Thursday, November 19, 2020

 Carbon speeds crop growth but often for little gain

The world depends on rice, one crop less likely to thrive on increased carbon.

 Image: By Wibi Wibisono on Unsplash

More carbon dioxide speeds up crop growth with some key food harvests, but extra heat can hit the yield.

LONDON, 10 November, 2020 − Thirty years of experiments in testing crop growth, and notably the effects of increased atmospheric carbon dioxide (CO2) on some human staples like rice, wheat and soya, have found that − given perfect growing conditions − they would increase yields by 18%.

But sadly, in “real world” conditions, any gains from carbon fertilisation are lost − because of the stress caused to crops by the 2°C temperature rise that the gas causes in the atmosphere. Even worse, the fact that crops grow faster does not mean that their nutritional value is greater – many showed lower mineral nutrients and protein content.

The work, 30 years of “free air carbon dioxide enrichment” (FACE), carried out by 14 long-term research facilities in five continents, is a blow to the hope that in a world with more atmospheric CO2 more people could be fed with less land under cultivation. Earlier results had held out the hope that this “fertiliser effect” would feed more people.

While commercial growers of plants like tomatoes, peppers and cucumbers have used increased CO2 to boost production in controlled conditions in greenhouses, it does not work so well in open fields where temperature and moisture content are affected by climate change.

“When you have other stresses, you don’t always get a benefit of elevated CO2. The last 15 years have taught us to account more for the complex interactions from other factors”

Some crops do get a boost from more carbon in the atmosphere because it makes photosynthesis more efficient, but this is only if nutrients and water are available at optimum levels. This group includes soybean, cassava and rice, all vital in feeding some of the hungriest people in the world.

The author of the study, Stephen Long from the University of Illinois,  said that while it seemed reasonable to assume “a bounty as CO2 rises” this was not the case, because “CO2 is the primary cause of change in the global climate system. The anticipated 2°C rise in temperature, caused primarily by this increase in CO2, could halve yields of some of our major crops, wiping out any gain from CO2.”

His co-author Lisa Ainsworth, a research plant physiologist with the US Department of Agriculture, said: “It’s quite shocking to go back and look at just how much CO2 concentrations have increased over the lifetime of these experiments.

“We are reaching the concentrations of some of the first CO2 treatments 30 years back. The idea that we can check the results of some of the first FACE experiments in the current atmosphere is disconcerting.

Need for nitrogen

“Lots of people have presumed that rising CO2 is largely a good thing for crops, assuming more CO2 will make the world’s forests greener and increase crop yields,” Ainsworth said.

“The more recent studies challenge that assumption a bit. We’re finding that when you have other stresses, you don’t always get a benefit of elevated CO2. The last 15 years have taught us to account more for the complex interactions from other factors like drought, temperature, nutrients and pests.”

The poor quality of some of the grain, with less mineral and protein content, is also a blow to add to the crop growth doubts. The potential increased yield is also much smaller under conditions where there is low nitrogen fertiliser, typical of the world’s poorest countries.

However, the researchers are not all gloomy. Genetic variations in crops show that some strains can still benefit despite increased temperatures. If new crop cultivars are developed, then the future could be brighter, but work needs to start now, the scientists say. − Climate News Network


Rewilded farmland can save money − and the Earth

Producing food and caring for the planet can be hard to combine. 

Image: By François Germain on Unsplash

To save civilisation, try rewilded farmland. But that salvation depends on which land goes back to forest and savannah.

LONDON, 2 November, 2020 − An international consortium of scientists has worked out − once again − how to conserve life on the planet and absorb dramatic quantities of the atmospheric carbon that is driving potentially calamitous climate change: go for rewilded farmland, fields of crops and livestock returned to prairie and forest. And they have identified the most cost-effective way to do it.

Global salvation requires the world’s nations to do simply what they have already undertaken to do: restore 15% of cultivated land to natural forest, grassland, shrubland, wetland and desert ecosystem.

If such restoration happened in the highest priority zones, then almost two-thirds of the wild things now threatened with imminent extinction could survive.

And the restored wilderness that would protect them would also start absorbing atmospheric carbon at an accelerating rate: it could sequester an estimated 229 billion tonnes of the greenhouse gas carbon dioxide (CO2). This is almost a third of all the CO2 spilled into the atmosphere by coal, oil and gas combustion in the last 200 years.

All that would be possible if the world’s nations delivered on vows made 10 years ago in Japan, to restore 15% of ecosystems worldwide. If the 196 nations that signed up went further, and restored a carefully chosen 30%, they could save more than 70% of the million or so species sliding towards extinction, and absorb 465 billion tonnes of CO2: almost half of all the extra atmospheric carbon loaded into the atmosphere by human societies since the Industrial Revolution.

