High Seas Represent $148 Billion Carbon Sink But Overfishing is Destroying It

Tuna from the Spanish Purse Seiner
Tuna from the Spanish Purse Seiner

By STEPHEN LEAHY

Stephen Leahy's picture

 

Scientists estimate that phytoplankton absorb and bury more than 1.6 billion tonnes of CO2 in the seabed every year.

This would be news to readers of Canada’s Globe and Mail newspaper’s detailed two-page spread on the Global Ocean Commission report, which failed to mention this vitally important carbon reduction service (or that it is worth an estimated $148 billion a year).

Additionally, if governments ended fishing in the unclaimed oceans beyond 200-mile economic zones, near-shore fish catches would soar, even more carbon would be safely removed from the atmosphere and the oceans would be healthier said co-author of the study Rashid Sumaila of the University of British Columbia’s Fisheries Centre.

The high seas are like a failed state. Poor governance and the absence of policing and management mean valuable resources are unprotected or being squandered,” said David Miliband, co-chair of the commission and former foreign secretary of the United Kingdom.

The dollar value of all the fish caught in high seas is actually negative

Governments like Japan, Spain, the U.S. and China subsidize fishing fleets to destroy the high seas by overfishing and deep-sea bottom trawling to the tune of $152 million a year.

Here’s the kicker: The dollar value of all the fish caught way out there is actually negative when costs like fuel and subsidies are subtracted. Turns out high seas fishing fleets get 25 per cent of their income from subsidies according to a 2009 analysis by Sumaila.

Most would not be fishing the high seas without subsidies” Sumaila told DeSmog Canada.

Restoring ocean productivity

Fishing should be banned in the high seas, which represent 64 per cent of the world’s oceans just to protect and enhance its role as a carbon sponge, he said. But that is just one of 14 other valuable services the high seas provide humanity according their study, The High Seas And Us: Understanding The Value Of High Seas Ecosystems.

The study was commissioned by the Global Ocean Commission, an 18-month-old organization comprised of business leaders and former senior politicians including former Canadian prime minister Paul Martin.

The commission is calling for the negotiation of a new agreement under the UN Convention on the Law of the Sea to prioritize ocean health and resilience and restore ocean productivity. It also called for an elimination of subsidies on high seas fishing within five years.

The commission’s proposals also call for mandatory tracking of all vessels fishing in the high seas, a ban on the transshipment of fish at sea, measures to end plastics pollution and binding standards for the regulation and control of offshore oil and gas exploration and exploitation.

Carbon really does sink

Phytoplankton are the carbon-eating plants of the seas and pass on this carbon when they’re eaten. When organisms die in the deep seas, their organic matter ends up on the bottom of the ocean, which makes for an effective, natural carbon sequestration process.

Fishing is crippling this free carbon-removal system. This is especially true for bottom-trawlers that bulldoze the sea floor scooping up every living thing. Trawling is by far the most common fishing method and recent studies warn it’s destroying corals and the sea bottom leading to “long-term biological desertification.”

Last May, scientists writing in the journal Science called for an end to “the frontier mentality of exploitation” of the high seas and recommended a ban on trawling to protect the carbon-removal service and halt the decline in the productivity of the oceans. The amount of wild fish caught peaked 20 years ago.

About 70 per cent of fish caught inside the 200-mile limits spend some time in the high seas. If the high seas are protected those fish are likely to grow larger and become more numerous, benefitting near-shore fisheries, Sumaila said.

A number of studies of marine protected zones where fishing is banned or very limited show these areas act as baby-fish incubators increasing the overall population of fish.

If fishing was banned in the high seas, fisheries profits would more than double, the amount of fish would increase 30 per cent and the amount of ocean fish stock conservation would increase 150 per cent according to a study published in PLOS Biology last March.

Given the reality that fishing the high seas is a money loser, even a low carbon price could make a fishing ban valuable, not to mention the other potential benefits of regulating international fisheries. Sumaila said the $148 billion-a-year value of the high seas carbon sponge is a conservative estimate, and it could actually be as high as $222 billion.

Fishing and trawling bans have been proposed before. Last December the European parliament narrowly rejected a bottom-trawling ban on its vessels.

We need wide public understanding of the vital importance of the high seas to all of us,” concluded Sumaila.

Top 10 High Seas Fishing Nations (according to Sumaila’s study) in descending order:
Japan
South Korea
Taiwan
Spain
USA
Chile
China
Indonesia
Philippines
France

First published by DeSmog Canada Wed, 2014-06-25 10:01

Ocean Trouble and the End of Hurricane Seasons

By Stephen Leahy*

New, disconcerting science from the oceans

GIJÓN, Spain, May 26 (Tierramérica).- Climate change is altering the world’s oceans in so many ways scientists cannot keep pace, and as a result there is no comprehensive vision of its present and future impacts, say experts.

Rising sea levels, changes in hurricane intensity and seasonality, declines in fisheries and corals are among the many effects attributed to climate change.

In an attempt to put some order to their disconcerting findings, more than 450 scientists from some 60 countries gathered in the northern Spanish city of Gijón for the symposium “Effects of Climate Change on the World’s Oceans” May 19-23.

Change is evident where ever marine scientists look. Sea level rise and warmer ocean temperatures are the most obvious, but other changes include a decline in the oceans’ productivity, which means many areas are unable to support as many fish as they once did, according to Luis Valdés, a world expert on plankton and one of the symposium organizers. Continue reading