Abstract
Dispersal and foodweb dynamics have long been studied in separate models. However, over the past decades, it has become abundantly clear that there are intricate interactions between local dynamics and spatial patterns. Trophic meta-communities, i.e. meta-foodwebs, are very complex systems that exhibit complex and often counterintuitive dynamics. Over the past decade, a broad range of modelling approaches have been used to study these systems. In this paper, we review these approaches and the insights that they have revealed. We focus particularly on recent papers that study trophic interactions in spatially extensive settings and highlight the common themes that emerged in different models. There is overwhelming evidence that dispersal (and particularly intermediate levels of dispersal) benefits the maintenance of biodiversity in several different ways. Moreover, some insights have been gained into the effect of different habitat topologies, but these results also show that the exact relationships are much more complex than previously thought, highlighting the need for further research in this area.This article is part of the theme issue ‘Integrative research perspectives on marine conservation’.
Highlights
Understanding the role of space in the dynamics of ecological communities is a difficult challenge
We focus on recent papers that study trophic interactions in spatially extensive settings and highlight the common themes that emerged in different models
We have discussed some recent models of metafoodwebs, trophic meta-communities that combine spatial dispersal with complex trophic interactions
Summary
Understanding the role of space in the dynamics of ecological communities is a difficult challenge. An increased understanding of the effects of space and spatial connectedness on the dynamics of diverse communities would allow us to understand anthropogenic impacts better but could inform mitigation efforts. It may be useful in reserve siting [20,21], to identify the most vital areas to protect and inform decisions on how to best connect surviving patches of habitat. Despite the great diversity of ideas, there is a strong confluence of findings where repeated insights emerge robustly These findings have led to new questions, highlighting a strong need for more field observations and laboratory experiments. We provide an overview of the modelling approaches that have been proposed, before reviewing some key insights and open problems
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