AN UPDATED LIST OF THE SCALE INSECT (HEMIPTERA COCCOMORPHA) FAUNA OF SOME SICILIAN ENDEMIC PLANTS

In this study Authors report scale insects (Hemiptera: Coccomorpha) species for the first time recorded on some endemic plants of Sicilian flora, namely, Abies nebrodensis Mattei (Pinaceae), Astragalus siculus Biv. (Leguminosae), Betula aetnensis Rafinesque (Betulaceae) and Zelkova sicula Di Pasquale Garfi & Quezel (Ulmaceae).Abies nebrodensis is present in a single small population on Madonie Mountains. On this conifer the fir scale Parlatoria parlatoriae (Šulc) (Diaspididae) was collected. On B. aetnensis, that colonizes the lava substrates of Etna Volcano mainly at 1300–1900 m.a.s.l., a consistent population of an undescribed Diaspidiotus species (currently being described) was collected. Moreover Lepidosaphes ulmi (Linnaeus) (Diaspididae) was detected and collected on A. siculus which is characteristic plant of the upper part of the volcano. Zelkova sicula is a very rare relict of  the Tertiary, belonging to a genus of plants already extinct in Continental Europe; with only two small populations living in restricted woodland areas in south oriental Sicily where two scale insects were collected: Aspidiotus nerii (Costa) (Diaspididae) and Parthenolecanium sp. (Coccidae)

A survey of scale insects (Hemiptera: Coccoidea) occurring on olives in Tunisia.

A survey performed in 2009 within 52 Tunisian olive groves, located in 17 different olive-growing sites, revealed the occurrence of six scale insects on olives. The identified species were: the armoured scales Aspidiotus nerii Bouché, Lepidosaphes ulmi (L.), and Parlatoria oleae (Colvée), the soft scales Saissetia oleae (Olivier) and Filippia follicularis (Targioni Tozzetti) and the mealybug species Peliococcus cycliger (Leonardi). The soft scale F. follicularis is a new record for the Tunisian insect fauna. A mong these species, S. oleae was the predominant scale insect occurring throughout olive groves of northeastern Tunisia, whereas the mealybug P. cycliger was by far the most abundant species within olives groves of the Northwest region of Tunisia. However, P. oleae was the least abundant species, being present in only one olive-growing site in northeastern Tunisia. L arvae of the noctuid moth Eublemma scitula (Rambur) were reported feeding on S. oleae and the coccinellid Chilocorus bipustulatus L . was found feeding on both S. oleae and A. nerii. The two hymenopteran species Scutellista cyanea Motschulsky and Metaphycus spp. were recorded as the main parasitoids of S. oleae

Scientific and technological developments in mating disruption of scale insects

[EN] Mating disruption (MD) is a species-specific and environmentally friendly pest management tactic based on the release of synthetic sex pheromones aiming to interrupt the mate-finding communication and prevent mating in the target pest. The present work aims to provide an overview of the current scientific and technical knowledge on mating disruption of scale pests (Hemiptera: Coccoidea). Biparental scales are suitable targets for mating disruption (technically, MD is not suitable for parthenogenetic scales), as the females have a limited spreading ability, and adult males are short lived and have a narrow window of time for mate searching. In this perspective, delayed mating also plays an important role by reducing female attractiveness and population growth potential. The mechanisms involved in MD of scales are most likely assigned to `competitive disruption¿ rather than `noncompetitive¿ mechanisms, although no specific studies addressed this issue. Mating disruption has been commercially developed and increasingly applied against the vine mealybug Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae) and the California red scale Aonidiella aurantii (Maskell) (Hemiptera: Diaspididae) to a lesser extent. Critical factors affecting MD effectiveness are the pest density and effective disruption late in the season. Mating disruption applied to scale pests is effective in small plots and compatible with biological control and integrated management programs. In conclusion, MD has a high potential for management of scale pests, providing that key factors such as technological advances in pheromone synthesis and pheromone formulations, elucidation of disruption mechanisms, and simplification of the registration process are addressed.The authors wish to thank Alejandro Carbonell and Teresa Gadea (EPA, Ecologia y Proteccion Agricola SL), Ignacio de Alfonso (Suterra LCC), David Haviland (University of California), and Vittorio Veronelli (CBC Europe) for providing insightful information on the application and spread of mating disruption. Funding was provided by Fundacao para a Ciencia e a Tecnologia I.P., Portugal, to Centro de Estudos Florestais (UIDB/00239/2020), and by the University of Catania in the framework of the research project `Emergent pests and pathogens and relative sustainable strategies -5A722192113'.Franco. José Carlos; Cocco, A.; Lucchi, A.; Mendel, Z.; Suma, P.; Vacas, S.; Mansour, R.... (2022). Scientific and technological developments in mating disruption of scale insects. Entomologia Generalis. 42(2):251-273. https://doi.org/10.1127/entomologia/2021/1220S25127342

First record of Aleurocanthus camelliae Kanmiya & Kasai, 2011 (Hemiptera, Aleyrodidae) from Italy, on ornamental Camellia spp. plants

This paper provides a first report of Aleurocanthus camelliae, the Camellia spiny whitefly, from Italy. The pest was found on plants of Camellia spp. grown in the nursery. Brief morphological and biological information is provided on this whitefly, as well as some considerations on the phytosanitary measures to be adopted to reduce the potential risk of its spread on ornamental plants in Europe and the EPPO region

