Tag Archives: emissions

Global warming tips scales against the poor

The richest nations got richer through rising investment in fossil fuels – and the global warming they caused has made the poorest nations measurably poorer.

LONDON, 24 April, 2019 − Global warming has increased global economic inequality. Some countries have profited from climate change while the same rise in average planetary temperatures has dragged down economic growth in the warmer countries.

The gap between those groups of nations with the highest and lowest economic output per person is now around 25% larger than it would have been had there been no climate change.

“Our results show that most of the poorest countries on Earth are considerably poorer than they would have been without global warming,” said Noah Diffenbaugh, a climate scientist at Stanford University in California. “At the same time the majority of rich countries are richer than they would have been.”

He and his co-author, Marshall Burke, an earth system scientist at Stanford, report in the Proceedings of the National Academy of Sciences that they combed through 50 years of annual temperature readings and measurements of gross domestic product (GDP) for 165 nations, to tease out the effects of temperature fluctuation on economic growth.

“Many poor countries have been significantly harmed by the warming arising from wealthy countries’ energy consumption”

They found that during warmer than average years growth was accelerated in those nations with normally cool climates – such as Norway and Sweden – but was slowed significantly in those countries with tropical or subtropical climates such as India or Nigeria.

And between 1961 and 2010, they found that global warming depressed the wealth per person in the poorest nations by between 17% and 30%.

“The historical data clearly show that crops are more productive, people are healthier and we are more productive at work when temperatures are neither too hot nor too cold,” said Dr Burke. “This means that in cold countries, a little bit of warming can help. The opposite is true in places that are already hot.”

The two scientists put the message of climate injustice bluntly in their paper: “Our results show that, in addition to not sharing equally in the direct benefits of fossil fuel use, many poor countries have been significantly harmed by the warming arising from wealthy countries’ energy consumption.”

What if … ?

All such research is tortured by uncertainties, and none greater than what historians call counter-factual comparison: that is, what would have happened if global average temperatures had not risen by around 1°C in the last century.

To make their case, the researchers calculated 20,000 versions of what each separate country’s economic growth rate would have been without global warming, and based their estimates on the range of outcomes. So, they concede, there are uncertainties.

But their findings are in line with other separate studies. Geographers, economists and climate scientists have repeatedly pointed out that global warming consistently threatens the poorest people in any society and that economic inequalities tend to stoke conflict and drive migration while at the same time economic inequalities continue to ensure that the poorest will suffer even more.

And national studies of specific climate events have confirmed the link between temperature and output. Dr Burke has in an earlier study separately made the connection between rising temperatures and social conflict, and the Stanford two have already argued that even a small reduction in global warming would return huge economic benefits.

Renewable remedy

In effect, the latest research provides a kind of national climate audit. If greenhouse emissions are a measure of economic output, then the richest 10% produce atmospheric carbon dioxide almost as much as the bottom 90% together.

The Stanford study offers an estimate of the costs and benefits the richest and poorest have borne as a consequence of emissions. It also makes it clear that the poorer nations would benefit more from investment in renewable energy: that is, they could create more wealth in ways that did not intensify costly climate change.

“Our study makes the first accounting of exactly how much each country has been impacted economically by global warming, relative to historical greenhouse gas emissions,” said Professor Diffenbaugh.

“Historically, rapid economic development has been powered by fossil fuels. Our finding that global warming has exacerbated economic inequality suggests that there is an added economic benefit of energy sources that don’t contribute to further warming.” − Climate News Network

The richest nations got richer through rising investment in fossil fuels – and the global warming they caused has made the poorest nations measurably poorer.

LONDON, 24 April, 2019 − Global warming has increased global economic inequality. Some countries have profited from climate change while the same rise in average planetary temperatures has dragged down economic growth in the warmer countries.

The gap between those groups of nations with the highest and lowest economic output per person is now around 25% larger than it would have been had there been no climate change.

“Our results show that most of the poorest countries on Earth are considerably poorer than they would have been without global warming,” said Noah Diffenbaugh, a climate scientist at Stanford University in California. “At the same time the majority of rich countries are richer than they would have been.”

He and his co-author, Marshall Burke, an earth system scientist at Stanford, report in the Proceedings of the National Academy of Sciences that they combed through 50 years of annual temperature readings and measurements of gross domestic product (GDP) for 165 nations, to tease out the effects of temperature fluctuation on economic growth.

“Many poor countries have been significantly harmed by the warming arising from wealthy countries’ energy consumption”

They found that during warmer than average years growth was accelerated in those nations with normally cool climates – such as Norway and Sweden – but was slowed significantly in those countries with tropical or subtropical climates such as India or Nigeria.

And between 1961 and 2010, they found that global warming depressed the wealth per person in the poorest nations by between 17% and 30%.

“The historical data clearly show that crops are more productive, people are healthier and we are more productive at work when temperatures are neither too hot nor too cold,” said Dr Burke. “This means that in cold countries, a little bit of warming can help. The opposite is true in places that are already hot.”

The two scientists put the message of climate injustice bluntly in their paper: “Our results show that, in addition to not sharing equally in the direct benefits of fossil fuel use, many poor countries have been significantly harmed by the warming arising from wealthy countries’ energy consumption.”

What if … ?

All such research is tortured by uncertainties, and none greater than what historians call counter-factual comparison: that is, what would have happened if global average temperatures had not risen by around 1°C in the last century.

To make their case, the researchers calculated 20,000 versions of what each separate country’s economic growth rate would have been without global warming, and based their estimates on the range of outcomes. So, they concede, there are uncertainties.

But their findings are in line with other separate studies. Geographers, economists and climate scientists have repeatedly pointed out that global warming consistently threatens the poorest people in any society and that economic inequalities tend to stoke conflict and drive migration while at the same time economic inequalities continue to ensure that the poorest will suffer even more.

And national studies of specific climate events have confirmed the link between temperature and output. Dr Burke has in an earlier study separately made the connection between rising temperatures and social conflict, and the Stanford two have already argued that even a small reduction in global warming would return huge economic benefits.

Renewable remedy

In effect, the latest research provides a kind of national climate audit. If greenhouse emissions are a measure of economic output, then the richest 10% produce atmospheric carbon dioxide almost as much as the bottom 90% together.

The Stanford study offers an estimate of the costs and benefits the richest and poorest have borne as a consequence of emissions. It also makes it clear that the poorer nations would benefit more from investment in renewable energy: that is, they could create more wealth in ways that did not intensify costly climate change.

“Our study makes the first accounting of exactly how much each country has been impacted economically by global warming, relative to historical greenhouse gas emissions,” said Professor Diffenbaugh.

“Historically, rapid economic development has been powered by fossil fuels. Our finding that global warming has exacerbated economic inequality suggests that there is an added economic benefit of energy sources that don’t contribute to further warming.” − Climate News Network

Cloud forests risk drying out by 2060

For the world’s cloud forests, the future is overcast. Some face fiercer storm and flood: they could even lose their unique clouds.

LONDON, 23 April, 2019 – Planet Earth may be about to lose a whole ecosystem: the cloud forests – those species-rich, high altitude rainforests found mostly in Central and South America – could be all but gone in 40 years.

Researchers warn that within 25 years, global warming driven by ever increasing use of fossil fuels could dry up 60-80% of the misty mountain forests of Mexico, Puerto Rico, Costa Rica, Ecuador and Peru, simply by dispersing the clouds that keep them ever moist, and rich with plant, insect and bird life.

And as the habitat alters, that could be it for the Monarch butterflies that migrate in their millions to the mountains of Mexico, the elfin woods warbler found only in Puerto Rico, and the other creatures that make their homes in forests so rich and wet that even the trees are home to yet more green habitat: ferns, lichens, mosses and other epiphytes nourished by year-round water and water vapour.

And the reason? The clouds will have dispersed, or moved uphill, or simply been blown away as greenhouse gas ratios in the atmosphere continue to grow and temperatures creep ever higher, according to new research in the Public Library of Science journal PLOS One.

“Maria is more extreme in its precipitation than anything else the island has ever seen. I just didn’t expect that it was going to be so much more than anything else that has happened in the last 60 years”

And if nations go on burning ever greater quantities of coal, oil and natural gas to power economic growth, then the cloud and frost that keep the equatorial cloud forests unique homes to living things will have gone.

Nine-tenths of the cloud forests in the Western Hemisphere will have been lost by 2060, if the calculations funded by the US Department of Agriculture’s Forest Service are correct.

Researchers mapped cloud forest across the Western Hemisphere with data collected over the last 60 years and then used climate simulations to see how the habitat would change with time.

They found that indeed some regions would become even more immersed in cloud: this however would only add up to perhaps 1%. For the most part the clouds would thin, the steady supply of moisture would thin, and the forests would begin to change inexorably.