Two provisos

“Pushing forward on plans to return significant sweeps of nature to a natural state is critical to preventing ongoing biodiversity and climate crises from spinning out of control,” said Bernado Strassburg, of the Pontifical Catholic University in Brazil, who led the study.

“We show that if we’re smarter about where we restore nature, we can tick the climate, biodiversity and budget boxes on the world’s urgent to-do list.”

There is a catch. To be most effective, and for the lowest costs, nations would have to work together.

Right now, scientists report in the journal Nature, each nation has undertaken to restore 15% of its wilderness. But to save the greatest number of species, and absorb the highest levels of carbon, with the lowest cost to farmland and food security, humankind would have to assess the world as a whole, and restore those ecosystems that would serve the goals most effectively.

There is a second catch: barely a month ago, a UN report confirmed that although 196 nations agreed on 20 targets to protect biodiversity − to be achieved by 2020 − a decade ago, there has been “partial progress” in just six of them. The million species then threatened with extinction are still threatened.

Potential ignored

“Many good things are happening around the world and these should be celebrated and encouraged,” said Elizabeth Maruma Mrema, executive secretary of the Convention on Biological Diversity.

“Nevertheless the rate of biodiversity loss is unprecedented in human history, and pressures are intensifying. Earth’s living systems as a whole are being compromised.”

And that threat starts with the green things on which all life depends: in September, the Royal Botanic Gardens at Kew in London published a new study on ways to identify and care for the plants and fungi that underwrite survival for what could be seven million or more species alive on the planet, and more than seven billion humans.

The study, involving 210 scientists in 42 countries, said Alexandre Antonelli, director of science at the Royal Botanic Gardens, paints a picture “of a world that has turned its back on the incredible potential of plant and fungal kingdoms to address some of the biggest challenges we face.

“We have particularly earmarked the gaps in our knowledge, the changes we are seeing, the species being named new to science and the shocking pace of biodiversity loss.”

“The rate of biodiversity loss is unprecedented in human history, and pressures are intensifying. Earth’s living systems as a whole are being compromised”

The most recent finding builds on the drive not just to fulfil the obligations undertaken 10 years ago, but to identify the very best ways to fulfil them, so as to benefit the greatest number of people.

It delivers the evidence that restoration in the most carefully chosen regions would have the most profound impact: put simply, restoration could be 13 times more cost-effective if it happened in what the Nature researchers have identified as the highest priority locations.

They used sophisticated mathematical tools and detailed geographic data to take a closer look at the 28.7 million square kilometres of natural wilderness that have been converted to farmland: 54% of these were originally forest, 25% grasslands, 14% shrublands, 4% arid lands and 2% wetland.

They then tested these areas against three considerations: their value as habitat, their capacity for carbon storage and their cost-effectiveness. And they came up with recommendations that would deliver 91% of the potential benefit for plants and animals of the wilderness and 82% of the climate mitigation benefit, and reduce costs by 27%.

And then they considered the nation-by-nation approach: were each country to restore 15% of its own forests, the biodiversity boon fell by 28%, the climate benefits by 29%, while the costs would rise by 52%.

Vital partnership

They then considered the impact on the world’s food supplies, to find that 15.78 million sq kms, or 55% of wilderness converted to farmland, could be restored without squeezing food supplies, always providing nations encouraged what they call the “sustainable intensification” of farming, along with a reduction in food waste and a move away from meat and dairy products.

The findings simply extend a procession of such outcomes by other teams. It has been a given for decades that, if forest and other ecosystems become farmland, greenhouse gas levels rise. If wilderness is restored, then the carbon dioxide levels in the atmosphere will fall.

Researchers have repeatedly argued that simply planting more trees could have a dramatic impact on global heating; that a switch towards a plant-based diet could help stem biodiversity loss and reduce emissions; and that without concerted global action, precious ecosystems could collapse altogether.

They have over and over again confirmed that conservation delivers real rewards. And they have pointed out that although nations have promised to act, such promises have not always been kept. The latest study highlights the need for action to be concerted, and global.

“These results highlight the critical importance of international co-operation in meeting these goals,” Dr Strassburg said. “Different countries have different, complementary roles to play in meeting overarching global targets on biodiversity and climate.” − Climate News Network

Food system causes one third of greenhouse gases

A New Zealand feedlot, 2020: Not good for the cattle, nor us, nor the planet.

 Image: By SAFE, via Wikimedia Commons

How we eat causes dangerous climate heating. It’s time to change not only our diet, but the entire global food system.

LONDON, 13 November, 2020 − If the nations of the world really want to limit climate change to the level agreed five years ago, it will not be enough to immediately abandon fossil fuels as the principal source of energy: the global food system demands radical overhaul.

Humans will have to make dramatic changes to every aspect of agriculture worldwide, to planetary diet and to much else besides.

