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Arctic summer ice steadily shrinking



Arctic summer ice cover is constantly shrinking in the wake of climate change and global warming. By the end of August this year, Arctic summer sea ice covered only an area below 4-million sq. km. This means that the record set on Sept. 18, 2007 with a 4.17-million sq.-km has already been broken, and we are talking about the smallest minimum ice extent that was ever recorded in Arctic.

The scientists fear that this year's extreme melting of Arctic ice is only the beginning of the trend that will lead to Arctic being free of summer ice within the next 25-30 years, much sooner than it was previously thought.

The loss of Arctic summer ice will have serious consequences for our future wellbeing. Arctic ice helps regulate the climate by reflecting the sunlight, and therefore cooling the climate. No ice would cause more moisture from the oceans to enter the atmosphere which would lead to more powerful and much more frequent storms. This increase in storm frequency and storm intensity will likely affect most of the world's populated places, leading to massive damages.

Arctic has already lost much of its thick (older) ice that would remain throughout the summer. Thirty years ago the ratio between thick, older ice and seasonal ice (ice that would melt away in the summer) was about 80 % older and 20% seasonal. Today, due to the rapidly growing global warming impact this ratio has almost reversed.

Also, there are huge quantities of organic carbon locked away as frozen plant matter in the big permafrost region of the Arctic, meaning that the further melting of Arctic ice could result in even more carbon emission being emitted in the atmosphere, leading to an even worse climate change impact.

Arctic is first in line when it comes to climate change impact. We sadly keep forgetting that climate change impact won't stop at Arctic but will spread further to an entire planet because we are talking about global phenomenon that will only increase in power and magnitude.

Higher temperatures to cause extreme rainfall in the tropics



Global warming and the resulting higher temperatures will likely account for extreme rainfall in the tropics. According to a latest MIT study every 1 degree Celsius rise in temperature in the tropics will result in 10 percent heavier rainfall extremes. This rainfall increase could have major impact on flooding in many populous regions in the tropics.

The researchers are convinced that rainfall extremes in tropical regions are more sensitive to global warming compared to other regions thought they are yet to understand the reasons why.

The basic principle of this increase in precipitation is well known. Greenhouse gases such as carbon dioxide enter the atmosphere, more greenhouse gases in the atmosphere means higher temperature, and this in turn leads to increases in the amount of water vapor in the atmosphere. More water vapor in the atmosphere means that there will be heavier rain because of the increased humidity, which fuels more intense storms.

The MIT scientists have used satellite observations of extreme rainfall between the latitudes of 30 degrees north and 30 degrees south, an area just above and below the Equator, and were looking at the several climate models, which are able to simulate the effects of both El Niño and global warming.

They have discovered one clear pattern, namely that models that showed a strong response in rainfall to El Niño also responded strongly to global warming.

The researchers issued warnings to policymakers saying that although the rainfall will increase in the wettest regions, the drier parts of the tropics will likely become even more drier, meaning that they should not only take into account more damaging flooding, but also less reliable rains from year to year.

Forests feeling the heat of climate change



Climate change has negative impact on forests from many different angles. The increased temperatures are not only causing heat stress and drought but they are also opening the door for wide-spread insect infestation.

In many parts of the world researchers are already talking about rapidly growing forest mortality. Not all tree species are affected the same with some species of trees being more resistant than other, with other likely to be hit particularly hard, depending on factors such asage or sizes of trees.

Some researchers fear that in business as usual scenario many forest areas will cease to exist and will turn into grasslands or some other ecosystems. This could further increase climate change impact because forests are large carbon sinkers, absorbing plenty of CO2 from the atmosphere. Also, the decomposition of dead trees releases CO2 in the atmosphere, therefore increasing global warming effect and debris from dead trees could also increase a forest's fire risk and result in even more CO2 emissions.

Forests play vital role in not only absorbing CO2 from the atmosphere, but also in regulating climate and water purification. They are also important for water and nutrient cycle, not to mention that they also provide homes for thousands of different animal and plant species.

In United States, this summer's severe drought has taken heavy toll on forests, and we are yet to receive official data about the total damage done to U.S. forests. One thing is sure though, there will be plenty dead trees in the final report.

Many researchers believe that one-dimensional approach may not be enough to save our forests and are calling for joint action that would not only include climate change scientists and ecologists but also, biogeochemists, hydrologists, economists, social scientists, etc.

Current forest management practices won't be enough to save many of our forests from climate change impact and this is why this issue needs to involve more scientists, from different scientific fields.

Warm climate means short-term extinction of species



The British scientists from the Universities of York, Glasgow and Leeds have been recently re-examining fossil and geological records going back 540 million years, in order to discover the connection between biodiversity and global warming of the planet.

Their conclusion was that in the normal scenario biodiversity on Earth increases as the planet warms but present rapid trends of increasing temperature will unlikely increase global biodiversity on short-tem because climate change is happening too fast (primarily due to increased human impact).

The rate of increase in biodiversity is primarily dependant on the evolution of new species over millions and millions of years. Of course, the evolution of new species is also usually accompanied by extinctions of existing species that fail to adapt to changes in climate.

Overall speaking, warm climates seem to boost biodiversity in the very long run (millions of years), rather than reducing it but short-term speaking there is likely to be more extinction than evolution of new species.

The scientists however still disagree that that current global warming is good for existing species, at least from the current point of view, because large changes in our planet's biodiversity need millions of years so the only thing we could right now predict with a reasonable dose of certainty is short-term losses in our planet’s biodiversity.

The fossil records showed clear proof that the warmer periods in past were at first accompanied by the increased rate of extinction, but after a longer time span they also promoted the evolution of new species, increasing overall biodiversity on our planet.

The past geological periods however didn’t have humans in the climate change equation.

Climate change impact needs to be less negative



Climate change has become one of the world's hottest topics with thousands of different news putting various processes into the climate change equation. What is actually happening to our planet, and what can we do to make climate change impact less negative?

The first thing you need to know is that Earth's climate is in the constant process of change, we could even say that it has its ups and downs. Our planet's history shows us that the periods of hot and cold climate were naturally exchanging one after another, and that they have affected the entire life on our planet.

In past, nature was the main regulator of our planet’s climate but in the last century humans are the main factor behind the ongoing changes in climate, primarily because of the excessive fossil fuel burning and the resulting increase in carbon dioxide (CO2) emissions.

Climate change is in the current phase primarily associated with global warming. In the last 300 years average temperature on our planet has increased by approximately 0.7 degrees Celsius. In the business as usual scenario in terms of greenhouse gas emissions, temperatures will further increase, likely by more than 3 degrees Celsius by the end of this century.

The climate change has many scary faces which include flooding, droughts, extreme weather events, sea level rise, and new diseases.

World leaders still fail to take climate change issue seriously. There have been plenty of talks but these talks resulted in almost nothing because greenhouse gas emissions continue to grow, and climate change is rapidly reaching the point where it will become irreversible.

This may not affect our generation but our children and grandchildren are bound to pay a really high price for our mistakes. The climate change issue could well become the defining point of our entire civilization.

Australia's marine ecosystems responding to climate change



More than 80 Australian marine scientists from 34 universities and research organizations have compiled the comprehensive report from which it can be seen how Australia’s marine ecosystems are responding to climate change. Among most interesting discoveries were:

  1. The increasing sea temperatures have an effect on the distribution of marine plants and animals, causing many species that are currently being found in tropical and temperate waters to move south.
  2. Winds and currents over the Southern Ocean are having major impact on foraging of seabirds that breed in south-east Australia and feed close to the Antarctic each summer.
  3. The good news is that some tropical fish species have a greater ability to adapt to changes brought by climate change and will likely be able to acclimatize to rising water temperatures.
The Australian science community is luckily heavily involved in research, monitoring and observing climate change impact which should lead to valuable information to management on how to help marine ecosystems adapt to climate change.

This has been a very detailed report that analyzed the changes in sea temperature, sea level, the East Australian Current, the Leeuwin Current, and El Niño-Southern Oscillation, and their effects on „coral reefs, tropical, temperate and pelagic fish, marine mammals, marine reptiles, seabirds, mangroves, tidal wetlands, seagrass, macroalgae, marine microbes, phytoplankton and zooplankton.

Why new climate change deal is nowhere to be seen?



The science is almost unanimous in describing climate change as the biggest environmental threat of our time. It’s a real pity that the world leaders do not feel the same because new climate change deal is nowhere to be seen, and seems to be hugely overshadowed by the global economic meltdown.

Sure, there have been plenty of climate change talks but very little has moved forward in terms of agreeing new international deal that would significantly reduce greenhouse gas emissions. 

We have been bombarded by different  reports about big differences between developed and developing world that supposedly prevent the agreement on new climate deal.  The truth behind these talks is completely different, namely neither of the big emitters is ready to make the first step and show the rest of the world the right and only logical way to move forward.

They all fear that this will create gigantic damage to their economies, and are waiting for others to make the first move, meaning that we are stuck in this pathetic status quo situation where each major country is just making up excuses instead of doing something meaningful to decrease its carbon footprint.

The fossil fuel lobbies still hold plenty of power and renewable energy industry is still fairly young. This is the main reason why the future outlook for major reduction in emissions looks bleak to say the least. The renewable energy capacity continues to grow, that's true, but as long as fossil fuels remain dominant energy sources, world will not stand any chance in fight against climate change.

Not agreeing on new climate change deal because of the possible short-term damage to economy is one of the biggest ironies in the world today, especially given the fact that climate change is already costing global economy billions of dollars, with much worse to come in not so distant future.

The politics is determining the future of our future generations, and this is anything but good. Politics is symbolized by greed and power, and this is the legacy that is bound to create major problems for our children and grandchildren.

If we fail to win the fight against climate change what kind of world will be leaving to them? Do they really deserve to pay for our mistakes, and be severely punished because of the total negligence from our part? Where's that famous humanity we so much like to talk about?

Climate change impact on developing countries



Climate change is not only major environmental issue but also a major economic issue. The fast growing climate change impact will have devastating effect on global economy, and the most affected will be the developing nations because climate change effect will limit their long-term economic growth.

Ben Olken, a professor of economics at MIT, believes that the global temperature increase will have particularly negative impact on poor developing countries, not just because of damage done to the agriculture by frequent droughts but also because this will lead to major decrease in investment, political stability and industrial output.

Olken calculated that every 1-degree-Celsius temperature increase in a poor country, over the course of a given year, reduces its economic growth by about 1.3 percentage points.

His equation only applies to the world's developing nations because rich developed world does not appear to be affected this much by these variations in temperature.

The higher than normal temperatures hurt economy on many different levels, for instance by slowing down workforce, commerce, and in some cases even the capital investment.

Olken concluded that higher temperatures in a given year affect not only country's present economic activity but its long-term economic growth prospects.

Olken and his colleagues collected temperature and economic-output data for each country in the world, in every year from 1950 through 2003, and realized that by the numbers, growth fell following hot years.

It also has to be added that this study does not include all the possible issues that could be generated by long-term climate change, such as rising oceans, floods or increased storms, meaning that the climate change economic impact could prove to be much worse in years to come.

Chronic droughts to become normal sight in years to come



Many areas of the world have experienced severe droughts in the last two decades, with one the worst drought periods being the chronic drought that hit western North America from 2000 to 2004. The result of this drought was not only dying forests and depleted river basins but also increased climate change impact due to reduction in carbon sequestration.

Since carbon emissions continue to grow these type of chronic droughts could soon become a common sight for many areas all over the world, leading to massive environmental and economic damage. Even worse, these drought may after certain period of time be seen as the good old days because climate change is set to show us even scarier face in years to come.

The chronic droughts lead to massive destruction of vegetation, and this releases more carbon dioxide into the atmosphere, further amplifying global warming effect.

The trees and plants are large carbon absorbers and their increased mortality means that their ability to sequester carbon is going to severely decline with frequent droughts and resulting wildfires.
The current drought in the American Midwest is also said to be directly connected with climate change and global warming.  If the world fails to reduce global carbon emissions, the future will look much worse.

The infamous 2000-2004 drought had massive negative impact on precipitation, soil moisture, river levels, crops, forests and grasslands, and this current drought in Midwest could follow this pattern, and was already called the worst since the Dust Bowl.

The scientists from the Oregon State University said in their latest study that „the situation will continue to worsen, and that 80 of the 95 years from 2006 to 2100 will have precipitation levels as low as, or lower than the 2000-2004 drought“.

The worst part of this story is that droughts are just one of many scary faces that climate change has.

The global temperatures continue to rise with warm July



The global temperatures continue to rise as the June 2012 was the fourth warmest June since record keeping began in 1880. The National Oceanic and Atmospheric Administration (NOAA) scientists said that the average global temperature over land and ocean surfaces was 61.03°F, 1.13°F above the 20th century average.

The clear sign of ongoing global warming is also the fact that the June 2012 also represents the 36th consecutive June and 328th consecutive month with a global temperature above the 20th century average.

The scientists also report that most areas of North America, Eurasia, and northern Africa have experienced significant above-average monthly temperatures with only Australia, northern and Western Europe, and the northwestern United States being somewhat cooler than average.

The only real exception to the warmer than usual June was United Kingdom where temperatures were 0.5°F below the 1971-2000 average, making this the coolest June in the last 20 years.

If we look at the oceans alone then we can see that the June global ocean surface temperature was 0.85°F above the 20th century average of 61.5°F, making it the 10th warmest June on record.

By the current looks of it July and August should follow the June pattern, giving yet another clear proof of the ongoing global warming phenomenon.

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