Thermal aerial culling for the control of vertebrate pest populations.

Helicopter-based shooting is an effective management tool for large vertebrate pest animals. However, animals in low-density populations and/or dense habitat can be difficult to locate visually. Thermal-imaging technology can increase detections in these conditions. We used thermal-imaging equipment with a specific helicopter crew configuration to assist in aerial culling for feral pigs (Sus scrofa) and fallow deer (Dama dama) in South Australia in 2021. Seventy-two percent of pigs and 53% of deer were first detected in dense canopy/tall forest habitat. Median time from the first impact shot to incapacitation was < 12 s. The culling rate (animals hour-1) doubled compared to visual shoots over the same populations and the wounding rate was zero resulting in a incapacitation efficiency of 100%. The crew configuration gave the shooter a wide field of view and the thermal operator behind the shooter provided essential support to find new and escaping animals, and to confirm species identification and successful removal. The crew configuration allowed for successful target acquisition and tracking, with reduced target escape. The approach can increase the efficiency of aerial culling, has the potential to increase the success of programs where eradication is a viable option, and can improve animal welfare outcomes by reducing wounding rates and the escape of target animals.

Religious and Spiritual Salience, Well-Being, and Psychosocial Functioning Among Psychotherapy Clients: Moderator Effects for Humility.

A number of studies have examined the mediating factors in the relationship between religion and spirituality (R/S) and psychological health. Humility is a virtue that has been positively correlated with R/S variables, measures of well-being, and indicators of psychosocial functioning. In this study, we investigate dispositional humility as a potential moderator in the relationship between religious and spiritual salience and (1) well-being and (2) psychosocial functioning outcomes in a clinical sample. Results indicated that dispositional humility significantly moderated the relationships tested. Implications for future research and clinical practice are discussed.

Religious Involvement and Depression: The Mediating Effect of Relational Spirituality.

Multiple studies have examined the relationship between religious involvement and depression. Many of these investigations reveal a negative correlation between these constructs. Several others yield either no association or a positive correlation. In this article, we discuss possible explanations for these discrepant findings. We investigate the degree to which relational spirituality factors mediate the relationship between religious involvement and depression in a sample of graduate students. Results indicated that spiritual instability and disappointment in God were distinct predictors of depression over and above the predictive strength of religious involvement. Implications for training and conceptualization are discussed.

Group Therapy for Loss: Attachment, Intersubjectivity, and Healing.

Loss is a fundamental human experience that can impact a person's mental health in diverse ways. While this experience is potentially formative, harmful manifestations can fracture one's sense of self and undermine relational health. In this article, we present a rationale for process-oriented group therapy focused on healing relational injuries associated with loss. We draw on attachment, self-psychology, intersubjectivity, and Yalom & Leszcz's (2005) model of group psychotherapy to explore how group processes allow clients to work through losses and relational frustrations in the here-and-now. A case vignette and discussion offer practical insight on the ways in which loss manifests in the room and demonstrate the uniqueness of the group setting for reparative processing.

A facile solution-phase approach to transparent and conducting ITO nanocrystal assemblies.

Monodisperse 11 nm indium tin oxide (ITO) nanocrystals (NCs) were synthesized by thermal decomposition of indium acetylacetonate, In(acac)(3), and tin bis(acetylacetonate)dichloride, Sn(acac)(2)Cl(2), at 270 °C in 1-octadecene with oleylamine and oleic acid as surfactants. Dispersed in hexane, these ITO NCs were spin-cast on centimeter-wide glass substrates, forming uniform ITO NC assemblies with root-mean-square roughness of 2.9 nm. The assembly thickness was controlled by ITO NC concentrations in hexane and rotation speeds of the spin coater. Via controlled thermal annealing at 300 °C for 6 h under Ar and 5% H(2), the ITO NC assemblies became conductive and transparent with the 146 nm-thick assembly showing 5.2 × 10(-3) Ω·cm (R(s) = 356 Ω/sq) resistivity and 93% transparency in the visible spectral range--the best values ever reported for ITO NC assemblies prepared from solution phase processes. The stable hexane dispersion of ITO NCs was also readily spin-cast on polyimide (T(g) ~360 °C), and the resultant ITO assembly exhibited a comparable conductivity and transparency to the assembly on a glass substrate. The reported synthesis and assembly provide a promising solution to the fabrication of transparent and conducting ITO NCs on flexible substrates for optoelectronic applications.

Occult Perforating Corneal Injury from Mechanical Pencil Graphite.

An 11-year-old boy was struck in the left eye with a mechanical pencil in a projectile manner. Initial examination under the operating microscope revealed a presumed partial-thickness corneal injury with a retained 8-mm long segment of graphite lead. After removal of the graphite segment, a full-thickness hole in the cornea was revealed under the lead shaft. The proposed mechanism of injury and unique presentation was initial full-thickness penetration followed by lead shaft retraction (likely due to eye rubbing) and then corneal stromal reentry with stromal lamellar dissection and fixation. Prompt removal of the foreign body, corneal laceration repair, and early cataract extraction resulted in postoperative 20/40 uncorrected visual acuity. Mechanical lead pencil injuries represent a unique mechanism of penetrating trauma.

Influence of microstructure on the electrochemical performance of tin-doped indium oxide film electrodes.

The effect of the microstructure of tin-doped indium oxide (ITO) films on their electrochemical performance was studied using three redox probes, tris(2,2'-bipyridyl ruthenium(II) chloride (Ru(bpy)3(2+/3+)), ferrocyanide (Fe(CN)6(4-/3-)), and ferrocenemethanol (FcCH2H(0/+)). ITO films were deposited using dc magnetron sputtering under a variety of conditions that resulted in films having different degrees of crystallinity, crystallographic texture, sheet resistance, surface roughness, and percent tin. It was found that the electron transfer for all three redox probes used in this study was more efficient at polycrystalline films than at amorphous ITO films. This effect is more pronounced at faster scan rates. The crystallographic texture of the ITO films, surface roughness, and a change in sheet resistance from 7.9 to 13.7 ohms/square did not have an effect on electron-transfer kinetics. ITO films deposited using a 1 wt % SnO2 target and having sheet resistance comparable to films deposited using a 10 wt % SnO2 target had dramatically different microstructure from the films with higher weight percent Sn and were shown to perform poorly when used as electrode materials. We believe that the dramatic differences in electron-transfer kinetics observed at the various ITO films can be attributed to either the different density of defect sites along the grain boundaries or defect sites caused by substitutional Sn in the film.