That is because the global food system − everything from clearing land and felling forests for cattle ranches to the arrival of meat and two vegetables on a suburban family dinner plate − accounts for 30% of the world’s greenhouse gas emissions. And to contain global heating later this century to no more than 1.5°C above the levels that existed before the Industrial Revolution, urgent action is needed.

In Paris in 2015, 195 nations undertook to limit the planetary thermometer rise to “well below” 2°C. The undeclared target was 1.5°C. In the last century, the global temperature has already risen by 1°C, and at the present rate it’s heading for a potentially catastrophic 3°C or more rise by around 2100.

“Food is a much greater contributor to climate change than is widely known”

British and US scientists report in the journal Science that they looked at the challenge of feeding a global population that has almost trebled in one human lifetime, and could reach 9bn or even 10bn later this century.

They found that the greenhouse gas emissions from food production alone would by 2050 take the world to the 1.5°C target, and to 2°C by the end of the century.

In just the five years that separated 2010 from 2017, the global food system accounted for an average of 16 billion tonnes of carbon dioxide equivalent in emissions each year. If humans go on pursuing business as usual, then the cumulative emissions from the food system could add up to 1,365 billion tonnes.

Emissions on that scale from the food system alone would take the planet past the preferred 1.5°C limit some time between 2051 and 2063, and reach the 2°C limit by 2100.

Remedies at hand

“Food is a much greater contributor to climate change than is widely known,” said Jason Hill, of the University of Minnesota, and one of the authors. “Fortunately, we can fix this problem by using fertiliser more efficiently, by eating less meat and more fruits, vegetables, whole grains and nuts, and by making other important changes to our food system.”

The finding should come as no great surprise: global heating is driven by more than simply the return of carbon dioxide fossilised 300 million years ago as coal, oil and natural gas to the atmosphere with every touch of the accelerator, with every jet plane take-off, with every ignition of the electric light, the air conditioning system and the heating, and every turn of industrial machinery around the planet.

It is also fuelled by the devastating clearance of natural forest, grassland and marsh for grazing land or plantation, and the conversion of natural canopy to fodder crops to nourish the world’s domestic cattle and sheep.

Researchers have repeatedly pointed out that even a relatively simple shift to greater reliance on a plant diet could save on carbon emissions, protect the million or so species threatened with imminent extinction, and improve global health, all at the same time.

Multiple benefits

So the latest study offers a new way of spelling out the scale of the problem − a global challenge that could be resolved by concerted and coherent international action.

The researchers identified five strategies that, they believe, could both help limit climate change and improve human health, enhance air quality, reduce water pollution, slow extinction rates and make farms more profitable.

The challenge is to increase crop yields per hectare, reduce food waste, improve farm efficiency and switch to healthy calorie supplies based increasingly on plant crops.

“Even partially adopting several of these five changes would solve this problem as long as we start right now,” said David Tilman, another author, and an ecologist at the university’s College of Biological Sciences. − Climate News Network

Warming puts surviving great tits in jeopardy

On the look-out: A Polish great tit.

 Image: By hedera.baltica from Wrocław, Poland, via Wikimedia Commons

Among the best loved and most frequent visitors to gardens in the UK and elsewhere, great tits face mounting problems.

LONDON, 19 November, 2020 – In the scientific community great tits are known as one of the most adaptable of bird species, showing considerable ability in adjusting to changing weather patterns and differing times of food supplies.

But latest research indicates that even these ever-enterprising and resilient birds are coming under growing pressure from global heating.

“Wildlife has shown a great ability to adapt to climate change”, Emily Simmonds, lead author of a study of great tits and their food supplies, told Climate News Network.

“So far the great tit has shown a remarkable degree of adaptation to changes in climate. The problem occurs when change happens too fast – then, at some point in the future, the species could become extinct.”

“Our projections suggest that current population stability could be masking a route to population collapse”

Research by Simmonds and her colleagues involved both complex mathematical modelling and extensive fieldwork. Its main focus was to establish how quickly great tits could adapt to changes in the supply of caterpillars or larvae, vital food for the birds’ hatchlings.

Differing climate scenarios were used. In warmer conditions spring can occur earlier, with trees coming into leaf sooner than usual. This, in turn, causes larvae that feed on plants and leaves to hatch out earlier.

The problem is that if at some stage great tits fail to keep pace with these changes, then there will be no food for the hatchlings.

“If greenhouse gas emissions are too high and there’s more warming, then great tits might not be able to adjust their breeding habits quickly enough in order to adapt to the earlier supply of larvae”, says Simmonds.

Too fast for survival

“So far it seems that the birds are coping, but if warming continues at its present pace then it could be too much for them.”

Simmonds, now at the Norwegian University of Science and Technology,  carried out her research at Oxford in the UK.

