Trees

Climate engineering reconsidered
2014-09-11

There are several ways to respond to the current climate change crisis. One is to limit combustion of fossil fuels and move towards a renewable energy system, but that has proven to be a slow endeavour.  
 
Amid this international collaborative impotence, there are increasing calls for ways to engineer our way out of the crisis. One way could be to scatter sunlight through the injection of sulphate particles into the atmosphere. The technique is even mentioned in the Intergovernmental Panel on Climate Change's 2013 Summary for Policymakers. 
 
Neither effective nor feasible?
In the current issue of Nature Climate Change, an international team of scientists who gathered at the Annual Askö Meeting, organised by the Beijer Institute in September 2013, concluded that this kind of geoengineering is unlikely to be the game-changer some people expect it to be.
 
“Our main conclusion is that, when the use of geoengineering is politically feasible, the intervention may not be effective; and that, when the use of geoengineering might be effective, its deployment may not be politically feasible,” write the authors, led by Scott Barrett, chairman of the Beijer board.
 
Simply put, the many problems associated with geoengineering, including its inability to address every climate emergency, the many possible negative environmental side-effects and the geopolitical problems that would be triggered, suggest that the need to address the root causes is as strong as ever. 
 
“If anything, the prospect of geoengineering should strengthen resolve to tackle climate change by limiting atmospheric concentrations of greenhouse gases”. 
 
Helping some, harming others
Injecting sulphate aerosols into the stratosphere to scatter sunlight could very well reduce the temperature in the lower atmosphere in a relatively quick and inexpensive way. It could even be done unilaterally, without the need for international cooperation. This might sound uncomplicated, but that is ironically also one of geoengineering's major problems. While it might limit global warming and help some countries it is likely to harm others, for example by altering the pattern of monsoons. 
 
“The use of stratospheric aerosols poses a number of huge challenges for governance. Even if 'losers' were to be compensated for their losses, it would be more or less impossible to attribute particular changes to climate engineering rather than to natural variation," the authors write.
 
Geoengineering would also have a range of environmental side-effects unrelated to the climate. A planet disturbed by both elevated CO2 concentrations and geoengineering would no doubt be very different. The effects on ecosystems would be complex and spatially variable, with implications for food production, freshwater supplies and human health, creating both winners and losers.
 
The risk of addiction
In the article, the use of geoengineering as a “stop-gap” is also discussed. This would involve deploying stratospheric aerosol injection while more effort is put into reducing emissions. Once concentrations return to 'safe' levels, geoengineering could be scaled back and eventually stopped. If, however, such geoengineering were used over a number of decades, and greenhouse gases concentrations continued to rise, turning geoengineering off abruptly would cause rapid climate change.
 
“The bigger risk to using geoengineering, we believe, is not that countries will turn it off abruptly but that, having begun to use it, they will continue to use it and may even become addicted to it,” the authors say. 
 
 
Barrett, S., T. M. Lenton, A. Millner, A. Tavoni, S. Carpenter, J. M. Anderies, F. S. Chapin III, A.-S. Crépin, G. Daily, P. R. Ehrlich, C. Folke, V. Galaz, T. P. Hughes, N. Kautsky, E. Lambin, R. Naylor, K. Nyborg, S. Polasky, M. Scheffer, J. Wilen, A. Xepapadeas, and A. de Zeeuw. 2014. Climate engineering reconsidered. Nature Climate Change 4:527-529.

 

 
 
 
 

Changing Planet: New cluster on global change research
2014-09-11

Researchers join forces to strengthen research on global social-ecological connectivity

How is the human enterprise shaping the biosphere and how can we become better stewards of planet Earth? These are some of the fundamental questions that will drive a new research cluster called 'Changing Planet'.

The cluster primarily consists of researchers from the Stockholm Resilience Centre, the Beijer Institute of Ecological Economics and the Erling-Persson Family Academy Programme - Global Economic Dynamics and the Biosphere.

It is researchers from the "global themes" of the three above mentioned organisations that form the new initiative. They are all well-connected and will rely heavily on a network of organisations around the world including the Earth System Governance Project, Resilience Alliance and University of Waterloo in order to advance the research and contribute to positive change for global sustainability.

