GLORIA — GEOMAR Library Ocean Research Information Access

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Assessing the environmental consequences of CO2 leakage from geological CCS: Generating evidence to support environmental risk assessment (2013)

Widdicombe, Stephen ; Blackford , Jerry C. ; Spicer, John I.

Elsevier

In: Marine Pollution Bulletin, 73 (2). pp. 399-401.

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Publication Date: 2014-05-26

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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Impact of sub-seabed CO2 leakage on macrobenthic community structure and diversity (2015)

Widdicombe, Stephen ; McNeill, Caroline Louise ; Stahl, Henrik ; [et al.]

Elsevier

In: International Journal of Greenhouse Gas Control, 38 . pp. 182-192.

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Publication Date: 2015-07-06

Description: Highlights • Sub-seabed release of CO2 reduced macrofaunal diversity, abundance and biomass. • Impacts were only detectable in the area of active CO2 leakage, primarily where bubbling was observed. • Community recovery was rapid once leakage had stopped. • Natural seasonal variability was seen in reference areas with additional evidence of natural disturbances (storms). Abstract A sub-seabed release of carbon dioxide (CO2) was conducted to assess the potential impacts of leakage from sub-seabed geological CO2 Capture and Storage CCS) on benthic macrofauna. CO2 gas was released 12 m below the seabed for 37 days, causing significant disruption to sediment carbonate chemistry. Regular macrofauna samples were collected from within the area of active CO2 leakage (Zone 1) and in three additional reference areas, 25 m, 75 m and 450 m from the centre of the leakage (Zones 2, 3 and 4 respectively). Macrofaunal community structure changed significantly in all zones during the study period. However, only the changes in Zone 1 were driven by the CO2 leakage with the changes in reference zones appearing to reflect natural seasonal succession and stochastic weather events. The impacts in Zone 1 occurred rapidly (within a few days), increased in severity through the duration of the leak, and continued to worsen after the leak had stopped. Considerable macrofaunal recovery was seen 18 days after the CO2 gas injection had stopped. In summary, small short-term CCS leakage events are likely to cause highly localised impacts on macrofaunal communities and there is the potential for rapid recovery to occur, depending on the characteristics of the communities and habitats impacted.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1016/j.ijggc.2015.01.003

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Optical assessment of impact and recovery of sedimentary pH profiles in ocean acidification and carbon capture and storage research (2015)

Queirós, Ana M. ; Taylor, Peter ; Cowles, Adam ; [et al.]

Elsevier

In: International Journal of Greenhouse Gas Control, 38 . pp. 110-120.

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Publication Date: 2015-07-06

Description: Highlights • pH profiling methods often fall short of marine OA and CCS experimental needs. • A new optical sensor application (MOPP) helps to meet these needs. • MOPP identified distinct impact and recovery patterns in different sediment types. • Patterns depend on sediment characteristics, i.e. buffering capacity and permeability. • CCS and OA impact assessment thus require consideration of these differences. Abstract Available methods for measuring the impact of ocean acidification (OA) and leakage from carbon capture and storage (CCS) on marine sedimentary pH profiles are unsuitable for replicated experimental setups. To overcome this issue, a novel optical sensor application is presented, using off-the-shelf optode technology (MOPP). The application is validated using microprofiling, during a CCS leakage experiment, where the impact and recovery from a high CO2 plume was investigated in two types of natural marine sediment. MOPP offered user-friendliness, speed of data acquisition, robustness to sediment type, and large sediment depth range. This ensemble of characteristics overcomes many of the challenges found with other pH measuring methods, in OA and CCS research. The impact varied greatly between sediment types, depending on baseline pH variability and sediment permeability. Sedimentary pH profile recovery was quick, with profiles close to control conditions 24 h after the cessation of the leak. However, variability of pH within the finer sediment was still apparent 4 days into the recovery phase. Habitat characteristics need therefore to be considered, to truly disentangle high CO2 perturbation impacts on benthic systems. Impacts on natural communities depend not only on the pH gradient caused by perturbation, but also on other processes that outlive the perturbation, adding complexity to recovery.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1016/j.ijggc.2014.10.018

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