At Wytham Woods outside Oxford scientists have been recording the nesting and breeding habits of the great tit – Parus major – and the blue tit – Cyanistes caeruleus – since 1947. Up to 40 generations of birds have been marked in what is one of the longest-running ecological studies of wild animals in the world.

The recent study looked at great tits’ reproduction success rates, hatching dates and inheritance factors – the ability of one generation to pass on to the next changes in breeding and feeding patterns.

Safety threshold

Winter temperatures, rainfall patterns and the availability of food supplies under different climate projections were considered.

“The good news is that populations of great tits can survive and adapt to scenarios with lower or medium warming trends”, says Simmonds.

But the study found that if warming trends continue at present levels, with larvae appearing, by the end of the century, about 24 days earlier than at present, great tit populations could become extinct.

“Our projections suggest that current population stability could be masking a route to population collapse, if high greenhouse gas emissions continue”, the study says. – Climate News Network

Will the Middle East Remain Habitable?












MICHAEL YOUNG
In an interview, Olivia Lazard discusses the political impact of environmental degradation in the region.

November 19, 2020

Olivia Lazard is a visiting scholar at Carnegie Europe. Her research focuses on the geopolitics of climate, the transition ushered by climate change, and the risks of conflict and fragility associated with climate change and environmental collapse. Lazard has over twelve years of experience in the peacemaking sector at field and policy levels. With an original specialization in the political economy of conflicts, she has worked for various nongovernmental organizations, the United Nations, the European Union, and donor states in the Middle East, Latin America, Sub-Saharan and North Africa, and parts of Asia. In her fieldwork, her focus was on understanding how globalization and the international political economy shaped patterns of violence and vulnerability. Diwan interviewed her in mid-November to examine how environmental issues are impacting the Middle East.


Michael Young: Climate change has been largely ignored by regimes and even societies in the Middle East, yet it is affecting them in fundamental ways. Can you outline some of the major effects of climate change and tell us why we in the region should pay attention.

Olivia Lazard: Climate change has been ignored the world over because we fail to understand that our governance and economic systems are exhausting nature’s capacity to function, and therefore to sustain us and other species. The challenge ahead is difficult to apprehend. It is not just a matter of energy transition; it is a matter of profound political and socioeconomic transformation. It is about disrupting the status quo. So it is easy to understand why this is not welcomed by autocratic regimes who may stand to lose grip on power, or by democratic societies where coordinated action can be even more complex. Even as certain parts of the world, such as Europe, move closer to a climate transition, we are still at the very early stages of a long journey toward the profound transformations that we are going to need in order to genuinely address the drivers of climate change and, more broadly, ecological disintegration that threaten our ability to survive as a species on this planet.

So, I agree with you that regimes in the Middle East ignore climate change, because they rarely like to talk about transformative change. But I wouldn’t say that the societies ignore climate change per se. In fact, I think it is fair to say that the Arab Spring was a climate-disrupted appetizer that upended the world’s understanding of the region, but also of the links between societal and environmental shocks. Arab societies were actually precursors in ringing the alarm bells on a combination of events that lead to disruption and protracted sociopolitical conflicts: drought, monoculture failings, speculation over staple goods leading to market failures, and worsening social disenfranchisement with no safety net in sight. Increasing temperatures, erratic weather patterns, the unreliability of rainfall, protracted drought, and increasing reliance on chemical inputs to grow crops were all the long-term backstory to these issues back in 2011, which few analysts picked up on. The biophysical factors that characterize climate change were already at play.

MY: How were the Arab uprisings climate-disrupted appetizers, as you’ve said?

OL: This is a side of the story that still doesn’t get told very often when we examine the Arab Spring and its aftermath, so let me dwell a bit on it by looking at Tunisia. In Tunisia, landscapes across the country are ecological deserts—export-oriented monocultures as far as the eye can see. It makes them very vulnerable to climate and economic shocks. Two years ago, I was traveling across the country and I could see that, between the touristy coast where inequalities could not be starker and the extractives regions of the south, decades-long agricultural and economic policies had turned a country which used to be fertile into a bare piece of rock and dust.

Today, a decade after the start of the Arab Spring, you have a country where unemployment is still soaring, where youths find no meaning or economic opportunities outside of the informal economy, where urban centers of the hinterland are boiling with anger and frustration, and where the free movement of people is extremely constricted from one governorate to another. Look around in a place such as Sidi Bouzid, and you either see depressing concrete in town or depressing desert as far as the eye can see. There is no life, there are no prospects. Both the land and the economy have come to a standstill. So people feel stuck. Local cultures have lost their vibrancy and intergenerational divides are growing wider. In this bare and inert environment, drug consumption, domestic violence, and radicalization are rising.

