The Little Plankton That Could | JSTOR Daily

The Little Plankton That Could | JSTOR Daily

They’re smaller than chia seeds, but they inspired one of this century’s most beloved cartoon villains. They are arguably the world’s most abundant animal, and by keeping their embryos suspended in time for decades, they have even challenged our very notion of what it means to be alive.

Meet the calanoid copepods.

Calanoid copepods are a superfamily of plankton. To oceanographers, they are the most dependable animals to find almost anywhere you can toss a net into the sea, akin to beetles on land. To everyone else, if copepods or their ilk are considered at all, it’s surely from the cartoon Spongebob Squarepants, in which the character Evil Plankton can be clearly identified as a calanoid copepod from his distinctive antennae and Cyclops-esque eye. These diminutive crustaceans, which feast on even-smaller plant plankton, feed massive ocean food webs and clue in scientists to invisible ecosystem sea-changes.

Many of them can create fertilized eggs that remain in limbo for decades, even centuries, before proceeding to grow and hatch.

The supporting role these creatures often play, whether on Nickelodeon or in food web analyses, could easily lead people to overlook how fascinating the calanoid copepods are in their own right. Many of them can create fertilized eggs that remain in limbo for decades, even centuries, before proceeding to grow and hatch. Although scientists discovered this enigma the better part of a century ago, even basic aspects of how the brainless, boneless species do it remain unsolved.

One team of researchers, led by Brad J. Gemmell, documented some calanoid species leaping from the ocean surface to escape from predators. Jumping from the water may be unremarkable for large animals, like dolphins, but it’s a big deal for microscopic swimmers that contend with far more drag to breach the water’s surface. At least one species can soar sixty times its own body length before reentering the sea—the equivalent to a humpback whale traveling twice the length of the Empire State Building in a single leap.

Although scientists have studied thousands of species of calanoid copepods, gaps in our understanding of them persist. We do know that calanoid copepods, as the base of so many marine food webs, are susceptible to the full gamut of marine threats, from chemical runoff and spills to ocean acidification to warming to plastic pollution. In this sense, calanoids perhaps represent the diversity, mystery, and vulnerability of the ocean far better than the larger and more famous marine animals ever could.

Support JSTOR Daily! Join our new membership program on Patreon today.

JSTOR logo

JSTOR is a digital library for scholars, researchers, and students. JSTOR Daily readers can access the original research behind our articles for free on JSTOR.

Plankton reach new heights in effort to avoid predators

By: Brad J. Gemmell, Houshuo Jiang, J. Rudi Strickler and Edward J· Buskey

Proceedings: Biological Sciences, Vol. 279, No. 1739 (22 July 2012), pp. 2786-2792

Royal Society

Effects of Pollution on Marine Organisms

By: Alan J. Mearns, Donald J. Reish, Philip S. Oshida, Thomas Ginn, Mary Ann Rempel-Hester, Courtney Arthur, Nicolle Rutherford and Rachel Pryor

Water Environment Research, Vol. 87, No. 10, 2015 Literature Review (October 2015), pp. 1718-1816

Wiley

(Originally posted by Sierra)
Warning over 'deadly' safety device on paddleboard...
Richard Mille’s nautical new watch doubles as a co...

By accepting you will be accessing a service provided by a third-party external to https://oc3anclub.com/