Evaluating Volatile Plant Compounds of Psidium galapageium (Myrtales: Myrtaceae) as Repellents Against Invasive Parasitic Diptera in the Galapagos Islands

Plant-based repellents represent a safe, economic, and viable alternative to managing invasive insects that threaten native fauna. Observations of self-medication in animals can provide important cues to the medicinal properties of plants. A recent study in the Galapagos Islands found that Darwin’s finches apply the leaves of Psidium galapageium (Hooker 1847) to their feathers, extracts of which were repellent to mosquitoes and the parasitic fly Philornis downsi (Dodge & Aitkens 1968; Diptera: Muscidae). Introduced mosquitoes are suspected vectors of avian pathogens in the Galapagos Islands, whereas the larvae of P. downsi are blood-feeders, causing significant declines of the endemic avifauna. In this study, we investigated the volatile compounds found in P. galapageium, testing each against a model organism, the mosquito Anopheles arabiensis (Patton 1905; Diptera: Culicidae), with the aim of singling out the most effective compound for repelling dipterans. Examinations of an ethanolic extract of P. galapageium, its essential oil and each of their respective fractions, revealed a mixture of monoterpenes and sesquiterpenes, the latter consisting mainly of guaiol, trans-nerolidol, and β-eudesmol. Of these, trans-nerolidol was identified as the most effective repellent to mosquitoes. This was subsequently tested at four different concentrations against P. downsi, but we did not find a repellence response. A tendency to avoid the compound was observed, albeit significance was not achieved in any case. The lack of repellence suggests that flies may respond to a combination of the volatile compounds found in P. galapageium, rather than to a single compound.

Effect of Climate Change on Introduced and Native Agricultural Invasive Insect Pests in Europe

Climate change and invasive species are major environmental issues facing the world today. They represent the major threats for various types of ecosystems worldwide, mainly managed ecosystems such as agriculture. This study aims to examine the link between climate change and the biological invasion of insect pest species. Increased international trade systems and human mobility have led to increasing introduction rates of invasive insects while climate change could decrease barriers for their establishment and distribution. To mitigate environmental and economic damage it is important to understand the biotic and abiotic factors affecting the process of invasion (transport, introduction, establishment, and dispersal) in terms of climate change. We highlight the major biotic factors affecting the biological invasion process: diet breadth, phenological plasticity, and lifecycle strategies. Finally, we present alien insect pest invasion management that includes prevention, eradication, and assessment of the biological invasion in the form of modelling prediction tools.

Investigations on invasive nematodes associated with complex insect pests from soil in corn in the environmental conditions of the Republic of Moldova

Corn is one of the major technical field crops in the Republic of Moldova, advantageous in bioecological and productive aspects, which is invaded annually by the harmful organisms with considerable parasitic impact. The phytosanitary control results, carried out annually and seasonally, comparatively in the corn plantations, notice a significant diversity of the specific diseases and of the invasive insects that seriously affect the plants from the germination phases until the harvest. In corn, were established the numerical density values (D. n.), comparative in different ecological areas, on average 15-280 (ex. /100 g soil), with an abundance by 5-25% higher in the autumn than in the spring. Phytoparasitic impact indices the frequency (F %) and intensity (I %) of the phytohelminthological disease level was estimated, being more advanced by 3-30% in the spring-summer period, observed differently depending on the area compared to the autumn period. The structure of parasitic phytonematode complexes was determined counting 20 species, included in 8 families and one order (Tylenchida), classified according to trophic specialization, with the predominance of endo-ectoparasites. It was established the diversity of the associated invasive insect species from the soil: 12 species, 8 families, 3 orders, also, with invasive ectoparasitic impact on corn plants, with the disease degree of 5-40%, detected in all phases of vegetation and sectors investigated.

New Invasive Insects Associated with Oak Forests in Lebanon

Oak forests (Fagaceae) are native in Lebanonand occupy the largest areas of approximately 40,000 ha. The most common species are Quercus calliprinos, Q. infectoria, Q. cerris var. pseudo cerris andQ.brantii. Due to climate change and human activities, oak forests have become more vulnerable to native and exotic invasive pests. A total of 26insect species associated with oak trees were recently identified in Lebanon. The most dangerous insect pestisthe gypsy moth Lymantria dispar (Lepidoptera), onQ. calliprinos andQ. Cerris. The oak leafminer Phyllonorycter libanotica (Lepidoptera)and the Eriophidae(Accari) arethe most species recorded on Q. infectoriaand Q.calliprinosfollowed by the giant mealybug Ceroputo pilosellae(Hemiptera) on Q. infectoriaand Q.calliprinosandthe oak mothThaumetopoea sp.(Lepidoptera) on Q. calliprinos and Q. Cerris. Eightnew species were recorded for the first time in Lebanon on oak and are listed in this paper. Fivespecies of Cinipidae (Hymenoptera): Andricus caputmedusae, A. cecconi, A. sternlichti, Plagiotrochus quercusilicisand Neuroterus quercusbaccarum, one speciesof Scolytidae,Xylosandrus compactus(Coleoptera),one species ofKermesidaeKermes echinatus (Hemiptera)and one species of Diaspididae,Koroneaspis aegilopos(Hemiptera).Keywords: Lebanon, oak, forest decline, invasive species, outbreak