The land is actually the canvas of terrible policies that have favored extraction and predatory politics over resilient social fabrics, culture, and vibrant economies. And the problem is that climate change exacerbates problems that are already present. In Sidi Bouzid in 2010, the spark was Mohammed Bouazizi’s self-immolation. But his story was yet another reminder of problems running deeper and taking root in environmental exploitation, abuse of hard security at the expense of social and human security, enduring economic inequalities, poor governance, and rising violence. It is striking to see how national and international responses to these problems are missing out on the environmental story as a backdrop to social and economic violence. They just do not focus on it.

The picture that I am trying to paint here is one of interconnectedness between the environment and human security, which has always existed but that we really have only started noticing more as a result of climate disruption. Climate change will have two consequences—to exacerbate and disrupt. The Middle East knows this well. The history of landscapes in the region is one of abundance that cradled human civilization. But mismanagement of resources led to natural exhaustion and cycles of violence for centuries. Today, the region is in an advanced stage of desertification, with fewer and fewer resources to support human populations. The environmental degradation is coupled with an atmospheric accelerating force resulting in extreme natural shocks—floods, devastating droughts, and resulting fires. Unsurprisingly, the Middle East concentrates yet again all the ingredients that mark the history of our times.

Where human security is weakened by predatory and hard security-oriented regimes, economies tend to be more extractive toward nature. But nature can no longer sustain extraction. Resources are not just running lower—such as water or land fertility—they are also more erratic. The Middle East is now replete with foretellers of climate catastrophes—massive floods in the Arabian Peninsula, fires in the Levant, and drought everywhere.

These disasters are mostly showing one thing, namely that people have no safety nets to rely upon from their governance systems. There is no preparedness, no relief capacity. This means, once again, that Middle Eastern populations are left to struggle for their own dignity, or karama, the key word during the Arab Spring. It may well become a refrain of disruptions to come related to climate shocks.

Still, some regimes in the Middle East are talking about climate change. I am thinking particularly of the United Arab Emirates, but they do so in a “business as usual” way. They aim to demonstrate that economic power and technological innovation are a way to face the crisis. This is not going to work. Governance and socioeconomic systems need to be rethought in terms of their relationship with nature. We also have to look a lot more in the direction of nature-based solutions in order to navigate the unfolding disaster.

MY: There has been an argument that the Syrian uprising was caused by the drought between 2007 and 2010. Your thoughts?

OL: Without a doubt the drought played a role in the multidimensional uprising in Syria. But the drought itself has a story. It began in 2007 and became protracted over the years. Rainfall patterns were becoming more erratic. This was the result of two things: global warming resulting from excess carbon dioxide accumulation in the atmosphere and changes in landscapes at the local level. Apart from the coastline, over time Syrian land was denuded of natural vegetation, which is responsible for stocking water underground and pumping it into the atmosphere.

In addition to breaking the ecological integrity of the land (which regulates local climates), there were other things that created additional stress for the agricultural capacity in the area of Dar‘a and elsewhere. The Assad regime relied on two main crops for export—wheat and cotton—both of which are highly water intensive. So, atmospheric conditions were not providing rain, and on top of it there were agricultural incentives, such as subsidies, pushing unsustainable ground water consumption. In parallel, the liberalization of the economy led to hikes in diesel prices which farmers could not afford. The crops eventually failed, collapsing an already fragile economy and pushing people into acute food insecurity and economic vulnerability, which they were left to navigate mostly by themselves.

What followed was a mass movement from rural to urban zones, as well as a boom in the informal economy, which is often accompanied by abuse and insecurity for all members of a family household. This is an extremely violent process of the disintegration of livelihoods and security that spirals out of control. In those cities to which people moved, the population influx led to unsustainable water consumption, which created tensions between “old” and “new” communities. The land was impossibly stretched, and the state only concentrated on containing a bubbling situation by unleashing the security forces. Populations were squeezed between scarcity and violence. No wonder communities revolted. So, again, this is a story of exacerbation and disruption.

I was in Syria in 2009, and I remember then that all the communities with which I spoke accepted President Bashar al-Assad as the “devil they knew.” They knew that the equilibrium between the central state, the clans, and the various communities was precarious, but it was an equilibrium to which they could adhere for lack of a better alternative. When mass displacement, impoverishment, and violence started increasing, this equilibrium was upset. The state reacted in a such a way that it broke irremediably the multiple contracts that Assad had with various constituencies.