Trees head uphill

This is not the first research to suggest that ever higher temperatures would affect cloud patterns. Scientists using a different approach reported earlier this year that tropical cloud formation of the kind that damps down equatorial temperatures could be at risk.

Other researchers have used historic data to record the steady uphill march of characteristic trees in the Andean forests in response to average global temperature increases of 1°C in the past century.

And yet another team has warned that the increasingly violent winds that arrived in Puerto Rico with Hurricane Maria in 2017 would in any case change the make-up of forest species.

Devastating winds that uproot forest giants at all altitudes won’t be the only problem for the climate-hit forests and the region. Hurricane Maria dumped an unprecedented 1.029 mm of rain in a day on Puerto Rico.

Recurrence likely

A second study from the American Geophysical Union has confirmed that the extreme rainfall that accompanied Maria was not only the worst in the last 60 years, but has become much more likely to happen again.

Thanks to global warming, which increased the capacity of the atmosphere to absorb moisture, such floods are now five times more likely, they write in the journal Geophysical Research Letters.

“Maria is more extreme in its precipitation than anything else the island has ever seen,” said David Keellings of the University of Alabama, one of the authors.

“I just didn’t expect that it was going to be so much more than anything else that has happened in the last 60 years.” – Climate News Network

For the world’s cloud forests, the future is overcast. Some face fiercer storm and flood: they could even lose their unique clouds.

LONDON, 23 April, 2019 – Planet Earth may be about to lose a whole ecosystem: the cloud forests – those species-rich, high altitude rainforests found mostly in Central and South America – could be all but gone in 40 years.

Researchers warn that within 25 years, global warming driven by ever increasing use of fossil fuels could dry up 60-80% of the misty mountain forests of Mexico, Puerto Rico, Costa Rica, Ecuador and Peru, simply by dispersing the clouds that keep them ever moist, and rich with plant, insect and bird life.

And as the habitat alters, that could be it for the Monarch butterflies that migrate in their millions to the mountains of Mexico, the elfin woods warbler found only in Puerto Rico, and the other creatures that make their homes in forests so rich and wet that even the trees are home to yet more green habitat: ferns, lichens, mosses and other epiphytes nourished by year-round water and water vapour.

And the reason? The clouds will have dispersed, or moved uphill, or simply been blown away as greenhouse gas ratios in the atmosphere continue to grow and temperatures creep ever higher, according to new research in the Public Library of Science journal PLOS One.

“Maria is more extreme in its precipitation than anything else the island has ever seen. I just didn’t expect that it was going to be so much more than anything else that has happened in the last 60 years”

And if nations go on burning ever greater quantities of coal, oil and natural gas to power economic growth, then the cloud and frost that keep the equatorial cloud forests unique homes to living things will have gone.

Nine-tenths of the cloud forests in the Western Hemisphere will have been lost by 2060, if the calculations funded by the US Department of Agriculture’s Forest Service are correct.

Researchers mapped cloud forest across the Western Hemisphere with data collected over the last 60 years and then used climate simulations to see how the habitat would change with time.

They found that indeed some regions would become even more immersed in cloud: this however would only add up to perhaps 1%. For the most part the clouds would thin, the steady supply of moisture would thin, and the forests would begin to change inexorably.

Trees head uphill

This is not the first research to suggest that ever higher temperatures would affect cloud patterns. Scientists using a different approach reported earlier this year that tropical cloud formation of the kind that damps down equatorial temperatures could be at risk.

Other researchers have used historic data to record the steady uphill march of characteristic trees in the Andean forests in response to average global temperature increases of 1°C in the past century.

And yet another team has warned that the increasingly violent winds that arrived in Puerto Rico with Hurricane Maria in 2017 would in any case change the make-up of forest species.

Devastating winds that uproot forest giants at all altitudes won’t be the only problem for the climate-hit forests and the region. Hurricane Maria dumped an unprecedented 1.029 mm of rain in a day on Puerto Rico.

Recurrence likely

A second study from the American Geophysical Union has confirmed that the extreme rainfall that accompanied Maria was not only the worst in the last 60 years, but has become much more likely to happen again.

Thanks to global warming, which increased the capacity of the atmosphere to absorb moisture, such floods are now five times more likely, they write in the journal Geophysical Research Letters.

“Maria is more extreme in its precipitation than anything else the island has ever seen,” said David Keellings of the University of Alabama, one of the authors.

“I just didn’t expect that it was going to be so much more than anything else that has happened in the last 60 years.” – Climate News Network

Arctic leaks of laughing gas may add to heat

Laughing gas from the thawing Alaskan permafrost is no laughing matter. Nitrous oxide is one of the most potent greenhouse gases.

LONDON, 22 April, 2019 − US scientists have identified yet another hazard linked to the thawing permafrost: laughing gas. A series of flights over the North Slope of Alaska has detected unexpected levels of emissions of the greenhouse gas nitrous oxide from the rapidly warming soils.

Nitrous oxide, which chemists know also as laughing gas, is an estimated 300 times more potent as a climate warming agent than the principal greenhouse gas, carbon dioxide. It was present in data recordings at levels at least 12 times higher than all previous estimates.

And it is long-lived: it survives in the atmosphere for around 120 years, according to a separate new study of the microbiology of nitrous oxide. And if it gets even higher, into the stratosphere, it can be converted by the action of oxygen and sunlight into another oxide of nitrogen, to quietly destroy the ozone layer.

Oxides of nitrogen are at least as damaging to stratospheric ozone – an invisible screen that absorbs potentially lethal ultraviolet radiation from the sun – as the man-made chlorofluorocarbons banned by an international protocol three decades ago.

“Much smaller increases in nitrous oxide would entail the same kind of climate change that a large plume of CO2 would cause”

Nitrogen is an inert gas which makes up almost four-fifths of the planet’s atmosphere. It is vital to life: growing plants build their tissues by absorbing carbon dioxide from the atmosphere with the aid of photosynthesis. But they must also absorb nitrogen from plant decay and animal waste, through their roots, with help from soil microbes.

The process is natural, but too slow to help deliver the cereals, tubers and pulses needed to feed seven billion humans and their livestock. For more than 100 years, nations have been making nitrogenous fertiliser in factories and applying it generously to soils to boost harvest yields.

As a consequence, nitrous oxide is now the third most significant greenhouse gas, and the news that it is rising from the permafrost could be troubling.

The permafrost is home to enormous stores of carbon: as soil microbes become warmer and more active, they start to break down long-frozen and partly-decomposed plant material to release both carbon dioxide and potent quantities of methane. The implication is that nitrous oxide could add to the mix, and accelerate warming still further.

Study’s revelation

“Much smaller increases in nitrous oxide would entail the same kind of climate change that a large plume of CO2 would cause,” said Jordan Wilkerson, a Harvard graduate student who led the research, now published in the journal Atmospheric Chemistry and Physics.

“We don’t know how much more it’s going to increase and we didn’t know it was significant at all until this study came out.”

The research is based on data collected from a series of low-level flights over four different areas of the North Slope of Alaska, and the scientists used a routine technique to determine the balance of gases getting into the atmosphere from what had once been permafrost.

The point of the flights was to measure levels of carbon dioxide, methane and water vapour, but the raw data included information about nitrous oxide as well: information recovered and examined only years later.

Arctic in change

The weight of the finding is uncertain. One-fourth of the northern hemisphere is home to permafrost – 23 million square kilometres − and the flights covered only 310 square kilometres in all, and only in the month of August. What could be true for one part of the frozen landscape may not apply to all of it.

And thanks to global warming driven by fossil fuel emissions from the world’s power stations, vehicle exhausts and factory chimneys, the Arctic is changing.

Shrubs and trees are beginning to invade the frozen north. Green things consume nitrogen, and the greening of the Arctic might actually decrease nitrous oxide emissions.

Once again, the study is a reminder of how much more work is needed to understand the chemistry, biology and geophysics of climate change. − Climate News Network

Laughing gas from the thawing Alaskan permafrost is no laughing matter. Nitrous oxide is one of the most potent greenhouse gases.

LONDON, 22 April, 2019 − US scientists have identified yet another hazard linked to the thawing permafrost: laughing gas. A series of flights over the North Slope of Alaska has detected unexpected levels of emissions of the greenhouse gas nitrous oxide from the rapidly warming soils.

Nitrous oxide, which chemists know also as laughing gas, is an estimated 300 times more potent as a climate warming agent than the principal greenhouse gas, carbon dioxide. It was present in data recordings at levels at least 12 times higher than all previous estimates.

And it is long-lived: it survives in the atmosphere for around 120 years, according to a separate new study of the microbiology of nitrous oxide. And if it gets even higher, into the stratosphere, it can be converted by the action of oxygen and sunlight into another oxide of nitrogen, to quietly destroy the ozone layer.

