According to the WWF report "Arctic Climate Feedbacks: Global Implications", the consequences of a warming Arctic are far worse than previous projections.
Scientific Facts on Arctic Climate ChangeGreenFacts
Our climate is already changing, particularly in the Arctic where permafrost is melting, glaciers are receding, and sea ice is disappearing.
Changes in the Arctic will not only affect local people and ecosystems but also the rest of the world, because the Arctic plays a special role in global climate.
How has the climate changed in the Arctic so far, and what future changes are expected?
Climate Change Basics: Issues and Impacts for BoatingNASBLA
State Climatologist David Zierden presented Climate Change Basics: Issues and Impacts for Boating to the National Association of State Boating Law Administrators on September 9, 2008
Scientific Facts on Arctic Climate ChangeGreenFacts
Our climate is already changing, particularly in the Arctic where permafrost is melting, glaciers are receding, and sea ice is disappearing.
Changes in the Arctic will not only affect local people and ecosystems but also the rest of the world, because the Arctic plays a special role in global climate.
How has the climate changed in the Arctic so far, and what future changes are expected?
Climate Change Basics: Issues and Impacts for BoatingNASBLA
State Climatologist David Zierden presented Climate Change Basics: Issues and Impacts for Boating to the National Association of State Boating Law Administrators on September 9, 2008
Presented by Dr. Shailesh Nayak Key-note Address at Achieving Sustainable Development Goals and Strengthening Science of Climate Resilience, Multi-Stakeholders
Extraction from the ocean chapters of IPCC Working Group II contribution to 5th Assessment Report by Svein Sundby, Institute of Marine Research, Norway
SICCME open session, 17 September 2014, ICES Annual Science Conference, A Coruña, Spain
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This presentation contains the shreds of evidence of climate change along with the impacts of changing climate on animal and human health. International agencies working on mitigation and adaptation steps.
Are ‘little ice ages’ and ‘megadroughts’ possible?
Scientists are investigating whether changes in ocean circu- lation may have played a role in causing or amplifying the “Little Ice Age” between 1300 and 1850. This period of abruptly shift- ing climate regimes and more severe winters had profound agri- cultural, economic, and political impacts in Europe and North America and changed the course of history.
Global warming is a long-term rise in the average temperature of the Earths climate system, an aspect of climate change shown by temperature measurements and by multiple effects of the warming. A worldwide temperature alteration, the wonder of expanding normal air temperatures close to the surface of Earth over the past one to two centuries. Atmosphere researchers have since the mid-twentieth century assembled itemized perceptions of different climate marvels, for example, temperatures, precipitation, and storms and of related influences on atmosphere, for example, sea flows and the airs compound creation . These information demonstrate that Earths atmosphere has changed over pretty much every possible timescale since the start of geologic time and that the influence of human exercises since in any event the start of the Industrial Revolution has been profoundly woven into the specific texture of environmental change. Prof. S. S. Patil "A Study on Global Warming and its Effects" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-2 , February 2019, URL: https://www.ijtsrd.com/papers/ijtsrd20301.pdf
Paper URL: https://www.ijtsrd.com/humanities-and-the-arts/geography/20301/a-study-on-global-warming-and-its-effects/prof-s-s-patil
Vivid description about climate change
A NASA database based presentation.
Geoengineering, solar , Mitigation and Adaption
a social cause , vital signs of planet
brief intoduction
www.climate.nasa.gov
Presented by Dr. Shailesh Nayak Key-note Address at Achieving Sustainable Development Goals and Strengthening Science of Climate Resilience, Multi-Stakeholders
Extraction from the ocean chapters of IPCC Working Group II contribution to 5th Assessment Report by Svein Sundby, Institute of Marine Research, Norway
SICCME open session, 17 September 2014, ICES Annual Science Conference, A Coruña, Spain
Climate change impact on animal and human healthHinaMalik64
This presentation contains the shreds of evidence of climate change along with the impacts of changing climate on animal and human health. International agencies working on mitigation and adaptation steps.
Are ‘little ice ages’ and ‘megadroughts’ possible?
Scientists are investigating whether changes in ocean circu- lation may have played a role in causing or amplifying the “Little Ice Age” between 1300 and 1850. This period of abruptly shift- ing climate regimes and more severe winters had profound agri- cultural, economic, and political impacts in Europe and North America and changed the course of history.