A pressing need for new perspectives

'Changing Planet' is a response to the increasing need for improved understanding of interactions between people and ecosystems at larger scales.

While previous research has done a great job in mapping and quantifying linkages of many biophysical components at the planetary scale, there is still a poor understanding of social-ecological connectivity at that scale, argue the researchers behind the initiative.

"The pace and extent of global changes means there is a pressing need to develop our understanding of how social processes are interconnected and how they drive and interact with the processes of the biosphere," explains Beatrice Crona, member of the steering group.

Solutions at multiple scales

The new umbrella initiative aims to provide a platform to develop this knowledge, making use of the diverse methodological toolboxes and skillsets of the contributing research programmes and their international partners.

"The research undertaken within 'Changing Planet' will be broadly concerned with understanding how humans affect social and ecological processes, what this may lead to and what possible solutions and transformations can be initiated to improve outcomes in the future," says Anne-Sophie Crépin, also part of the steering group.

The partner organisations have already organised several international workshops about global dynamics. Now, with the launch of the new cluster the work will be strengthened through a range of different activities, including interactive 'learnshops', a kind of workshops designed to create dialogue and learning across academia and business and/or practitioners

Research will also be conducted by postdocs and senior researchers employed or affiliated to each programme.

The cluster's new website includes more details about partners, advisors, funders and ongoing research, as well as publications, videos and blogposts.

www.changingplanet.se

Steering group:

Anne-Sophie Crépin, Deputy director and leader of the Global dynamics and resilience programme, the Beijer Institute of Ecological economics

Beatrice Crona, Exevutive director, Global Economic Dynamics and the Biosphere, the Royal Swedish Academy of Sciences

Sara Cornell, Coordinator of the Planetary Boundaries initiative, Stockholm Resilience Centre

Victor Galaz, Theme leader of the Global and cross-scale dynamics theme, Stockholm Resilience Centre

 

 

Aquaculture and the resilience of global food systems
2014-08-19

Does aquaculture add resilience to the world’s food portfolio?

The global food systems are fragile and put under constant strain due to the relentless rise in human demand for animal protein. Resource scarcity and degradation of ecosystems combined with the greater frequency of shocks and unexpected events such as droughts, pest outbreaks and price fluctuations, create cumulative pressures.

What is the role of aquaculture, farming of fish, shellfish and other aquatic organisms for human consumption, in addressing this dilemma? Will aquaculture, which is the fastest growing sector of the food system, enhance or detract from the resilience of the global food system?

These questions are posed in an article published in the Proceedings of the U.S. National Academy of Sciences (PNAS), authored by a group of globally renowned interdisciplinary scholars led by Max Troell of the Beijer Institute for Ecological Economics and the Stockholm Resilience Centre. The article is a result of the Beijer Institute’s annual Askö meeting.

The global food system: fragile and vulnerable
More food is needed for a growing global population and there is an increasing appetite for animal protein – particularly in countries with growing economies such as China and India. This poses a challenge in terms of using natural resources, fish feed, water and energy, as efficiently as possible while minimising environmental impacts. At the same time, resource scarcity and the impacts of climate change put pressure on food production systems.

These pressures of increasing production while facing diminishing resources also occur in the context of rapidly fluctuating food prices, undermining food security. This was demonstrated during 2008 when spikes in food prices led to food riots in many places around the world.

Enter Aquaculture
Aquaculture offers the potential to reduce the fragility of the global food system by acting as a buffer by increasing the variety of proteins that are available for human consumption.

"The rapid rise of aquaculture during the last two decades provokes both optimism and apprehension among scientists and policy analysts concerned with global food security," says Marc Metian, co-author.

The growth is indeed remarkable. In the past couple of decades the cultivation of fish and shellfish in freshwater and marine systems grew at an annual rate that substantially exceeded that of poultry, pork, dairy, beef, and grains. As a general trend, the price of farmed seafood has also been more stable than prices in other sectors of the food system.

