Ahead of this week’s Arctic Council gathering in Iceland, an international coalition of 22 non-profit organisations is calling on Arctic foreign ministers to demonstrate global leadership by agreeing to cut black carbon emissions from shipping and to take effective action on Arctic-wide elimination of heavy fuel oil [1].

“This week’s Arctic Council Ministerial provides a unique opportunity for foreign ministers to demonstrate global leadership by committing to immediate reductions in black carbon emissions from shipping and rapid, Arctic-wide elimination of heavy fuel oil”, said Dr Sian Prior, Lead Advisor to the Clean Arctic Alliance.

“By including this commitment in the Reykjavík Declaration expected on May 20, Arctic Council foreign ministers can send a strong signal to the international shipping community that it must play its part in contributing to Arctic-wide efforts to reduce the impacts of short-lived climate forcers on the Arctic, and that the International Maritime Organization’s (IMO) ban on use and carriage of heavy fuel in the Arctic must be both strengthened and fully implemented when its Marine Environment Protection Committee meets in June.” [2]

“The Clean Arctic Alliance is also calling on Arctic foreign ministers attending the Arctic Ministerial to commit to introducing measures to reduce black carbon emissions from shipping in their own Arctic waters, along with national bans on the use and carriage of HFO in Arctic waters”, continued Prior.

Norway is already leading the way on getting HFO out of the Arctic, by extending an existing ban on HFO in the waters surrounding Svalbard, which will require the use of alternative, cleaner fuels and stop all HFO use and carriage in the area [3].

“If progress is to be made in dealing with the impact of shipping in the Arctic and protecting the remaining Arctic summer sea ice, Ministers from Iceland, the United States, Canada, Russia, Sweden, Finland, and the Kingdom of Denmark, must follow Norway’s example, and move faster and much more effectively than the IMO, rather than waiting until the end of the decade”, added Prior.

In November 2020, more than ten years after the Arctic Council first concluded that oil spills are the greatest risk posed by shipping, the IMO agreed to ban the use and carriage of heavy fuel oil (HFO) in the Arctic [4]. The IMO is due to make a final decision on the ban on the use and carriage of heavy fuel oil during its meeting of the Marine Environment Protection Committee (MEPC76, June 10-17), and will also consider a proposal for a resolution addressing black carbon emissions from ships. As currently drafted, the IMO’s proposed Arctic HFO ban will not be fully effective until mid-2029; with black carbon emissions from ships likely to continue to grow in the meantime, and the risk of HFO spills will remain.

By switching vessels operating in the Arctic currently using HFO to readily available cleaner fuels, or to alternative forms of propulsion, black carbon emissions from Arctic shipping can be quickly reduced by around 30%. Use of diesel fuel along with the installation of particulate filters or precipitators, as prescribed for other forms of transport, can reduce emissions of black carbon by over 90% [5].

Around the world, ships typically burn the cheapest and dirtiest fuel left over from the oil refining process – heavy fuel oil (HFO), which produces high levels of black carbon when burned. In January 2020, a new fuel standard was introduced by the IMO requiring ships’ fuels to contain no more than 0.5% sulphur leading the development and use of so-called very low sulphur fuels (VLSFOs) [6].

When ships burn HFO, they produce black carbon particles, which are emitted into the environment via their exhaust fumes. These short-lived climate forcers contribute to the warming of the Earth’s atmosphere and when they fall on snow, or on glacier ice and sea ice, their warming impact is 7-10 times greater than on land, as the reflectivity (albedo) is reduced, and consequently the absorption of heat increases. About 7-21% of global shipping’s climate warming impacts can be attributed to black carbon – the remainder being CO2 [7]. Black carbon emissions from shipping have already increased by 85% between 2015 and 2019, and more Arctic shipping using HFO will lead to further increases in black carbon emissions, fueling an already accelerating feedback loop [8]. The IMO’s HFO ban will only reduce the volume of black carbon emissions by a mere 5% when it enters into force in July 2024 [9].