Global warming is a long-term rise in the average temperature of the Earths climate system, an aspect of climate change shown by temperature measurements and by multiple effects of the warming. A worldwide temperature alteration, the wonder of expanding normal air temperatures close to the surface of Earth over the past one to two centuries. Atmosphere researchers have since the mid-twentieth century assembled itemized perceptions of different climate marvels, for example, temperatures, precipitation, and storms and of related influences on atmosphere, for example, sea flows and the airs compound creation . These information demonstrate that Earths atmosphere has changed over pretty much every possible timescale since the start of geologic time and that the influence of human exercises since in any event the start of the Industrial Revolution has been profoundly woven into the specific texture of environmental change. Prof. S. S. Patil "A Study on Global Warming and its Effects" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-2 , February 2019, URL: https://www.ijtsrd.com/papers/ijtsrd20301.pdf
Paper URL: https://www.ijtsrd.com/humanities-and-the-arts/geography/20301/a-study-on-global-warming-and-its-effects/prof-s-s-patil
Vivid description about climate change
A NASA database based presentation.
Geoengineering, solar , Mitigation and Adaption
a social cause , vital signs of planet
brief intoduction
www.climate.nasa.gov
Potential Global Warming and Sea Level Rise; Impact of Climate Change on Ene...Jack Onyisi Abebe
This presentation discusses the Potential Global Warming and Sea Level Rise; Impact of Climate Change on Energy Use, Water and Water Quality and Availability
Global warming and climate change are terms for the observed century-scale rise in the average temperature of the Earth's climate system and its related effects.
Multiple lines of scientific evidence show that the climate system is warming.
Temperature changes vary over the globe. Since 1979, land temperatures have increased about twice as fast as ocean temperatures. Ocean temperatures increase more slowly than land temperatures because of the larger effective heat capacity of the oceans and because the ocean loses more heat by evaporation
Dr Andrew Rawson: Soil Carbon Sequestration in a Changing ClimateCarbon Coalition
Dr Andrew Rawson of the NSW Department of the Environment and Climate Change, explains why climate change is blamed for more than it can be held to have caused. This presentation was given at the Carbon farming Expo & Conference in Orange NSW Australia in November 2008.
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Fossil evidence clearly demonstrates that Earth’s climate can shift gears within a decade, establishing new and different patterns that can persist for decades to centuries. In addition, these climate shifts do not necessarily have universal, global effects. They can generate a counterintuitive scenario: Even as the earth as a whole continues to warm gradually, large regions may experience a precipitous and disruptive shift into colder climates.
This new paradigm of abrupt climate change has been well established over the last decade by research of ocean, earth
The global ocean circulation system, often called the Ocean Conveyor, transports heat worldwide. White sections represent warm surface cur- rents. Purple sections represent cold deep currents.
and atmosphere scientists at many institutions worldwide. But the concept remains little known and scarcely appreciated in the wider community of scientists, economists, policy mak- ers, and world political and business leaders. Thus, world lead- ers may be planning for climate scenarios of global warming that are opposite to what might actually occur.1
It is important to clarify that we are not contemplating a situation of either abrupt cooling or global warming. Rather, abrupt regional cooling and gradual global warming can un- fold simultaneously. Indeed, greenhouse warming is a desta- bilizing factor that makes abrupt climate change more prob- able. A 2002 report by the US National Academy of Sciences (NAS) said, “available evidence suggests that abrupt climate changes are not only possible but likely in the future, poten- tially with large impacts on ecosystems and societies.”2
The timing of any abrupt regional cooling in the future also has critical policy implications. An abrupt cooling that hap- pens within the next two decades would produce different climate effects than one that occurs after another century of continuing greenhouse warming.
How declining populations can effect productivity -- PROJECT MOpen Knowledge
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Impact of the Euro debt crisis on the investment behavior of 50+ European Inv...Open Knowledge
Allianz International Pensions conducted a survey in seven European countries among wealthier people aged between 50 and 70. Countries included were Austria, France,
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The nature of mobility is changing at incredible speed.
Ongoing trends like urbanization, rising fuel costs, environmental
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Das Factbook zur Nachhaltigkeit zeigt die Aktivitäten der Allianz in den drei für das Kerngeschäft relevanten Bereichen: Zugang zu Finanzdienstleistungen, Klimawandel und demografischer Wandel.
