AI Article Synopsis
- Cyanobacteria interact with heterotrophic microorganisms, and these interactions are influenced by nutrient levels, which are crucial for understanding their roles in geochemical cycles amid global change.
- A study in the tropical western Pacific Ocean showed that increased nutrient supply due to upwelling leads to more complex interactions between cyanobacteria and bacteria, particularly in shallower waters with higher cyanobacteria populations.
- Results suggest that higher nitrate concentrations enhance mutualistic interactions, indicating that elevated nutrients can negatively impact bacterial communities in oligotrophic oceans under changing environmental conditions.
Article Abstract
Cyanobacteria can form complex interactions with heterotrophic microorganisms, but this relationship is susceptible to nutrient concentrations. Disentangling the cyanobacteria-bacteria interactions in relation to nutrient supply is essential to understanding their roles in geochemical cycles under global change. We hypothesize that enhanced nutrient supply in oligotrophic oceans can promote interactions among cyanobacteria and bacteria. Therefore, we investigated the planktonic bacteria and their interactions with cyanobacteria in relation to elevated nutrients caused by enhanced upwelling around a shallow and a deep seamount in the tropical western Pacific Ocean. We found obviously higher complexity of network occurred with significantly more cyanobacteria in the deep chlorophyll maximum layer of the shallow seamount when compared with that of the deep seamount. Cyanobacteria can shape bacterial interaction and community evenness in response to relatively high nutrient concentrations. The effects of the nutrients on cyanobacteria-related networks were further estimated based on the Oceans data. Statistical analyses further showed a facilitative effect of nitrate concentrations on cyanobacteria-bacteria mutualistic interactions in the global oligotrophic ocean. By analysing the Ocean macrogenomic data, we detected functional genes related to cyanobacteria-bacteria interactions in all samples, indicating the existence of a mutualistic relationship. Our results reveal cyanobacteria-bacteria interaction in response to nutrient elevation in oligotrophic ocean and highlight the potentially negative effects of global change on the bacterial community from the view of the bio-interaction.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11265871 | PMC |
| http://dx.doi.org/10.1098/rspb.2024.0788 | DOI Listing |
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