The biggest cause of global warming is the carbon dioxide released when fossil fuels like oil and coal are burned for energy. So when you save energy, you fight global warming (and save money, of course). Here are some easy steps you can take:

A variety of issues are often raised in relation to global warming. One is ocean acidification. Increased atmospheric CO₂ increases the amount of CO₂ dissolved in the oceans. CO₂ dissolved in the ocean reacts with water to form carbonic acid resulting in acidification. Ocean surface pH is estimated to have decreased from approximately 8.25 to 8.14 since the beginning of the industrial era, and it is estimated that it will drop by a further 0.14 to 0.5 units by 2100 as the ocean absorbs more CO_2.

From 1960 to 1990 human-caused aerosols likely precipitated this effect. Scientists have stated with 66–90% confidence that the effects of human-caused aerosols, along with volcanic activity, have offset some of global warming, and that greenhouse gases would have resulted in more warming than observed if not for these dimming agents.

Ozone depletion, the steady decline in the total amount of ozone in Earth's stratosphere, is frequently cited in relation to global warming. Although there are areas of linkage, the relationship between the two is not strong.

The solutions are everywhere, greener energy sources, reducing carbon emissions, they are all here. Yet they are not being used to there full potential.

Cars and factories are the main culprits to this problem and if they are not made carbon neutral, we would become the first ever species to make ourselves extinct. One fuel we can use for our cars is bio-fuel. One sort of fuel that is possible is manure. Not the sloshy stuff, but when it is broken down, it gives out methane gas, which can be used in cars.

Global warming, the effects are in the title! Apart from warming up the planet, global warming helps with desertification. The heat from the suns rays not only warms up the planet, but the sea. If this continues, the Gulf Stream will heat up and completely destroy the Arctic. The sea will become stagnant and will release deadly gases. This may kill all the life, but it is not the planet that will suffer, it is life. Life has been on earth for 3600 million years and it has been a survivor. We may not survive global warming but life will. The dinosaurs died and we came along, it will be the same again.

Bumi Makin Panas. Itu adalah sebuah judul film Indonesia pada 1970-an. Bumi makin panas. Itulah kenyataan dalam beberapa tahun terakhir yang membuat banyak kalangan, baik pemerintah maupun LSM, kian gundah, yang mendorong mereka untuk melakukan sesuatu sebelum segala upaya menjadi telah ''terlalu sedikit dan terlalu terlambat'' (too little too late).

Pemerintah Indonesia agak mengagetkan mengambil inisiatif penting dalam menghadapi bencana pemanasan global. Karena, Indonesia sering dituduh sebagai negara ketiga penghasil emisi terbesar setelah AS dan Cina. Emisi yang muncul dari Indonesia bukan karena industri, tapi karena asap yang muncul dari kebakaran hutan apakah disengaja atau tidak. Dalam konteks ini, Indonesia dapat menjadi inisiator yang lebih kredibel jika lebih dulu berhasil mengatasi kebakaran hutan yang terus berlanjut, yang menghasilkan emisi dalam jumlah sangat besar. Keadaan ini kian diperburuk dengan terus berlangsungnya pembabatan hutan (deforestation) di Indonesia, baik yang legal maupun ilegal.

Bahwa bumi kian panas, sulit dibantah. Berbagai bentuk anomali dari perubahan iklim (climate change) akibat pemanasan global itu bisa disaksikan di mana-mana. Di negeri-negeri tropis, gejala itu bisa disaksikan mulai dari musim kemarau yang sangat-sangat panjang, yang kemudian diikuti dengan musim hujan yang tak menentu pula, yang menghasilkan banjir besar di mana-mana. Sedangkan di negara empat musim di belahan utara atau selatan, gejala itu terlihat pada berkurangnya salju pada musim dingin, yang dalam anomalinya, bisa disusul dengan datangnya salju dalam jumlah besar, yang mengakibatkan banyak manusia jadi korban.

Walhasil, jumlah manusia yang memerlukan bantuan karena bencana banjir dan gempa terus meningkat. Menjelang tahun 2000 lalu, jumlah mereka sudah mencapai 5,5 juta orang. Bencana alam, seperti banjir dan gempa, sampai tahun 1998 saja telah mengakibatkan jatuhnya korban tewas dan pengungsi yang jumlahnya jauh lebih besar dibandingkan mereka yang menjadi korban perang. Dalam dasawarsa ini diperkirakan terdapat 25 juta orang pengungsi bencana alam; lebih dua kali lipat pengungsi politik yang mencapai jumlah 12 juta orang.

Semua bencana ini berkaitan dengan peningkatan pemanasan global. Menurut berbagai estimasi, temperatur permukaan bumi telah naik antara satu sampai dua derajat dalam beberapa dasawarsa terakhir; dan suhu itu terus meningkat sekitar 4 derajat menjelang akhir abad ini, yang membuat salju abadi di kutub utara dan selatan kian mencair; yang pada gilirannya membuat naiknya permukaan laut di mana-mana. Menurut perkiraan, jika air laut naik setengah sampai satu meter, jutaan manusia yang hidup di pesisir pantai Indonesia, Bangladesh, Nigeria, Mesir, dan lain-lain terpaksa menjadi pengungsi. Selanjutnya beberapa negara kepulauan seperti Maldives, Marshall Islands, dan Tuvalu, akan tenggelam, tidak bisa lagi didiami; diprediksi sekira 2.000 pulau-pulau kecil di Indonesia akan lenyap. Bahkan, 16 dari 19 megakota --termasuk Jakarta-- yang terletak di pesisir pantai terancam tenggelam, tidak hanya karena naiknya permukaan air laut, tetapi juga disebabkan penurunan permukaan tanah karena penyedotan air bumi yang tidak terkendali.

Lebih jauh, para ahli biologi kelautan misalnya memperkirakan, dengan meningkatnya pemanasan global, hampir seluruh terumbu karang dunia akan lenyap menjelang akhir abad ini. Sejauh ini, diperkirakan sekitar 70 sampai 90 persen terumbu karang di Lautan India sudah punah, terutama akibat meningkatnya suhu air laut.

Apa yang dapat kita lakukan dalam mengantisipasi dan menghadapi pemanasan global tersebut? Pertama-tama perlu peningkatan kesadaran publik (public awareness) tentang sebab dan akibat pemanasan global tersebut. Indonesia memang tidak bisa mengatasi sendiri masalah global ini. Tetapi, setidaknya masyarakat Indonesia bisa melakukan sesuatu yang sedikit banyak merupakan kontribusi penting dalam memperbaiki keadaan.

Dalam pembicaraan saya dengan berbagai organisasi atau LSM penyelamatan dan konservasi lingkungan hidup, hal penting yang dapat dilakukan adalah mencegah terus terjadinya pembalakan semena-mena dan tidak bertanggung jawab. Adanya kecenderungan dari sejumlah daerah mengeksploitasi hutan demi meningkatkan pendapatan asli daerah (PAD) harus dicegah masyarakat secara bersama. Sementara masyarakat sendiri mesti disadarkan untuk tidak melakukan praktik-praktik merusak, seperti tebang dan bakar dalam membuka lahan pertanian atau perkebunan baru.

Dalam penumbuhan kesadaran seperti itu dan sekaligus kemauan melakukan program pencegahan eksploitasi hutan demi PAD, peranan pemimpin informal, seperti tokoh agama dan pemuka adat dan seterusnya sangat krusial. Melalui lembaga-lembaga yang mereka pimpin, seperti ormas, pesantren, dan lembaga adat, mereka dapat melakukan kampanye konservasi hutan dan alam lingkungan lain di tengah masyarakat luas; dan pada saat yang sama mereka juga dapat membawa masyarakat untuk terlibat dalam program-program konservasi. Beberapa contoh dalam hal ini sudah ada, sekarang tinggal melakukan duplikasi dan akselerasi.

Variations in solar output, possibly amplified by cloud feedbacks, may have contributed to recent warming. A difference between this mechanism and greenhouse warming is that an increase in solar activity should warm the stratosphere while greenhouse warming should cool the stratosphere. Cooling in the lower stratosphere has been observed since at least 1960, which would not be expected if solar activity were the main contributor to recent warming (Reduction of stratospheric ozone also has a cooling influence).

Two researchers at Duke University have estimated that the Sun may have contributed about 40–50% of the global surface warming over the period 1900–2000, and about 25–35% between 1980 and 2000.

On Earth, the major greenhouse gases are water vapor, which causes about 36–70% of the greenhouse effect (not including clouds); carbon dioxide (CO₂), which causes 9–26%; methane (CH₄), which causes 4–9%; and ozone, which causes 3–7%.^[15][16] Some other naturally occurring gases contribute very small fractions of the greenhouse effect; one of these, nitrous oxide (N₂O), is increasing in concentration owing to human activity such as agriculture. The atmospheric concentrations of CO₂ and methane have increased by 31% and 149% respectively above pre-industrial levels since 1750. These levels are considerably higher than at any time during the last 650,000 years. From less direct geological evidence it is believed that CO₂ values this high were last attained 20 million years ago.

Carbon dioxide during the last 400,000 years and the rapid rise since the Industrial Revolution; changes in the Earth's orbit around the Sun, known as Milankovitch cycles, are believed to be the pacemaker of the 100,000 year ice age cycle.

Earth's climate changes in response to external forcing, including variations in its orbit around the sun (orbital forcing),^[8][9][10] volcanic eruptions, and atmospheric greenhouse gas concentrations. The detailed causes of the recent warming remain an active field of research, but the scientific consensus^[11] identifies elevated levels of greenhouse gases due to human activity as the main influence. . In contrast to the scientific consensus that recent warming is mainly attributable to elevated levels of greenhouse gases, other hypotheses have been suggested to explain the observed increase in mean global temperature. One such hypothesis proposes that warming may be the result of increased solar radiation associated with greater numbers of sunspots.^[12] None of the effects of forcing are instantaneous. The thermal inertia of the Earth's oceans and slow responses of other indirect effects mean that the Earth's current climate is not in equilibrium with the forcing imposed. Climate commitment studies indicate that even if greenhouse gases were stabilized at 2000 levels, a further warming of about 0.5 °C (0.9 °F) would still occur.

The term "global warming" is a specific example of the broader term climate change, which can also refer to global cooling. In common usage the term refers to recent warming and implies a human influence. The United Nations Framework Convention on Climate Change (UNFCCC) uses the term "climate change" for human-caused change, and "climate variability" for other changes. The term "anthropogenic global warming" is sometimes used when focusing on human-induced changes.

One of the most hotly debated topics on Earth is the issue of climate change, and the National Environmental Satellite, Data, and Information Service (NESDIS) data centers are central to answering some of the most pressing global change questions that remain unresolved. Knowing how these systems are changing and how they have changed in the past is crucial to understanding how they will change in the future. And, for climate information that extends from hundreds to thousands of years, the paleoclimatology program, also at the National Climatic Data Center, helps to provide longer term perspectives.

Internationally, the Intergovernmental Panel on Climate Change (IPCC), under the auspices of the United Nations (UN), World Meteorological Organization (WMO), and the United Nations Environment Program (UNEP), is the most senior and authoritative body providing scientific advice to global policy makers. The IPCC met in full session in 1990, 1995 and in 2001. They address issues such as the buildup of greenhouse gases, evidence, attribution, and prediction of climate change, impacts of climate change, and policy options.

Yes. Global surface temperatures have increased about 0.6°C (plus or minus 0.2°C) since the late-19th century, and about 0.4°F (0.2 to 0.3°C) over the past 25 years (the period with the most credible data). The warming has not been globally uniform. Some areas (including parts of the southeastern U.S.) have, in fact, cooled over the last century. The recent warmth has been greatest over North America and Eurasia between 40 and 70°N. Warming, assisted by the record El Niño of 1997-1998, has continued right up to the present, with 2001 being the second warmest year on record after 1998.

Human activity has been increasing the concentration of greenhouse gases in the atmosphere (mostly carbon dioxide from combustion of coal, oil, and gas; plus a few other trace gases). There is no scientific debate on this point. Pre-industrial levels of carbon dioxide (prior to the start of the Industrial Revolution) were about 280 parts per million by volume (ppmv), and current levels are about 370 ppmv. The concentration of CO₂ in our atmosphere today, has not been exceeded in the last 420,000 years, and likely not in the last 20 million years.

The greenhouse effect is unquestionably real and helps to regulate the temperature of our planet. It is essential for life on Earth and is one of Earth's natural processes. It is the result of heat absorption by certain gases in the atmosphere (called greenhouse gases because they effectively 'trap' heat in the lower atmosphere) and re-radiation downward of some of that heat. Water vapor is the most abundant greenhouse gas, followed by carbon dioxide and other trace gases. Without a natural greenhouse effect, the temperature of the Earth would be about zero degrees F (-18°C) instead of its present. So, the concern is not with the fact that we have a greenhouse effect, but whether human activities are leading to an enhancement of the greenhouse effect.

Nuclear power is not a solution for Global Warming. It is neither the only option, nor the best one.

First of all, let us discuss the meaning of global warming and its consequences to the environment. Global warming is the increase of temperature in the Earth due to the use of fuels fossils and other industrial level processes, that form an accumulation in the atmosphere of gases which provide the Greenhouse Effect, such as Carbon Dioxide, Methanol, Nitrogen Oxide and the CFCs.

It’s known that Carbon Dioxide can retain the infrared radiation of the Sun on atmosphere, stabilizing then the temperature through the Greenhouse Effect. Therefore, it can also cause our death, as we are increasing its quantity in the air, which makes the Earth really hot, causing the high ocean level(melting the ices in the Poles), killing people that live in countries not used to cold weather. Also, a problem that is clear for everyone is the change in the seasons, which are getting unstable, with hot winters, cold summers and affecting some animals’ hibernation.

The Problems of Global Warming are gerenally caused by the bad use of energy, the fuels(cars and traffic) and pollution. A Solution for the Global Warming then comes, by the government’s eyes(it doesn’t mean it is right), and it is: Nuclear Power.

Nuclear Power is the energy that the atom has, keeping protons and neutrons together. If for exemple, a neutron reaches the nucleus of an atom of Uraniun-235, dividing it with emission from 2 to 3 neutrons, part of the energy that links the protons and the neutrons goes out in form of heat. This process is called nuclear fission. The Nuclear Power is an option of energy source: it’s possible to use the heat emmited from the fission to move the water, which moves the turbines which generates the eletricity.

In a reactor of power type PWR the fuel is uranium enriched 3.5%. Uranium found in the environment contains just 0.7% of the isotopus 235U, then it must be processed until the proportion gets 3.5%.

The complete process of attainment of the nuclear fuel is known as cycle of the fuel and it has diverse stages:
i) extration of the ore from the ground;
ii) improvement to separate the Uraniun from other ores;
iii) conversion in gas of the product of the improvement, called yellow cake

iv) enrichment of the gas, in which the ratio of 235U is increased until the desired level;
v) reconversion of the enriched gas of Uraniun for the dust state;
vi) manufacture of tablets from the compacting of the dust;
vii) and finally the assembly of the combustible elements, when they place the tablets in metallic cylinders that will go to form the combustible elements of the nucleus of the reactor.

Currently, in the world, there are, in operation, 440 nuclear reactors directed toward the generation of energy in 31 countries. Other 33 are in construction. About 17% of the world-wide’s electric generation is of nuclear origin, the same ratio of the use of hidroeletric energy and energy produced by gas.

Some developed countries have its supplying of electric energy with one high percentage of nuclear generation. Between them, France has 78%, Belgium 57%, Japan 39%, the South Korea 39%, Germany 30%, Sweden 46%, Switzerland 40%. Only in the United States, the 104 reactors in operation, that generate 20% of the electricity of that country, produce more electricity than all the Brazilian system of electric generation. Beyond these reactors, 284 reactors of research in 56 countries function more, without counting to an esteem number of 220 reactors of propulsion in ships and submarines.

If it is so complicated preparing the nuclear power, why should we be for it? That is what the gorvenment guide us to, hidding what? The problems. Energy resources are two: the reuseable ones, and the non-reuseable ones. Not very happy to say that Nuclear Power is not reuseable. And what do they do about the waste? In some places, like in Finland, there are people, like Posiva, who know how to get those things in a right place: The spent fuel is set in cast iron, which is then encased in copper and dropped down a borehole. The borehole is filled with saturated bentonite, a kind of clay. He also affirms that: “Posiva's metallurgists suggest that under these conditions the copper barrier would be good for at least a million years.” Though, George Monbiot stated that not all the countries can do what Finland does and it may no longer be available as a solution.

The whole world is not so ignorant about this, and some argumentations are already made about this theme. Some people, like James Lovelock, afirm that the only solution for Global warming is Nuclear energy, giving arguments such as explaining how the world is in danger, as said before, by high temperatures all around the world and, he comfirmed "only one immediately available source does not cause global warming and that is nuclear energy" as it does not emmit gases from the Greehouse Effect. However, some people have argumented against these afirmations, such as George Monbiot, who has replied to Lovelock, saying that “he was wrong on two counts. It is not the only one, and it is not immediately available”, stating the dangers of Nuclear Energy into human being and nature, as well as he states that the use of nuclear energy is not immediately avaiable because the governmet is not up to pay for suddenly, and something like a nuclear plant takes a long time to be done. Monbiot also afirms that “The Rocky Mountain Institute has shown that you can save seven times as much carbon through electricity efficiencies as you can by investing in nuclear. And you kill no one.” As an add to the side against using nuclear power, two dutch researchers - Jan Willem Storm van Leeuwen and Philip Smith - show that, ahead the increasing exploration of Uranium, the extration is going to become more and more difficult and expensive, spending increasing amounts of energy, which is going to launch in the atmosphere a great volume of carbon dioxide.

Though, a lot of argument are in fight to decide if it’s useful or not using nuclear power. The reason the people are talking about this, is all because of global warming, using it as an alternative source, however what about the environmental impacts? There are three main environmental problems of this energy source. The first one is the manipulation of radioactive material in the process of nuclear fuel production and in the nuclear reactors, with risks of emptyings and accidents. The second problem is related to the clandestine shunting line possibility of nuclear material for use in weapons, for example, increasing risks of nuclear proliferation. The last one is the one mentioned above: the uraniun waste.

The alternative sources as solar, aeolian and biomass, are not totally exempt of ambient impacts, even though they can be relatively less aggressive to the environment. The use in wide scale of panels or biomass implies in an alteration in the use of the ground. The manufacture of components of these technologies also produces ambient problems, as it is the case of the extration of silicon for panels. Many of these systems depend on chemical batteries for storage of the electricity, that still present serious problems of contamination for toxic lead and other metals for the environment.

The use of nuclear power, then, is a kind of solution, but not he best because of its environmental problems, difficulty to extract, and, at last, the energy sources are just 20% guilty of the global warming. If the people are looking for best solutions, they should start with something easier, like protecting their own houses, using less energy, less polution, less use of cars, preservation of trees and recycling. Why should we keep looking for such expensive solutions, while we can just use our conscience and do simple solution, which are basically, the best ones.