Nutritional intake of Aplanochytrium (Labyrinthulea, Stramenopiles) from living diatoms revealed by culture experiments suggesting the new prey-predator interactions in the grazing food web of the marine ecosystem.

Yoko Hamamoto,Daiske Honda,Adrianna Ianora

doi:10.1371/journal.pone.0208941

Abstract

Labyrinthuleans (Labyrinthulea, Stramenopiles) are recognized as decomposers in marine ecosystems but their nutrient sources are not fully understood. We conducted two-membered culture experiments with labyrinthuleans and diatoms to discover where labyrinthuleans obtain their nutrients from. The results showed that Aplanochytrium strains obtained nutrients by consuming living diatoms. Aplanochytrium cells did not release digestive enzymes into the medium, but adhered to diatom cells via the tip of their characteristic ectoplasmic net system to obtain nutrients from them. The chloroplast and cell contents of the diatoms shrank and were absorbed, and then the number of Aplanochytrium cells rapidly increased as multiple aplanospores were released. To estimate the effect of labyrinthulean organisms including Aplanochytrium on marine ecosystem, we explored the dataset generated by the Tara Oceans Project from a wide range of oceanic regions. The average proportion of all labyrinthulean sequences to diatom sequences at each station was about 10%, and labyrinthulids, oblongichytrids, and aplanochytrids were the major constituent genera, accounting for more than 80% of labyrinthuleans. Therefore, these groups are suggested to greatly affect the marine ecosystem. There were positive correlations between aplanochytrids and phototrophs, green algae, and diatoms. At many stations, relatively large proportions of aplanochytrid sequences were detected in the size fraction larger than their cell size. This implied that Aplanochytrium cells increased their particle size by adhering to each other and forming aggregates with diatoms that are captured by larger zooplankton in the environment, thereby bypassing the food web pathway via aplanochytrids to higher predators. The intake of nutrients from diatoms by aplanochytrids represents a newly recognized pathway in the grazing food chain in the marine ecosystem.

Highlights

The class Labyrinthulea is a group in the Stramenopiles and are ubiquitous marine heterotrophs [1,2,3,4,5,6,7]
The Labyrinthulea comprises at least four phylogenetically distinct groups [2, 5, 13,14,15,16,17]: the labyrinthulids are classified as Labyrinthula spp., whose spindle-shaped cells are located in the ectoplasmic net element; the thraustochytrids account for almost all genera whose spherical cells have rhizoidlike ectoplasmic nets produced from a single bothrosome; the oblongichytrids are classified as Oblongichytrium spp., which are characterized by slender oblong zoospores; and the aplanochytrids are classified as Aplanochytrium spp., which form hexagonal scaly walled sporangia that release non-flagellate gliding cells known as aplanospores
About 2–5 h after the ectoplasmic net attached to a Skeletonema cell, the chloroplast suddenly (1–3 min) shrank and the color of the Skeletonema cell changed from yellow to white (Figs 1 and 3)

Summary

Introduction

The class Labyrinthulea is a group in the Stramenopiles and are ubiquitous marine heterotrophs [1,2,3,4,5,6,7]. This group is characterized by the presence of the ectoplasmic net system, which is produced by a unique organelle known as the bothrosome [2, 8,9,10,11,12]. It has been suggested that most labyrinthuleans at river mouths consume non-phytoplankton-derived POC and DOC such as terrestrial organic matter and marine detritus

Methods

Results

Conclusion