to changes in different ways. This study aims to investigate how egg parasitism of a forest pest, the pine processionary moth (PPM), Thaumetopoea pityocampa, vary along an elevational gradient (190-2000 m.a.s.l.) in a mountain range of SE Spain, including areas of recent elevational expansion, for a seven years period (2008-2014). We used generalized linear mixed models to ascertain the effect of both elevation and the winter North Atlantic Oscillation (NAO) index (a proxy of interannual climatic conditions) on the rate of parasitism, and the occurrence probabilities of two parasitoid species: a PPM specialist and a generalist species. Since four pine species are stratified along the elevational gradient, we repeated all the analyses separately for lowlands (190-1300 m. a.s.l.) and uplands (1350-2000 m. a.s.l.). Results showed a decrease in both parasitism rate and probability of occurrence of the two main parasitoid species with elevation, although decline was more severe for the specialist species. The effect of elevation was more conspicuous and intense in uplands than in lowlands. Positive NAO winter values, associated with cold and dry winters, reduced the rate of parasitism and the probability of occurrence of the two main parasitoid species-but particularly for the generalist species-as elevation increases. In a context of climate warming, it is crucial to mitigate PPM elevational and latitudinal expansion. Increasing tree diversity at the PPM expansion areas may favor the establishment of parasitoids, which could contribute to synchronizing host- parasitoid interactions and minimize the risk of PPM outbreaks.Junta de Andalucia PN22/2008REMEDINAL TE-CM from Comunidad de Madrid S2018/EMT-4338ADAPTAMED from LIFE program LIFE14 CCA/ES/000612GILES from the ERANET-LAC H2020 Programme PCIN-2016-150Junta de Andalucia P06-RNM-189

Genetic diversity and host alternation of the egg parasitoid Oencyrtus pityocampae between the pine processionary moth and caper bug

Research ArticleThe increased use of molecular tools for species identification in recent decades revealed that each of many apparently generalist parasitoids are actually a complex of morphologically similar congeners, most of which have a rather narrow host range. Ooencyrtus pityocampae (OP), an important egg parasitoid of the pine processionary moth (PPM), is considered a generalist parasitoid. OP emerges from PPM eggs after winter hibernation, mainly in spring and early summer, long before the eggs of the next PPM generation occurs. The occurrence of OP in eggs of the variegated caper bug (CB) Stenozygum coloratum in spring and summer suggests that OP populations alternate seasonally between PPM and CB. However, the identity of OP population on CB eggs seemed uncertain; unlike OP-PPM populations, the former displayed apparently high male/female ratios and lack of attraction to the PPM sex pheromone. We studied the molecular identities of the two populations since the morphological identification of the genus Ooencyrtus, and OP in particular, is difficult. Sequencing of COI and ITS2 DNA fragments and AFLP analysis of individuals from both hosts revealed no apparent differences between the OP-PPM and the OP-CB populations for both the Israeli and the Turkish OPs, which therefore supported the possibility of host alternation. Sequencing data extended our knowledge of the genetic structure of OP populations in the Mediterranean area, and revealed clear separation between East and West Mediterranean populations. The overall level of genetic diversity was rather small, with the Israeli population much less diverse than all others; possible explanations for this finding are discussed. The findings support the possibility of utilizing the CB and other hosts for enhancing biological control of the PPMinfo:eu-repo/semantics/publishedVersio

Dimensional range in Traumatocampa pityocampa (Denis & Schiffermüller) eggs

Traumatocampa pityocampa (Denis & Schiffermüller) (Pine Processionary Moth, PPM) is one of the most threatening defoliator in Mediterranean pinewoods, because of its high biotic potential. PPM is becoming an increasing threat even where its presence has never been reported. PPM lays scale-covered egg-batches around pine needles. In Northeastern Italy, a longitudinal gradient in egg size has been evidenced, which can be explained as an adaptation to local host plant features; e.g. in the Eastern regions pine needles are harder, and PPM eggs and larvae are bigger, to attack them successfully. However, this adaptation implies a greater egg parasitization. The present study investigates the morphological structure of eggs in two PPM populations, situated at the poles of this longitudinal gradient. The ultrastructure of egg-batches has been observed, and divided in two zones (external and internal) to determine a dimensional ratio. . Results showed different sizes in the two populations: eggs are bigger in the Eastern part (1,240X0,994 mm) than in the Western (1,140X0,863 mm). Chorion thickness has been observed by dividing in four zones the transversal section perimeter: A – anterior pole external margin; B – anterior pole; C - side; D – posterior pole. Bigger eggs showed a thinner chorion in correspondence of sections A (45,9 contro 67,6m) and B (22.8 contro 25.5m), explaining their susceptibility to ooparasitoids. Minimal differences have been evidenced among external and internal eggs inside the same egg-batch (A: 45,9 vs 46,1m; B: 21,6 vs 23,3m)