As a global financial services provider, Allianz's business success is heavily affected by a variety of global, long-term issues. In this Sustainability Factbook, Allianz presents their ongoing activities relating to the three global issues that are most relevant to the core business: access to finance, climate change and demographic change.
The first of a series of investigations made by Allianz Global Investors deals with changes of the Dutch retirement system driven by fiscal pressure and the current low yield environment.
In RiskMonitor, Allianz Global Investors (AllianzGI) together with Investment & Pensions Europe (IPE) magazine surveys European institutional investors’ perceptions of capital market, regulatory and governance risk.
Learn about the expiring tax breaks and automatic spending cuts scheduled to take effect at the end of 2012 in the United States, including the forecasted economic impact and where Democrats and Republicans stand.
Fears of the U.S. economy falling off a “fiscal cliff” have been percolating among investors, conjuring up frightening images of a deep recession. But the chances of it actually happening in its entirety are slim, say Allianz experts.
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Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
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The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
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Personal development courses are widely available today, with each one promising life-changing outcomes. Tim Han’s Life Mastery Achievers (LMA) Course has drawn a lot of interest. In addition to offering my frank assessment of Success Insider’s LMA Course, this piece examines the course’s effects via a variety of Tim Han LMA course reviews and Success Insider comments.
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Acetabularia acetabulum is a single-celled green alga that in its vegetative state is morphologically differentiated into a basal rhizoid and an axially elongated stalk, which bears whorls of branching hairs. The single diploid nucleus resides in the rhizoid.
1. for a living planet
Arctic climAte
FeedbAcks: GlobAl
implicAtions
executive
summAry
2. o
ver the pAst Few decAdes, the Arctic has warmed at about
twice the rate of the rest of the globe. human-induced climate change
has affected the Arctic earlier than expected. As
a result, climate change is already destabilising important
arctic systems including sea ice, the Greenland ice sheet,
“Human-induced
mountain glaciers, and aspects of the arctic carbon cycle climate change has
including altering patterns of frozen soils and vegetation and affected the Arctic
increasing methane release from soils, lakes, and wetlands.
earlier than expected”
the impact of these changes on the Arctic’s physical
systems, biological systems, and human inhabitants is large
and projected to grow throughout this century and beyond.
in addition to the regional consequences of arctic climate change are its global
impacts. Acting as the northern hemisphere’s refrigerator, a frozen Arctic plays
a central role in regulating earth’s climate system. A number of critical arctic
climate feedbacks affect the global climate system, and many of these are now
being altered in a rapidly warming
Arctic. there is emerging evidence
“There is emerging
and growing concern that these
evidence and growing feedbacks are beginning to accelerate
concern that arctic climate global warming significantly beyond
the projections currently being
feedbacks affecting the
considered by policymakers. recent
global climate system are observations strongly suggest that
beginning to accelerate climate change may soon push some
warming significantly systems past tipping points, with
global implications. For example,
beyond current projections”
the additional heat absorbed by an
increasingly ice-free Arctic ocean
in summer is already accelerating
local and regional warming and preventing sea ice from recovering. there is also a
concern that arctic feedbacks may increase regional or global warming significantly
enough that it would alter other climate feedbacks.
while the important role of the Arctic in the global climate system has long been
recognized, recent research contributes much to the understanding of key linkages,
such as the interactions between the Arctic ocean and the atmosphere. At the same
time, the science assessing the growing regional and global consequences of arctic
climate impacts is rapidly maturing. in combination, these growing insights sharpen
our awareness of how arctic climate change relates to global average warming,
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
3. and what level of global warming may constitute dangerous human interference
with the climate system. Avoiding such interference by stabilising atmospheric
greenhouse gases at the necessary levels
is the stated objective of the united
“Global feedbacks already arising
nations Framework convention on
climate change. Global feedbacks from arctic climate change suggest
already arising from arctic climate that anything but the most ambitious
change suggest that anything but the most
constraints on greenhouse gas
ambitious constraints on greenhouse gas
concentrations may not be sufficient to concentrations may not be sufficient
avoid such interference. this points to the to avoid dangerous interference
need to continually incorporate the latest with the climate system”
science in determining acceptable limits.
