The topology of spatial networks affects stability in experimental metacommunities
Arancibia, P. A. (2024). The topology of spatial networks affects stability in experimental metacommunities. Proceedings of the Royal Society B : Biological Sciences, 291(2024), Article 20240567. https://doi.org/10.1098/rspb.2024.0567
Authors
Date
2024Copyright
© 2024 Royal Society Publishing
Understanding the drivers of community stability has been a central goal in ecology. Traditionally, emphasis has been placed on studying the effects of biotic interactions on community variability, and less is understood about how the spatial configuration of habitats promotes or hinders metacommunity stability. To test the effects of contrasting spatial configurations on metacommunity stability, I designed metacommunities with patches connected as random or scale-free networks. In these microcosms, two prey and one protist predator dispersed, and I evaluated community persistence, tracked biomass variations, and measured synchrony between local communities and the whole metacommunity. After 30 generations, scale-free metacommunities had lower global biomass variability and higher persistence, suggesting higher stability. Synchrony between patches was lower in scale-free metacommunities. Patches in scale-free metacommunities showed a positive relationship between variability and patch connectivity, indicating higher stability in isolated communities. No clear relationship between variability and patch connectivity was observed in random networks. These results suggest the increased heterogeneity in connectivity of scale-free networks favours the prevalence of isolated patches of the metacommunity, which likely act as refugia against competition-the dominant interaction in this system-resulting in higher global stability. These results highlight the importance of accounting for network topology in the study of spatial dynamics.
...
Publisher
Royal Society PublishingISSN Search the Publication Forum
0962-8452Keywords
Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/220868585
Metadata
Show full item recordCollections
Additional information about funding
This research was supported by a Rutgers University Graduate Program in Ecology and Evolution “Small Grant”, and a “Ted Stiles” award.License
Related items
Showing items with similar title or keywords.
-
A first look into moss living tardigrades in boreal peatlands
Mäenpää, Hennariikka; Elo, Merja; Calhim, Sara (Wiley, 2024)Tardigrades (Tardigrada) are a phylum of micrometazoans found in all biomes on Earth, but their ecology and habitat preferences remain vastly understudied. Boreal peatlands include a diversity of habitat types and high ... -
Food-web complexity, consumer behavior, and diet specialism: impacts on ecosystem stability
Perälä, Tommi; Kuisma, Mikael; Uusi-Heikkilä, Silva; Kuparinen, Anna (Springer Nature, 2024)Ecological stability is a fundamental aspect of food web dynamics. In this study, we explore the factors influencing stability in complex ecological networks, characterizing it through biomass oscillations and species ... -
Non-trophic interactions amplify kelp harvest-induced biomass oscillations and biomass changes in a kelp forest ecological network model
Perälä, Tommi; Pesari, Susanna N. K.; Ahti, Pauliina A.; Lehtinen, Sami O.; Schoenrock, Kathryn M.; Kuparinen, Anna (Inter-Research, 2023)Kelp forests are important marine ecosystems providing habitat for numerous species. Despite over 50 yr of mechanical harvesting in the Northeast Atlantic, the indirect impacts of kelp harvesting and associated habitat ... -
Aligning spatial ecological theory with the study of clonal organisms : the case of fungal coexistence
Bielčik, Miloš; Schlägel, Ulrike E.; Schäfer, Merlin; Aguilar‐Trigueros, Carlos A.; Lakovic, Milica; Sosa‐Hernández, Moisés A.; Hammer, Edith C.; Jeltsch, Florian; Rillig, Matthias C. (Wiley-Blackwell, 2024)Established ecological theory has focused on unitary organisms, and thus its concepts have matured into a form that often hinders rather than facilitates the ecological study of modular organisms. Here, we use the example ... -
A comparison of joint species distribution models for percent cover data
Korhonen, Pekka; Hui, Francis K. C.; Niku, Jenni; Taskinen, Sara; van der Veen, Bert (Wiley, 2024)Joint species distribution models (JSDMs) have gained considerable traction among ecologists over the past decade, due to their capacity to answer a wide range of questions at both the species- and the community-level. The ...