Litcius/Paper detail

Functional morphology of gliding motility in benthic diatoms

Karen Grace V. Bondoc, Emanuele Crosato, Kirsty Y. Wan

2025Proceedings of the National Academy of Sciences9 citationsDOIOpen Access PDF

Abstract

Diatoms, a highly successful group of photosynthetic algae, contribute to a quarter of global primary production. Many species are motile, despite having no appendages and a completely rigid cell body. Cells move to seek out nutrients, locate mating partners, and undergo vertical migration. To explore the natural diversity of diatom motility, we perform a comparative study across five common biofilm-forming species. Combining morphological measurements with high-resolution cell tracking, we establish how gliding movements relate to the morphology of the raphe-a specialized slit in the cell wall responsible for motility generation. Our detailed analyses reveal that cells exhibit a rich but species-dependent phenotype, switching stochastically between four stereotyped motility states. We model this behavior and use stochastic simulations to predict how heterogeneity in microscale navigation patterns leads to differences in long-time diffusivity and dispersal. In a representative species, we extend these findings to quantify diatom gliding in complex, naturalistic 3D environments, suggesting that cells may exploit these distinct motility signatures to achieve niche segregation in nature.

Topics & Concepts

MotilityBiologyGliding motilityDiatomBiological dispersalEcologyEvolutionary biologyDiel vertical migrationMorphology (biology)Cell biologyZoologySociologyPopulationDemographyDiatoms and Algae ResearchMarine and coastal ecosystemsProtist diversity and phylogeny