NeMO's goal is to establish a multi-year observatory on Axial Volcano in order to examine the relationships between volcanic events, the chemistry of seafloor hotsprings, and the biologic communities that depend on them.
The NeMO Project was conceived as a long-term study of the interactions between geology, chemistry, and biology on a dynamic part of the mid-ocean ridge system, using state-of the art technology. The goal is to make multiple observations at one location over several years to document changes in interrelated systems. Hence, the need for a multi-year seafloor observatory.
The site we have chosen for this observatory effort is called Axial Seamount. Axial is an active volcano located on the Juan de Fuca Ridge, about 250 miles off the coast of Oregon and Washington. The Juan de Fuca Ridge is a boundary where two of the Earth's tectonic plates move slowly, but episodically, apart. When the plates move, the process is accompanied by small earthquakes and some times by magma intrusions and volcanic eruptions.
Axial volcano was chosen for the NeMO Project because it is the most volcanically active site on the Juan de Fuca Ridge. Indeed, within months after the NeMO Project was initiated, a volcanic eruption occurred at Axial volcano in January 1998. NeMO expeditions since then have investigated this event and developed Axial as a seafloor observatory.
Volcanic eruptions bring heat near the surface which can then be released in seafloor hot springs, called hydrothermal vents. These vents are oases for unique lifeforms based on chemosynthesis, in which organisms derive energy by mediating chemical reactions within the hydrothermal fluids.
Microbes that have been found at hydrothermal vents are of great interest. These microbes are apparently one of the most ancient forms of life known on Earth. In fact, many scientist now believe that life may have begun first at deep-sea hydrothermal vents. Biotechnology companies are also interested in microbial enzymes which are uniquely stable at high temperatures, allowing commercially valuable chemical reactions (such as DNA sequencing) to be performed more quickly and accurately. These natural biochemicals could have many useful applications from new antibiotics to better laundry detergent.
Scientists have also recently discovered that Earth hosts a subsurface biosphere of microbial life, but there is presently very limited understanding of its nature and extent. The NeMO approach is to conduct detailed studies of this active site over several years. Since prior observations indicate the subsurface biosphere is re-stimulated during volcanic eruptions or intrusions, microorganisms and their products normally residing at depth are brought up to the surface. Resulting snowstorms from these bacterial blooms can be sampled around hydrothermal vents.
The NeMO Project also is an opportunity to share this exciting scientific research with teachers, students, and the general public. Each NeMO expedition has a teacher at sea and another teacher working onshore to help make research results available via this web site. Daily updates will be posted to the calendar page describing life at sea and scientific results during the expedition as well as answers to your questions during the cruise. Sound like fun? Please join us for the next NeMO expedition!
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