Developing the first national blue carbon inventory for the Isle of Man
Developing the first national blue carbon inventory for the Isle of Man
Temperate coastal ecosystems including seagrass, saltmarsh, and shelf-sea sediments are natural, long-term ‘blue carbon’ (BC) sinks, with the potential to be managed for carbon storage and sequestration. These BC hotspots could help offset unavoidable greenhouse gas emissions and contribute to nations' Net Zero ambitions. The Isle of Man, a self-governing British Crown Dependency situated in the Irish Sea, has territorial waters equivalent to approximately 85% of its total jurisdiction. The island's Government is actively developing a comprehensive BC management plan aimed at maximising carbon sequestration and restoring seabed biodiversity and ecosystem services.
To inform the management plan, sediment cores were collected from three major BC habitats around the Isle of Man: seagrass, saltmarsh, and shelf-sea sediments. The cores were analysed using elemental analysis and isotope ratio mass spectrometry to quantify organic and inorganic carbon stores. Radioanalytical methods were employed to measure radionuclides (137Cs, 210Pb, 241Am, and 210Po), which were used to determine sedimentation rates and subsequently carbon accumulation rates. Complementary analyses, including grain size analysis, X-ray fluorescence, X-ray scans, and high-resolution imagery, provide a holistic understanding of the chemical, physical, and biological attributes of the sedimentary cores, illuminating the processes influencing BC storage. Furthermore, side scan sonar, drop-down video, and drone imagery have been used to assess the extent of existing seagrass meadows, which is central to informing spatial-management strategies, particularly in the establishment of seagrass conservation zones.
Our findings will help to develop the first national BC inventory for the Isle of Man and set a precedent for co-designed, collaborative, evidence-informed approaches for the sustainable management of coastal ecosystems.
Muir, Hannah
500e66bd-f201-4a2c-aa7a-9a4a236bf5e3
Keenan, Jacqui
5879d5b6-3d64-41d7-94c9-77337e672807
Henthorn, Rowan
61fdaf53-d084-4a61-8344-d197ba4bf3c1
Strong, James
0a6dc6d8-2a92-498b-b8a5-aa6d8f768008
Reading, Dave
e875ad0e-0316-469b-9e82-f93f48ef4734
Duncan, Peter
6fd9535c-71ad-4da4-bb04-83f4cd874a1c
Skov, Martin W
65e28de7-a166-4b80-bda0-a41af9764e42
Hiddink, Jan
bdef5e49-1ab6-43f7-8bb5-ce3b3415f8f4
Unsworth, Richard K.F.
0005ab9d-f560-4152-938e-0954793b54dc
Warwick, Phillip
f2675d83-eee2-40c5-b53d-fbe437f401ef
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
April 2024
Muir, Hannah
500e66bd-f201-4a2c-aa7a-9a4a236bf5e3
Keenan, Jacqui
5879d5b6-3d64-41d7-94c9-77337e672807
Henthorn, Rowan
61fdaf53-d084-4a61-8344-d197ba4bf3c1
Strong, James
0a6dc6d8-2a92-498b-b8a5-aa6d8f768008
Reading, Dave
e875ad0e-0316-469b-9e82-f93f48ef4734
Duncan, Peter
6fd9535c-71ad-4da4-bb04-83f4cd874a1c
Skov, Martin W
65e28de7-a166-4b80-bda0-a41af9764e42
Hiddink, Jan
bdef5e49-1ab6-43f7-8bb5-ce3b3415f8f4
Unsworth, Richard K.F.
0005ab9d-f560-4152-938e-0954793b54dc
Warwick, Phillip
f2675d83-eee2-40c5-b53d-fbe437f401ef
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
Muir, Hannah, Keenan, Jacqui, Henthorn, Rowan, Strong, James, Reading, Dave, Duncan, Peter, Skov, Martin W, Hiddink, Jan, Unsworth, Richard K.F., Warwick, Phillip and Evans, Claire
(2024)
Developing the first national blue carbon inventory for the Isle of Man.
EGU General Assembly 2024, , Vienna, Austria.
14 - 19 Apr 2024.
Record type:
Conference or Workshop Item
(Poster)
Abstract
Temperate coastal ecosystems including seagrass, saltmarsh, and shelf-sea sediments are natural, long-term ‘blue carbon’ (BC) sinks, with the potential to be managed for carbon storage and sequestration. These BC hotspots could help offset unavoidable greenhouse gas emissions and contribute to nations' Net Zero ambitions. The Isle of Man, a self-governing British Crown Dependency situated in the Irish Sea, has territorial waters equivalent to approximately 85% of its total jurisdiction. The island's Government is actively developing a comprehensive BC management plan aimed at maximising carbon sequestration and restoring seabed biodiversity and ecosystem services.
To inform the management plan, sediment cores were collected from three major BC habitats around the Isle of Man: seagrass, saltmarsh, and shelf-sea sediments. The cores were analysed using elemental analysis and isotope ratio mass spectrometry to quantify organic and inorganic carbon stores. Radioanalytical methods were employed to measure radionuclides (137Cs, 210Pb, 241Am, and 210Po), which were used to determine sedimentation rates and subsequently carbon accumulation rates. Complementary analyses, including grain size analysis, X-ray fluorescence, X-ray scans, and high-resolution imagery, provide a holistic understanding of the chemical, physical, and biological attributes of the sedimentary cores, illuminating the processes influencing BC storage. Furthermore, side scan sonar, drop-down video, and drone imagery have been used to assess the extent of existing seagrass meadows, which is central to informing spatial-management strategies, particularly in the establishment of seagrass conservation zones.
Our findings will help to develop the first national BC inventory for the Isle of Man and set a precedent for co-designed, collaborative, evidence-informed approaches for the sustainable management of coastal ecosystems.
This record has no associated files available for download.
More information
Published date: April 2024
Venue - Dates:
EGU General Assembly 2024, , Vienna, Austria, 2024-04-14 - 2024-04-19
Identifiers
Local EPrints ID: 501764
URI: http://eprints.soton.ac.uk/id/eprint/501764
PURE UUID: 34c287c9-d7e0-400f-be4a-1ec8ea0a2679
Catalogue record
Date deposited: 09 Jun 2025 18:06
Last modified: 10 Jun 2025 01:35
Export record
Contributors
Author:
Hannah Muir
Author:
Jacqui Keenan
Author:
Rowan Henthorn
Author:
James Strong
Author:
Peter Duncan
Author:
Martin W Skov
Author:
Jan Hiddink
Author:
Richard K.F. Unsworth
Author:
Claire Evans
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
