Understanding workforce pressures within surgery is an inexact science. This paper assembles evidence regarding oral and maxillofacial surgery (OMFS) consultant appointments in the UK and plans for prospective data collection in the future. Information about the number of OMFS specialists joining the UK specialist list was obtained from the General Medical Council and compared to a database of substantive OMFS consultant posts. OMFS consultants were asked to contribute information about their training programmes and consultant appointments (date, interview experience, and sub-specialty interest). This information was collated on Excel© and analysed using WinStat©. Data on OMFS consultant posts advertised in 'NHS Jobs' and the British Medical Journal were collected. The mean (SD) number of specialists joining the specialist list per year is 24.1 (5.2) with a median of 24 and a range of 15 - 36. The number of trainees completing training and numbers joining the OMFS specialist list are in balance at present. The median delay between OMFS specialist listing and appointment as a consultant was 72 days and mean of 169 with the 25th centile of five days, standard deviation of 239 days and maximum of 5.2 years. Of those returning data, 135 (47%) candidates were the sole interviewee and 83 (29%) had one other candidate at their successful interview. The mean application ratio for each post was 1.9 and the median number of candidates was one, mean 1.6 and maximum candidates seven. About half of the posts were filled by trainees from their regional training rotation. Prospective data collection on advertised posts, interviews held, expected retirements/new posts, combined with a route for trainees approaching CCT to highlight their availability may streamline recruitment and allow a more rapid recognition of recruitment problems. OMFS Specialty Training in the UK is usually 5 years and 'starts' at Specialty Training Year 3 (ST3). In 2007 a pilot of 'run-through' training started with Core Training (CT) posts linked to specialty training (ST1 posts). ST1 posts are usually 12 months but may be up to 24 months. UK OMFS consultants joining the OMFS specialist list between 2002 and 2019 were contacted regarding their training. If their training was extended beyond the expected date of completion, they were asked to give a primary and secondary reason from a simplified list. Results were analysed with Winstat©. A total of 382 consultants were contacted, 325 responding (86%) and of these 290 were appointed at ST3 and their mean extension of training time was 0.63 years. For those 35 who were appointed to ST1, their training was on average 0.77 years longer than planned. Undertaking a Fellowship (33%) was the commonest reason for extension, followed by administrative delay (24%), unsuccessful attempts at the FRCS exam (12%) and training new trainees and directing support to existing trainees. Differential attainment and Equality Diversity & Inclusion (EDI) are domains whose monitoring is required by the General Medical Council and undertaken by training authorities. The small numbers of trainees in OMFS programmes may not always allow training variance to be recognised.This work investigated the preparation of Ti/Sb-SnO2 electrode co-doped with graphene and europium and the electrochemical degradation of clothianidin in aqueous solution with Ti/Sb-SnO2-Eu&rGO electrode. The physicochemical properties of different electrodes were characterized by using the scanning electron microscopy, X-ray diffraction, oxygen evolution potential and cyclic voltammetry tests. The results indicated that the Ti/Sb-SnO2-Eu&rGO electrodes have a compact structure and fine grain size and have a higher oxygen evolution overpotential than Ti/Sb-SnO2-None, Ti/Sb-SnO2-Eu and Ti/Sb-SnO2-rGO electrodes. Among the four electrodes, the Ti/Sb-SnO2-Eu&rGO electrode showed the highest efficiency and was chosen as the experimental electrode. The main influence factors on the degradation of clothianidin, such as initial pH, electrolyte concentration, current density and initial concentration of clothianidin, were analyzed. The results showed that the removal rate of clothianidin can reach 96.44% under the optimal conditions for 120 min treatment. Moreover, a possible degradation pathway including the fracture of internal bonds of clothianidin such as the N-N bond, the C-N bond that connects nitroguanidine to the thiazole ring and mineralization was elucidated by intermediate products identified by HPLC-MS method and Fourier transform infrared spectroscopy (FTIR). This paper introduces the Ti/Sb-SnO2-Eu&rGO electrode into an electrocatalytic degradation system and could provide basic data and technique support and guidance for the clothianidin wastewater pollution control.Depending on the use and management, wastewater generation can be a severe environmental dilemma or a potential source. https://www.selleckchem.com/products/amg510.html Proper application and management of municipal water (MW) in agriculture could be its sustainable use. Until now, there is rare data about the combined application of wastewater and freshwater in agriculture that could be considered as sustainable water management strategy. Also, plant (oxidative) stress responses to wastewater application have been rarely investigated. Here, we elucidated the influence of MW irrigation, diluted with canal water (CW) and groundwater (tap water; TW), on Vigna radiata to evaluate (i) the accumulation of potentially toxic metal(loid)s (PTMs; arsenic, copper, cadmium, iron, manganese, lead, nickel, zinc) in different plant tissues, (ii) biochemical modifications in plants, (iii) relative compartmentation of PTMs inside plant, and (iv) PTMs-induced health risk. Results revealed that the soil-plant transfer of PTMs and physiological changes in V. radiata varied depending on the irrigation water type. Noticeably, plants sequestered most of the PTM contents in roots (average 64%) and less were translocated to plant shoots. All the irrigation treatments provoked oxidative stress in V. radiata with high production of hydrogen peroxide, followed by an oxidation of membrane lipids and a decrease in chlorophyll content. The estimated cancer risk and hazard quotients values revealed a potential risk to human health (HQ 2.2-108.8, CR 0.0002-0.664), especially for arsenic, cadmium and lead. The integrated risk estimated from PTMs highlighted the unsuitability of all the treatments for crop irrigation. Therefore, in areas with high PTM levels in MW and freshwaters their mixed use is not an ideal management practice. Conclusively, this study helps to strictly monitor the quality of irrigation water before applying to crops and develop a suitable management and remediation strategy.