When you look through the lens of the environment, you can actually retrace the story of peoples, economic policies, and governance structures. Ask any elder in the Middle East what the land was like 60–70 years ago, and they will spend hours telling you stories about fruits and vegetables tasting better, people being more resilient, and communities being more intertwined. The state of the land is usually a reflection of socioeconomic situations—either of resilience or destitution. With increasing liberalization over the last decades, especially through structural adjustments, there have been inequalities and social dislocation. In the Middle East, governance structures are highly centralized and informally organized according to ancestral cultural and identity groups. The mix between the two has led to politics of group benefits and zero-sum games. In modern economies, that means that land and other natural resources are mostly integrated in an economic trickle-up model in which resources accrue to a few at the expense of social and natural public goods.

Climate change is a systems-disruptive force. It will upset old equilibriums to which authoritarian states and inefficient bureaucracies are ill-adapted to respond. So, yes, climate change is tied in with politics in the region, and it will have exponential effects over the coming years.

MY: One consequence of drier climates is that it will exacerbate water scarcity. Can you outline potential scenarios if the question of water is not adequately addressed by Arab states? What might be some ways of resolving the issue?

OL: Let’s fix a slight misconception first. Water scarcity leads to climate disruption leads to water scarcity. In other words, climates become drier because of inadequate water and land management. When you do this globally, all the while burning fossil fuels, you end up with a global climate regime deregulation. Agricultural, energy, and extractive policies are the primary drivers of water scarcity. Climate change exacerbates an already existing state of water scarcity.

Now, on scenarios. It is very hard to lay these out, because they depend on water levels, water sources and flows, water infrastructure, and socioeconomic relationships to water. What I can tell you is that water scarcity is a process of man-made depletion. It is not an overnight shortage. So, necessarily, the disruptions and sociopolitical breakdowns that result from it also take place in a process of exacerbation until it reaches points of disruption.

We can look at two different countries to understand how water scarcity impacts stability. Jordan is currently experiencing its worst drought in 900 years. The consecutive refugee flows coming from Palestine, then Iraq, then Syria over the last decades have led to repeated sudden bursts of population concentration in various parts of the country. In recent years, Mafraq and Irbid Governorates have been under acute water stress every summer, leading to severe tensions between refugee and host communities, higher criminality, xenophobia, and the reinforcement of tough security measures on the part of the Jordanian state. As a result of water running low, people have dug random boreholes into local water tables, which tends to worsen water stress for everyone, but also can lead to water pollution.

At a more structural level, in and near those governorates you have intensive forms of agriculture that drain water tables further. In Amman, where the government is under more direct political pressure, the city has been moving toward more efficient water infrastructure, and it is looking at desalination plants to increase the availability of water. But it is not the same story across the country. Water vulnerability is increasing and is having a series of knock-on effects. These effects are so far contained, so the two questions we need to ask are “until when?” and “and then what?” Here, we need to look at policy responses and ecological interdependencies underpinning Jordan’s water resources. It gives us an idea of the type of violence that may emerge and how far it can go geographically.

From an ecological standpoint, technology can only get you so far. As long as Jordan can make up for water shortages that sustain its economies, it will maintain a level of stability and water conflicts may remain confined to social tensions or to geographically confined zones. But that will have a growing cost over time, which will destabilize the country’s economy and sociopolitical fabric. If Jordan also reacts with force rather than rethinks its investment in the social and environmental fabric, it will likely pay a heavy price in the coming decade.

Iraq, on the other hand, is moving into active water conflict, especially around the ancestral ecosystem of the southern marshes. The water branches feeding into this ecosystem are impacted by hydroelectric infrastructures reducing the flow of water, general pollution, growing salination, and the collapse of local biodiversity. Because of the environmental degradation, people are moving into cities, which are themselves facing water stress. This has led to greater demand for water imports, forcing all households, including vulnerable ones, to spend their income on making up for the lack of available water. This leads again to growing social tensions, but also growing frustration with a central state that remains crippled by its inability to provide basic services, and therefore needs to constantly find ways of legitimizing itself.

Iraq is dependent for its water supply on Turkey and Iran. The more the Iraqi government fails to deliver at home, the more it is likely to escalate tensions with its neighbors. Over time, if this doesn’t lead to open warfare—which it probably won’t given Iraq’s weak defense capacity—it will reduce the chances for water-based cooperation to stop water depletion. This will impact all countries’ stability negatively, and will make them more vulnerable to climate change. The more individual states prioritize their national needs first, rather than cooperating on the basis of ecological integrity and environmental regeneration, the more they will undermine their own stability and cause environmental degradation. In other words within decades this region of the world may simply become uninhabitable.

In terms of solutions, there are a few. But I’ll focus on broad strokes. First, states and regions would need to transition away from activities that deplete water tables. This is no small feat as it is multisectoral. You need a shift toward regenerative agriculture, energy-efficient systems, and infrastructure development that do not encroach on ecosystems. The process does not just require an economic transition at the country level, it also requires a change in economic infrastructures and frameworks at the international level. Agricultural produce for example should be isolated from international speculation, and production should primarily serve for internal consumption and to reinforce resilience. Countries should encourage a diversity of cultures, including a return to indigenous seeds and crops, rather than systematized crops that are simply not suited to the ecological make-up of areas undergoing desertification.

