Calcium Accumulation and Loss and Vitamin D3 Content of Feeder Black Field Crickets (Gryllus bimaculatus) Fed on a High Calcium Diet with and without UVB Irradiation

Calcium metabolism in insectivores may be perturbed by insufficient calcium or vitamin D3. Insects may be gut loaded to increase calcium content, and recent research shows that exposure to UVB radiation can increase the vitamin D3 content of some invertebrates. Typical gut loading protocols result in peak calcium content after 24–48 h, while existing evidence with UVB irradiation involves exposure periods of tens of days. We UVB-irradiated fasted black field crickets (Gryllus bimaculatus) while feeding them on high calcium diets for 48 h, then fasted them for a further 24 h, and measured the vitamin D3, calcium, and phosphorus content compared with non-irradiated controls. UVB irradiation had no effect on vitamin D3 (crickets had no detectable levels of vitamin D3 at any point), or on calcium accumulation rates, which approximated existing research. Crickets significantly increased their calcium:phosphorus ratio from 0.17 to approximately 0.4 over 24 h and this did not increase over a further 24 h of feeding. Removal of the food source resulted in loss of all accumulated calcium within 24 h. Our results have implications for managing food sources for captive insectivores and highlight the importance of good feeder preparation and rapid consumption to ensure optimal calcium delivery to predators.

Optimum Composition of Developed Additive Based Insect Repellent Paint

Active compounds of Cymbopogon winterianius, Cymbopogoncitratus, Rosmarinus officinalis, Cedrus, and Eugenol, have been reported to have different insect repellant compounds. Control and development of natural insect repellent additive based decorative coating has driven this work to incorporate the essential oils with long chain fatty acids in water-based lab developed conventional paint. In this work, the Additive based Paint was formulated and its ability to repel different insects was determined. The optimum composition of developed additive based paint was determined by three standard paint analyses which were adhesion, elasticity and insect repellency. As per challenge of Pigment powder and Polymer use for such paint is achieved by testing on Latest instruments. The best composition of additive in paint was found to be 15%. Where it able to repel Pavement Ants, non-biting Flies, Mosquitoes and Black field ant with 80% efficiency. It is envisioned that the formulated paint is effectively function as insect repellent thus as an alternative way to reduce the insect-borne diseases.

When Internships Goes Virtual

In early 2020, the coronavirus (COVID-19) pandemic ravaged countries across the world, causing them to essentially shut down. Communities had to retreat indoors and socially distance from one another. One aspect of life that drastically changed was schooling. It moved from traditional face-to-face spaces to online digital platforms. Students, faculty, and staff across all levels of schooling shifted to teaching and learning vis-a-vis online digital platforms. Those of us connected to the training of the next generation of teachers navigated through the uncertainty of the COVID-19 pandemic at the preschool to post-secondary levels as well. This chapter focuses on the authors' experiences as a Black university supervisor and as a Black field placement coordinator.

Optimum Composition of Developed Additive Based Insect Repellent Paint

Active compounds of Cymbopogon winterianius, Cymbopogoncitratus, Rosmarinus officinalis, Cedrus, and Eugenol, have been reported to have different insect repellant compounds. Control and development of natural insect repellent additive based decorative coating has driven this work to incorporate the essential oils with long chain fatty acids in water-based lab developed conventional paint. In this work, the Additive based Paint was formulated and its ability to repel different insects was determined. The optimum composition of developed additive based paint was determined by three standard paint analyses which were adhesion, elasticity and insect repellency. As per challenge of Pigment powder and Polymer use for such paint is achieved by testing on Latest instruments. The best composition of additive in paint was found to be 15%. Where it able to repel Pavement Ants, non-biting Flies, Mosquitoes and Black field ant with 80% efficiency. It is envisioned that the formulated paint is effectively function as insect repellent thus as an alternative way to reduce the insect-borne diseases.