climate change in the Arctic is
affecting the rest of the world by altering
atmospheric and oceanic circulation that affect weather patterns, the increased
melting of ice sheets and glaciers that raise global sea level, and changes in
atmospheric greenhouse gas concentrations (by altering release and uptake of carbon
dioxide and methane). this report provides a comprehensive and up-to-date picture
of why and how climate change in the Arctic matters for the rest of the world and
is thus relevant for today’s policy decisions regarding reductions in atmospheric
greenhouse gases. In particular, the report describes the most recent findings
regarding major arctic feedbacks of global significance for coming decades.
i
n sum, important aspects of the global climate system, which directly affect
many people, are already seeing the effects of arctic climate change. this
assessment of the most recent science shows that numerous arctic climate
feedbacks will make climate change more severe than indicated by other recent
projections, including those of the ipcc 2007 assessment. some of these feedbacks
may even interact with each other. up-to-date analyses of the global consequences
of arctic change highlight the need for ongoing critical review of the thresholds
of dangerous human interference with the climate system, and demand increased
rigour to stay below these thresholds through an ambitious global effort to reduce
atmospheric greenhouse gases.
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
4. Arctic Climate Change
the Arctic climate feedbacks that are the focus of this report are taking place in
the context of rapid and dramatic climate change in the Arctic. rising temperatures,
rapidly melting ice on land and sea, and thawing permafrost are among the
sweeping changes being observed. the following is a brief summary of these
changes that define the starting point for the discussion of arctic climate feedbacks
and their implications for the world.
Annual temperatures increases
for 2001-2005 relative to 1951-1980
Air temperatures rising
Arctic air temperatures have risen at
almost twice the rate of the global average
rise over the past few decades. this
“arctic amplification” of global warming
is largely a result of reduced surface
reflectivity associated with the loss of
snow and ice, especially sea ice. the year
2007 was the warmest on record in the
Arctic. recent research has concluded
that this warming contains a clear human
“fingerprint”. Precipitation is also
Mean surface increasing in the Arctic, and at a greater
temperature anomaly (ºC)
-0.8 -0.4 -0.2 0.2 0.4 0.8 1.2 1.6 2.1 rate than the global average, an expected
Insufficient data
Source : Hansen, J., et al. Global Temperature Changes, Prot. Natl. Acad. Sci. 103, 2006.
result of human-caused warming.
Sea ice declining Minimum arctic summer sea ice extent
sea ice extent has decreased sharply in all seasons, with summer Million square kilometres
10
sea ice declining most dramatically — beyond the projections of
ipcc 2007. nearly 40 per cent of the sea ice area that was present
8
in the 1970s was lost by 2007 (the record low year for summer sea
IPCC estimate
ice), and ice-free conditions existed in 2008 in both the northeast 6
and Northwest passages for the first time on record. Sea ice has also Observation
become thinner. thick ice that persists for years (multi-year ice) has 4
declined in extent by 42 per cent, or 1.5 million square kilometres,
about the size of Alaska, between 2004 and 2008 alone. As this 2
multi-year ice is replaced by young ice, arctic sea ice is becoming PROJECTION
increasingly vulnerable to melting. 0
1900 1950 2000 2050 2100
Source : Max Planck Institute for Meteorology.
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
5. Greenland Ice Sheet melting
the loss of ice from the Greenland ice sheet has increased in recent
years and is more rapid than was projected by models. The faster flow of
glaciers to the sea appears to be responsible for much of the increase in
mass loss. in addition, melting on the surface of the ice sheet has been
increasing, with 2007 melting being the most extensive since record
keeping began. the area experiencing surface melt was 60 per cent larger Greenland
than in 1998, the year with the second-largest area of melting in the
record.
2007 surface melt
duration anomaly
relative to 1973 -2000
Days
0 10 20 30 40 50
Source: AMAP, 2009.
Glacier mass balance
Glacier retreat accelerating
Glacier mass loss has been observed across the Arctic, consistent with
Thousand kilograms per square meter
5
the global trend. some glaciers are projected to completely disappear in the
0
coming decades. Alaska’s glaciers are shrinking particularly rapidly. until
-5 recent years, glaciers in scandinavia were reported to be increasing in mass
-10
while those on svalbard showed no net change as increased winter snowfall
outpaced or equalled summer melting in those areas. this has reversed in
recent years, with glaciers in both scandinavia and on svalbard now clearly
-15
-20 losing mass.