Secondly, Middle East states need to adopt regenerative landscaping practices that literally help them to plant rain into the soil again. Globally, we need to harness the hydrological cycle in order to recover livable climates at local and global levels again, and preemptively manage floods. The interesting thing is that this is a sector that requires new competencies and which is also labor intensive. It is about redesigning landscapes so that they retain water, leading them to again become productive. This is a message that particularly resonates in the Middle East because rebooting functional ecosystems is also about rebooting local soil-related cultures. The Middle East was the cradle of civilization and culture as a result of its agricultural might for an enormous part of its history. There is the potential to recover for the future.

MY: Do you envisage a time when governments in the region will be able to wean themselves off the extractive policies that have damaged their environments? Or are they not thinking in these terms?

OL: They are not. Nor is it just governments in the region. Extractive policies are a function of growth-oriented economies that require energy. As long as we don’t change what extractive policies are used for, extraction will not cease. A tree will be worth more dead than alive. Underground resources will be more valuable unearthed and used than buried. Aggressive underground resource extraction made the Middle East what it is today. It came with economic growth as well as economic predation, inequalities, disenfranchisement, corruption, violence, and war. It also came with authoritarianism.

Unfortunately, we are likely to see the same type of story develop over the new scramble for resources related to renewable energy. For a long time, the Middle East played a central part in the global economic march that led us to where we are. But the Middle East won’t hold the same importance in tomorrow’s energy competition because it is not endowed with the needed resources such as rare earths and related materials. Admittedly, Middle Eastern countries are endowed in natural sunlight that can help their power transition, but the materials and technology used to harness this renewable energy is where the resource competition will play out, and give rise to new drivers of instability globally. These materials and technology are not located in the Middle East, which means that the center of gravity in energy politics will incrementally shift. This transition will be unsettling, but it may also represent an opportunity to try out different economic models on the basis of ecosystems regeneration. The European Union has already indicated its readiness to work with Middle Eastern partners on multiple transitions. It is however necessary to have a hard look at which type of governance systems are needed to usher in truly resilient transitions in a way that revive local and national economies from the ground up—literally.

MY: What for you are the top three most pressing environmental problems that countries in the region will need to prioritize in the coming decade?

OL: Water scarcity and land degradation will lead to crop failures. Floods will create more humanitarian and economic disasters, and will damage infrastructures that are already fragile. Urbanization is likely to increase, depleting water tables even more. Global energy shifts will lead to changes in oil price structures that may actually lead to more revenues in the short term and, possibly, more investments in security forces. The most pressing environmental problem is that we are entering an era of vicious cycles rather than isolated shocks. But this is not inevitable and what’s at stake is to break those cycles.

The overall challenge across the Middle East, like elsewhere in the world, is to rebuild ecological integrity. That means recreating landscapes that can hold carbon and water, and therefore sustain human activity again. It is about restoring equilibriums that help both to chart another socioeconomic path forward as well as to adapt to climate change and reverse it over time.

So that requires two tempos of change: adaptation and transformation. With respect to adaptation, climate-related disasters are already locked into the planet’s system due to past emissions and environmental degradation. The most pressing thing is to anticipate where and how disasters will hit and prepare accordingly. It requires ensuring continuous and shock absorption relief capacity in the future, which will demand internationally and regionally pooled resources. In addition, it will require redesigning landscapes in such a way that they can buffer the impact of disasters and store as much flood water as possible. This sounds abstract when you are not familiar with ecological design, but if you have a look at projects such as Greening the Desert in Jordan or regenerative projects in Saudi Arabia, you can get a sense of how to work with landscapes to adapt to new challenges.

On transformation, achieving this is hard work. Climate change calls for a profound redesign of political and socioeconomic systems. It is about transforming the way in which agriculture, energy, infrastructure, and other economic systems are set up and relate to the environment. And it is about investigating which governance systems best deliver on a safe operating space for human populations in a viable environment.

 

Synthesis study demonstrates phytoplankton can bloom below Arctic sea ice

FRONTIERS

Research News

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IMAGE: OPTICAL MEASUREMENT OF A MELT POND view more 

CREDIT: PIERRE COUPEL

Small photosynthetic marine algae are a key component of the Arctic marine ecosystem but their role for the ecology of the Arctic Ocean have been underestimated for decades. That's the conclusion of a team of scientists who synthesized more than half a century of research about the occurrence, magnitude and composition of phytoplankton blooms under Arctic sea ice. The results were published in a special issue of Frontiers in Marine Science devoted to Arctic Ocean research.

