Nature and Biodiversity

Here's how eating sea urchins could help save the oceans' dying kelp forests

A diver holds up a sea urchin retrieved during a deep sea dive as part of the "Clean-Up Arabia" environmental campaign in Fujairah November 6, 2010. The annual campaign is aimed at cleaning local dive sites and beaches, with volunteers collecting garbage, consisting mainly of fishing nets, plastic and metal waste, from the shores and ocean. REUTERS/Jumana El-Heloueh (UNITED ARAB EMIRATES - Tags: ENVIRONMENT ANIMALS SOCIETY) - GM1E6B61TI301

Could eating sea urchins help to save our oceans? Image: REUTERS/Jumana El-Heloueh

Charlotte Edmond
Senior Writer, Forum Agenda
  • Sea urchin populations have proliferated due to marine ecosystems being out of sync.
  • They are destroying kelp forests, leaving large swathes of barren ocean.
  • These kelp forests form part of a crucial carbon sink that helps in our battle against climate change.
  • One company is collecting them and farming them for sale as a delicacy in high-end restaurants.
Have you read?

Spiky, voracious and multiplying at an alarming rate, sea urchins are destroying marine ecosystems around the world. The solution? Eat them, according to one company.

Populations of purple sea urchins in particular – a hardy kelp-eating species – have exploded in recent years as an out-of-sync marine ecosystem has failed to keep them in check.

Munching their way through kelp forests from California to Norway, urchins leave vast expanses of desolate ocean floor – known as urchin barrens – in their wake. Not only are these kelp forests an important home for marine life, they are also crucial in our battle against climate change, capturing and storing carbon dioxide.

Urchinomics wants to turn this environmental challenge into an opportunity. By gathering urchins from the seabed and feeding them with sustainably harvested seaweed, founder Brian Tsuyoshi Takeda believes he can create a flavour-packed product that high-end restaurants will buy. Urchin roe has a rich savoury flavour and is seen as a delicacy, often served as sushi.

Once an area is cleared of urchins, rapidly growing kelp forests can return in as little as three months.

Loading...

A vanishing ecosystem

One study estimates that plagues of purple sea urchins have caused a 90% reduction in a particular variety bull kelp – along a 350 kilometre stretch of California coastline. This has in turn triggered the rapid decline of the local red abalone – a type of sea snail – and red sea urchin populations, both of which had multimillion-dollar fishing industries attached to them.

The problem is once sea urchins have run out of food to eat they can effectively go into stasis, surviving for years without eating, and so urchin barrens can last for years. But these starved urchins shrivel up inside their shells and have no economic value for food.

So-called urchin “ranching” may provide a solution by giving an economic incentive to remove the destructive creatures. But to have a real impact, the urchins will have to be all but eradicated.

A number of factors are thought to have contributed to growing urchin populations around the world, including a dearth of predators because of disease among the sea star population. This, along with factors like warming sea waters and pollution, means kelp forests are now under threat worldwide. They are disappearing at different rates around the world, but globally the decline is around 2% a year.

Sea urchin environment
Kelp forests, a crucial carbon sink, are disappearing. Image: Nature
Discover

What's the World Economic Forum doing about the ocean?

This is important because studies have shown that kelp and seaweed may have a more crucial role to play in climate change than we previously thought. Saltwater plants, particularly mangroves and seagrasses, can take up much more carbon dioxide from the atmosphere than land-based plants can. These “blue carbon” ecosystems not only take up carbon as the plants grow, but as leaves are shed and fall to the seabed this carbon is sequestered in the surrounding soil.

Blue Carbon ecosystems
Blue carbon ecosystems sequester and store large amounts of carbon in plants and the surrounding soil. Image: The Blue Carbon Initiative

But despite these benefits, such ecosystems are under great threat. Tidal marshes and seagrass meadows and mangroves are all shrinking year-on-year. And in the past 50 years, it is estimated around 30-50% of mangroves have been lost globally.

Experts estimate that the carbon dioxide being released annually from degraded coastal ecosystems is equivalent to around a fifth of emissions from tropical deforestation globally.

Don't miss any update on this topic

Create a free account and access your personalized content collection with our latest publications and analyses.

Sign up for free

License and Republishing

World Economic Forum articles may be republished in accordance with the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International Public License, and in accordance with our Terms of Use.

The views expressed in this article are those of the author alone and not the World Economic Forum.

Stay up to date:

Future of the Environment

Share:
The Big Picture
Explore and monitor how Future of the Environment is affecting economies, industries and global issues
World Economic Forum logo

Forum Stories newsletter

Bringing you weekly curated insights and analysis on the global issues that matter.

Subscribe today

How greenways can boost nature-positive living by shaping urban mobility

Federico Cartín Arteaga and Heather Thompson

December 20, 2024

2:29

5 top nature stories of 2024

About us

Engage with us

  • Sign in
  • Partner with us
  • Become a member
  • Sign up for our press releases
  • Subscribe to our newsletters
  • Contact us

Quick links

Language editions

Privacy Policy & Terms of Service

Sitemap

© 2024 World Economic Forum