AI Article Synopsis
- Chain formation in diatoms is important for their adaptation to ecosystems, but there is a lack of effective tools to study this in labs.
- A new approach combines a statistical physics model with experimental data to analyze how diatom chains grow and separate.
- Research on two diatom species reveals that one species (Chaetoceros decipiens) actively controls chain separation through communication, whereas the other (Phaeodactylum tricornutum) only adjusts the separation rate.
Article Abstract
Chain formation in diatoms is relevant because of several aspects of their adaptation to the ecosystem. However, the tools to quantify the regulation of their assemblage and infer specific mechanisms in a laboratory setting are scarce. To address this problem, we define an approach based on a statistical physics model of chain growth and separation in combination with experimental evaluation of chain-length distributions. Applying this combined analysis to data from Chaetoceros decipiens and Phaeodactylum tricornutum, we find that cells of the first species control chain separation, likely through a cell-to-cell communication process, while the second species only modulates the separation rate. These results promote quantitative methods for characterizing chain formation in several chain-forming species and in diatoms in particular.
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| http://dx.doi.org/10.1103/PhysRevE.94.022418 | DOI Listing |
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