Oxides of nitrogen are at least as damaging to stratospheric ozone – an invisible screen that absorbs potentially lethal ultraviolet radiation from the sun – as the man-made chlorofluorocarbons banned by an international protocol three decades ago.

“Much smaller increases in nitrous oxide would entail the same kind of climate change that a large plume of CO2 would cause”

Nitrogen is an inert gas which makes up almost four-fifths of the planet’s atmosphere. It is vital to life: growing plants build their tissues by absorbing carbon dioxide from the atmosphere with the aid of photosynthesis. But they must also absorb nitrogen from plant decay and animal waste, through their roots, with help from soil microbes.

The process is natural, but too slow to help deliver the cereals, tubers and pulses needed to feed seven billion humans and their livestock. For more than 100 years, nations have been making nitrogenous fertiliser in factories and applying it generously to soils to boost harvest yields.

As a consequence, nitrous oxide is now the third most significant greenhouse gas, and the news that it is rising from the permafrost could be troubling.

The permafrost is home to enormous stores of carbon: as soil microbes become warmer and more active, they start to break down long-frozen and partly-decomposed plant material to release both carbon dioxide and potent quantities of methane. The implication is that nitrous oxide could add to the mix, and accelerate warming still further.

Study’s revelation

“Much smaller increases in nitrous oxide would entail the same kind of climate change that a large plume of CO2 would cause,” said Jordan Wilkerson, a Harvard graduate student who led the research, now published in the journal Atmospheric Chemistry and Physics.

“We don’t know how much more it’s going to increase and we didn’t know it was significant at all until this study came out.”

The research is based on data collected from a series of low-level flights over four different areas of the North Slope of Alaska, and the scientists used a routine technique to determine the balance of gases getting into the atmosphere from what had once been permafrost.

The point of the flights was to measure levels of carbon dioxide, methane and water vapour, but the raw data included information about nitrous oxide as well: information recovered and examined only years later.

Arctic in change

The weight of the finding is uncertain. One-fourth of the northern hemisphere is home to permafrost – 23 million square kilometres − and the flights covered only 310 square kilometres in all, and only in the month of August. What could be true for one part of the frozen landscape may not apply to all of it.

And thanks to global warming driven by fossil fuel emissions from the world’s power stations, vehicle exhausts and factory chimneys, the Arctic is changing.

Shrubs and trees are beginning to invade the frozen north. Green things consume nitrogen, and the greening of the Arctic might actually decrease nitrous oxide emissions.

Once again, the study is a reminder of how much more work is needed to understand the chemistry, biology and geophysics of climate change. − Climate News Network

Climate science supports youth protests

The youth protests urging political action on climate change have won strong global backing from climatologists, as over 6,000 scientists express their support.

LONDON, 19 April, 2019 – The global youth protests demanding action on climate change are having a marked effect.

In their thousands, concerned climate scientists, backed by colleagues from other disciplines, are voicing support for the school students and other young people who are staying away from lessons to urge more resolute political action to protect the climate.

The campaign to support the protesters has been launched by an international group of 22 scientists spanning a range of disciplines; several of them are renowned climate specialists.

They include Michael Mann, professor of atmospheric science at Penn State University, US, Kevin Anderson, professor of energy and climate change at the University of Manchester, UK, and Stefan Rahmstorf.

Reasons to protest

Climate News Network asked Stefan Rahmstorf, professor of physics of the oceans at the University of Potsdam, Germany, what he would tell a hesitant potential protester in order to allay his doubts.

He replied: “Politicians are already starting to move in response to the school strikes around the world. Fridays for Future is perhaps our last chance to get meaningful climate policies that can still achieve the goals of the Paris Agreement. Time is running out fast.”

By mid-April the scientists who had signed the declaration numbered almost 6,300. The 22 original signatories  explained why they backed the protests in a letter to the journal Science headed Concerns of young protesters are justified.

Known as Scientists for Future International, they are linked to the website which co-ordinates the protests worldwide, Fridays for Future (the protests are held on Fridays).

Justified concerns

The letter starts with a ringing declaration: “The world’s youth have begun to persistently demonstrate for the protection of the climate and other foundations of human well-being … Their concerns are justified and supported by the best available science. The current measures for protecting the climate and biosphere are deeply inadequate.”

It includes a clear call to move from protest to action to tackle the multiple environmental threats now confronting the next generation: limiting global warming, halting the mass extinction of other species and safeguarding food supplies.

“This is what the young people want to achieve. They deserve our respect and full support.”

In March the estimated worldwide number of protesters was around 1.5 million.

“Politicians are already starting to move in response to the school strikes around the world. Fridays for Future is perhaps our last chance to get meaningful climate policies

In support of its declaration of backing for the protesters, Scientists for Future International says almost every country has signed and ratified the Paris Agreement of 2015, agreeing to keep global warming well below 2°C above pre-industrial levels, and aiming to limit the temperature increase to 1.5°C.

“The scientific community has clearly concluded that a global warming of 2°C instead of 1.5°C would substantially increase climate-related impacts and the risk of some becoming irreversible.

“It is critical to immediately begin a rapid reduction in CO2 and other greenhouse gas emissions. The degree of climate crisis that humanity will experience in the future will be determined by our cumulative emissions; rapid reduction now will limit the damage.

“For example, the Intergovernmental Panel on Climate Change (IPCC) has recently assessed that halving CO2 emissions by 2030 (relative to 2010 levels) and globally achieving net-zero CO2 emissions by 2050 (as well as strong reductions in other greenhouse gases) would allow a 50% chance of staying below 1.5°C of warming.”

Time is short

It says many solutions to the climate crisis already exist, and only bold action can avert the critical danger that threatens the protesters’ future. It adds: “There is no time to wait until they are in power.”

The statement ends: “The enormous grassroots mobilisation of the youth climate movement … shows that young people understand the situation. We approve and support their demand for rapid and forceful action. We see it as our social, ethical, and scholarly responsibility to state [this] in no uncertain terms.

“Only if humanity acts quickly and resolutely can we limit global warming, halt the ongoing mass extinction of animal and plant species, and preserve the natural basis for the food supply and well-being of present and future generations.

“This is what the young people want to achieve. They deserve our respect and full support.” –  Climate News Network

* * * * *

Anyone wanting to add their names to the Scientists for Future International declaration – and who meets its eligibility requirements – will find it here. It is published under a Creative Commons licence (CC BY-SA 4.0) and can be freely shared.

The youth protests urging political action on climate change have won strong global backing from climatologists, as over 6,000 scientists express their support.

LONDON, 19 April, 2019 – The global youth protests demanding action on climate change are having a marked effect.

In their thousands, concerned climate scientists, backed by colleagues from other disciplines, are voicing support for the school students and other young people who are staying away from lessons to urge more resolute political action to protect the climate.

The campaign to support the protesters has been launched by an international group of 22 scientists spanning a range of disciplines; several of them are renowned climate specialists.

They include Michael Mann, professor of atmospheric science at Penn State University, US, Kevin Anderson, professor of energy and climate change at the University of Manchester, UK, and Stefan Rahmstorf.

Reasons to protest

Climate News Network asked Stefan Rahmstorf, professor of physics of the oceans at the University of Potsdam, Germany, what he would tell a hesitant potential protester in order to allay his doubts.

He replied: “Politicians are already starting to move in response to the school strikes around the world. Fridays for Future is perhaps our last chance to get meaningful climate policies that can still achieve the goals of the Paris Agreement. Time is running out fast.”

By mid-April the scientists who had signed the declaration numbered almost 6,300. The 22 original signatories  explained why they backed the protests in a letter to the journal Science headed Concerns of young protesters are justified.

Known as Scientists for Future International, they are linked to the website which co-ordinates the protests worldwide, Fridays for Future (the protests are held on Fridays).

Justified concerns

The letter starts with a ringing declaration: “The world’s youth have begun to persistently demonstrate for the protection of the climate and other foundations of human well-being … Their concerns are justified and supported by the best available science. The current measures for protecting the climate and biosphere are deeply inadequate.”

It includes a clear call to move from protest to action to tackle the multiple environmental threats now confronting the next generation: limiting global warming, halting the mass extinction of other species and safeguarding food supplies.

“This is what the young people want to achieve. They deserve our respect and full support.”

In March the estimated worldwide number of protesters was around 1.5 million.

“Politicians are already starting to move in response to the school strikes around the world. Fridays for Future is perhaps our last chance to get meaningful climate policies

In support of its declaration of backing for the protesters, Scientists for Future International says almost every country has signed and ratified the Paris Agreement of 2015, agreeing to keep global warming well below 2°C above pre-industrial levels, and aiming to limit the temperature increase to 1.5°C.

“The scientific community has clearly concluded that a global warming of 2°C instead of 1.5°C would substantially increase climate-related impacts and the risk of some becoming irreversible.

