The use of microalgae–bacteria consortia (MBC) for wastewater treatment has garnered
attention as their interactions impart greater environmental adaptability and stability …

Simple Summary Microalgae are photosynthetic microorganisms with high biotechnological
potential. However, the sustainable production of high-value products such as lipids …

Bacterial remineralization of algal organic matter fuels algal growth but is rarely quantified.
Consequently, we cannot currently predict whether some bacterial taxa may provide more …

Diatom–bacteria interactions evolved during more than 200 million years of coexistence in
the same environment. In this time frame, they established complex and heterogeneous …

Algae and bacteria have co-occurred and coevolved in common habitats for hundreds of
millions of years, fostering specific associations and interactions such as mutualism or …

Photosynthetic microalgae are responsible for 50% of the global atmospheric CO2 fixation
into organic matter and hold potential as a renewable bioenergy source. Their metabolic …

Microalgae can convert carbon dioxide into organic matter through photosynthesis. Thus,
they are considered as an environment-friendly and efficient cell chassis for biologically …

Microscale interactions between marine phytoplankton and bacteria shape the
microenvironment of individual cells, impacting their physiology and ultimately influencing …

Hindgut microorganisms in newborn calves play an important role in the development of
immunity and metabolism, and optimization of performance. However, knowledge of the …

Interactions amongst marine microalgae and heterotrophic bacteria drive processes
underlying major biogeochemical cycles and are important for many artificial systems. These …