Thursday 19^th September, is a huge day for the Wildlife Trusts, with a world-leading series of reports issued regarding Blue Carbon – making the UK THE FIRST nation to map and estimate carbon stored in seabed habitats and highlighting the fundamental importance of marine protection.  

As Cornwall Wildlife Trust, in a county so dominated by coast, this report feels particularly poignant, especially when you look at our most ambitious project to date, Tor to Shore, a key part of our conservation work at sea.

What the Blue Carbon reports mean for Cornwall:

• Cornwall has diverse and awe-inspiring marine wildlife but protecting our oceans needs urgent action. The Blue Carbon report underpins how important Cornwall Wildlife Trust’s work to protect the Cornish coastline is, and the wide range of environmental benefits it can bring

• Cornwall Wildlife Trust is particularly active in marine conservation due to its extensive coastline and rich marine biodiversity. The Cornish coastline runs for 422 miles and inhabitants of the county are never more than 20 miles from the sea

• St Austell bay supports the largest known subtidal seagrass bed in Cornwall and one of the largest known beds in the UK

• This seagrass bed measures 359 hectares - the equivalent to 670 football fields or 3590 Olympic sized swimming pools

• Recent surveys by Cornwall Wildlife Trust identified 122 different species of plants and animals in seagrass and maerl beds within St Austell bay, including the rare short snouted seahorse

• Seagrass beds are likened to wildflower meadows in shallow seas

• Cornwall Wildlife Trust has an extensive marine protection programme known as Living Seas which encompasses projects across the coast of Cornwall. There are numerous ways for supporters to get involved, find more info here

Charities urge stronger protection for UK seas as landmark reports reveal amount of carbon stored in seabed habitats for the first time

• New series of reports – The Blue Carbon Mapping Project – provide the first estimate of carbon stored in UK seabed habitats, including in Marine Protected Areas (MPAs).
• 244 million tonnes of organic carbon* are stored in just the top 10cm of the UK’s seabed sediments – principally made of mud – plus vegetated habitats including saltmarshes and seagrass beds. 43% of this carbon is stored in MPAs.
• Seabed disturbances, including from bottom trawling and offshore development, are identified as threats to blue carbon stores, as nature charities call for stronger protections for UK seas.
• A new series of reports published today by a coalition of nature charities means the UK is the first nation to map and estimate the amount of carbon stored in its seabed habitats, including in Marine Protected Areas (MPAs).
• The Blue Carbon Mapping Project, completed by the Scottish Association for Marine Science (SAMS) on behalf of WWF, The Wildlife Trusts and the RSPB, reveals that 244 million tonnes of organic carbon are stored in just the top 10cm of UK seabed habitats, with 98% stored in seabed sediments such as mud and silt.

UK seabed habitats could capture up to 13 million tonnes of organic carbon every year –almost three times the amount sequestered by the UK’s forests – 4.8 million tonnes [1] –although forests cover a much smaller area (32,500 km2).

Seas around the UK and Isle of Man cover nearly 885,000 square kilometres – over three times the size of the UK’s land mass. This vast area is host to habitats that capture and store carbon, known as ‘blue carbon’. They include seabed sediments (made of mud, silt and sand), vegetated habitats (seagrass meadows, saltmarshes, kelp forests and intertidal seaweeds), maerl beds and biogenic reefs, such as mussel beds and honeycomb worm reefs. Carbon is primarily absorbed by phytoplankton, which drift to the bottom of the sea when they die and are added to seabed sediment.

The research analysed the storage capacity of just the top 10cm of sediment. Some sediments are hundreds of metres thick and contain millennia’s worth of carbon, so the total carbon stored will be far greater.

The Blue Carbon Mapping Project highlights how physical disturbances to the seabed, including from human activity such as bottom trawling, as well as moorings and offshore developments, pose threats to blue carbon stores. Disturbing seabed habitats can release large amounts of carbon into the atmosphere, worsening climate change.

WWF, The Wildlife Trusts, and the RSPB are calling on governments across the UK to strengthen protections for valuable blue carbon stores – including in MPAs – by minimising the impacts of human activities on the seabed. Most MPAs were not designated to protect blue carbon, and failing to protect these areas from disturbance could threaten climate and biodiversity goals – including net-zero and protecting 30% of seas by 2030.

WWF, The Wildlife Trusts & RSPB call for:

• Better management of MPAs
• Ensuring that all MPAs are protected from destructive activities that damage blue 
• carbon habitats and threaten marine life
• Account for both carbon and biodiversity in designating new protected areas, to 
• support ecosystem resilience and the role seas play in climate mitigation
• Improved strategic planning of activities in UK seas
• Considering blue carbon in UK marine plans, avoiding damaging activities in MPAs and 
• other key areas for blue carbon and wildlife that are not protected
• Minimise the impacts of fishing and developments by undertaking blue carbon 
• impact assessments
• Supporting a just transition for fishing industries away from activities that damage the 
• seabed
• More investment and research on protecting blue carbon
• Allocating funding to restore habitats including seagrass beds and saltmarshes.
• Supporting research and monitoring of blue carbon dynamics.
• Adding seagrass and saltmarsh to the Greenhouse Gas Registry to track and monitor emissions.

Tom Brook, blue carbon specialist at WWF-UK, says: 
“This project reveals how critical our seas are in regulating the climate and underscores the urgent need to protect and restore our seabed habitats. While saltmarshes and kelp forests punch above their weight in terms of capturing carbon, the mud really is the star here – accumulating and storing vast amounts on the seabed. But we need to make sure it goes  undisturbed for it to fulfil this critical function by preventing harmful activities such as  bottom trawling, starting with our Marine Protected Areas.”

Joan Edwards, director of marine policy for The Wildlife Trusts, says: “These world-first  reports reveal the enormous value of UK seas, while highlighting that many areas need far  better protection. We need strategic decision-making from policymakers to recognise the  value of blue carbon by minimising the impact of human activities on the seabed. Damaging  activities such as bottom trawling and large development must not take place in protected  areas. This research gives the UK an opportunity to lead the world in protecting blue carbon  and marine biodiversity.”

Kirsten Carter, head of UK marine policy at the RSPB, says: “Accelerating efforts on land to  tackle the nature and climate emergency is critical, but we must not underestimate the role  of UK seas. This report is a gamechanger for our knowledge of the marine environment and  a huge asset for decision-makers. Now we need them to act on its findings. To meet net zero and stop biodiversity decline we must work with nature, not against it. This means restoring habitats, properly planning offshore development, and investing in protected areas to safeguard wildlife and keep blue carbon locked up.”

Professor Mike Burrows, Scottish Association for Marine Science, says: “Understanding how much and where our marine carbon is stored is vital for guiding efforts to maintain and protect the capacity of coastal and seabed habitats to continue to serve this function. Saltmarshes and seagrass beds are significant carbon storage hotspots, while kelp beds and especially phytoplankton contribute large amounts of organic carbon annually. However, the exact fraction of this carbon that is stored in sediments remains uncertain. By consolidating various information sources, we have gained valuable insights into our coastal seabed. This process has also highlighted significant gaps in our knowledge regarding the rates of carbon accumulation in sediments.”

*Please note that organic carbon should not be converted into carbon dioxide equivalent in this instance due to the complex interaction of atmospheric carbon and the ocean.