“It is critical to immediately begin a rapid reduction in CO2 and other greenhouse gas emissions. The degree of climate crisis that humanity will experience in the future will be determined by our cumulative emissions; rapid reduction now will limit the damage.

“For example, the Intergovernmental Panel on Climate Change (IPCC) has recently assessed that halving CO2 emissions by 2030 (relative to 2010 levels) and globally achieving net-zero CO2 emissions by 2050 (as well as strong reductions in other greenhouse gases) would allow a 50% chance of staying below 1.5°C of warming.”

Time is short

It says many solutions to the climate crisis already exist, and only bold action can avert the critical danger that threatens the protesters’ future. It adds: “There is no time to wait until they are in power.”

The statement ends: “The enormous grassroots mobilisation of the youth climate movement … shows that young people understand the situation. We approve and support their demand for rapid and forceful action. We see it as our social, ethical, and scholarly responsibility to state [this] in no uncertain terms.

“Only if humanity acts quickly and resolutely can we limit global warming, halt the ongoing mass extinction of animal and plant species, and preserve the natural basis for the food supply and well-being of present and future generations.

“This is what the young people want to achieve. They deserve our respect and full support.” –  Climate News Network

* * * * *

Anyone wanting to add their names to the Scientists for Future International declaration – and who meets its eligibility requirements – will find it here. It is published under a Creative Commons licence (CC BY-SA 4.0) and can be freely shared.

Chemists can turn carbon dioxide into coal

Chemists can now in theory turn carbon dioxide back into coal and light and heat homes with transparent wood. The world has ample energy-saving ideas.

LONDON, 18 April, 2019 – Australian scientists have found a way to take carbon dioxide and turn it back into something like coal.

It is as if they had translated the hundred-million-year process of making fossil fuel – a natural process powered in the Carboniferous Era by immense amounts of time, massive pressures and huge temperatures – in a laboratory in a day.

They used liquid metal catalysts – a catalyst is a compound that can midwife chemical change without itself being changed – to convert a solution of carbon dioxide into solid flakes of carbon.

And in a second reminder of the high levels of ingenuity and invention at work in the world’s laboratories, as chemists, physicists, biologists and engineers confront the twin challenges of climate change and efficient use of renewable energy, Swedish scientists report that they know how to make timber transparent and heat-storing. That is, they have a way of fashioning wood that can transmit light, and at the same time insulate the building it illuminates.

It may be some time before any huge-scale investment finds a way of taking the greenhouse gas from the air to convert it to solid carbon that can then be buried: for the moment, the surest way of soaking up the emissions from car exhausts and power station chimneys is to restore and protect forests.

“We’ve shown it’s possible to turn the gas back into carbon at room temperature, in a process that’s efficient and scalable”

But researchers from Melbourne and Sydney report in the journal Nature Communications that they developed a liquid-metal electrocatalyst that transforms gaseous CO2 directly into carbon-containing solids at room temperature.

They charged their cerium-oxide and liquid gallium catalyst with an electric current and introduced it to a beaker of carbon dioxide dissolved in an electrolyte liquid, to collect solid flakes of carbon, of a quality good enough to be used, they say, to make high performance capacitor electrodes.

“While we can’t literally turn back time, turning carbon dioxide and burying it back in the ground is a bit like rewinding the emissions clock,” said Torben Daeneke of the Royal Melbourne Institute of Technology, known as RMIT Melbourne.

“To date, CO2 has only been converted into a solid at extremely high temperatures, making it industrially unviable. By using liquid metals as a catalyst, we’ve shown it’s possible to turn the gas back into carbon at room temperature, in a process that’s efficient and scalable.”

Hard to accomplish

This would be a first step in safely storing what had once been the atmospheric carbon dioxide that – thanks to humankind’s profligate use of fossil fuels for 200 years – drives global warming and potentially catastrophic climate change. Researchers have been wrestling with the idea of carbon capture technology for years.

They have also been pointing out, for years, that the carbon dioxide from power station emissions could be captured and recycled as the basis for the organic chemical industry, or even for fuel..

None of the technologies explored so far is nearing commercial or large-scale production. But researchers go on trying to find new ways to save energy by making the most of natural materials.

Three years ago Lars Berglund of the Royal Institute of Technology in Stockholm announced an optically transparent wood. He and colleagues took out the light-absorbing lignin from some balsa wood, treated it with acrylic and ended up with timber fabric that they could see through, somewhat hazily, but strong enough to bear a load.

New generation

And, his research colleague told a meeting of the American Chemical Society in Orlando, Florida in April, it can now do more. It can absorb and release heat, and it could even be made biodegradable.

It could be the fabric of a new generation of eco-friendly housing, with the addition of polyethylene glycol or PEG, a wood-friendly polymer that melts in the warmth, absorbing heat – but at night solidifies again, releasing heat. In effect, the timber becomes a solar battery.

“Back in 2016, we showed that transparent wood has excellent thermal-insulating properties compared with glass, combined with high optical transmittance. In this work, we tried to reduce the building energy consumption even more by incorporating a material that can absorb, store and release heat,” said Céline Montanari of the Stockholm institute.

“During a sunny day the material will absorb heat before it reaches the indoor space, and the indoors will be cooler than the outside. And at night, the reverse occurs – the PEG becomes solid and releases heat indoors so you can maintain a constant temperature in the house.” – Climate News Network

Chemists can now in theory turn carbon dioxide back into coal and light and heat homes with transparent wood. The world has ample energy-saving ideas.

LONDON, 18 April, 2019 – Australian scientists have found a way to take carbon dioxide and turn it back into something like coal.

It is as if they had translated the hundred-million-year process of making fossil fuel – a natural process powered in the Carboniferous Era by immense amounts of time, massive pressures and huge temperatures – in a laboratory in a day.

They used liquid metal catalysts – a catalyst is a compound that can midwife chemical change without itself being changed – to convert a solution of carbon dioxide into solid flakes of carbon.

And in a second reminder of the high levels of ingenuity and invention at work in the world’s laboratories, as chemists, physicists, biologists and engineers confront the twin challenges of climate change and efficient use of renewable energy, Swedish scientists report that they know how to make timber transparent and heat-storing. That is, they have a way of fashioning wood that can transmit light, and at the same time insulate the building it illuminates.

It may be some time before any huge-scale investment finds a way of taking the greenhouse gas from the air to convert it to solid carbon that can then be buried: for the moment, the surest way of soaking up the emissions from car exhausts and power station chimneys is to restore and protect forests.

“We’ve shown it’s possible to turn the gas back into carbon at room temperature, in a process that’s efficient and scalable”

But researchers from Melbourne and Sydney report in the journal Nature Communications that they developed a liquid-metal electrocatalyst that transforms gaseous CO2 directly into carbon-containing solids at room temperature.

They charged their cerium-oxide and liquid gallium catalyst with an electric current and introduced it to a beaker of carbon dioxide dissolved in an electrolyte liquid, to collect solid flakes of carbon, of a quality good enough to be used, they say, to make high performance capacitor electrodes.

“While we can’t literally turn back time, turning carbon dioxide and burying it back in the ground is a bit like rewinding the emissions clock,” said Torben Daeneke of the Royal Melbourne Institute of Technology, known as RMIT Melbourne.

“To date, CO2 has only been converted into a solid at extremely high temperatures, making it industrially unviable. By using liquid metals as a catalyst, we’ve shown it’s possible to turn the gas back into carbon at room temperature, in a process that’s efficient and scalable.”

Hard to accomplish

This would be a first step in safely storing what had once been the atmospheric carbon dioxide that – thanks to humankind’s profligate use of fossil fuels for 200 years – drives global warming and potentially catastrophic climate change. Researchers have been wrestling with the idea of carbon capture technology for years.

They have also been pointing out, for years, that the carbon dioxide from power station emissions could be captured and recycled as the basis for the organic chemical industry, or even for fuel..

None of the technologies explored so far is nearing commercial or large-scale production. But researchers go on trying to find new ways to save energy by making the most of natural materials.

Three years ago Lars Berglund of the Royal Institute of Technology in Stockholm announced an optically transparent wood. He and colleagues took out the light-absorbing lignin from some balsa wood, treated it with acrylic and ended up with timber fabric that they could see through, somewhat hazily, but strong enough to bear a load.

New generation

And, his research colleague told a meeting of the American Chemical Society in Orlando, Florida in April, it can now do more. It can absorb and release heat, and it could even be made biodegradable.

It could be the fabric of a new generation of eco-friendly housing, with the addition of polyethylene glycol or PEG, a wood-friendly polymer that melts in the warmth, absorbing heat – but at night solidifies again, releasing heat. In effect, the timber becomes a solar battery.

“Back in 2016, we showed that transparent wood has excellent thermal-insulating properties compared with glass, combined with high optical transmittance. In this work, we tried to reduce the building energy consumption even more by incorporating a material that can absorb, store and release heat,” said Céline Montanari of the Stockholm institute.