Optimum Composition of Developed Additive Based Insect Repellent Paint

BackgroundActive compounds of Cymbopogon winterianius, Cymbopogoncitratus, Rosmarinus officinalis, Cedrus, and Eugenol, have been reported to have different insect repellant compounds. Control and development of natural insect repellent additive based decorative coating has driven this work to incorporate the essential oils with long chain fatty acids in water-based lab developed conventional paint. MethodsIn this work, the Additive based Paint was formulated and its ability to repel different insects was determined. The optimum composition of developed additive based paint was determined by three standard paint analyses which were adhesion, elasticity and insect repellency. ResultsAs per challenge of Pigment powder and Polymer use for such paint is achieved by testing on Latest instruments. The best composition of additive in paint was found to be 15%. Where it able to repel Pavement Ants, non-biting Flies, Mosquitoes and Black field ant with 80% efficiency. ConclusionsIt is envisioned that the formulated paint is effectively function as insect repellent thus as an alternative way to reduce the insect-borne diseases.

In-vivo studies on the motoric activity of the receptacular complex in females of the black field cricket (Orthoptera: Gryllidae)

Motoric activity of the receptacular complex situated in the caudal part of the female abdomen was studied in detail for the black field cricket, Teleogryllus commodus (Walker, 1869). By application of the previously introduced window method the number of peristaltic organ contractions per minute was counted, whereby four experimental series (virgins, mated females, ovipositing females, post-oviposition animals) were defined, with the number of examined crickets amounting to 20, respectively. According to the results obtained from experimental work, highest activity of the receptacular complex can be attested for females standing in the oviposition phase (26.35 ± 4.99 contractions per minute), whereas post-oviposition females are characterized by lowest activity (13.95 ± 3.90 contractions per minute). Except for virgins, where the number of peristaltic contractions increases with age, no significant correlation between motoric activity of the receptacular complex and adult age could be found. It is argued that in-vivo motoric activity of the receptaculum seminis and the ductus receptaculi is associated with the female fecundity cycle reaching its peak at the 10th day of the adult life stage.

A Novel Head Capsule Labial Gland Lobe in the Black Field Cricket (Orthoptera: Gryllidae)

We describe a pair of labial gland lobes on either side of the retrocerebral complex in the head of the Australian black field cricket, Teleogryllus commodus Walker. As the retrocerebral complex includes the corpora cardiaca and corpora allata, hormones secreted by these glands can be absorbed by these lobes. These lobes of the labial gland are connected to the thoracic lobes via a relatively long duct that enters the main duct draining the thoracic lobes. Measurement of the flow rate of dye from head to thorax in the ducts is rapid, suggesting that these glands may serve as a transport system into the thoracic region. Both serotonin and adipokinetic hormone are shown to be present in the lobes near the retrocerebral complex and the ducts of the thoracic lobes, but whether this connection between the head and thorax acts as a hormone transporter is still unclear.

Bioecological aspects of the common black field cricket, Gryllus assimilis (Orthoptera: Gryllidae) in the laboratory and in Eucalyptus (Myrtaceae) plantations

The common black field cricket, Gryllus assimilis (Orthoptera: Gryllidae), damages young plants of red cedar, Juniperus virginiana (Cupressaceae); strawberry, Fragaria × ananassa (Rosaceae); sugarcane, Saccharum officinarum (Poaceae); teak, Tectona grandis (Lamiaceae); upland cotton, Gossypium hirsutum (Malvaceae); and, mainly, Eucalyptus spp. (Myrtaceae). The objective of this study was to investigate the biological and behavioral parameters of this insect in the laboratory and in Eucalyptus spp. plantations in Inhambupe, Bahia State, Brazil. The incubation period and the viability of G. assimilis eggs were 11.87 days and approximately 22%, respectively. The duration of the nymphal stage was 62.34 days with approximately 60% of the nymphs obtained in the laboratory being females. The average number of egg batches per female, eggs per female, and eggs per batch per female of this insect were 25.50, 862.17, and 34.65, respectively. G. assimilis females lived for 76.50 days in the adult stage, and 138.34 days in total, from egg through nymph to adult. Males produced three characteristic sounds: one for the marking of territory, one for courtship, and one when alone. G. assimilis fed primarily on weeds but, in their absence, it damaged young Eucalyptus spp. plants. This paper presents important data on the biology and behavior of G. assimilis; this information may encourage additional biological research, laboratory rearing, and integrated management of this pest.