Although shipping only contributes 2% of the black carbon in the Arctic, it has a much greater heating impact, as other sources of black carbon are higher in the atmosphere with less chance of falling on ice and snow. While most anthropogenic sources of black carbon pollution are being reduced in the Arctic, shipping emissions of black carbon have risen 8% globally in the past decade, and in the Arctic by 85% between 2015 and 2019 alone [10]. With climate warming driving the ongoing loss of multi-season Arctic sea ice, the region is opening up to more shipping traffic; between 2013 and 2019 data published by the Arctic Council showed a 25% increase in shipping traffic and a 75% increase in the total distance sailed in the Arctic, we can expect that further increases in black carbon emissions from shipping will only further contribute to an already accelerating feedback loop [11].

In November 2020, the International Maritime Organization (IMO), the UN body which governs shipping, approved a ban on the use and carriage of HFO in the Arctic – a ban that is set to be adopted this June. Although environmental and Indigenous groups had fought for years for the Arctic to be free of HFO, this ban set to be agreed in a few months contains serious loopholes which will mean minimal reductions in the use and carriage of HFO in 2024 when implemented. Meanwhile current growth in Arctic shipping is likely to lead to an increase in HFO use and carriage in the Arctic between now and mid-2024 when the ban takes effect and further growth by mid-2029, when the loopholes will finally be closed. Under this regime, black carbon emissions are likely, for now, to continue to increase in the Arctic [12].

 

Contacts:

Dave Walsh, Clean Arctic Alliance Communications Advisor, +34 691 826 764

Notes:
Infographics: How Black Carbon Emissions from Shipping Impact The Arctic

More infographics

Recent events, including webinars on HFO and Black Carbon

[1] 12th Arctic Council Ministerial Meeting Convenes In Reykjavík on May 20 https://arctic-council.org/en/news/12th-arctic-council-ministerial-meeting-convenes-in-reykjavik/

[2] MEPC 76

https://www.imo.org/en/MediaCentre/MeetingSummaries/Pages/MEPC-default.aspx

[3] Norwegian Government: Tungoljeforbod for skip på Svalbard(Heavy oil ban for ships on Svalbard), 26 March 2021 https://www.regjeringen.no/no/aktuelt/tungoljeforbod-for-skip-pa-svalbard/id2841839/

Prop. 119 L (2020–2021)

Amendments to the Svalbard Environmental Protection Act (heavy oil ban etc.)

Recommendation from the Ministry of Climate and the Environment 26 March 2021, approved by the Minister on the same day. (Solberg Government). Proposition to the Storting (proposed legislative resolution)

https://www.regjeringen.no/no/dokumenter/prop.-119-l-20202021/id2841219/

[4] Arctic Marine Shipping Assessment 2009 (Arctic Council, Protection Of The Arctic Marine Environment, PAME)

https://pame.is/index.php/projects/arctic-marine-shipping/amsa

[5] White paper: The International Maritime Organization’s proposed Arctic heavy fuel oil ban: Likely implications and opportunities for improvement, International Council on Clean Transportation, 3 September 2020

https://theicct.org/publications/analysis-HFO-ban-IMO-2020

6th workshop on marine black carbon emissions, International Council on Clean Transportation, Helsinki, 18 September 2019

https://theicct.org/events/6th-workshop-marine-black-carbon-emissions

Presentation: Expected black carbon emissions reductions from fuel switching, Bryan Comer, International Council on Clean Transportation, March 22, 2021, slide 10.

https://www.hfofreearctic.org/en/2021/03/11/webinar-switching-fuel-how-to-cut-black-carbon-emissions-from-arctic-shipping/

https://www.hfofreearctic.org/wp-content/uploads/2021/05/ICCT_BC_fuel-switch.pdf

[6] Global limit on sulphur in ships’ fuel oil reduced from 01 January 2020.