“During a sunny day the material will absorb heat before it reaches the indoor space, and the indoors will be cooler than the outside. And at night, the reverse occurs – the PEG becomes solid and releases heat indoors so you can maintain a constant temperature in the house.” – Climate News Network

Extreme heat is growing threat to harvests

A warmer world means more chance of extreme heat in more than one continent at the same time, and a rising threat to global food security.

LONDON, 17 April, 2019 − Ever-higher average global temperatures mean more intense extreme heat over ever-wider regions.

When the planet becomes on average 1.5°C warmer than it was for most of human history, then for two out of every three years, one-fourth of the northern hemisphere will experience the kind of blistering heat waves recorded in 2018.

And should planetary average temperatures creep up by 2°C – the maximum proposed by 195 nations at the global climate conference in Paris in 2015 – then the probability rises to 100%. That is, extreme heat over a large area of the hemisphere will be guaranteed every summer.

Heat extremes are all too often accompanied by devastating thunderstorms or extended drought and massive outbreaks of wildfire, with potentially disastrous consequences for harvests in the blighted regions.

“Ultimately, extreme events affecting large areas of the planet could threaten food supply elsewhere, even in Switzerland”

In 2018, people died of heatstroke, roads and even rails started to melt, forests went up in flames, and power generation systems sometimes failed, not just in one region but in a number in the temperate zones and the Arctic at the same time.

Between May and July, 22% of agricultural land and crowded cities of the northern half of the globe were hit simultaneously by extended periods of extreme heat. In all, 17 countries were affected, from Canada and the US across the Atlantic and Pacific to Russia, Japan and South Korea. In Europe, temperatures in the rivers Rhine and Elbe reached such heights that fish suffocated; there were wildfires in Sweden, Latvia and Greece and record temperatures in Germany.

“Without climate change that can be explained by human activity, we wouldn’t have such a large area being simultaneously affected by heat as we did in 2018,” said Martha Vogel, of the Swiss Federal Institute of Technology, known as ETH Zurich, who presented her findings at a press conference held by the European Geosciences Union in Vienna.

Serious impacts

The reasoning and methodology have yet to be published, but the authors say their paper is in review for the journal Earth’s Future. “If in future more and more key agricultural regions and densely populated areas are affected by simultaneous heatwaves, this would have severe consequences.”

Other research teams have already warned that global warming could bring a repeat of the simultaneous drought and heat outbreaks across the world that triggered calamitous famines in Asia and Africa between 1875 and 1878.

They have repeatedly warned of potentially catastrophic levels of heat that could arrive with increasing frequency to claim greater numbers of lives especially when accompanied by extreme levels of humidity.

The Swiss scientists focussed on data from agricultural regions and busy urban areas above latitude 30° for the years 1958 to 2018 to find occasions of heat extremes in more than one region and then used computer modelling to simulate probabilities as average planetary temperatures continued to grow.

Poor are hardest-hit

The choice of agricultural areas was purposeful: in such scenarios where more than one region suffers harvest failures, food prices begin to soar. In the 2010 heatwave, Russia ended all its wheat exports and prices in Pakistan rose by 16%, with harsh consequences for the poorest. Governments, agriculture ministries and international aid agencies need to be prepared.

“Such incidents cannot be resolved by individual countries acting on their own. Ultimately, extreme events affecting large areas of the planet could threaten food supply elsewhere, even in Switzerland,” said Sonia Seneviratne, an ETH climate scientist who has also shared in the study.

“We are already clearly feeling the effects just from the one degree that global average temperature has risen since the pre-industrial era.” − Climate News Network

A warmer world means more chance of extreme heat in more than one continent at the same time, and a rising threat to global food security.

LONDON, 17 April, 2019 − Ever-higher average global temperatures mean more intense extreme heat over ever-wider regions.

When the planet becomes on average 1.5°C warmer than it was for most of human history, then for two out of every three years, one-fourth of the northern hemisphere will experience the kind of blistering heat waves recorded in 2018.

And should planetary average temperatures creep up by 2°C – the maximum proposed by 195 nations at the global climate conference in Paris in 2015 – then the probability rises to 100%. That is, extreme heat over a large area of the hemisphere will be guaranteed every summer.

Heat extremes are all too often accompanied by devastating thunderstorms or extended drought and massive outbreaks of wildfire, with potentially disastrous consequences for harvests in the blighted regions.

“Ultimately, extreme events affecting large areas of the planet could threaten food supply elsewhere, even in Switzerland”

In 2018, people died of heatstroke, roads and even rails started to melt, forests went up in flames, and power generation systems sometimes failed, not just in one region but in a number in the temperate zones and the Arctic at the same time.

Between May and July, 22% of agricultural land and crowded cities of the northern half of the globe were hit simultaneously by extended periods of extreme heat. In all, 17 countries were affected, from Canada and the US across the Atlantic and Pacific to Russia, Japan and South Korea. In Europe, temperatures in the rivers Rhine and Elbe reached such heights that fish suffocated; there were wildfires in Sweden, Latvia and Greece and record temperatures in Germany.

“Without climate change that can be explained by human activity, we wouldn’t have such a large area being simultaneously affected by heat as we did in 2018,” said Martha Vogel, of the Swiss Federal Institute of Technology, known as ETH Zurich, who presented her findings at a press conference held by the European Geosciences Union in Vienna.

Serious impacts

The reasoning and methodology have yet to be published, but the authors say their paper is in review for the journal Earth’s Future. “If in future more and more key agricultural regions and densely populated areas are affected by simultaneous heatwaves, this would have severe consequences.”

Other research teams have already warned that global warming could bring a repeat of the simultaneous drought and heat outbreaks across the world that triggered calamitous famines in Asia and Africa between 1875 and 1878.

They have repeatedly warned of potentially catastrophic levels of heat that could arrive with increasing frequency to claim greater numbers of lives especially when accompanied by extreme levels of humidity.

The Swiss scientists focussed on data from agricultural regions and busy urban areas above latitude 30° for the years 1958 to 2018 to find occasions of heat extremes in more than one region and then used computer modelling to simulate probabilities as average planetary temperatures continued to grow.

Poor are hardest-hit

The choice of agricultural areas was purposeful: in such scenarios where more than one region suffers harvest failures, food prices begin to soar. In the 2010 heatwave, Russia ended all its wheat exports and prices in Pakistan rose by 16%, with harsh consequences for the poorest. Governments, agriculture ministries and international aid agencies need to be prepared.

“Such incidents cannot be resolved by individual countries acting on their own. Ultimately, extreme events affecting large areas of the planet could threaten food supply elsewhere, even in Switzerland,” said Sonia Seneviratne, an ETH climate scientist who has also shared in the study.

“We are already clearly feeling the effects just from the one degree that global average temperature has risen since the pre-industrial era.” − Climate News Network

Glaciers’ global melt may leave Alps bare

High mountain ice is vital to millions. As the world warms, the glaciers’ global melt could see the frozen peaks vanish.

LONDON, 12 April, 2019 – Many of the planet’s most scenic – and most valued – high-altitude landscapes are likely to look quite different within the next 80 years: the glaciers’ global melt will have left just bare rock.

By the century’s end, Europe’s famous Alps – the chain of snow- and ice-covered peaks that have become a playground of the wealthy and a source of income and pleasure for generations – will have lost more than nine-tenths of all its glacier ice.

And in the last 50 years, the world’s glaciers – in Asia, the Americas, Europe, Africa and the sub-Arctic mountains – have lost more than nine trillion tonnes of ice as global temperatures creep ever upwards in response to profligate combustion of fossil fuels.

And as meltwater has trickled down the mountains, the seas have risen by 27mm, thanks entirely to glacial retreat.

“Present mass-loss rates indicate that glaciers could almost disappear in some mountain ranges in this century”

In two separate studies, Swiss scientists have tried to audit a profit and loss account for the world’s frozen high-altitude rivers, and found a steady downhill trend.

Glacial ice is a source of security and even wealth: in the poorest regions the annual summer melt of winter snow and ice banked at altitude can guarantee both energy as hydropower and water for crops in the valleys and floodplains.

In wealthy regions, the white peaks and slopes become sources of income as tourist attractions and centres for winter sport – as well as reliable sources of power and water.

Swiss focus

In the journal The Cryosphere, a team from the Swiss Federal Institute of Technology, almost always known simply as ETH Zurich, looked into the future of the nation’s own landscape, and beyond.

They made computer models of the annual flow of ice and its melting patterns and took 2017 as the reference year: a year when the Alpine glaciers bore 100 cubic kilometres of ice. And then they started simulating the future.

