Robak i robactwo w twórczości Władysława Syrokomli

The aim of this article is to determine the frequency of occurrence of the terms “worm” and “insects” in the works of Władysław Syrokomla. An assumption is made that these themes have animportant function in the poet’s works, and that their occurrence indicates something of significance. The article considers both the functionality and repeatability criteria, which is the necessary foundationfor recording these items. The conducted analyses indicate that Syrokomla’s insects (regardless of whether they have a literal or metaphorical meaning) in most cases signal something evil. Sometimes it is an ordinary pest (insect) damaging plants, but more frequently the insect refers to the human condition, characterising it in three dimensions: as the worm of death, as the worm of internal suffering or as the worm of insignificance. In other cases, worms or insects represent curses or sin. The diversity of how such zoomorphic connotations are presented and applied deserves attention. Moreover, although the majority of them have long-established cultural and literary traditions, in Syrokomla’s works they gain a new context (for example, historical, folk or social). They indicate sensitivity to injustice and evil. The poet frequently presents the human world by analogy to the world of nature.

Reverse chemical ecology in a moth: machine learning on odorant receptors identifies new behaviorally active agonists

The concept of reverse chemical ecology (exploitation of molecular knowledge for chemical ecology) has recently emerged in conservation biology and human health. Here, we extend this concept to crop protection. Targeting odorant receptors from a crop pest insect, the noctuid moth Spodoptera littoralis, we demonstrate that reverse chemical ecology has the potential to accelerate the discovery of novel crop pest insect attractants and repellents. Using machine learning, we first predicted novel natural ligands for two odorant receptors, SlitOR24 and 25. Then, electrophysiological validation proved in silico predictions to be highly sensitive, as 93% and 67% of predicted agonists triggered a response in Drosophila olfactory neurons expressing SlitOR24 and SlitOR25, respectively, despite a lack of specificity. Last, when tested in Y-maze behavioral assays, the most active novel ligands of the receptors were attractive to caterpillars. This work provides a template for rational design of new eco-friendly semiochemicals to manage crop pest populations.

Challenges for integrated pest management of Dasineura brassicae in oilseed rape

The use of insecticides in flowering oilseed rape (Brassica napus L.) against pest insects such as the brassica pod midge (Dasineura brassicae W.) often conflicts with the protection of pollinating and beneficial insects. Dasineura brassicae is a major pest insect in European oilseed rape production. However, a comprehensive and sustainable pest control strategy within the framework of integrated pest management (IPM) does not exist, and little research on the insect has been published during the past two decades. This paper reviews the existing knowledge about D. brassicae along its life cycle and is intended to form the basis for further research activities on pod-damaging pest insects in oilseed rape. Important knowledge gaps are identified, regarding the significance of natural enemies, diapause induction, and predictions on damage potential, based on initial pest insect population. The short lifespan of the adults is particularly challenging in praxis. The implementation of IPM for D. brassicae is discussed on the basis of the four IPM steps (set an economic threshold, establish pest monitoring, preventive measures, and direct control measures) and remaining hurdles, as well as potential solutions for a better IPM, are identified. For D. brassicae, there is no science-based economic threshold and no applicable monitoring methods for farmers, which hinders a field-specific damage forecast and the precise timing of insecticide applications. Research into improved monitoring (e.g. selective attractants, real-time monitoring using remote-sensing technologies) appears to be a promising step towards an integrated pest management of D. brassicae.

Organization of the Structural Protein Region of La Jolla Virus Isolated from the Invasive Pest Insect Drosophila suzukii

Drosophila suzukii (Ds) is an invasive pest insect that infests ripening fruit, causing severe economic losses. Control measures based on chemical pesticides are inefficient and undesirable, so biological alternatives have been considered, including native Ds viruses. We previously isolated a strain of La Jolla virus (LJV-Ds-OS20) from Ds in Germany as a candidate biopesticide. Here we characterized the new strain in detail, focusing on the processing of its capsid proteins. We tested LJV growth during Ds development to optimize virus production, and established a laboratory production system using adult flies. This system was suitable for the preparation of virions for detailed analysis. The LJV-Ds-OS20 isolate was cloned by limiting dilution and the complete nucleotide sequence was determined as a basis for protein analysis. The terminal segments of the virus genome were completed by RACE-PCR. LJV virions were also purified by CsCl gradient centrifugation and analyzed by SDS-PAGE and electron microscopy. The capsid proteins of purified LJV virions were resolved by two-dimensional SDS-PAGE for N-terminal sequencing and peptide mass fingerprinting. The N-terminal sequences of VP1 and VP2, together with MS data representing several capsid proteins, allowed us to develop a model for the organization of the LJV structural protein region. This may facilitate the development of new viral strains as biopesticides.

Corythucha ciliata (sycamore lace bug).

C. ciliata, the sycamore lace bug, is a highly invasive pest insect of plane (sycamore) trees (Platanus sp.). It is likely that its spread is facilitated by human activity, particularly vehicles along major transport routes. Maceljski (1986) states that these insects are "good fliers", but most authors (e.g. Wade, 1917) suggest that their delicate wings make them weak fliers and that human activity is more likely to lead to the spread of this species. The occurrence of plane tree hosts will limit the distribution of C. ciliata, but as these trees are widely planted throughout the world in streets and parks as ornamental shade trees, there is considerable scope for their further advance.