ENVIRONMENTAL FACTORS IMPACT AND INCIDENCE OF PARASITISMOF PSYLLAEPHAGUS BLITEUSRIEK (HYMENOPTERA ENCYRTIDAE)ON POPULATIONS OF GLYCASPIS BRIMBLECOMBEIMOORE(HEMIPTERA APHALARIDAE) IN MEDITERRANEAN CLIMATIC AREAS

The red gum lerp psyllid, Glycaspis brimblecombeiMoore (Hemiptera, Aphalaridae), is an Australian native sap-sucking insect pest of eucalypts that has been first reported for the West Palaearctic Region in 2008 and, in 2010, it hasbeen found also in Italy. Subsequently its primary parasitoid, Psyllaephagus bliteus Riek (Hymenoptera: Encyrtidae),was also detected within the main European and North African infested areas, where no release of the parasitoid was everperformed. This study, carried out in 30 Eucalyptus camaldulensis plantations located along the coast, on the hills andthe mountains in Mediterranean climatic areas of Sicily (Italy), aimed to determine the influence of environmentalparameters on the incidence of both, the psyllid infestation level and the parasitization activity. P. bliteusreached high-est average levels in summer samplings and resulted widespread in Sicily at all detected altitudes without statisticallysignificant differences. P. bliteus parasitization is the main factor lowering G. brimblecombei infestation; this result,together with the accidental and contemporaneous arrival of the host and its parasitoid, could explain the absence of highdamage level on eucalypts in Sicily. The most significant metric factors positively influencing G. brimblecombei infes-tation are the percentage of daily hours above 80% of relative humidity and the average maximum temperature, obvi-ously related to other, but less significant climatic factors. The altitude affects both infestation and parasitization, but sin-gle sites could explain significantly more, so that the local conditions where the samplings were carried out have to beconsidered as the main responsibles for the variability in the obtained results. In any sampled Sicilian site, from sea levelto 540 m a.s.l., both the psyllid and its parasitoids show a good adaptation to climatic conditions, confirming that areasfitting for E. camaldulensisgrowth fit also for P. bliteus activity, and proving that Mediterranean climate, differently fromsome inland areas of California, does not obstacle its parasitic activity

Climate and landscape composition explain agronomic practices, pesticide use and grape yield in vineyards across Italy

Context Worldwide, organic farming is being promoted as one of the main alternatives to intensive conventional farming. However, the benefits of organic agriculture are still controversial and need to be tested across wide environmental gradients. Objective Here, we carried out an observational study to test how agronomic practices, pest management, environmental impact and yield of conventional and organic vineyards changed along wide climatic and landscape gradients across Italy. Methods We used a block design with 38 pairs of conventional and organic vineyards across Italy. Results and conclusions Most agronomic practices did not differ between conventional and organic vineyards. By contrast, landscape composition and climate were strong predictors of management in both systems. First, increasing semi-natural areas around the vineyards reduced pesticide pressure and related environmental impacts, but was also associated with lower yield. Second, irrespective of the farming system, a warm and dry climate was associated with reduced fungicide pressure. Conventional farming had a yield gain of 40% in cold and wet climate compared to organic but the yield gap disappeared in the warmest regions. Significance In both farming systems, we observed a large variability in management practices that was mainly explained by climate and landscape composition. This large variability should be considered when evaluating the benefits and drawbacks of different farming systems under contrasting environmental contexts

First report of Eurytoma plotnikovi Nik. (Hymenoptera, Eurytomidae), a seed parasite of pistachio, in Sicily (Italy)

The pistachio seed wasp, Eurytoma plotnikovi Nik.(Hymenoptera, E urytomidae), is a new pest recently arrived in pistachio orchards in central-western Sicily (Italy). Information on the damaging effects of this seed wasp in the affected areas is provided

The history of Dactylopius coccus (Costa) (Hemiptera: Dactylopiidae) in the Mediterranean basin: the Sicilian episode

Dactylopius coccus (Costa) belongs to the family Dacylopiidae (Hemiptera: Coccomorpha), that includes species that live exclusively on Cactaceae and are native in America as well as their host plants. From the dried body of the females, rich in carminic acid, can be extracted the red carmine dye used primarily for food, clothing and cosmetic coloring. In Mexico this species was already reared for that purpose by native people before the discovery of America. The Spanish conquistadors continued the rearing of the cochineal and adopted strong control measures setting up a monopole of the production and commercialization of the colorant. After the decay of their domination, the insect and its hostplants, i. e. various Cactaceae of Opuntia and Nopalea genera, were introduced to other territories (Africa, Mediterranean basin and Canary Islands) with the purpose to obtain the precious dye. The acclimation of both plant and insect was sometimes unsuccessful. It is the case of Italy, where repeated attempts were carried out to rear D. coccus for the carmine dye production, introducing strains in areas with mild climate (e. g. Sardinia and Sicily) but only the hostplant was able to find suitable conditions of life. In Sicily, the prickly pear Opuntia ficus-indica was subsequently widely cultivated and appreciated for the edible fruit. More recently, at the end of 90s in Sicily, another attempt of rearing the cochineal on cultivated prickly pear plants in glasshouse conditions was carried out. Based on the achieved results, it was possible to conclude as the high level of mortality of the nymphal stages of the scale, that hindered the maintaining of the population, was related with the relative humidity values, although low temperatures (till 0° C) were tolerated by crawlers that survived, by entering quiescence. Technically D. coccus could be reared for commercial purposes in the Mediterranean area only if temperature and humidity can be controlled (e. g. in glasshouse), avoiding any eventual threat related to its natural dispersal as occurred with other Dactylopius spp. that can compromise the fruit production