Skip to content
Advertisements

Nature joins economy to scrutinize good air quality

#fashionover40 OOTD in #FocusAlaska @ http://www.highlatitudestyle.com
#fashionover40 woman wearing leather culottes
Leather culottes with denim jacket worn as top, statement belt, Christian Louboutain pumps (all own)

Prologue

Just a question: Have you ever thought about the travel your clothes made to finally end up in your closet? I know it is Monday which means Focus Alaska.

Alaska under scrutiny by nature and economy

Over the last decade, the Alaska Arctic has experienced notably increases in emissions due to last-chance tourism, shipping of supply for offshore oil and gas exploration, and increased commercial shipping. According to Canadian data, monthly ship traffic increased up to 22 vessels per decade in July, and eight vessels per decade annually for government vessels, icebreakers and pleasure crafts.

ships in the Alaska Arctic #FocusAlaska
Screenshot of ships in Alaska’s waters in October last year. Live Ships Map – AIS – Vessel Traffic and Positions – AIS Marine

Why Arctic shipping?


The decreasing sea-ice extend has provided potential shortcuts for intercontinental transportation. For instance, cruising from Rotterdam, The Netherlands to Yokohama, Japan via the Northern Sea Route – a shipping lane along the Russian Arctic coast from Murmansk to the Bering Strait – cuts the distance by 40% as compared to the route through the Suez Canal. A voyage from Europe to North China through the Northern Sea Route takes 55 days, which is 9 days less than the traditional route. Tweet this.

Who can blame Chinese shipping experts for their considering the Northern Sea Route to Europe on a regular basis after in October 2015, the Chinese vessel Yong Sheng had finished her record-setting round-trip from Europe to North China? The savings in costs (salary, fees, fuel, insurance, etc.), time, and the comparatively lower amount of emissions make traveling Arctic shipping routes attractive.

#styleover40 belt in #FocusAlaska
Zoom-in on the belt of the OOTD

Besides the economic incentives, the uncertainty regarding the renovation of the Panama Canal, pirates and the political situation in the Middle East provide additional arguments in favor of Arctic Shipping Routes. Companies may decide for investing in Arctic-suitable vessels when updating/extending their fleets despite of higher upfront-costs than regular commercial vessels.

Sightseeing cruises

Last chance tourism has become more popular in recent years. The Vice President of Crystal Cruises, MacGarva announced that the Hong Kong based company has planned a 900-passenger Crystal Serenity’s 32-day voyage from Anchorage to New York through the Northwest Passage in August 2016. Tweet this.

The future brings emission changes

One has to expect that Arctic ship emissions further increase in the future. Increased Arctic shipping, Arctic sightseeing tourism as well as Alaska and Norway offshore gas/oil activities inevitably will increase the Arctic fleet of the Coast Guards for Search-and-Rescue, the supply-shipping to Arctic communities, the population living along the Arctic Coast, the emissions from power generation, residential and business sources, as well as vehicle and air traffic to and from Arctic communities.

What gets in the air

During their voyage, ships emit primary particles and precursor gases like sulfur dioxide (SO2), nitrogen oxides (NOx=NO+NO2 nitric oxide and nitrogen dioxide), and volatile organic compounds (VOC) into the marine and coastal lower atmosphere. Here so-called secondary pollutants and/or secondary particles form by chemical reactions and so-called gas-to-particle conversion. Think of the latter process as a similar process like the phase transition from water-vapor to ice.

Environmental impacts

Increases in emissions may change atmospheric chemistry, the energy, water- and trace-gas budgets including cloudiness, precipitation formation, water supply to the atmosphere by evapotranspiration and sublimation as well as local weather. An increase in particles acting as cloud-condensation nuclei, for instance, may reduce droplet sizes, for which cloud and fog lifetimes increase, and precipitation may decrease. Note that cloud droplets build on these nuclei. The more nuclei exist the larger is the competition for water-vapor and the smaller the individual droplets will be.

Pollutants may accumulate under the frequent and long-lasting inversions that occur in the Arctic thereby degrading air quality and visibility and forming Arctic haze (see photo below for an example of haze).

#styleover40 winter woman in winter outerwear in ice fog | High Latitude Style | http://www.highlatitudestyle.com
Example for Arctic haze as it becomes a photo bomb while taking outfit posts.

Air pollution bears health and hazard risks

All these impacts are of huge concern at various levels and time scales especially as in polar regions, pollutant-removal processes are slow. Some impacts may become health and safety issues for humans living and working in the polar regions. Long-term exposure to elevated concentrations of particulate matter of diameters less than 2.5 micrometer – so-called PM2.5, for instance, is health adverse. The hairs in the nose can’t scavenge them and these particles get deep into your lungs.

Deposition of contaminants on land, water and sea-ice may be a burden for Arctic ecosystems and subsidence lifestyle. Reduced visibility due to Arctic haze, low-level clouds as well as supercooled fog can cause hazardous conditions for small aircrafts, helicopters and vessels. Note that the term “supercooled” refers to water at temperatures below the freezing point.

#fashionover50 OOTD in #FocusAlaska @ http://www.highlatitudestyle.com
Back view of leather culottes with tailored denim jacket, Christian Louboutin pumps and belt (all own)

Supercooled clouds and fog increase the risk of icing. Ships cruising through supercooled fog or close to the freezing point seas with splashing waves, for instance, may accumulate ice above the sea-waterline, become top-heavy and turn around potentially spilling some or their entire load. Such accidents may not only cause the lost of lives and economic damage, but depending on the load, may require cleanup, which again puts more humans, the environment, Arctic biota, and air quality at risk.

Not all pollutants in the Arctic were emitted in the Arctic

Pollutants in the Arctic not only stem from emissions in the Arctic. In winter and spring, pollutants from emissions in Eurasia often reach the Norwegian and North American Arctic. In summer, pollutants from boreal forest fires often reach the Arctic. In Alaska, we often have aged smoke from wildfires in Siberia. Not to mention that the smoke from the wildfires in Interior Alaska of course also may reach the Arctic. In March, we often observe brown layers of dust from the Gobi desert over Fairbanks.

Summary

In a nutshell, pollution does not know any borders. Even regions with low emissions like Alaska or the Arctic receive polluted air by transport of pollutants emitted in other regions. Even though the air in Alaska and the Arctic is still pristine on average, periods of lower air-quality may occur due to local emissions (e.g. wildfires, shipping) or accumulation of pollutants under inversion (e.g. from emissions due to residential heating, traffic and power generation). In winter, it often occurs that Fairbanks has poor air quality while the areas on the hills above the inversions have pristine air.

What are the reason for poor air-quality in the region where you live? Are you concerned about air quality in your house, neighborhood and at work? Do you check air-quality advisories in summer regarding ozone and in winter regarding particulate matter? Let me know, I am curious.

When you found this post informative please let others know by tweeting air pollution knows no borders!

Get a subscription to High Latitude Style to never miss a post.

Photos: G. Kramm (2015, 2016)

Copyright 2013-2016 Nicole Mölders | All rights reserved

Advertisements
%d bloggers like this: