Category Archives: Background Information

What’s Happening in Antarctica?

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Last week, Ambassador Huebner of US Embassies New Zealand and Samoa wrote about his amazing trip to Antarctica.  Climate change is predicted to have a greater impact in Antarctica than anywhere else on Earth, and these changes will affect all of us.

Polar bear cubs (Photo credit: Wikimedia/Petrusbarbygere)

Polar bear cubs (Photo credit: Wikimedia/Petrusbarbygere)

Polar Regions are often brought up in discussions about climate change because of fears over warming temperatures that will melt polar ice and raise sea levels; this, in turn, could cause flooding and force relocation of millions of people who live on coastlines, from New York to Kiribati. In Antarctica, climate change is projected to affect the weather by making it windier and wetter, which in turn will affect many animal species. For example, seal pups that are extremely vulnerable the first few months of life need to spend their energy on taking in their mother’s milk and growing strong so that one day they will be able to survive on their own; the projected wetter and windier weather could cause they to expend more energy on staying warm, potentially jeopardizing their growth and, ultimately, their survival.

The US Environmental Protection Agency has a page dedicated to information about the effect of climate change on the Polar Regions. In addition to the melting ice caps and the raising sea level, these changes will have significant effects around the world on humans and other species. For example, many migratory bird species depend on the Arctic for their breeding and feeding grounds, and changes in the Arctic wildlife (due to changing temperatures and survival rates), will affect these patterns.

Check out this photo gallery of amazing images of Antarctica.

To learn more about Antarctic climate, including who is studying it and what they have found, check out:

Guest Blog: Rebecca Anderson

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Map showing high levels of dissolved methane in surface water (Courtesy of The Independent online)

Map showing high levels of dissolved methane in surface water (Courtesy of The Independent online)

Rebecca Anderson is the Team Scientist for the Alliance for Climate Education.  Check out her biography and other blog post for us here.

Watch out cows: the Siberian Shelf makes a lot of methane too!

Over the last couple weeks, the climate blogosphere has been lighting up over a recent report that enormous plumes of methane are bubbling to the surface off the coast of eastern Siberia in Russia. (Original article in the Independent online.)

So, what does this mean? It is a lot of methane, to be sure. The discovery was first made in 2010 and estimated at over 7 million tons (roughly equivalent to the methane emissions from the rest of the whole ocean). Now scientists report even more methane coming up, in plumes over a kilometer wide, although they are not estimating exactly how much more yet.

One of the researchers described the plumes in the Independent as “continuous, powerful and impressive seeping structures.” I am imagining a loose strand of gas bubbles rising up through the ocean to the surface, more like scuba diving CO2 emissions than Old Faithful. The authors use the term “ebullition” to describe the process – a new word for me and an instant favorite.

Left unsaid in all this buzz, but nevertheless implied is the worry that human-caused global warming triggered the methane release. Buried deep under the seafloor of the Arctic Ocean is a reservoir of carbon called methane hydrates, methane gas trapped in a cage of ice. Some scientists estimate they hold more carbon than all remaining fossil fuel reserves combined.

IF these things melted and released all their methane, it would be catastrophic for climate change. Methane is more than 20 times as powerful as CO2 and a major contributor to climate change, typically from emissions from livestock and landfills. Could that be what these scientists discovered? Answer: No. Under closer examination, it turns out that although recent climate change has indeed warmed up the Arctic Ocean and a thin layer of the seafloor beneath it, it has not gotten anywhere close to where the methane hydrates lie buried 200 meters below the seafloor. Before human warming began, buried permafrost (permanently frozen mud) started about 25 meters below the seafloor. Now, rising sea temperatures have increased that depth to 26 meters below the seafloor. (A meter’s not a lot, but it’s incredible to me that our CO2 emissions have done anything at all below the floor of the Arctic Ocean—more evidence that the effects of climate change are real and in progress.)

