17 March 2018

Incredible plants: Stenogramma


In some respects, red seaweeds (Phylum Rhodophyta) are the most interesting of the three major groups of marine algae inhabiting coastal shorelines. They are the most diverse seaweed group in temperate regions like the western US, they have fascinatingly complex life histories (that topic alone warrants its own post some day), and they occur in a tremendous diversity of growth forms and colors. They can be pink, brown, cherry red, or even greenish!

Generally red seaweeds are smaller and less ostentatious than the large brown seaweeds like kelps that sometimes dominate the intertidal shores of rocky temperate coastlines. But look under mats of surfgrass or in rocky crevices that are seemingly a little too dark for plant life – here you are likely to some of the more intriguing smaller red seaweeds. I came across one such species, Stenogramma californicum, in relative abundance during my exploration of Pfieffer Beach in Big Sur last month. This species has long been one of my favorite reds.

Stenogramma californicum underwater at Pfeiffer Beach, Big Sur, CA, Feb 2018.

The first thing to note about Stenogramma is that is has dichotomous branching. This means that each axis of the plant splits in two at a branching point, with each branch of equal length. Many red seaweeds have dichotomous branches, but Stenogramma has one other feature that makes it almost immediately jump out as distinct from other similar-looking species: in some plants it has thin white longitudinal lines that run down the center of each branch. These lines are actually present on female plants and are the locations where spores (carpospores to be precise) are produced after female eggs are fertilized. There are several orders of branching.

Stenogramma californicum is typically 6 to 20 cm in length. The flat dichotomous branches are up to 1 cm wide and have broadly rounded tips. According to Abbott and Hollenberg (1976) it is a relatively common plant in the northeast Pacific, occurring from British Columbia to Baja California. Related species also occur in British Columbia, Europe, South America, and Australia. In my experience it is not all that frequent along the NE Pacific coast, but there may be some good reasons I have overlooked it in the past: it is a smaller plant, it grows in the low intertidal to subtidal where it may be more challenging to find, and one can easily overlook species one is not specifically hunting for.

Herbarium specimens of Stenogramma in the UC Berkeley University Herbarium.
Left: a female plant, bar = 2 cm long. Right: a tetrasporophyte from Jalama Beach, Santa Barbara
County, CA, bar = 5 mm long.

On the north shore of Pfieffer Beach where I explored last month, it grew in the low intertidal, with or without the cover of surfgrass. The female plants were relatively common. I suspect there are many unanswered questions about the natural history of Stenogramma and smaller seaweed species like it. How long do plants typically live? Which herbivores graze on them? Does Stenogramma produce anti-herbivore compounds? How far do spores travel? How quickly do newly settled spores grow on a rocky substrate? What is the ideal amount of light? How much gene flow occurs between populations that may be separated by kilometers? 

Another plant underwater with articulated coralline algae at Pfeiffer Beach, Feb. 2018.

For smaller species like Stenogramma that may not have immediate economic value, or which don’t play major structural roles in coastal ecosystems (e.g., kelps), it may be hard to find the funding to study many questions about their natural history and ecology. Yet these smaller species, like all others, hold tremendous natural history value. They are each literally a wealth of millions of years of evolutionary innovation, holding some stories that will be forever lost to time, and revealing other stories that will enrich those who seek to know them better.

References

Abbott IA, Hollenberg GJ. 1976. Marine Algae of California. Stanford University Press, Stanford, CA.

Gabrielson PW, Lindstrom SC, O’Kelly CJ. 2012. Keys to the seaweeds and seagrasses of southeast Alaska, British Columbia, Washington, and Oregon. Phycological Contribution Number 8.

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