6.2 Global Change means Ocean Change

References:

1. Impacts of Climate Change Coming Faster and Sooner: New Science Report Underlines Urgency for Governments to Seal the Deal in Copenhagen…Washington/Nairobi, 24 September 2009

“Recent estimates of the combined impact of melting land-ice and thermal expansion of the oceans suggest a plausible average sea level rise of between 0.8 and 2.0 metres above the 1990 level by 2100. This compares with a projected rise of between 18 and 59 centimetres in the last IPCC report, which did not include an estimate of large-scale changes in ice-melt rates, due to lack of consensus” http://www.unep.org/Documents.Multilingual/Default.asp?DocumentID=596&ArticleID=6326&l=en

2. Widespread Arctic Warming Crosses Critical Ecological Thresholds,Scientists warn.

http://www.sciencedaily.com/releases/2005/03/050308100441.htm

3. Climate ‘altering UK marine life’

The UK’s coasts are becoming stormier places, the report says
The biodiversity and productivity of seas around the UK could already be suffering the consequences of climate change, a report has concluded.

http://news.bbc.co.uk/2/hi/science/nature/6191828.stm

4. Scientists Warn Of Climate Change Risk To Marine Turtles

http://www.sciencedaily.com/releases/2007/02/070220003809.htm


ScienceDaily (Feb. 22, 2007) — North American marine turtles are at risk if global warming occurs at predicted levels, according to scientists from the University of Exeter. An increase in temperatures of just one degree Celsius could completely eliminate the birth of male turtles from some beaches. A rise of three degrees Celsius would lead to extreme levels of infant mortality and declines in nesting beaches across the USA.

5. IMPACTS OF CLIMATE CHANGE ON AUSTRALIAN MARINE LIFE

http://www.greenhouse.gov.au/impacts/publications/marinelife.html

Climate change impacts on marine life and marine ecosystems are likely to dramatically affect human societies and economies. Notable impacts of climate change on marine biodiversity have been observed throughout the world – principally due to the existence of long-term data series. Evidence from Australian waters is sparse, mainly due to a lack of historical long-term data collection. Importantly, little modelling has been conducted to predict future changes in Australian marine ecosystems and this remains a critical gap. This report identified six key questions that need to be addressed by future modelling and monitoring programmes:

6. Ocean climate change and its effects on marine life at all depths

http://www.neptunecanada.ca/science/ocean-climate.html

7. http://www.ec.gc.ca/climate/overview_canada-e.html

“British Columbia/Yukon
Climate change will have significant impacts on British Columbia and Yukon, including increased flood dangers in some areas, drought in others, and widespread disruption to forests, fisheries, and wildlife.
Sea levels are expected to rise up to 30 cm on the north coast of British Columbia and up to 50 cm on the north Yukon coast by 2050, mainly due to warmer ocean temperatures. This could cause increased sedimentation, coastal flooding, and permanent inundation of some natural ecosystems, and place low-lying homes, docks, and port facilities at risk.
Other changes that may result from climate change include:

In winter, increased winter precipitation, permafrost degradation, and glacier retreat due to warmer temperatures may lead to landslides in unstable mountainous regions, and put fish and wildlife habitat, roads, and other man-made structures at risk. Increased precipitation will put greater stress on water and sewage systems, while glacier reduction could affect the flow of rivers and streams that depend on glacier water, with potential negative impacts on tourism, hydroelectric generation, fish habitat, and lifestyles.
Spring flood damage could be more severe both on the coast and throughout the interior of British Columbia and Yukon, and existing flood protection works may no longer be adequate.
Summer droughts along the south coast and southern interior will mean decreased stream flow in those areas, putting fish survival at risk, and reducing water supplies in the dry summer season when irrigation and domestic water use is greatest.

Atlantic
Climate change in the Atlantic region has not followed the national warming trend of the past century, and, in fact, a slight cooling trend has been experienced over the past 50 years. This trend is consistent with projections by climate models.
Atlantic Canada is particularly vulnerable, however, to rising sea levels, whose impacts could include greater risk of floods; coastal erosion; coastal sedimentation; and reductions in sea and river ice.
Other potential impacts include:
• loss of fish habitat;
• changes in ice-free days, which could affect marine transportation and the offshore oil and gas industry; and
• changes in range, distribution, and breeding success rates of seabirds”

6.3 Profiles of Individuals

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