Feedback from the Science Café roundtables at the ninth European Bioanalysis Forum Young Scientist Symposium: optimizing the work-life balance in a bioanalytical laboratory.

As part of the European Bioanalysis Forum's continued commitment to develop young scientists beyond their scientific skills, we also focus on soft skills and a community responsibility during the Young Scientist Symposia, with the Science Café. In previous years, we have focused on topics such as sustainability (green lab) or the impact of the COVID-19 pandemic on career development. At the ninth Young Scientist Symposium, the Science Café roundtables focused on the work-life balance and how caring for it can be beneficial for both the individual and the company. Feedback from a premeeting survey and from the discussions during the roundtables can be an important addition to personal and professional development. If organizations are not already focusing on the importance of a healthy work-life balance, they can be inspired to include some aspects of the outcome of the Science Café discussions when developing their staff toward future (scientific) leadership.

Trematode infection causes malformations and population effects in a declining New Zealand fish.

1. Animal malformations engender wide public and scientific concern because of associated environmental health risks. This is highlighted by increased incidence of limb malformations in amphibians associated with trematode infections and disturbance. Malformations may signal new emerging disease threats, but whether the phenomenon is broadly applicable across taxa, or has population-scale impacts, is unknown. 2. Malformations are widely reported in fish and, until now, have been attributed mainly to contaminants. We tested whether the trematode Telogaster opisthorchis caused severe malformations, leading to population effects, in Galaxias anomalus, a threatened New Zealand freshwater fish. 3. Experimental infection of larval fish caused increasing spinal malformation and mortality with infection intensity that closely matched field patterns. Field malformation frequency peaked in January (65%), before declining sharply in February (25%) and remaining low thereafter. 4. The peak occurred during a 'critical window' of larval development, with the decline coincident with a population crash, indicating that malformation was causing mortality in the field. 5. The occurrence of such critical developmental windows may explain why this mechanism of population impact has been overlooked. With global environmental stressors predicted to enhance trematode infections, our results show that parasite-induced malformation, and its population-scale impacts, could be more widespread than previously considered.