Bioluminescent Creatures on the BALDRIGE

Brett Fields asks:
1. How deep do bioluminescent creatures live underwater?

Captain Nelson answers:

Most of the common occurrences of bioluminescence in the ocean are observed right at the surface or in the surface layers (several meters to tens of meters, within the euphotic zone). In its most familiar form, bioluminescence, which is a biochemical reaction in certain marine organisms, appears as a bluish-green fluorescent glow in the water as the surface is disturbed by the bow wave or wake from a ship or by cresting or breaking waves. Bioluminescence is quite often observed on a ship itself, as most ships are equipped with a salt-water system for flushing toilets. If a toilet is flushed in a dark bathroom (called a "head" on ships) the toilet bowl will often glow because of the bioluminescent microscopic organisms in the sea water used for flushing.


Bioluminescent displays may occasionally take on more spectacular forms, such as appearing as parallel lines or like spiraling spokes of wheels, of pulsating light that extend to the horizon. In the surface layers of the ocean, the group of single-celled marine organisms called dinoflagellates (including one microscopic organism called noctiluca) are likely one of the primary sources of the bioluminescence observed in the ocean.

However, a variety of other, larger marine organisms, that inhabit the abyssal depths of the oceans also display bioluminescent characteristics. Within the deep-scattering layer (mid-ocean depths between 200 and 1000 meters) certain species of myctophids, lantern fish, euphausids (shrimp-like crustaceans), and jellyfish all display certain forms of bioluminescence. Even in depths exceeding the average depths of the world's ocean basins (~ 4000 meters), bioluminescent organimsms have been collected and observed in such situations.

Most of these organisms are relatively small (a few centimeters long at most) and the bioluminescence often may appear as a line of lights along the lateral lines of these small fish, or for example as a single flashing light, attached to a protuberance from the fish, that dangles in front of the fish's mouth, much as a fishing lure. Many of these organisms appear quite ugly and grotesque under the microscope, but are quite fascinating to look at. Bioluminescence may be a defense mechanism for some of these deep dwelling creatures, but also may function to assist the organism in locating and identifying sources of smaller organisms to prey upon.

2. How do you search for new species of fish?

We aren't necessarily engaged in an active search for new species of fish. In any event, the new species of fish that we are able to collect and identify are the small, often microscopic mid-water species (like the myctophids and lantern fish in the deep scattering layers), not the larger fish species that find their way to the fish markets of the world. Most, if not all of the larger species of fish throughout the world have been previously collected, identified, and cataloged. The most abundant species by far, however, are the small, mid-water and deep ocean fish, that have not been collected as extensively, so there are still new species to collect, identify, and name.

I would have to say that the collection and identification of new species of fish come as a beneficial by-product of our primary scientific objectives during the GLOBEC (Global Ecosystems) studies that we are conducting in the northern Arabian Sea. During the two GLOBEC cruises we have been using a variety of biological and physical sampling equipment to assess the changes in productivity in the coastal and open ocean upwelling regions off the coasts of Somalia and Oman, as those changes are related to the shift from a relatively weak northeast monsoon, to a very strong southwest monsoon system.

One of the primary tools that we have been using to sample the biological organisms is a multiple opening-closing net (called a MOCNESS), that allows us to sample the water column discretely within up to five different layers. We usually have deployed the net to depths in excess of 1500 meters, and then gradually retrieve the net, successively closing one net (each net is 10 square meters in area opening) and opening another at different layers in the water column. The nets are constructed of fine mesh webbing, and the small organisms sampled by the net are collected into a tube-like container at the cod end of the net. Once the samples are aboard, the scientists retrieve the cod ends, and then they will spend about the next 3-4 hours painstakingly sorting and identifying the organisms visually, by the mark-1 eyeball if the organisms are large enough, or under a microscope, if not. New species, if found, are typically identified on the basis of differences in fin characteristics, for example, or by other identifying features that are apparent to the trained biologist's eye through a microscope, but certainly would not be obvious to a layman.

I hope that I've answered your questions adequately. Please don't hesitate to write again.

Regards,
Captain Craig S. Nelson, NOAA
Commanding Officer
NOAA Ship MALCOLM BALDRIGE

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