If humankind kept the promise made by 195 nations in Paris in 2015, to drastically reduce fossil fuel use, lower emissions of carbon dioxide, restore the forests and keep global warming to no more than 2°C above historic levels, then the stores of high ice would be reduced by more than a third over the next eight decades. If humankind went on expanding its use of fossil fuels at the present rates, then half of all the ice would be lost by 2050 and 95% by 2100.

Time lag

But there will be losses in all scenarios: warming so far has seen to that. Ice reflects radiation and keeps itself cold, so change lags behind atmospheric temperature.

“The future evolution of glaciers will strongly depend on how the climate will evolve,” said Harry Zekollari, once of ETH and now at Delft University of Technology in the Netherlands, who led the research. “In the case of a more limited warming, a far more substantial part of the glaciers could be saved.”

The Alpine glaciers were made world-famous first by Romantic painters and poets of the 19th century, among them JMW Turner and Lord Byron. But their contribution to rising sea levels is, in a global context, negligible.

When Swiss researchers and their Russian, Canadian and European partners looked at the big picture, they found that the mass loss of ice from the mountains of AlaskaCanada, parts of Asia and the Andes matched the increasing flow of water from the melting Greenland ice cap, and exceeded the flow of melting water from the Antarctic continent.

Europe’s modest melt

They report in Nature that glaciers separate from the Greenland and Antarctic sheets covered 706,000 square kilometres of the planet, with a total volume of 170,000 cubic kilometres, or 40 centimetres of potential sea level rise.

And in the five decades from 1961 to 2016, according to careful study of satellite imagery and historic observations, the seas have already risen by 27mm as a consequence of increasing rates of glacial retreat. This is already between 25% and 30% of observed sea level rise so far.

Europe did not figure much in the reckoning. “Globally, we lose three times the ice volume stored in the entirety of the European Alps – every single year,” said Michael Zemp, a glaciologist at the University of Zurich.

He and his colleagues warn: “Present mass-loss rates indicate that glaciers could almost disappear in some mountain ranges in this century, while heavily glacierised regions will continue to contribute to sea level rise beyond 2100.” – Climate News Network

High mountain ice is vital to millions. As the world warms, the glaciers’ global melt could see the frozen peaks vanish.

LONDON, 12 April, 2019 – Many of the planet’s most scenic – and most valued – high-altitude landscapes are likely to look quite different within the next 80 years: the glaciers’ global melt will have left just bare rock.

By the century’s end, Europe’s famous Alps – the chain of snow- and ice-covered peaks that have become a playground of the wealthy and a source of income and pleasure for generations – will have lost more than nine-tenths of all its glacier ice.

And in the last 50 years, the world’s glaciers – in Asia, the Americas, Europe, Africa and the sub-Arctic mountains – have lost more than nine trillion tonnes of ice as global temperatures creep ever upwards in response to profligate combustion of fossil fuels.

And as meltwater has trickled down the mountains, the seas have risen by 27mm, thanks entirely to glacial retreat.

“Present mass-loss rates indicate that glaciers could almost disappear in some mountain ranges in this century”

In two separate studies, Swiss scientists have tried to audit a profit and loss account for the world’s frozen high-altitude rivers, and found a steady downhill trend.

Glacial ice is a source of security and even wealth: in the poorest regions the annual summer melt of winter snow and ice banked at altitude can guarantee both energy as hydropower and water for crops in the valleys and floodplains.

In wealthy regions, the white peaks and slopes become sources of income as tourist attractions and centres for winter sport – as well as reliable sources of power and water.

Swiss focus

In the journal The Cryosphere, a team from the Swiss Federal Institute of Technology, almost always known simply as ETH Zurich, looked into the future of the nation’s own landscape, and beyond.

They made computer models of the annual flow of ice and its melting patterns and took 2017 as the reference year: a year when the Alpine glaciers bore 100 cubic kilometres of ice. And then they started simulating the future.

If humankind kept the promise made by 195 nations in Paris in 2015, to drastically reduce fossil fuel use, lower emissions of carbon dioxide, restore the forests and keep global warming to no more than 2°C above historic levels, then the stores of high ice would be reduced by more than a third over the next eight decades. If humankind went on expanding its use of fossil fuels at the present rates, then half of all the ice would be lost by 2050 and 95% by 2100.

Time lag

But there will be losses in all scenarios: warming so far has seen to that. Ice reflects radiation and keeps itself cold, so change lags behind atmospheric temperature.

“The future evolution of glaciers will strongly depend on how the climate will evolve,” said Harry Zekollari, once of ETH and now at Delft University of Technology in the Netherlands, who led the research. “In the case of a more limited warming, a far more substantial part of the glaciers could be saved.”

The Alpine glaciers were made world-famous first by Romantic painters and poets of the 19th century, among them JMW Turner and Lord Byron. But their contribution to rising sea levels is, in a global context, negligible.

When Swiss researchers and their Russian, Canadian and European partners looked at the big picture, they found that the mass loss of ice from the mountains of AlaskaCanada, parts of Asia and the Andes matched the increasing flow of water from the melting Greenland ice cap, and exceeded the flow of melting water from the Antarctic continent.

Europe’s modest melt

They report in Nature that glaciers separate from the Greenland and Antarctic sheets covered 706,000 square kilometres of the planet, with a total volume of 170,000 cubic kilometres, or 40 centimetres of potential sea level rise.

And in the five decades from 1961 to 2016, according to careful study of satellite imagery and historic observations, the seas have already risen by 27mm as a consequence of increasing rates of glacial retreat. This is already between 25% and 30% of observed sea level rise so far.

Europe did not figure much in the reckoning. “Globally, we lose three times the ice volume stored in the entirety of the European Alps – every single year,” said Michael Zemp, a glaciologist at the University of Zurich.

He and his colleagues warn: “Present mass-loss rates indicate that glaciers could almost disappear in some mountain ranges in this century, while heavily glacierised regions will continue to contribute to sea level rise beyond 2100.” – Climate News Network

Indian voters demand environmental clean-up

A huge exercise in democracy starts on 11 April as 900 million Indian voters turn out, many seeking a cleaner environment.

CHENNAI, 10 April, 2019 − Candidates promising to fight for clean drinking water and a halt to pollution are likely to gain the support of millions of Indian voters.

Environmental issues, particularly clean water and air, traffic congestion and better public transport, are among the top priorities of urban voters as they prepare to vote in the world’s largest general election.

In India it is no longer religion or caste that tops the poll of issues that concern voters, but policies that affect their daily lives, still blighted by some of the worst pollution in the world which is also contributing to climate change and the shortage of clean water.

Although for both rural and urban voters job opportunities and the need to make a living are the number one priority, a whole list of environmental issues are more important than terrorism or strong military defence, both of which appear to be of little concern to the electorate.

With air pollution a major cause of illness and death in both town and country, the voters are also demanding better hospitals and health care centres to help them with breathing difficulties.

The elections start on 11 April, and with 900 million people able to vote it will not be until 23 May that the result is finally declared in 29 states to elect the 543 members of the lower house of Parliament, the Lok Sabha, which in turn elects the prime minister for a five-year term. Astonishingly, there will be 84 million new voters, those who have reached the age of 18 since the last general election.

“My daughter has sacrificed her life to save future generations from pollution . . . We won’t let go of her goal’’

In rural areas, where a majority of Indian voters still live, new jobs are still the main priority, but voters’ next five issues involve agriculture, especially the availability of water, and loans and subsidies to help farmers to buy seeds, fertiliser and electricity.

An enormous survey among nearly 300,000 voters conducted by ADR (Association for Democratic Reforms),  a non-government organisation which campaigns for election reforms, has found that Indian voters will opt for candidates who will bring in solutions for basic environmental needs rather than those addressing terrorism.

This trend has encouraged one current Lok Sabha candidate, environmentalist T. Arul Selvam, who says the culture of voting based on the performance of their candidate in battling environmental degradation will improve governance at the ground level.

“The ADR survey shows that there is a positive trend among voters who earlier considered religion and caste as important factors in casting their votes. The drinking water crisis remains unaddressed in scores of villages and urban areas across the country.

“Negligence in preserving water bodies is the origin of the water crisis in this nation. People were fed up with politicians who did not care enough to protect nature, which eventually added problems during calamities like floods and drought,’’ he said.

Smelter opponents shot

Arul Selvam recalled protests held by voluntary groups for more than 100 days in Tamil Nadu, a state in the southern part of India seeking the closure of nuclear power plants and the Sterlite copper smelter, the centre of recent controversy.

“These days people are ready to unite to save nature because their daily survival is becoming tough. People are forced to pay a heavy price for drinking water and food.

“Increasing medical bills for people living in industrial areas are a major cause of concern. These instances have brought a change in voting behaviour among the people’’.

Arul Selvam’s views were echoed when Climate News Network met families who had lost children who were fired on by police during the protest against the smelter in Tamil Nadu’s Thoothukudi district.