Aquaculture's contribution to global food supplies will depend on its use of food-grade crops and its ability to use agriculture residues, and also on its future use of wild fish for feeds –  something that is also entangled with issues of social equity and ethics. A key example is the use of fish and crops directly for food versus using them to feed farmed aquatic animals and livestock.

An innovative approach
The paper uses an innovative framework called Portfolio theory, which enabled the authors to analyse how growth in aquaculture and diversifying food production may enhance the ability of the global food system to meet future demands under changing conditions.

"This first set of global estimates of the use of crops for feed in aquaculture indicates that the crops used are often the same as those used for terrestrial animal farming, but also shows that the volumes used for aquaculture are still low," says Max Troell.

A call to action – moving beyond academia
The authors conclude that the present diversity of aquaculture does contribute important elements of stability to the world's food portfolio, but in the long run this will depend on how the sector develops in terms of species composition, feed inputs, and system design and operation.

Finally, they make a strong call to action:

"If the aquaculture industry seeks to dominate the global market for animal protein, it should take a leading role in promoting a strategy of resilience. By doing so, it can contribute to improving the stability of the world's portfolio of proteins in support of global food security. This requires the development of a diversity of aquaculture species; the promotion of ethically sourced co-products from the crop, livestock, and fisheries sectors for feeds; infrastructure design that uses renewable energy and, the implementation of management practices that minimize wastes, environmental impacts and social inequalities."

Troell, M., Rosamond L. Naylor, M. Metian, M. Beveridge, P. Tyedmers, C. Folke, K. Arrow, S. Barrett, A-S. Crépin, P. Ehrlich, Å. Gren, N. Kautsky, S. Levin, K. Nyborg, H. Österblom, S. Polasky, M. Scheffer, B. Walker, T. Xepapadeas, A. de Zeeuw. 20104. Does Aquaculture Add Resilience to the Global Food System? PNAS 2014

 

Book: Principles of social-ecological urbanism
2014-06-19

This new publication is the result of a close collaboration between researchers at the Beijer Institute,  the School of Architecture, Stockholms Resilience Centre and KIT Arkitektur. It presents the principles of urban design articulated in the work on the project Albano Resilient Campus, a new multi-university urban district on the edge between Stcokholm city centre and the Royal National City Park.

As a case study, the project shows how urban development can interact with precious local ecosystems and greenspaces. Its ambition is to formulate a new model for sustainable urban development in accordance with social-ecological principles. 
 
For questions on distribution or review copies, please contact Lars Marcus, Professor of Urban Design at KTH School of Architecture.
 
Barthel, S., J. Colding, H. Erixon, S. Grahn, C. Kärsten, L. Marcus, J. Torsvall. 2013. Principles of Social-Ecological Urbanism - Case Study: Albano Campus, Stockholm. Trita-ARK Forskningspublikationer 2013:3

Water resilience for human prosperity
2014-04-23

New book introduces new framework for water governance and management

Water is the bloodstream of nature and wise stewardship of freshwater, from the very local to the regional, is central to human development and prosperity. But over-use and mismanagement of freshwater resources now threatens the functioning of ecosystems that are crucial to human activities.

The new book Water Resilience for Human Prosperity, analyses the problems and provides examples of successful water resource management with main focus on freshwater use for current and future food production. The key message of the book that by identifying and understanding the available water resources for humans and nature, we can find solutions that provide prosperity for more people and for a longer time.

The two major forces impacting the water cycle are human-induced: land-use change and consumption for agriculture, households and industries. Understanding the feedbacks in social-ecological systems can help in building water resilience, argue the authors.

"Water is key for maintaining and enhancing the resilience of social-ecological systems that we depend on," says Johan Rockström, director of Stockholm Resilience Centre (SRC) who is lead author of the book written together with Beijer Institute director Carl Folke and other colleagues at SRC, Stockholm Environment Institute and Potsdam Institute for Climate Impact Research.

Click here to read more 

Water Resilience for Human Prosperity. Johan Rockström, Malin Falkenmark, Carl Folke, Mats Lannerstad, Jennie Barron, Elin Enfors, Line Gordon, Jens Heinke, Holger Hoff and Claudia Pohl-Wostl, Cambridge University Press, Cambridge, UK. 2014.

