AI Article Synopsis
- Seasonality and long-term environmental variability significantly influence species diversity and community dynamics in freshwater zooplankton.
- A study over 28 years in Lake Atnsjøen used a dynamic species abundance model to reveal that spring environmental variability impacts community dynamics, while autumn displays the highest ecological heterogeneity.
- Monitoring autumn months is vital for tracking long-term community structure changes, as they show a faster return to equilibrium and clearer trends due to filtered early summer fluctuations.
- Long-term warming trends resulted in reduced species diversity but increased abundance, affecting species interactions and potentially the ecosystem's stability and functioning.
Article Abstract
Seasonality and long-term environmental variability affect species diversity through their effects on the dynamics of species. To investigate such effects, we fitted a dynamic and heterogeneous species abundance model generating the lognormal species abundance distribution to an assemblage of freshwater zooplankton sampled five times a year (June-October) during the ice-free period over 28 years (1990-2017) in Lake Atnsjøen (Norway). By applying a multivariate stochastic community dynamics model for describing the fluctuations in abundances, we show that the community dynamics was driven by environmental variability in spring (i.e., June). In contrast, community-level ecological heterogeneity is highest in autumn. The autumn months (i.e., September and October) that rearranged the community are most likely crucial months to monitor long-term changes in community structure. Indeed, noises from early summer are filtered away, making it easier to track long-term changes. The community returned faster towards equilibrium when ecological heterogeneity was the highest (i.e., in September and October). This occurred because of stronger density-regulation in months with highest ecological heterogeneity. The community responded to the long-term warming of water temperature with decreasing species diversity and increasing abundance. Unevenness associated with variabilities in abundances might affect species interactions within the community. These can have consequences for the stability and functioning of the ecosystem.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9120095 | PMC |
| http://dx.doi.org/10.1007/s00442-022-05165-0 | DOI Listing |
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