The magnitude, diversity, and distribution of the economic costs of invasive terrestrial invertebrates worldwide

Invasive species are a major driver of global biodiversity loss, hampering conservation efforts and disrupting ecosystem functions and services. While accumulating evidence has documented ecological impacts of invasive species across major geographic regions, habitat types and taxonomic groups, appraisals for economic costs have remained relatively sparse. This has hindered effective cost-benefit analyses that inform expenditure on management interventions to prevent, control, and eradicate invasive species. Terrestrial invertebrates are a particularly pervasive and damaging group of invaders, with many species compromising primary economic sectors such as agriculture and health. The present study provides synthesised quantifications of economic costs caused by invasive terrestrial invertebrates on the global scale and across a range of descriptors, using the InvaCost database. Invasive terrestrial invertebrates reportedly cost the global economy US$ 1.26 trillion over the investigated period (1960–2020), mostly due to invasive insects (> 90%). Overall, costs were not equally distributed geographically, with North America (76%) reporting the greatest costs, with far lower costs reported in Europe (4%) Asia (4%), Africa (3%), South America (2%), and Oceania (1%). These costs mostly resulted from direct resource damages and losses (76%), particularly to agriculture and forestry; relatively little (4%) was invested in management. A minority of monetary costs was directly observed (43%), but costs were mostly sourced from highly reliable estimates (58%). Economic costs displayed an increasing trend with time, with an average annual cost of US$ 20.67 billion since 1960, but reporting lags reduced costs in recent years. The massive global economic costs of terrestrial invertebrates require urgent consideration and investment by policymakers and managers, in order to prevent and remediate the economic and ecological impacts of these and other invasive species groups.

Computational Evaluation of DNA Metabarcoding for Universal Diagnostics of Invasive Insect Pests

Appropriate design and selection of PCR primers plays a critical role in determining the sensitivity and specificity of a metabarcoding assay. Despite several studies applying metabarcoding to insect pest surveillance, the diagnostic performance of the short "mini-barcodes" required by high-throughput sequencing platforms has not been established across the broader taxonomic diversity of invasive insects. We address this by computationally evaluating the diagnostic sensitivity and predicted amplification bias for 68 published and novel cytochrome c oxidase subunit 1 (COI) primers on a curated database of 110,676 insect species, including 2,625 registered on global invasive species lists. We find that mini-barcodes between 125-257 bp can provide comparable resolution to the full-length barcode for both invasive insect pests and the broader Insecta, conditional upon the subregion of COI targeted and the genetic similarity threshold used to identify species. Taxa that could not be identified by any barcode lengths were phylogenetically clustered within "problem groups", many arising through taxonomic inconsistencies rather than insufficient diagnostic information within the barcode itself. Substantial variation in predicted PCR bias was seen across published primers, with those including 4-5 degenerate nucleotide bases showing almost no mismatch to major insect orders. While not completely universal, a single COI mini-barcode can successfully differentiate the majority of pest and non-pest insects from their congenerics, even at the small amplicon size imposed by 2 x 150 bp sequencing. We provide a ranked summary of high-performing primers and discuss the bioinformatic steps required to curate reliable reference databases for metabarcoding studies.

On the enzymes’ actions of entomopathogenic fungi against certain indigenous and invasive insect pests

Background Pathogenicity of entomopathogenic fungi (EPF) depends mainly on their ability to produce efficient enzymes, which degrade insect’s integument and other cellular components. Lipases are the first enzymes secreted by these fungi, then proteases, phospholipases, and chitinases. Results Twenty-six fungal strains, isolated from the aphids, Aphis sp., Linnaeus (Homoptera, Aphididae), the tomato leaf minor, Liriomyza trifolii, Burgess (Diptera, Agromyzidae) (indigenous insects), the red palm weevil, Rhynchophorus ferrugineus, Olivier (Coleoptera, Curculionidae), and the peach fruit fly, Bactrocera zonata, Saunders (Diptera, Tephritidae) (invasive insects) were tested for their enzymatic activities. Results showed that the majority of these strains were able to produce lipolytic enzymes with the most active being Aspergillus niger, Botryotrichum atrogriseum, Cochliobolus spicifer, Fusarium chlamydosporum, and F. proliferatum. Phospholipase was successfully produced by 73.1% of the tested strains among which Aspergillus flavus, A. niger, Mucor racemosus, Pochonia chlamydosporia var. catenulata, and Scopulariopsis brevicaulis were the highest producers. Proteolytic enzymes were detected in cultures of all the fungal strains except Aspergillus chevalieri and M. racemosus. The best proteolytic strain was S. brevicaulis followed by A. flavus, A. sydowii, and F. semitectum. The chitinolytic ability of the fungal strains was generally weak and the relatively active species belonged to A. flavus, A. niger, B. atrogriseum, F. chlamydosporum, F. solani, S. brevicaulis, and Nigrospora oryzae. Quantitative determination of chitinase revealed that the enzyme concentration ranged from 3.478 to 6.44 IU/ml. Conclusion Most of the isolated fungi had enzymatic activities, but A. niger, F. semitectum, F. solani, F. chlamydosporum, P. chlamydosporia var. catenulata, and S. brevicaulis, were the most active ones.