Arctic
-25 Europe
Andes
Asia High Mountains
-30
Northwest USA and
southwest Canada
-35 Alaska and Coast Mountains
Patagonia
-40
1960 1970 1980 1990 2000 2003
Source : Dyurgerov and Meier, 2005.
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
6. Arctic Ocean surface temperatures
Ocean surface warming Temperature in °C
consistent with the rapid retreat of sea ice, the surface 1.0
waters of the Arctic ocean have been warming in recent 0.8
years, because declining sea-ice cover allows the water 0.6
to absorb more heat from the sun. in 2007, some surface 0.4
water ice-free areas were as much as 5°c higher than the
0.2
long-term average. the Arctic ocean has also warmed as
0
a result of the influx of warmer water from the Pacific and
Atlantic oceans. -0.2
-0.4
1985 1990 1995 2000 2005 2009
Source : NOAA, 2009.
Permafrost at Deadhorse, Alaska
Temperatures at 20 meters depth (°C) Permafrost warming and thawing
-6.3
-6.5 permafrost has continued to warm and to thaw
-6.7 at its margins. the depth of the active layer, which
-6.9
-7.1 thaws in the warm season, is increasing in many
-7.3
-7.5
areas. Degrading permafrost is significantly affecting
-7.7 wetlands. projections show widespread disappearance
-7.9
-8.1 of lakes and wetlands even in formerly continuous
-8.3
1978 1980 1985 1990 1995 2000 2005 2008 permafrost zones.
Source : US climate impacts report, 2009.
Declining snow, Anomalies in Northern Hemisphere Snow Cover
river and lake ice Million square kilometres
snow cover extent has continued to decline 4
and is projected to decline further, despite
3
the projected increase in winter snowfall in
2
some areas. the lengthening of the snow-free
1
season has a major impact in accelerating
0
local atmospheric heating by reducing the
-1
reflectivity of the surface. Ice cover duration
-2
on rivers and lakes has continued to decline.
this is especially apparent in earlier spring ice -3
1965 1970 1975 1980 1985 1990 1995 2000 2005 2008
break-up. Source: GSL, Rutger University, 2009
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
7. Key Findings of this Assessment
■ Amplification of global warming in the Arctic
will have fundamental impacts on Northern
Hemisphere weather and climate.
(Chapter 1, Atmospheric Circulation Feedbacks)
■ Reduced sea ice amplifies warming. reduced sea ice cover is already amplify-
ing warming in the Arctic earlier than projected. This amplification will become more
pronounced as more ice cover is lost over the coming
decades. Arctic air temperature anomalies
July
■ Amplified warming spreads over land. Amplified August
atmospheric warming in the Arctic will likely spread September
October
over high-latitude land areas, hastening degradation of November
permafrost, leading to increased release of greenhouse December
January
gases presently locked in frozen soils, leading to further Febrary
arctic and global warming. March
April
May
■ Weather patterns are altered. the additional
1990 2000 2020 2040 2060 2080 2100
warming in the Arctic will affect weather patterns in the °C
Arctic and beyond by altering the temperature gradient -2 0 2 4 6 8 10 12 14 Source : NCAR Community Climate System Model
in the atmosphere and atmospheric circulation pat-
terns. it may also affect temperature and precipitation patterns in europe and north
America. these changes will affect agriculture, forestry and water supplies.
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
8. ■ The global ocean circulation system will change
under the strong influence of arctic warming.
(Chapter 2, Ocean Circulation Feedbacks)
■ Changes in ocean circulation matter to people. From dramatic climate shifts to dec-
ade-to-decade climatic fluctuations, the oceans contribute to Earth’s varying climate.
■ A changing Arctic can modify ocean circulation globally. by causing atmospheric
changes that affect the ocean outside the Arctic, and through the direct ocean circulation
connection between the Arctic ocean and the global
ocean, changes in the Arctic can alter the global ocean Potential density of Labrador Sea water at 200-800 m depth
circulation. Kilograms per cubic meter
27.76
■ The Arctic Ocean connections are changing. 27.74
the Arctic ocean is connected to the global ocean
27.72
through the Atlantic and the Pacific Oceans. Water
flowing into the Arctic Ocean from both the Pacific and 27.70
Atlantic has warmed over the past decade. Although 27.68
there has been an increase in freshwater input into the
Arctic ocean from melting ice and increased precipita- 27.66
-300
tion and river flows, so far there are few indications To
Lab
of an increase in freshwater export from the Arctic. ra
do
r To
changes in temperature and salinity and their effects on
0 Gree
nla 2004
density are among the concerns because of their poten-
nd 2002
1998 2000
1996
tial to alter the strength of the global ocean circulation.
