Abstract
Biodiversity affects ecosystem function, and how this relationship will change in a warming world is a major and well-examined question in ecology. Yet, it remains understudied for pico-phytoplankton communities, which contribute to carbon cycles and aquatic food webs year-round. Observational studies show a link between phytoplankton community diversity and ecosystem stability, but there is only scarce causal or empirical evidence. Here, we sampled phytoplankton communities from two geographically related regions with distinct thermal and biological properties in the Southern Baltic Sea and carried out a series of dilution/regrowth experiments across three assay temperatures. This allowed us to investigate the effects of loss of rare taxa and establish causal links in natural communities between species richness and several ecologically relevant traits (e.g. size, biomass production, and oxygen production), depending on sampling location and assay temperature. We found that the samples' biogeographical origin determined whether and how functional redundancy changed as a function of temperature for all traits under investigation. Samples obtained from the slightly warmer and more thermally variable regions showed overall high functional redundancy. Samples from the slightly cooler, less variable, stations showed little functional redundancy, i.e. function decreased when species were lost from the community. The differences between regions were more pronounced at elevated assay temperatures. Our results imply that the importance of rare species and the amount of species required to maintain ecosystem function even under short-term warming may differ drastically even within geographically closely related regions of the same ecosystem.
Highlights
When ecosystems lose species, the function and services of these ecosystems may decline
A recent study has experimentally examined the synergistic effects of warming and biodiversity loss on function in bacterial assemblages [8], but no comparable data exist for natural phytoplankton communities
We consider a result to be in line with high functional redundancy, when a function—such as biomass production or net photosynthesis—does not change significantly across levels of species richness
Summary
The function and services of these ecosystems may decline. We obtained pico-phytoplankton community samples during two cruises of RV ALKOR (AL505 and AL513) on the Southern Baltic Sea in 2018 (electronic supplementary material, tables S1 and S2). Community samples first grew in semi-continuous batch culture at 100 μmol quanta m−2 s−1 (12 : 12 light/dark cycle) at 15°C for samples from AL505 and 22°C for samples from AL513 (11 and 7 months, respectively, with fortnightly growth rate and community composition measurements) They were transferred to a common garden at 18°C, where they were batch-cultured until used for the experiment (detailed timeline electronic supplementary material, table S1). Phenotypic diversity [29,30,33] was assessed using the parameters returned by the flow cytometer
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