EXPLORING THE RELATIONSHIP BETWEEN OCCUPATIONAL BURNOUT AND THE BEHAVIORAL WELL-BEING OF SOCIAL WORKERS

The purpose of this study was to determine if there was a relationship between occupational burnout and the behavioral well-being of social workers. Burnout is a multidimensional syndrome where workers experience feelings of emotional exhaustion, depersonalization, and reduced personal accomplishment as a consequence of work related stress and overwhelming job demands. Burnout can negatively affect organizational functioning, work performance, and pose significant health risks to workers. There are a limited number of studies focusing on the impact of occupational burnout on the behavioral well-being of workers. The findings of this study indicated that there was a significant relationship between burnout and behavioral well-being. Emotional exhaustion was found to negatively impact exercise frequency, which was consistent with previous study findings. Depersonalization was positively correlated to the number of hours of sleep and the frequency of self-care activities participants engaged in. The effects of depersonalization on sleep and self-care activities suggest that workers may engage in these activities as a way to cope with feelings of depersonalization on the job

Loss of coral reef growth capacity to track future increases in sea level

Water-depths above coral reefs is predicted to increase due to global sea-level rise (SLR). As ecological degradation inhibits the vertical accretion of coral reefs, it is likely that coastal wave exposure will increase but there currently exists a lack of data in projections concerning local rates of reef growth and local SLR. In this study we have aggregated ecological data of more than 200 tropical western Atlantic and Indian Ocean reefs and calculated their vertical growth which we have then compared with recent and projected rates of SLR across different Representative Concentration Pathway (RCP) scenarios. While many reefs currently show vertical growth that would be sufficient to keep-up with recent historic SLR, future projections under scenario RCP4.5 reveal that without substantial ecological recovery many reefs will not have the capacity to track SLR. Under RCP8.5, we predict that mean water depth will increase by over half a metre by 2100 across the majority of reefs. We found that coral cover strongly predicted whether a reef could track SLR, but that the majority of reefs had coral cover significantly lower than that required to prevent reef submergence. To limit reef submergence, and thus the impacts of waves and storms on adjacent coasts, climate mitigation and local impacts that reduce coral cover (e.g., local pollution and physical damage through development land reclamation) will be necessary