https://www.imo.org/en/MediaCentre/PressBriefings/Pages/34-IMO-2020-sulphur-limit-.aspx

[7] https://www.hfofreearctic.org/wp-content/uploads/2021/05/ICCT_BC_fuel-switch.pdf[7] International Council on Clean Transportation, Greenhouse gas emissions from global shipping, 2013–2015

https://theicct.org/publications/GHG-emissions-global-shipping-2013-2015

IMO Submission: Consideration Of The Impact On The Arctic Of Emissions Of Black Carbon From International Shipping: Greenhouse gas emissions from global shipping 2013-2015 https://www.hfofreearctic.org/en/2017/12/01/greenhouse-gas-emissions-from-global-shipping-2013-2015/

[8] Flanner, M. G. (2013), Arctic climate sensitivity to local black carbon, J. Geophys. Res. Atmos., 118, 1840– 1851, doi:10.1002/jgrd.50176.

[9]The IMO’s proposed Arctic heavy fuel oil (HFO) ban, ICCT Fact Sheet, September 2020.

https://theicct.org/publications/analysis-HFO-ban-IMO-2020

The International Council on Clean Transportation White Paper shows that in the last four years, there has been a 19% increase in the carriage of HFO by ships operating in the Arctic and a 75% increase in HFO use in the Arctic. This has resulted in a 72% increase in black carbon emissions from ships burning HFO and a 85% increase when all shipping black carbon emissions are considered.

Comer, B., 2021. Expected black carbon emissions reductions from fuel switching. Clean Arctic Alliance PPR 8 Side Event. 22 March, 2021

https://www.hfofreearctic.org/en/2021/03/11/webinar-switching-fuel-how-to-cut-black-carbon-emissions-from-arctic-shipping/

[10] The IMO’s proposed Arctic heavy fuel oil (HFO) ban, ICCT Fact Sheet, September 2020.

https://theicct.org/publications/analysis-HFO-ban-IMO-2020

The International Council on Clean Transportation White Paper shows that in the last four years, there has been a 19% increase in the carriage of HFO by ships operating in the Arctic and a 75% increase in HFO use in the Arctic. This has resulted in a 72% increase in black carbon emissions from ships burning HFO and a 85% increase when all shipping black carbon emissions are considered.

Comer, B., 2021. Expected black carbon emissions reductions from fuel switching. Clean Arctic Alliance PPR 8 Side Event. 22 March, 2021.

https://www.hfofreearctic.org/en/2021/03/11/webinar-switching-fuel-how-to-cut-black-carbon-emissions-from-arctic-shipping/

[11] Arctic Council First Arctic Shipping Status Report from PAME Working Group highlights increase in Arctic shipping traffic, 14 April 2020

https://www.google.com/url?q=https://arctic-council.org/en/news/first-arctic-shipping-status-report-increase-shipping-traffic/

[12] Nov 20, 2020: IMO and Arctic States Slammed for Endorsing Continued Arctic Pollution

https://www.hfofreearctic.org/en/2020/11/20/imo-and-arctic-states-slammed-for-endorsing-continued-arctic-pollution/

 

About the Clean Arctic Alliance

The following not-for-profit organisations form the Clean Arctic Alliance, which is committed to a ban on HFO as marine fuel in the Arctic:

90 North Unit, The Altai Project, Alaska Wilderness League, Bellona, Clean Air Task Force, Green Transition Denmark, Ecology and Development Foundation ECODES, Environmental Investigation Agency, European Climate Foundation, Friends of the Earth US, Global Choices, Greenpeace, Iceland Nature Conservation Association, International Cryosphere Climate Initiative, Nature And Biodiversity Conservation Union, Ocean Conservancy, Pacific Environment, Seas At Risk, Surfrider Foundation Europe, Stand.Earth, Transport & Environment and WWF.

More more information visit https://www.hfofreearctic.org/

Twitter: https://twitter.com/CleanArctic