Celebrating wildlife population recovery through education.

Large mammal populations are rapidly recovering across Europe, yet people have not readapted to living with wild animals, resulting in human-wildlife conflict. We believe that society should unite to make the most of the instances of nature recovery, and propose science and education as the key to success.

Investigating tritrophic interactions using bioenergetic demographic models.

A central debate in ecology has been the long-running discussion on the role of apex predators in affecting the abundance and dynamics of their prey. In terrestrial systems, research has primarily relied on correlational approaches, due to the challenge of implementing robust experiments with replication and appropriate controls. A consequence of this is that we largely suffer from a lack of mechanistic understanding of the population dynamics of interacting species, which can be surprisingly complex.

Roads constrain movement across behavioural processes in a partially migratory ungulate.

Background: Human disturbance alters animal movement globally and infrastructure, such as roads, can act as physical barriers that impact behaviour across multiple spatial scales. In ungulates, roads can particularly hamper key ecological processes such as dispersal and migration, which ensure functional connectivity among populations, and may be particularly important for population performance in highly human-dominated landscapes. The impact of roads on some aspects of ungulate behaviour has already been studied.

The effect of turbulence modelling on the assessment of platelet activation.

Pathological platelet activation by abnormal shear stresses is regarded as a main clinical complication in recipients of cardiovascular mechanical devices. In order to improve their performance computational fluid dynamics (CFD) are used to evaluate flow fields and related shear stresses. CFD models are coupled with mathematical models that describe the relation between fluid dynamics variables, and in particular shear stresses, and the platelet activation state (PAS).