I wrote previously about a
fascinating intertidal kelp, the sea palm, found in the northeastern Pacific Ocean . A very close relative of this species is
the bull kelp, Nereocystis luetkeana.
This very large marine seaweed is a favorite beach find of kids (and more
playful adults) since the flexible stipes of the plant make excellent ropes or
whips during beach adventures.
Bull kelp forest at Deception Pass State Park, northern Washington, July 2013. |
Despite the genetic
similarity between Postelsia and Nereocystis, the bull kelp occupies a
different habitat than Postelsia and
has a rather different morphology. Nereocystis
is principally a subtidal species with morphological features that are adapted
for maximizing photosynthesis in deeper water. At the ocean bottom, plants are
attached to a hard substratum with conical holdfasts that support long, thin, flexible
stipes. Each stipe gradually expands into a semi-spherical pneumatocyst, the
air bladder of the species. Several smooth strap-shaped blades emerge from the
pneumatocyst at the top of each plant. Filled with mostly carbon monoxide (yes, the poison!), the
function of the pneumatocyst is to help the blades stay afloat near the water
surface.
A Nereocystis blade with sori (dark brown patches) at Trinidad, Humboldt County, California, August 2002. |
Like all kelp species, the
large plants seen along the coast actually only represent half of the kelp life
cycle. The macroscopic plants are called sporophytes. The other, microscopic
stage of the life cycle begins with the production of spores in tissues (called
sori) that develop in the center of the blades of the sporophytes. The sori fall
to the sea floor and release spores which develop into gametophytes -
multicellular, but microscopic, filaments of cells on rock surfaces (Druehl
2000). Separate male and female gametophytes produce eggs and sperm and after
fertilization of the egg, a new sporophyte generation is born.
Nereocystis is one of only a few kelps worldwide that grows large enough to form
subtidal kelp forests. Ecologically, such species are known as “foundation
species” (Dayton
1972) because they literally provide the habitat structure upon which an entire
ecosystem is built. Kelp forests are home to other numerous other species of
macroalgae, invertebrates, fish and marine mammals. In the northern Pacific Ocean (the global hotspot of kelp diversity),
other kelp species that are large enough to form forests include Macrocystis (giant kelp), Pelagophycus (elk kelp), and to some
degree, Eualaria fistulosa and Egregia menziesii. Nereocystis is the main canopy-forming kelp species north of about Santa Cruz , California .
From about Santa Cruz south to Baja California , Macrocystis is the main forest-forming species. In certain areas of
the central California coastline, such as Big Sur , Macrocystis
and Nereocystis can co-occur.
An intertidal bull kelp sporophyte with Costaria costata, Egregia menziesii and other seaweeds, Carmel, Monterey County, California, May 1999. |
Like its relative Postelsia, Nereocystis is usually an annual species (Abbott and Hollenberg
1976). Most adult plants last no more than one growing season. With such a
short life span and the capacity to attain a length of up to 36 meters, the
bull kelp sporophyte has prodigious growth rates – estimated to be as much as 6-17
cm per day (Druehl 2000, Springer et al. 2010)! Though usually subtidal, bull
kelps also occasionally grow in the intertidal and can be seen on a calm day at
low tide. I love finding small sporophytes anywhere from a few inches to a few
feet long during a low tide excursion.
To dive in a Nereocystis kelp forest is a delightful
experience. One of my most memorable dives occurred during college at the Big Creek
Ecological Reserve south of Monterey on the
rugged Big Sur coast. There, in the frigid
water I was able to observe the graceful stipes of bull kelps rising like kites
up in the sea. The bull kelp is a stout but graceful plant, perfectly depicting
the dual beauty and wildness of the Pacific coast.
References
Druehl
LD. 2000. Pacific Seaweeds. Harbour
Publishing.
Springer
Y et al. 2010. Ecosystem based management of Nereocystis. Oceanography and
Marine Biology: An Annual Review.