Km 300 1994
1992
1990
Source: Yashayaev, I., Progress in Oceanography, Vol 73, 2007.
■ Global ocean circulation will not change
abruptly, but it will change significantly, in this century. there are only few indications
that changes in the global overturning circulation are already occurring. however, it is likely
that the circulation strength will change in the future. this assessment supports the ipcc
2007 projection of a 25 per cent average reduction of the overturning circulation by 2100.
■ People are affected not only by changes in ocean circulation strength, but also by
changes in circulation pathways. this assessment highlights the potential for currents in
the north Atlantic ocean to alter their paths. different ocean currents transport waters with
different characteristics, supporting different ecosystems. therefore, changes in ocean circula-
tion pathways will affect fisheries and other marine resources.
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
9. ■ The loss of ice from the Greenland Ice Sheet
has increased and will contribute substantially
to global sea level rise.
(Chapter 3, Ice Sheets and Sea-level Rise Feedbacks)
■ Sea-level rise is accelerating. sea level has been rising over the past 50 years,
and its rate of rise has been accelerating. the rate of rise in the past 15 years is about
double that of the previous decades.
■ Thermal expansion and melting of land-based ice
are driving sea-level rise. ocean warming and increased Global sea level
water inputs from melting glaciers and ice sheets are the Meters
primary contributors to sea-level rise. over the past 15 1.2
in the past in the future
years, thermal expansion, glacier melting and ice sheet 1.0
mass loss have each contributed about one-third of the
New
observed sea-level rise. 0.8 estimates
0.6
■ The ice sheets are melting. the ice sheets on Green-
land and Antarctica are melting into the ocean faster than 0.4
expected. melt rates are sensitive to climate and are acceler-
0.2
ating as both land and ocean temperatures rise.
0
IPCC, 2007
■ Ice sheet melt will be the major contributor to
future sea-level rise. with ongoing warming, ice sheet
-0.2
1800 1850 1900 1950 2000 2050 2100
melting is projected to continue irreversibly on human
Source: Cazenave, A.; this report.
timescales and will be the primary contributor to sea-level
rise far into the future, well beyond this century.
■ Sea level will rise more than previously expected. sea level will rise more than
1 metre by 2100, even more than previously thought, largely due to increased mass
loss from the ice sheets. increases in sea level will be higher in some areas than in
others. low-lying coastal areas around the world are at particular risk.
Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
10. ■ Arctic marine systems currently provide a
substantial carbon sink but the continuation of
this service depends critically on arctic climate
change impacts on ice, freshwater inputs, and
ocean acidification.
(Chapter 4, Marine Carbon Cycle Feedbacks)
■ The Arctic Ocean is an important global carbon sink. Uptake of carbon dioxide from the atmosphere
At present, the Arctic ocean is a globally important net sink for Gigatons of Carbon per year
carbon dioxide, absorbing it from the atmosphere. it is respon- 0,150
sible for 5 to 14 per cent to the global ocean’s net uptake of Arctic
Ocean
carbon dioxide.
0,125
Recent studies
■ A short-term increase in carbon uptake by the Arctic
Ocean is projected. in the near-term, further sea-ice loss, in- 0,100
Past studies
creases in phytoplankton growth rates, and other environmental
Barents Sea
and physical changes are expected to cause a limited net in- 0,075
Chukchi Sea
crease in the uptake of carbon dioxide by arctic surface waters.
Canadian Archipelago
0,050 Central Basin
■ In the long term, net release of carbon is expected.
East Siberian Sea
release of large stores of carbon from the surrounding arctic Kara Sea
landmasses through rivers into the Arctic ocean may reverse 0,025
Laptev Sea
the short-term trend, leading to a net increase of carbon dioxide Beaufort Sea
released to the atmosphere from these systems over the next 0
few centuries. Source : Bates, N., this report.
■ The Arctic marine carbon cycle is very sensitive to climate change. the
Arctic marine carbon cycle and exchange of carbon dioxide between the ocean and
atmosphere is particularly sensitive to climate change. the uptake and fate of carbon
dioxide is highly influenced by physical and biological processes themselves subject
to climate change impacts, such as sea ice cover, seasonal marine plant (such as phy-
toplankton) growth, ocean circulation and acidification, temperature effects, and river
inputs, making projections uncertain.