Click here to order book

Seminar with Cass R.Sunstein: Freedom of Choice
2014-04-10

How a gentle nudge can change our behaviour

Tuesday 29 April 2014, 15.00-16.30
The Beijer Hall, The Royal Swedish Academy of Sciences, Lilla Frescativägen 4A, Stockholm
 
One approach for influencing and changing human behavior, that can be a useful complement to current public policies, is to rely on so-called nudges. Nudging is about making small changes in people’s environment to steer behavior in a specific direction. In Britain the prime minister created a Behavioural Insights Team (known as the “nudge unit”) to implement the concept for shaping public policies, for example to increase organ donations. There is a growing interest to use nudges also for environmental purposes.
 
Cass R. Sunstein, Harvard Professor and former advisor to President Obama, presents the science behind the concept and arguments for using it. Behavioral economists have established that people often make decisions that run counter to their best interests. Sometimes we disregard the long term, are unrealistically optimistic, or fail to see what is in front of us. With this evidence in mind, Sunstein argues for a new form of paternalism, one that protects people against serious errors but also recognizes the risk of government overreaching and usually preserves freedom of choice.
Cass R. Sunstein is currently the Robert Walmsley University Professor at Harvard University and the founder and director of the Program on Behavioral Economics and Public Policy at Harvard Law School. He writes widely on topics ranging from behavioral economics to constitutional, administrative and environmental law and author of the books Why Nudge?: the Politics of Libertarian Paternalism (2014) and Nudge: Improving Decisions about Health, Wealth, and Happiness (with Richard H. Thaler, 2008).
 
Program
15:00 Carl Folke, Director of the Beijer Institute of Ecological Economics, Scientific Director of Stockholm resilience Centre, opens the seminar.
           Gunhild Stordalen, Chair of the board of GreeNudge, introduces the main speaker
15:10 Cass R. Sunstein, Harvard University. Freedom of choice.
16:00 Steffen Kallbekken, GreeNudge and CICERO. An introduction to GreeNudge.
            Therese Lindahl, Beijer Institute of Ecological Economics. The potential for green nudges in Sweden
16:15 Panel discussion on nudging in Sweden with Cass R. Sunstein, Therese Lindahl and Steffen Kallbekken. Moderated by Agneta Sundin.

The seminar is organised together with GreeNudge and Stockholm Resilience Centre

Download invitation

No registration is needed

Short course: Applied Methods Related to Regime Shifts in Social-Ecological Systems
2014-01-15

The course is arranged by the Beijer Institute in conjunction with the World Conference of Environmental and Resource Economists, WCERE 2014 June 27-28, 2014 in Istanbul, Turkey. Its target audience is researchers from developing and transition countries, especially encouraging applicants from the regional environmental economics networks CEEPA, EEPSEA, LACEEP, and SANDEE.

Description
Many ecosystems have nonlinear features that can cause them to shift abruptly from one state to another. Human action is typically the trigger for such regime shifts, which can be difficult to reverse and can cause the loss of valuable ecosystem services. Regime shifts have been documented for example in coral reefs, savannahs, and lakes. More details and examples can be found in the Regime Shifts database (www.regimeshifts.org). Economists have become increasingly interested in understanding how regime shifts affect environmental management and policy decisions.
The course is a standalone follow up to the one held two years ago in Prague which was mostly on theory. This time we will focus on two methodological approaches for conducting applied research on environmental regime shifts: statistical methods for identifying thresholds and tipping points in empirical data sets, and experimental methods to assess behavioral responses of people to regime shifts.
 
Deadline for applications is 1 February 2014. For more information and how to apply click here.

Mangroves offer protection against storm winds
2013-12-13

It is well known that mangrove forests can protect lives and property from storms and earth quakes by buffering the impacts of storm surges and tsunamis.  A Beijer Institute article now shows that mangrove forests also damper wind velocity and provide protection from damage caused by wind.
 