Thirteen protestors were killed by police in May 2018 when they sought the closure of the copper plant, accusing the owners of degrading land, air and water resources.  Now the families say that their relatives and many in the villages in Thoothukudi, a port city, have decided to vote for a party that promises permanent closure of the plant and action against pollution that has affected them for over two decades.

Permanent closure sought

“My daughter was shot in her throat. We fought against pollution caused by Sterlite. Now the plant has been closed down temporarily. We want to vote for a political party that will ensure permanent closure of this plant and save our town from pollution.

“My daughter has sacrificed her life to save future generations from pollution. She told me many died in our village due to cancer and also suffered severe asthma problems because of pollution. We won’t let go of her goal,’’ says Vanitha, mother of Snowlin, aged 19, who was killed during the shooting.

Some politicians welcome the new priorities of voters in these elections. J. Jayavardhan, India’s youngest member of parliament, elected by the South Chennai constituency, says he is happy to see the survey result with voters “going green.”

“It’s an emerging trend in India among people to go green in their lives and taking small steps for sustainable living. Though this seems to be a small number now, it will grow in a phased manner. Voters considering candidates based on environmental conservation show how pollution has affected their daily lives.

“I am campaigning for cloth bags and waste segregation at source and opened compost plants in my constituency. This has impacted residents here to cut down on usage of plastic bags and to use composting facilities in their neighbourhood.’’ − Climate News Network

* * * * *

Paul Brown wrote this report with our Chennal correspondent.

A huge exercise in democracy starts on 11 April as 900 million Indian voters turn out, many seeking a cleaner environment.

CHENNAI, 10 April, 2019 − Candidates promising to fight for clean drinking water and a halt to pollution are likely to gain the support of millions of Indian voters.

Environmental issues, particularly clean water and air, traffic congestion and better public transport, are among the top priorities of urban voters as they prepare to vote in the world’s largest general election.

In India it is no longer religion or caste that tops the poll of issues that concern voters, but policies that affect their daily lives, still blighted by some of the worst pollution in the world which is also contributing to climate change and the shortage of clean water.

Although for both rural and urban voters job opportunities and the need to make a living are the number one priority, a whole list of environmental issues are more important than terrorism or strong military defence, both of which appear to be of little concern to the electorate.

With air pollution a major cause of illness and death in both town and country, the voters are also demanding better hospitals and health care centres to help them with breathing difficulties.

The elections start on 11 April, and with 900 million people able to vote it will not be until 23 May that the result is finally declared in 29 states to elect the 543 members of the lower house of Parliament, the Lok Sabha, which in turn elects the prime minister for a five-year term. Astonishingly, there will be 84 million new voters, those who have reached the age of 18 since the last general election.

“My daughter has sacrificed her life to save future generations from pollution . . . We won’t let go of her goal’’

In rural areas, where a majority of Indian voters still live, new jobs are still the main priority, but voters’ next five issues involve agriculture, especially the availability of water, and loans and subsidies to help farmers to buy seeds, fertiliser and electricity.

An enormous survey among nearly 300,000 voters conducted by ADR (Association for Democratic Reforms),  a non-government organisation which campaigns for election reforms, has found that Indian voters will opt for candidates who will bring in solutions for basic environmental needs rather than those addressing terrorism.

This trend has encouraged one current Lok Sabha candidate, environmentalist T. Arul Selvam, who says the culture of voting based on the performance of their candidate in battling environmental degradation will improve governance at the ground level.

“The ADR survey shows that there is a positive trend among voters who earlier considered religion and caste as important factors in casting their votes. The drinking water crisis remains unaddressed in scores of villages and urban areas across the country.

“Negligence in preserving water bodies is the origin of the water crisis in this nation. People were fed up with politicians who did not care enough to protect nature, which eventually added problems during calamities like floods and drought,’’ he said.

Smelter opponents shot

Arul Selvam recalled protests held by voluntary groups for more than 100 days in Tamil Nadu, a state in the southern part of India seeking the closure of nuclear power plants and the Sterlite copper smelter, the centre of recent controversy.

“These days people are ready to unite to save nature because their daily survival is becoming tough. People are forced to pay a heavy price for drinking water and food.

“Increasing medical bills for people living in industrial areas are a major cause of concern. These instances have brought a change in voting behaviour among the people’’.

Arul Selvam’s views were echoed when Climate News Network met families who had lost children who were fired on by police during the protest against the smelter in Tamil Nadu’s Thoothukudi district.

Thirteen protestors were killed by police in May 2018 when they sought the closure of the copper plant, accusing the owners of degrading land, air and water resources.  Now the families say that their relatives and many in the villages in Thoothukudi, a port city, have decided to vote for a party that promises permanent closure of the plant and action against pollution that has affected them for over two decades.

Permanent closure sought

“My daughter was shot in her throat. We fought against pollution caused by Sterlite. Now the plant has been closed down temporarily. We want to vote for a political party that will ensure permanent closure of this plant and save our town from pollution.

“My daughter has sacrificed her life to save future generations from pollution. She told me many died in our village due to cancer and also suffered severe asthma problems because of pollution. We won’t let go of her goal,’’ says Vanitha, mother of Snowlin, aged 19, who was killed during the shooting.

Some politicians welcome the new priorities of voters in these elections. J. Jayavardhan, India’s youngest member of parliament, elected by the South Chennai constituency, says he is happy to see the survey result with voters “going green.”

“It’s an emerging trend in India among people to go green in their lives and taking small steps for sustainable living. Though this seems to be a small number now, it will grow in a phased manner. Voters considering candidates based on environmental conservation show how pollution has affected their daily lives.

“I am campaigning for cloth bags and waste segregation at source and opened compost plants in my constituency. This has impacted residents here to cut down on usage of plastic bags and to use composting facilities in their neighbourhood.’’ − Climate News Network

* * * * *

Paul Brown wrote this report with our Chennal correspondent.

Ice melt makes Arctic soils slip more often

As warm summers loosen the grip of the polar ice, the Arctic soils begin to shift. And they are now shifting faster than ever before.

LONDON, 9 April, 2019 − Global warming is about to change the face of the frozen polar landmass, where the Arctic soils are slipping and sliding at record speed. Once-firm ground has begun to shift.

Researchers who closely examined landslips and slumps on Banks Island in the Canadian Arctic Archipelago have found a sixty-fold increase in ground movement in the last 30 years.

In 1984, summer temperatures accounted for just 60 events of the kind glaciologists know as retrogressive thaw slumps or collapses of surface soil as the permafrost ice begins to melt. In 2014, there were more than 4,000 such slumps, including about 300 in an area protected as a natural park.

And on Banks Island alone, even under a relatively conservative scenario, this number could grow to 10,000 a decade by 2075, to precipitate as many as 30,000 active landslides in any future year.

“We can encourage our politicians to take the necessary measures to help reduce our greenhouse emissions, so that future warming is as limited as possible”

Researchers report in the journal Nature Communications that massive amounts of sediment released by the slumps have choked river valleys and changed the colour of 288 lakes. Once a thaw slump begins, soils once held stable by the frost can go on sliding or slipping.

Nobody can be sure of the impact on the natural ecosystems, but the island is home to arctic foxes, caribou, polar bears, wolves, musk oxen, arctic hare, lemmings, ermine, seal and even grizzly bears.

It also provides feeding grounds for lesser snow geese, black brants, eiders, peregrine falcons, snowy owls, rough-legged hawks and ravens.

And, the scientists say, a small local Inuit population based on the island can confirm the ground truth of satellite records: ground slumps increasingly make it difficult to go hunting or fishing.

Methane risk

The study is hardly the first to suggest that global warming will change the high Arctic, but it may be the first to put firm estimates to the increasing scale of damage through time. The implication is that what happens on Banks Island could also happen at the same latitudes anywhere.

Climate scientists have been increasingly alarmed at the hazards of permafrost thaw, if only because locked in the frozen soils are millennia of plant remains, all of which could decay into methane and accelerate global warming to melt yet more permafrost and drive global average temperatures ever higher.

Geographers have already warned that what had once been hard ground beneath roads, buildings, factories, airfields and housing has already begun to slump, to devastate infrastructure and even threaten oil and gas piping.

“We cannot stop thousands of thaw slumps once they start,” said Antoni Lewkowicz of the University of Ottawa, who led the research. “We can only make changes in our own lives to reduce our carbon footprint and we can encourage our politicians to take the necessary measures to help reduce our greenhouse emissions, so that future warming is as limited as possible.” − Climate News Network

As warm summers loosen the grip of the polar ice, the Arctic soils begin to shift. And they are now shifting faster than ever before.

LONDON, 9 April, 2019 − Global warming is about to change the face of the frozen polar landmass, where the Arctic soils are slipping and sliding at record speed. Once-firm ground has begun to shift.

Researchers who closely examined landslips and slumps on Banks Island in the Canadian Arctic Archipelago have found a sixty-fold increase in ground movement in the last 30 years.

In 1984, summer temperatures accounted for just 60 events of the kind glaciologists know as retrogressive thaw slumps or collapses of surface soil as the permafrost ice begins to melt. In 2014, there were more than 4,000 such slumps, including about 300 in an area protected as a natural park.

And on Banks Island alone, even under a relatively conservative scenario, this number could grow to 10,000 a decade by 2075, to precipitate as many as 30,000 active landslides in any future year.

“We can encourage our politicians to take the necessary measures to help reduce our greenhouse emissions, so that future warming is as limited as possible”

Researchers report in the journal Nature Communications that massive amounts of sediment released by the slumps have choked river valleys and changed the colour of 288 lakes. Once a thaw slump begins, soils once held stable by the frost can go on sliding or slipping.

Nobody can be sure of the impact on the natural ecosystems, but the island is home to arctic foxes, caribou, polar bears, wolves, musk oxen, arctic hare, lemmings, ermine, seal and even grizzly bears.

It also provides feeding grounds for lesser snow geese, black brants, eiders, peregrine falcons, snowy owls, rough-legged hawks and ravens.

And, the scientists say, a small local Inuit population based on the island can confirm the ground truth of satellite records: ground slumps increasingly make it difficult to go hunting or fishing.

Methane risk

The study is hardly the first to suggest that global warming will change the high Arctic, but it may be the first to put firm estimates to the increasing scale of damage through time. The implication is that what happens on Banks Island could also happen at the same latitudes anywhere.

Climate scientists have been increasingly alarmed at the hazards of permafrost thaw, if only because locked in the frozen soils are millennia of plant remains, all of which could decay into methane and accelerate global warming to melt yet more permafrost and drive global average temperatures ever higher.

Geographers have already warned that what had once been hard ground beneath roads, buildings, factories, airfields and housing has already begun to slump, to devastate infrastructure and even threaten oil and gas piping.

“We cannot stop thousands of thaw slumps once they start,” said Antoni Lewkowicz of the University of Ottawa, who led the research. “We can only make changes in our own lives to reduce our carbon footprint and we can encourage our politicians to take the necessary measures to help reduce our greenhouse emissions, so that future warming is as limited as possible.” − Climate News Network

CO2 levels pass 3-million-year record

The modern world is about to pass a temperature peak dating back for millions of years – because CO2 levels have already passed an ancient record..

LONDON, 8 April, 2019 – German scientists have confirmed, once again, that carbon dioxide is reaching concentrations unprecedented on any human time scale, with CO2 levels in the atmosphere already higher than they have been for at least three million years.

And their computer simulations – backed up by analysis of ocean sediments that tell a tale of changing temperatures and greenhouse gas levels – show that before the century’s close the world will become warmer than at any time in the last three million years.

The last time planetary temperatures reached a level higher than the target set by 195 nations in Paris in 2015 was during a bygone geological period, the Pliocene.

“It seems we are now pushing our home planet beyond any climatic conditions experienced during the entire current geological period, the Quaternary,” said Matteo Willeit of the Potsdam Institute for Climate Impact Research.

“Our results imply a strong sensitivity of the Earth system to relatively small changes in atmospheric CO2. As fascinating as this is, it is also worrying”

“A period that started almost three million years ago and saw human civilisation beginning only 11,000 years ago. So the modern change we see is big, really big, even by the standards of Earth history.”

He and colleagues report in the journal Science Advances  that they made a numerical model of all the astronomical and geological data available for the last few million years and fed in algorithms to represent the physics and chemistry of planet Earth.

So they had a simulation of a rocky planet complete with active volcanoes that emit carbon dioxide with their magma, on a journey many times around a slowly-changing elliptical orbit that subtly changed the levels of sunshine that slammed into the rocks, oceans and forests – patterns of change called the Milankovitch cycles, long implicated in periodic shifts in planetary climate.

They also fed in data about sediments in the high latitudes: important because ice sheets advance more easily over gravel than bedrock, and atmospheric dust from such attrition makes ice surfaces darker and more vulnerable to melting. The result: confirmation of one thing already observed and another much feared.

Carbon ratio leaps

At a time in the astronomical cycle when Earthlings might expect a slow return of the Ice Ages, human action over the last two centuries – the profligate combustion of fossil fuels that emit greenhouse gases, the wholesale clearance of the great forests that absorb atmospheric carbon – has already lifted carbon dioxide ratios from a long-term average of around 280 parts per million to more than 400 ppm.

Human action has also raised long-term average planetary temperatures by a whole degree Celsius, with more warming on the way.

A new Ice Age seems increasingly unlikely, and other researchers have already pointed to the Pliocene data as a soon-to-be-exceeded record.

Entirely different studies have shown the world to be on course to exceed the 2°C limit, so the research confirms other findings and delivers a test of the reliability of evidence from the past. It also backs up the value of simulation as an increasingly reliable form of climate forecasting.

CO2’s key role

“We know from the analysis of sediments on the bottom of our seas about past ocean temperatures and ice volumes, but so far the role of CO2 in shaping the glacial cycles has not been fully understood,” said Dr Willeit.

“It is a breakthrough that we can now show in computer simulations that changes in CO2 levels were a main driver of the Ice Ages, together with variations of how the Earth orbits around the sun, the so-called Milankovitch cycles. These are actually not just simulations: we compared our results with hard data from the deep sea, and they prove to be in good agreement,” he said.

“Our results imply a strong sensitivity of the Earth system to relatively small changes in atmospheric CO2. As fascinating as this is, it is also worrying.” – Climate News Network

The modern world is about to pass a temperature peak dating back for millions of years – because CO2 levels have already passed an ancient record..

LONDON, 8 April, 2019 – German scientists have confirmed, once again, that carbon dioxide is reaching concentrations unprecedented on any human time scale, with CO2 levels in the atmosphere already higher than they have been for at least three million years.

And their computer simulations – backed up by analysis of ocean sediments that tell a tale of changing temperatures and greenhouse gas levels – show that before the century’s close the world will become warmer than at any time in the last three million years.

The last time planetary temperatures reached a level higher than the target set by 195 nations in Paris in 2015 was during a bygone geological period, the Pliocene.

“It seems we are now pushing our home planet beyond any climatic conditions experienced during the entire current geological period, the Quaternary,” said Matteo Willeit of the Potsdam Institute for Climate Impact Research.

“Our results imply a strong sensitivity of the Earth system to relatively small changes in atmospheric CO2. As fascinating as this is, it is also worrying”

“A period that started almost three million years ago and saw human civilisation beginning only 11,000 years ago. So the modern change we see is big, really big, even by the standards of Earth history.”

He and colleagues report in the journal Science Advances  that they made a numerical model of all the astronomical and geological data available for the last few million years and fed in algorithms to represent the physics and chemistry of planet Earth.

So they had a simulation of a rocky planet complete with active volcanoes that emit carbon dioxide with their magma, on a journey many times around a slowly-changing elliptical orbit that subtly changed the levels of sunshine that slammed into the rocks, oceans and forests – patterns of change called the Milankovitch cycles, long implicated in periodic shifts in planetary climate.

They also fed in data about sediments in the high latitudes: important because ice sheets advance more easily over gravel than bedrock, and atmospheric dust from such attrition makes ice surfaces darker and more vulnerable to melting. The result: confirmation of one thing already observed and another much feared.

Carbon ratio leaps

At a time in the astronomical cycle when Earthlings might expect a slow return of the Ice Ages, human action over the last two centuries – the profligate combustion of fossil fuels that emit greenhouse gases, the wholesale clearance of the great forests that absorb atmospheric carbon – has already lifted carbon dioxide ratios from a long-term average of around 280 parts per million to more than 400 ppm.

Human action has also raised long-term average planetary temperatures by a whole degree Celsius, with more warming on the way.

A new Ice Age seems increasingly unlikely, and other researchers have already pointed to the Pliocene data as a soon-to-be-exceeded record.

Entirely different studies have shown the world to be on course to exceed the 2°C limit, so the research confirms other findings and delivers a test of the reliability of evidence from the past. It also backs up the value of simulation as an increasingly reliable form of climate forecasting.

CO2’s key role

“We know from the analysis of sediments on the bottom of our seas about past ocean temperatures and ice volumes, but so far the role of CO2 in shaping the glacial cycles has not been fully understood,” said Dr Willeit.

“It is a breakthrough that we can now show in computer simulations that changes in CO2 levels were a main driver of the Ice Ages, together with variations of how the Earth orbits around the sun, the so-called Milankovitch cycles. These are actually not just simulations: we compared our results with hard data from the deep sea, and they prove to be in good agreement,” he said.

“Our results imply a strong sensitivity of the Earth system to relatively small changes in atmospheric CO2. As fascinating as this is, it is also worrying.” – Climate News Network