Mystery Alga

As I mentioned in the previous post, sometimes it is not so easy to identify an alga.  In this case, it is a species that bloomed spectacularly when a local reefkeeper set up a new tank.  The rock had been thoroughly cleaned and bleached, and no corals or fish had been added, so Alan did not expect the growth of nuisance algae.  He was rather surprised to see a rapid, spectacular bloom of long, furry green algae.

At first we thought is might be Bryopsis (yay!), so it seemed worth trying to feed to the slugs.  Once I saw and felt it, it was clearly something else.  It was soft, like Derbesia, but longer and had branches that extended radially (like a bottle brush) from the main stem.  Bryopsis feels coarser, and the branches extend in a single plane (like a fan).  So, it was not one of the usual suspects.  Nonetheless, it was worth throwing some into a tank to test whether the gals would eat it.  They did not immediately plunge into it, as they would have for Bryopsis, but they seemed to find it palatable enough.  Note the fine structure of the branches in the photos below.

Elysia clarki grazing on unknown species of alga. 11/20/16

Alan’s algae, view of whole plant. 12/27/16.

The plant has some characteristics of the order Bryopsidales, such as the lack of clear cellularization.  It looks like the plant is made up of a continuous, single cell.

Tip of branch. Scale bar = 2 mm. 12/27/16.

Stalk, showing absence of cellular divisions.  The little round bumps on the branches are reproductive structures.  Scale bar = 1 mm. 12/27/16

Acrosiphonia spinescens from Algaebase, showing cellular divisions and hook-like branches. © Ignacio Bárbara

Branch tip of Alan’s alga. Scale = 1 mm. 12/27/16.

I thought a quick look at the DNA sequence would clear things up, but that was not the case.  The closest match, Acrosiphonia, with 88% sequence identity.  That’s not a very good match, and even though it looks somewhat like Acrosiphonia, the unidentified alga lacks several key features, such as the hooks on the branches (which cause mature plants to develop a dreadlocked appearance) and clear cellularization of Acrosiphonia.  Plus, Acrosiphonia is a cold water species, unlikely to thrive in a warm reef aquarium.

The closest visual match so far is Trichosolen, which does have warm water species.  The only species with rbcL sequence in the database (T. myura) is only an 86% match for DNA, so it’s probably not the one either.

By way of comparison, the usual pest algae (various species of Bryopsis and Derbesia) were only 82% – 83% identical, so we can at least rule out the possibility that it is an oddball species of one of those.

The hunt continues for a match.  Not very satisfying, but some days are like that.

2 Comments

  1. Reply
    Hans Ruppel December 28, 2016

    Your uninitiated followers need a sense of scale. What does a DNA match look like between, say, two different species of slugs. In other words, is 88% way off? What do you need to proclaim Eureka?

    • Reply
      Dave December 29, 2016

      It’s somewhat relative, and there are no absolute cutoffs that I know of. If 98 or 99% of the nucleotides are identical, it means that only a few are different, which is likely to be due to inter-individual difference in the same species. They are certainly in the same genus. That was the case for Avrainvillea in the previous post, and the kleptoplasts from Elysia diomedea that we collected this summer.

      If the sequence similarity were somewhere in the 90’s, and the physical appearance was a close match, I would be inclined to mutter Eureka, and be reasonably certain I got the right genus. A match in the high 90’s might warrant an actual proclamation. The combination of modest sequence identity and low anatomical similarity suggest the search is not over.

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