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Ever heard of ocean forests? They’re larger than Amazon and more productive than we thought

The Conversation

Amazon, Borneo, Congo, Daintree. We know the names of many of the world’s largest or most famous rainforests. And many of us know about the world’s largest span of forests, the boreal forests stretching from Russia to Canada.

Authors


  • Albert Pessarrodona Silvestre

    Postdoctoral Research Fellow, The University of Western Australia


  • Karen Filbee-Dexter

    Research Fellow, School of Biological Sciences, The University of Western Australia


  • Thomas Wernberg

    Professor, The University of Western Australia

But how many of us could name an underwater forest? Hidden underwater are huge kelp and seaweed forests, stretching much further than we previously realised. Few are even named. But their lush canopies are home to huge numbers of marine species.

Off the coastline of southern Africa lies the , while Australia boasts the around its southern reaches. There are many more vast but unnamed underwater forests all over the world.

Our new research has discovered just how and they are. The world’s ocean forests, we found, cover an area twice the size of India.

These . But they may also hold part of the answer, with their ability to grow quickly and sequester carbon.

What are ocean forests?

Underwater forests are formed by seaweeds, which are types of algae. Like other plants, seaweeds grow by capturing the Sun’s energy and carbon dioxide through photosynthesis. The largest species grow tens of metres high, forming forest canopies that sway in a never-ending dance as swells move through. To swim through one is to see dappled light and shadow and a sense of constant movement.

Just like trees on land, these seaweeds offer habitat, food and shelter to a wide variety of marine organisms. Large species such as sea-bamboo and giant kelp have gas-filled structures that work like little balloons and help them create vast floating canopies. Other species relies on strong stems to stay upright and support their photosynthetic blades. Others again, like golden kelp on Australia’s Great Southern Reef, drape over seafloor.

How extensive are these forests and how fast do they grow?

Seaweeds have long been known to be among the fastest growing plants on the planet. But to date, it’s been very challenging to estimate how large an area their forests cover.

On land, you can now easily measure forests by satellite. Underwater, it’s much more complicated. Most satellites cannot take measurements at the depths where underwater forests are found.

To overcome this challenge, we relied on millions of underwater records from scientific literature, online repositories, local herbaria and .

With this information, we modelled the global distribution of ocean forests, between 6 million and 7.2 million square kilometres. That’s larger than the Amazon.

Next, we assessed how productive these ocean forests are – that is, how much they grow. Once again, there were no unified global records. We had to go through hundreds of individual experimental studies from across the globe where seaweed growth rates had been measured by scuba divers.

We ocean forests are even more productive than many intensely farmed crops such as wheat, rice and corn. Productivity was highest in temperate regions, which are usually bathed in cool, nutrient-rich water. Every year, on average, ocean forests in these regions produce 2 to 11 times more biomass per area than these crops.

What do our findings mean for the challenges we face?

These findings are encouraging. We could harness this immense productivity to help meet the world’s future food security. Seaweed farms can supplement food production on land and .

These fast growth rates also mean seaweeds are hungry for carbon dioxide. As they grow, they pull large quantities of carbon from seawater and the atmosphere. Globally, ocean forests may as the Amazon.

This suggests they could play a role in mitigating climate change. However, not all that carbon may end up sequestered, as this requires seaweed carbon to be locked away from the atmosphere for relatively long periods of time. First estimates suggest that of seaweed could be sequestered in sediments or the deep sea. But exactly how much seaweed carbon ends up sequestered naturally is an area of intense research.

Hard times for ocean forests

Almost trapped by the 2,400 gigatonnes of greenhouse gases we have emitted so far has gone into our oceans.

This means ocean forests are facing very difficult conditions. Large expanses of ocean forests have recently disappeared off , and , resulting in the loss of habitat and carbon sequestration potential.

Conversely, as sea ice melts and water temperatures warm, some Arctic regions are expected to see expansion of .

These overlooked forests play an crucial, largely unseen role off our coasts. The majority of the world’s underwater forests are unrecognised, unexplored and uncharted.

Without substantial efforts to improve our knowledge, it will not be possible to ensure their protection and conservation – let alone harness the full potential of the many opportunities they provide.

The Conversation

Albert Pessarrodona Silvestre receives funding from the Australian Government Research Training Program, the Holsworth Wildlife Research Endowment. He is also affiliated with Conservation International.

Karen Filbee-Dexter receives funding from the Australian Research Council, ArcticNet, the Norwegian Research Council, Schmidt Marine Technology Partners and Canopy Blue. Karen is affiliated with the Institute of Marine Research Norway and Laval University.

Thomas Wernberg receives funding from The Australian Research Council, The Norwegian Research Council, The Schmidt Marine Technology Partners and Canopy Blue. Thomas is also affiliated with the Institute of Marine Research, Norway and Rosklid University, Denmark.

/Courtesy of The Conversation. View in full .