But let’s dig a little deeper (pun intended). Where did these methane hydrates come from in the first place? Are they the source of the methane or not? And if we are not melting them, where are the methane plumes coming from?

I blogged on the mysterious methane hydrate back in April, but they are cool enough (last pun, promise) to warrant a second look. They are sensitive entities that can only exist under cold, high-pressure conditions, such as at or below the seafloor. Because they have got methane in them, you can burn them, which is why their nickname is “fire ice.” The methane inside comes from ancient marine plankton that got buried over time in the mud and decomposed, eventually ending up at just the right temperature and pressure conditions to get trapped within a cage of ice.

Usually, methane hydrates exist 300-500 meters below the seafloor, but in the Arctic, where it is colder, they can exist at shallower depths, around 200 meters. This is what makes them more susceptible to warming. But the same researchers who discovered the plumes of methane calculate that even if humans keep on cranking up the Earth’s thermostat for another 1000 years, we’ll still only defrost the top 75 meters of seafloor, so they seem pretty safe for the time being.

But these methane hydrates are not the only bits of methane buried beneath the ocean. The rest of the permafrost has methane trapped in it, too, even if it is not in the cool form of fire ice. And it appears to be this methane that is the source of the current ebullition.

Prior to 8000 years ago, this part of Siberia was actually land. But as sea level rose after the last ice age, the ocean flooded this part of the coast, putting the land under water, where it has been ever since. The researchers believe that the methane leaking out today is left over from the permafrost adjusting to being submerged by the ocean 8000 years ago.

If this is the case, it brings up some new questions as well: We know where the methane is NOT coming from, but are not any closer to knowing exactly where it is coming from. What depth? (Somewhere below 26 m but above 200 m, I am guessing.) How much is down there? Has the methane always been bubbling up in this part of the Arctic and are scientists just now discovering it? (It is a remote spot for sure and may have eluded detection as a result.) Or is this a new phenomenon and if so, what has changed?

And lastly, what does this mean for climate change? 7 million tons is about 2.5% of global methane emissions, making it a small, but meaningful factor to add to the mix of gases currently warming the planet. Not one that we have much control over, though. For now, it is another reminder that while we know climate change is poised to change human life forever, many of the details keep getting more complicated—and more dire.

January’s Theme is…Health!

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Climate Change and Health Banner

Climate Change and Health Banner

Health of humans (and animals!) has always been closely linked to the environment. According to the Climate Institute, “Researchers have found that there is a close link between local climate and the occurrence or severity of some diseases and other threats to human health. It is estimated that climate change contributes to 150,000 deaths and 5 million illnesses each year, and the World Health Organization estimates that a quarter of the world’s disease burden is due to the contamination of air, water, soil and food.”

Human beings are being impacted by climate change directly through changing weather patterns and indirectly through changes in water, air, food quality and quantity, ecosystems, agriculture, and economy. For example, increases in average temperature may lead to more extreme heat waves during the summer, which is particularly harmful for children and the elderly. Respiratory disorders such as asthma are also expected to increase due to reduced air quality caused by climate-related factors like accelerated trade winds carrying larger quantities of dust clouds from desert.

According to the U.S. Environmental Protection Agency, extreme temperatures are responsible for loss of life, “while climate-related disturbances in ecological systems, such as changes in the range of infective parasites, can indirectly impact the incidence of serious infectious diseases.”

So what are people doing about these issues? Everyday actions to combat climate change are small steps toward reducing the impact of climate change on our lives and our health. The World Health Organization “has an active and long-standing programme on protecting health from climate change, guided by a World Health Assembly resolution.” One of their main roles is ensuring that health gets proper consideration in large-scale decisions regarding climate change and other environmental initiatives.

Throughout this month, we will discuss ways that climate change affects health, including extreme weather events and diseases, and how organizations and individuals are taking action to combat these issues and improve human health.

This month’s theme is…Spotlight on Regions! (Happy Halloween!)

