I recently had the pleasure
of spending the New Year in the Pacific Northwest. During my time there, I traveled along the
Pacific coast just south of the Canadian border. In a region renowned for natural beauty, the
rocky shores didn’t disappoint. Mile
after mile of conifers edged waters that looked cold, calm, and clear.
It’s hard to imagine that
waters like these could be anything but healthy. But marine ecologist Dr. Joan Kleypas of the
National Center for Atmospheric Research notes that changing CO2 levels are already impacting the shellfish industry in the Pacific
Northwest. “This is not a problem in the
far distant future,” Kleypas warns. “This
is a problem now.”
In addition to rising CO2
levels, marine environments at large have seen substantial increases in
nutrients such as phosphorous and nitrogen.
This uptick in nutrients can be traced in part to human activities such
as food production, fossil fuel burning, and wastewater generation from people
and industries alike. In coastal
waters, skyrocketing levels of nutrients are leading to ecosystem responses
like eutrophication – think dense blooms of phytoplankton – and the ensuing
chaos of depleted oxygen levels, i.e.,
hypoxia. These changes in the tiny and
unseen end in visible damage; the resulting low-oxygen “dead zones” cannot
support most marine life. Five hundred
of these hypoxic dead zones have been identified globally already. Although the world’s oceans are vast, the collective
dead zones already cover a total global surface area roughly the size of the
United Kingdom. From sea-grasses to
fish, marine ecosystems lose their overall resilience, and human
activities that rely on coastal and marine health – fishing, tourism, etc. – suffer as well.
In order to protect coastal
areas, scientific partners have been working to address the root causes of this
nutrient over-enrichment. Earlier this
month, an examination of nutrient/ecosystem dynamics was published in Biogeosciences, an interactive open-access
journal of the European Geosciences Union.
The Intergovernmental Oceanographic Commission of UNESCO (IOC/UNESCO) was
an executing partner for this project, coordinated by the United Nations
Environment Programme (UNEP). The paper may
be found here.