4.5 Article

A New Angle on Microscopic Suspension Feeders near Boundaries

Journal

BIOPHYSICAL JOURNAL
Volume 105, Issue 8, Pages 1796-1804

Publisher

CELL PRESS
DOI: 10.1016/j.bpj.2013.08.029

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Funding

  1. National Science Foundation and Harvard Materials Research Science & Engineering Center [DMR-0820484]
  2. National Science Foundation under Integrative Graduate Education and Research Traineeship grant [DGE-0221682]
  3. Miller Institute for Basic Research in Science at the University of California
  4. Alfred P. Sloan Foundation

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Microscopic sessile suspension feeders are a critical component in aquatic ecosystems, acting as an intermedi-ate trophic stage between bacteria and higher eukaryotic taxa. Because they live attached to boundaries, it has long been thought that recirculation of the feeding currents produced by sessile suspension feeders inhibits their ability to access fresh fluid. However, previous models for the feeding flows of these organisms assume that they feed by pushing fluid perpendicular to surfaces they live upon, whereas we observe that sessile suspension feeders often feed at an angle to these boundaries. Using experiments and calculations, we show that living suspension feeders (Vorticella) likely actively regulate the angle that they feed relative to a substratum. We then use theory and simulations to show that angled feeding increases nutrient and particle uptake by reducing the reprocessing of depleted water. This work resolves an open question of how a key class of suspension-feeding organisms escapes physical limitations associated with their sessile lifestyle.

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