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Jack-o-lantern being carved for Halloween (AP Images)

Jack-o-Lantern being carved for Halloween (AP Images)

Each week of November, we will focus on a different area of the world: Asia, Europe, South and Central America, and Africa. This week is all about Asia!

A big part of our focus when we talk about Africa will be COP17 (United Nations Conference of Parties), an annual international climate change event. We are very excited to announce we will have young people guest blogging for us while they are in Durban, South Africa attending COP17! So even if you cannot go to South Africa, you will be able to read about what it is like to be there with other young people taking a stand against climate change!

Think of this blog, our Facebook page (link) and our Twitter feed (link) as your COP17 headquarters from November 28th-December 9!

In the meantime…Happy Halloween! In honor of this scary holiday, here are Five Terrifying Facts about some areas around the world!  Click on the number to read more about each fact. 

1. One-third of humanity, mostly in Africa and South Asia, face the biggest risks from climate change.

2. Glacier melting in the Himalayas is projected to increase flooding and will affect water resources within the next two to three decades, while sea-level rise will exacerbate inundation, storm surge, erosion and other coastal hazards.

3. Ghana will experience increased flooding brought on by rising sea levels caused by climate change, according to a computer model system that examines the effects of climate variability and change over time and space.

4. Coffee production, a key source of income in parts of East Africa and South America, would suffer as climate change drives up the numbers and distribution of the coffee berry borer, a pest. Some countries, such as Burundi, Kenya, Rwanda and Uganda will see coffee production decrease by up to 10% compared to a scenario without climate change.

5. A 4 degree Celcius rise in temperature due to climate change could destroy 85% of the Amazon rainforest. Even a modest temperature rise would see 20-40% loss within 100 years.

How have you experienced climate change in your region?

September’s theme is…Water!

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How are water and climate change related? What are the effects on water from climate change? To see the devastating effects with explanations in pictures, click here.

Melting polar ice caps (AP Images)

Melting polar ice caps (AP Images)

According to this water report by the Environmental Protection Agency (EPA), “The future effects of climate change on water resources… will depend on trends in both climatic and non-climatic factors. Evaluating these impacts is challenging because water availability, quality and streamflow are sensitive to changes in temperature and precipitation. Other important factors include increased demand for water caused by population growth, changes in the economy, development of new technologies, changes in watershed characteristics and water management decisions.” While climate change is not the only contributing factor to the future availability, safety and security of the world’s water resources, it is a major component that many governments are beginning to think about today.

Climate change will affect how much and when it rains, which in turn affects vegetation and agriculture, including soil moisture. This also means increased floods and droughts, loss of wetlands from rising sea levels, and an upset in the delicate balance of salinity in the world’s oceans, which will affect the millions of creatures who live in and/or depend on the ocean (including humans!)

Here is some additional information to give you a better understanding of who is affected by water issues today and who will be the most affected in years to come. In 2007, the Comprehensive Assessment of Water Management in Agriculture [1] stated that 1.2 billion people, or (at that time) about one-fifth of the world’s population lives in areas where water is physically scarce, and another 1.6 billion people live in developing countries without the ability to take water from rivers, aquifers and other water sources. Since 2007, the world’s population has increased – and so has the number of people without access to clean, safe water. This number will keep rising as the negative impacts of climate change continue. The alternative is that we do something to mitigate climate change…and come up with better solutions to adapt to it.

For more information on the science of how climate change affects water (flooding, drought, increased evaporation, natural disasters, etc.), check out http://www.climate.org/topics/water.html.

For water-related climate-risk management, here are the World Bank’s informational pages on water supply, sanitation and hygiene, agricultural water management, environmental services, hydropower, and water resources management.

What resources do you use to get your water information?

 

[1] Click on the link to find summaries of “Water for Food, Water for Life: A Comprehensive Assessment of Water Availability” in English, Arabic, Russian, Spanish, and French.