Laurel Wilt: Current and Potential Impacts and Possibilities for Prevention and Management

In recent years, outbreaks of nonnative invasive insects and pathogens have caused significant levels of tree mortality and disturbance in various forest ecosystems throughout the United States. Laurel wilt, caused by the pathogen Raffaelea lauricola (T.C. Harr., Fraedrich and Aghayeva) and the primary vector, the redbay ambrosia beetle (Xyleborus glabratus Eichhoff), is a nonnative pest-disease complex first reported in the southeastern United States in 2002. Since then, it has spread across eleven southeastern states to date, killing hundreds of millions of trees in the plant family Lauraceae. Here, we examine the impacts of laurel wilt on selected vulnerable Lauraceae in the United States and discuss management methods for limiting geographic expansion and reducing impact. Although about 13 species belonging to the Lauraceae are indigenous to the United States, the highly susceptible members of the family to laurel wilt are the large tree species including redbay (Persea borbonia (L.) Spreng) and sassafras (Sassafras albidum (Nutt.) Nees), with a significant economic impact on the commercial production of avocado (Persea americana Mill.), an important species native to Central America grown in the United States. Preventing new introductions and mitigating the impact of previously introduced nonnative species are critically important to decelerate losses of forest habitat, genetic diversity, and overall ecosystem value.

New data on invasive insects in the republic of Сrimea

In recent years, the emergence of new invaders has been discovered in Crimea – the mealy lantern fly Metcalfa pruinosa (Say, 1830) (Hemiptera: Auchenorrhyncha: Flatidae), the indian wax scale Ceroplastes ceriferus (Fabricius, 1798) (Hemiptera: Coccoidea: Coccoidea), the southern green stink bug Nezara viridula (Linnaeus, 1758) (Hemiptera: Heteroptera: Pentatomidae), the stink bug Oxycarenus lavaterae (Fabricius, 1787) (Hemiptera: Heteroptera: Lygaeidae) and palm moth Paysandisia archon (Burmeister, 1880) (Lepidoptera: Castniidae). Timely information on the penetration of new alien species that damage agricultural and ornamental crops into the entomofauna of Crimea, their distribution, biological characteristics that are relevant for specialists in the field of plant protection and landscape architecture. The number of mealy lantern fly has increased over the years of observations, and the list of host plants has also expanded, which has confirmed its polyphagia. In Crimea, a pest has appeared that can cause significant damage to fruit, berry, nut-bearing and ornamental crops. During the years of research, we discovered another alien species – the indian wax scale. As a result of damage to ornamental crops, individual branches dried out and some plants died. We assume that this phytophage was brought to the Crimea with planting material, because it occurs focally on objects of landscape architecture. Since 2018, palm trees have been damaged by the palm moth – one of the invasive pests of these plants on the southern coast of Crimea. Caterpillars damage the vascular system and the plant's growth point. As a result of the damage caused, the plants die. Since the same year, a new alien species, the southern green stink bug, has shown harmfulness on vegetable, berry and flower crops, as well as on weeds, and in 2020, for the first time in the Crimea, in the Nizhnegorsk region, another stink bug, O. lavaterae, was found on a linden. There is little information about this insect. It can form massive clusters on linden and hibiscus bark.

The Eclosion of Forest and Tree Health Stakeholdership

The anthropogenic environmental change characteristic of the Anthropocene generates numerous threats and opportunities for the non-human beings who are intrinsic to forest and tree health. There are profound consequences for both humans and non-humans as a result of natural ecosystem disturbances, such as forest fires or invasive insects, and their accompanying environmental management responses. However, the consequences for non-humans as a result of either disturbance or management receive virtually no attention within environmental policy and practice. In this paper we argue for the growth and transformation – the ‘eclosion’ – of the ‘stakeholder’ concept so as to provide a pragmatic basis for greater attentiveness to, and comprehension of, non-human interest. We explore the implications and feasibility of this, describing particular approaches to stakeholder analysis and representation that emanate from research methods including multispecies ethnography and studies in ‘new animism’, that can effectively enable non-human ‘voices’ to be heard and taken more seriously. We conclude there are solid methodological and conceptual foundations on which to build an effective understanding of non-human stakeholdership, particularly in the area of forest and tree health.