Revision of Arctic environment requires special environmental protection from Sun, 11/16/2014 - 01:24
The ecosystem of the Arctic is more susceptible to pollution than other parts of the world which is even more critical because the Arctic region plays a key role in maintaining the health of the global environment.
Quicktabs: Arguments
The ice was never supposed to melt this quickly. Although climate scientists have known for some time that global warming was shrinking the percentage of the Arctic Ocean that was frozen over, few predicted so fast a thaw. In 2007, the Inter- governmental Panel on Climate Change estimated that Arctic summers would become ice free beginning in 2070. Yet more recent satellite observations have moved that date to somewhere around 2035, and even more sophisticated simulations in 2012 moved the date up to 2020. Sure enough, by the end of last summer, the portion of the Arctic Ocean covered by ice had been reduced to its smallest size since record keeping began in 1979, shrinking by 350,000 square miles (an area equal to the size of Venezuela) since the previous summer. All told, in just the past three decades, Arctic sea ice has lost half its area and three quarters of its volume.
The environment and the management of natural resources are the most pressing security issue in the North. States are committed to addressing issues of boundaries and Arctic Ocean access through existing institutions, principally UNCLOS. Large-scale damage to the Arctic environment from transportation accidents, energy development, fishing, tourism, and the long-range transport of pollutants from the South pose greater immediate threats than classic security issues. Emergency response systems and contingency plans for the North are needed to respond to possible ship disasters, industrial pollution, oil spills, etc. Such a response system is currently non-existent or not up to the task. Given the increased shipping activity in the Arctic and the lack of ports and rescue capability, the need is growing. This should be a task for the Arctic Council in cooperation with existing specialized bodies such the International Maritime Organization.
The need for large-scale ecosystem-based management regimes to pro- tect the integrity of the Arctic Ocean is receiving increasing attention, including proposals for an Arctic Treaty or Park to manage and protect the Arctic Ocean as a commons. These proposals underlie the need for a strong Arctic Council and U.S. participation in UNCLOS in order to provide institutional protection for the Arctic Ocean.
Increases in resource exploration result in increased navigation.53 In addition to transportation tied directly to oil exploration, the Arctic will also become a favored route for merchants.54
There are numerous reasons to take advantage of Arctic sea routes. Not only are they much shorter than alternate shipping routes, but they also allow companies to avoid the costs associated with utilizing canals and the threats of pirates in certain parts of the world.55 Though the trip may be economically efficient, it is still not entirely void of danger. Scientists predict that icebergs and other hazards will continue to persist well into the future, thus increasing the danger to voyages through the Arctic region.56
Regardless of oil spills, the animals living in the area will face changed circumstances. Ocean-bearing ships leave a significant amount of pollution behind simply by operating in the ocean.57 In 1999, 12.5 percent of all oceanic pollution resulted from the transportation of petroleum.58 Noise pollution is also a serious concern among environmentalists in the region.59 If species cannot effectively communicate, scientists argue, their interactions will be limited, resulting in a less diverse and less resilient marine ecosystem.60 Policymakers should consider this harm in relation to the special state of the Arctic ecosystem, which tends to be more sensitive to these types of external, human-caused factors.
The ecosystem of the Arctic is more susceptible to pollution than other parts of the world.28 There are several factors that contribute to the Arctic’s vulnerability:
- Low temperatures retard the decomposition of natural and manmade substances and the breakdown of pollutants;
- Regeneration is a protracted process because of the short growing season;
- Large concentrations of animals heighten vulnerability to catastrophes;
- Marine areas are particularly important in the Arctic in comparison with other regions of the globe;
- Climatic conditions are likely to produce a more pronounced carbon dioxide-induced warming trend in the Arctic than in temperate regions and are already leading to high concentrations of air pollutants that threaten vegetation as well as human and animal life; and
- Severe weather and ice dynamics make environmental protection and cleanup extremely difficult.29
The intricate interactions and complex food-webs within the Arctic ecosystem make these concerns even more pronounced.30 Simply put, the Arctic ecosystem is ―extremely complex.31 The increased navigation and resource exploration that is likely to occur raises several important concerns. Though there are problems common to both resource exploration and navigation, this Note will discuss the challenges separately.
There is also a significant problem with the generality of environmental protections in the UNCLOS. As mentioned previously, the treaty purports to regulate activity in all of the world’s oceans.136 It does not, therefore, deal explicitly with the very unique problems facing the Arctic environment.137 Unless the international community recognizes the region’s special needs, its natural environment will continue to worsen and become even more difficult to restore.
Increased oil and gas development will adversely affect the Arctic through increased oil spills and development infrastructure.14 Oil spills are more likely in the Arctic because oil tankers are not built to withstand collisions with sea ice, which is becoming more mobile and unpredictable as the Arctic warms.15 Oil spills are especially dangerous in the Arctic because of the region’s cold temperatures, which decrease rates of oil decomposition, resulting in the elimination of wildlife habitats and feeding grounds affected by any spills.16 Elimination of habitat and feeding grounds will have a profound effect on Arctic species, which rely on a short food chain that can be fatally disrupted by the loss of even a single species.17 These adverse effects will be compounded by increased oil and gas development infrastructure, which will include an array of new support facilities on land, oil rigs at sea, on- and off-shore pipelines, and increased air, land, and sea transportation.18 This infrastructure will interfere with wildlife feeding, breeding, rest, and migration.19 The Arctic is, by its nature, an unusually vulnerable environment and global warming compounds this vulnerability.20 The adverse effects of increased oil and gas exploration would even further aggravate the region’s vulnerability.21
The same chemical, organic, and radiological pollutants that contaminate the ecosystems of the rest of the planet pose particular problems for the Arctic. The freezing temperatures of the Arctic, both on land and at sea, prevent pollutants from breaking down into non-toxic constituent components.20 For instance, although the Arctic nations stopped using leaded gasoline more than a decade ago, the measurable lead in fish and wildlife in the area has not declined.21 In addition to the cold, the currents which flow to the Arctic from all over the world bring as much as 60% of the pollutants ultimately sited in the Arctic from somewhere else.22 Thus, the failure to include non-Arctic nations in future Arctic clean-up efforts would leave the majority of incoming pollutants unaddressed.