10 Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
11. ■ Arctic terrestrial ecosystems will continue
to take up carbon, but warming and changes
in surface hydrology will cause a far greater
release of carbon.
(Chapter 5, Land Carbon Cycle Feedbacks)
■ Arctic lands store large amounts of carbon. The northern circumpolar regions,
including arctic soils and wetlands, contain twice as much carbon as in the atmos-
phere.
■ Emissions of carbon dioxide and methane are increasing due to warming.
Current warming in the Arctic is already causing increased emissions of carbon di-
oxide and methane.
Most of the carbon Global carbon storage in soils
being released from
thawing soils is
thousands of years
old, showing that
the old organic
matter in these soils
is readily decom-
posed.
■ Carbon uptake Kilograms per square meter
by vegetation is 0.1 to 5
5.1 to 10
increasing. Longer 10.1 to 15
growing seasons 15.1 to 30
More than 30 Sources: World Resource Institute - PAGE, 2000.
and the slow north-
ward migration of
woody vegetation are causing increased plant growth and carbon accumulation in
northern regions.
■ Carbon emissions will outpace uptake as warming proceeds. Future arctic
carbon emissions to the atmosphere will outpace carbon storage, and changes in
landscape will result in more of the sun’s energy being absorbed, accelerating climate
change.
ArCTiC CLiMATe FeedbACks: GLobAL iMpLiCATions exeCuTive suMMAry 11
12. ■ The degradation of arctic sub-sea permafrost
is already releasing methane from the massive,
frozen, undersea carbon pool and more is
expected with further warming.
(Chapter 6, Methane Hydrate Feedbacks)
■ Large amounts of methane are frozen in arctic methane hydrates.
methane is a powerful greenhouse gas. A large amount of methane is frozen East Siberian Arctic Shelf,
the most vulnerable fraction of the arctic shelf
in methane hydrates, which are found in ocean sediments and permafrost.
there is more carbon stored in methane hydrates than in all of earth’s proven
reserves of coal, oil and natural gas combined.
■ Continental shelves hold most of this hydrate. most methane hydrates
are stored in continental shelf deposits, particularly in the arctic shelves,
where they are sequestered beneath and within the sub-sea permafrost. since
arctic hydrates are permafrost-controlled, they destabilize when sub-sea per-
mafrost thaws.
Predicted hydrate
■ Thawing sub-sea permafrost is already releasing methane. current deposits
temperatures in the Arctic are already causing sub-sea permafrost to thaw.
thawed permafrost fails to reliably seal off the hydrate deposits, leading to
extensive methane release into the ocean waters. because of the shallow
water depth of large portions of the Arctic shelves, much methane reaches the
atmosphere un-oxidized (not changed to carbon dioxide). it is not yet known
how much this release contributes to current global atmospheric methane
concentrations. methane is about 25 times more potent a greenhouse gas than
carbon dioxide.
■ Hydrates increase in volume when destabilized. in addition, when
Water depth
methane hydrates destabilize, the methane within these hydrates increases tre- 50 m
mendously in volume. the very high pressure that results may lead to abrupt Source : Jacobsen et al, 2004.
methane bursts.
■ The most vulnerable hydrates are on the East Siberian Shelf. the largest, shal-
lowest, and thus most vulnerable fraction of methane deposits occurs on the east siberian
shelf. increased methane emissions above this shelf have been observed, but it is not yet
known whether recent arctic warming is responsible for the increase in emissions.
1 Arctic climAte FeedbAcks: GlobAl implicAtions executive summAry
13. Arctic climAte FeedbAcks:
GlobAl implicAtions
martin sommerkorn susan Joy Hassol,
editors
With contributions from:
mark c. serreze Julienne stroeve
cecilie mauritzen
Anny cazenave eric rignot
nicholas r. bates
Josep canadell michael raupach
natalia shakhova igor semiletov
reviewed by:
david carlson
robert corell
published by
WWF international Arctic programme
August, 2009
cartography: Grid Arendal,
riccardo pravettoni in collaboration with
laura margueritte.
editorial assistance: marta darby
cover photo: staffan Widstrand
design: ketill berger, Film Form