Jacob Marrit, Thomas Patrick K, Giebel Helge-Ansgar, Billerbeck Sara, Simon Meinhard, Striebel Maren, Dlugosch Leon
Institute for Chemistry and Biology of the Marine Environment (ICBM), School of Mathematics and Science, Carl von Ossietzky Universität Oldenburg, Ammerländer Heerstraße 114-118, Oldenburg 26129, Germany.
Marine Chemistry, Department of Biology and Chemistry, University of Bremen, James-Watt-Straße 1 (BIOM), Bremen 28359, Germany.
ISME Commun. 2024 Mar 29;4(1):ycae046. doi: 10.1093/ismeco/ycae046. eCollection 2024 Jan.
Interactions between bacteria and microalgae are important for the functioning of aquatic ecosystems, yet interactions based on the biodiversity of these two taxonomic domains have been scarcely studied. Specifically, it is unclear whether a positive biodiversity-productivity relationship in phytoplankton is largely facilitated by niche partitioning among the phytoplankton organisms themselves or whether associated bacterial communities play an additional role in modifying these diversity effects. Moreover, the effects of intraspecific diversity in phytoplankton communities on bacterial community diversity have not been tested. To address these points, we factorially manipulated both species and intraspecific richness of three diatoms to test the effects of diatom species/strain diversity on biomass production and bacterial diversity in algae-bacteria communities. The results show that diatom intraspecific diversity has significant positive effects on culture biomass and the diversity of the associated free-living bacterial community (0.2-3 μm size fraction), which are comparable in magnitude to species diversity effects. However, there were little to no effects of diatom diversity on host-associated bacterial diversity (>3 μm size fraction), or of bacterial diversity on biomass production. These results suggest a decoupling of bacterial diversity from the diatom diversity-productivity relationship and provide early insights regarding the relations between diversity across domains in aquatic ecosystems.
细菌与微藻之间的相互作用对水生生态系统的功能至关重要,但基于这两个分类领域生物多样性的相互作用却鲜有研究。具体而言,尚不清楚浮游植物中生物多样性与生产力的正相关关系在很大程度上是由浮游植物自身之间的生态位划分促成的,还是相关细菌群落对改变这些多样性效应发挥了额外作用。此外,浮游植物群落种内多样性对细菌群落多样性的影响尚未得到验证。为解决这些问题,我们通过析因实验操纵了三种硅藻的物种丰富度和种内丰富度,以测试硅藻物种/品系多样性对藻菌群落生物量生产和细菌多样性的影响。结果表明,硅藻种内多样性对培养生物量和相关自由生活细菌群落(0.2 - 3微米粒径部分)的多样性具有显著的正向影响,其影响程度与物种多样性效应相当。然而,硅藻多样性对宿主相关细菌多样性(>3微米粒径部分)几乎没有影响,细菌多样性对生物量生产也几乎没有影响。这些结果表明细菌多样性与硅藻多样性 - 生产力关系脱钩,并为水生生态系统中不同领域间的多样性关系提供了初步见解。