Phytoplankton are free-floating microscopic organisms, most of which are single-celled algae. Like terrestrial plants, they use photosynthesis to turn light into chemical energy by consuming carbon dioxide (CO2) and nutrients in the water. Phytoplankton are the basis of the marine food web and play a vital role in the carbon cycle by absorbing CO2 from the atmosphere.

Until roughly a decade ago, most scientists assumed that phytoplankton remained in a sort of stasis throughout the winter and spring until sea ice break-up. Now there is a growing body of evidence that suggests under-ice blooms (UIBs) of phytoplankton, like a sudden spring flowering in a garden, can occur in low-light environments below sea ice.

"There was a long-standing assumption that what was happening under the sea ice in the water column was almost 'on pause' during the polar night and before seasonal sea ice retreat, which is apparently not the case," said lead author Dr Mathieu Ardyna, a postdoctoral Marie Sklodowska-Curie fellow at Stanford University.

The revelation means that phytoplankton production in some regions of the Arctic Ocean may be an order of magnitude greater than originally predicted. That's important for climate modelers who want to know how much atmospheric carbon is being absorbed by these algae.

Few places on Earth are transforming as rapidly as the Arctic due to climate change. Over the past 30 years, the Arctic has warmed at roughly twice the rate as the global average. One of the most visible signs of that change has been in the decline of the sea ice that floats on the ocean surface, with this year's ice cover shrinking to the second lowest extent on record.

It's no surprise that the thinning ice cover has enabled phytoplankton, which require light for photosynthesis, to flourish. What was surprising to Ardyna and his colleagues is that the phenomenon of UIBs occurred well before climate change affected Arctic sea ice.

"Digging up research that occurred from the '50s and prior demonstrates that blooms, albeit not very large, were occurring under thick ice in the central Arctic," he explained. "I think this fact surprised many of us, as models had suggested this was not the case."

The historical observations included a pair of studies during the International Geophysical Year, a global campaign that ushered in the modern scientific era. The authors noted, "The end result of this work was nothing less than an incredible first glimpse of UIBs occurring in the central Arctic."

The paper goes on to describe the variability among UIB events across the Arctic Ocean in terms of occurrence, magnitude, and even the type of organisms present. Some of those findings are based on scientific programs and expeditions dedicated to studying UIBs specifically. In many cases, observations relied on autonomous floats, robotic gliders and even remotely operated vehicles that can swim under the sea ice.

Ardyna said further observations to feed new computer models will be key to more accurately predict how the Arctic carbon cycle will change in the future.

"So many questions remain unanswered about this critical period of spring, for many Arctic species, for their food or their life cycle," he said. "Given the remoteness of the Arctic, one way will definitely be to develop more and better autonomous platforms to give us valuable information.

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Drug eases recovery for those with severe alcohol withdrawal

YALE UNIVERSITY

Research News

New Haven, Conn. -- A drug once used to treat high blood pressure can help alcoholics with withdrawal symptoms reduce or eliminate their drinking, Yale University researchers report Nov. 19 in the American Journal of Psychiatry.

In a double-blind study, researchers gave the drug prazosin or a placebo to 100 people entering outpatient treatment after being diagnosed with alcohol use disorder. All of the patients had experienced varying degrees of withdrawal symptoms prior to entering treatment.

According to the researchers, subjects with more severe symptoms -- including shakes, heightened cravings and anxiety, and difficulty sleeping -- who received prazosin significantly reduced the number of heavy drinking episodes and days they drank compared to those who received a placebo. The drug had little effect on those with few or no withdrawal symptoms.

"There has been no treatment readily available for people who experience severe withdrawal symptoms and these are the people at highest risk of relapse and are most likely to end up in hospital emergency rooms," said corresponding author Rajita Sinha, the Foundations Fund Professor of Psychiatry, a professor of neuroscience, and director of the Yale Stress Center.

Prazosin was originally developed to treat high blood pressure and is still used to treat prostate problems in men, among other conditions. Previous studies conducted at Yale have shown that the drug works on stress centers in the brain and helps to improve working memory and curb anxiety and craving.

Sinha's lab has shown that stress centers of the brain are severely disrupted early in recovery, especially for those with withdrawal symptoms and high cravings, but that the disruption decreases the longer the person maintains sobriety. Prazosin could help bridge that gap by moderating cravings and withdrawal symptoms earlier in recovery and increasing the chances that patients refrain from drinking, she said.

One drawback is that in its current form prazosin needs to be administered three times daily to be effective, Sinha noted.

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The study was conducted at the Yale Stress Center and the Connecticut Mental Health Center's Clinical Neuroscience Research Unit. It was supported by the National Institute of Alcoholism and Alcohol Abuse at the National Institutes of Health and the Connecticut State Department of Mental Health and Addiction Services.