Mangrove forests are areas with woody trees or shrubs in tropical and subtropical tidelands. Rich in biodiversity, mangrove leafs and roots release nutrients  and many commercially attractive fish species reproduce in its waters. Half of the world’s mangrove forests have disappeared since the middle of the last century.  Conversion of the waters for shrimp-farming constitute 25 percent of the loss, wood extraction, industrial development and tourism are other major drivers.
 
Theoretical model and empirical observations agree
Former Mäler Scholar Saudamini Das, now at Institute of Economic Growth India and Beijer Institute researcher and SRC theme leader Anne-Sophie Crépin constructed a theoretical mode in order to investigate whether mangroves can slow down wind velocity and thereby provide protection. They calibrated it to simulate wind damage caused by a storm that hit the state of Odisha in 1999, and ran the model looking for a relation between mangroves and damage caused by wind.
 
The model showed indeed that the presence of mangrove forests along the coastline served to decrease the amount of damage from wind to houses.
 
“We found that in villages that were protected by mangroves there was also significantly less damage to houses caused by wind, the forests along the coast seem to break wind velocity so much that we see a clear pattern where villages located behind the forests were not as hard hit,” explains Anne-Sophie Crépin.
 
Using empirical data from records of the storm in Odisha the authors were able to test the accuracy of the predictions given by the model, finding that they provided an accurate representation of what happened in real-life.
 
“We could see that the damage that was simulated in the model matched the damage that was recorded after the storm quite accurately. This validates the model and tells us that we have calibrated it in a good way, to get the most realistic results,” explains Crépin.
 
Even in villages located relatively far from the coastline and the mangroves, the authors found that there was significantly less damage to houses compared to similarly located villages with no mangrove protection.
 
One more reason to protect the mangrove
The authors also calculated the monetary value and based on avoided reconstruction costs, each mangrove protected family saved around USD 23 making the economic value for wind attenuation services of one hectare of mangrove USD 177,  which corresponds to 3.17 million USD for the study area was saved (in 1999 prices). 
 
”These results add to the knowledge we have of the important roles that mangroves play. This is another reason to invest in keeping mangrove forests,” Anne-Sophie Crépin concludes.
 
 
 
Das, S., Crépin, A.-S. Mangroves can provide protection against wind damage during storms, Estuarine, Coastal and Shelf Science (2013), http://dx.doi.org/10.1016/j.ecss.2013.09.021
 
 
 

 

Challenges to make farmed fish reach the poor
2013-12-11

Farmed fish is big business and the aquaculture industry is growing, but not yet a savior for the hungry poor.  Today, more than 40 percent of all fish consumed derives from farming, but the distribution of it is skewed and the nutrition levels could be improved.  The contribution of aquaculture to global food security is both an issue of where the production occurs and what is being produced. 
 
In a paper in the Journal of Fish Biology, Beijer researcher and Stockholm Resilience Centre (SRC) theme leader Max Troell, together with SRC partner Marc Metian and partners from the organization WorldFish,  looked at the contribution of farmed fish to food security and nutrition needs of poor consumers. They found that fish farming is largely absent from Sub-Saharan Africa, home to a large proportion of the world’s poor. Although soil and climate is favourable, the region falls short when it comes to required production and the demand for aquaculture products grows quicker than the growth of aquaculture industry .
 
"In Sub-Saharan Africa the undeveloped aquaculture sector is dominated by smallholder, subsistence-type operations where access to the small amounts of fish produced is largely limited to producer households and their neighbors," Max Troell explains. 
 
Production of smaller-size fish is one pathway to increase access of farmed fish to poor communities, as it is more energy efficient and cheaper to produce. It can be  an excellent source of animal protein but because of species, size and method of rearing it is often inferior to small wild fish species as a source of essential fatty acids and micronutrients.
 
“The point is not how much fish is eaten but that fish consumption should fulfill its potential to help meet nutritional needs," Troell says.  
 
The authors conclude that more research is needed to identify small species that might be suitable for culture and the feed sector must continue to seek alternative feedstuffs that do not compromise the nutritional quality.
 
 
Beveridge, M.C.M. ; Thilsted, S.H. ; Phillips, M.J. ; Metian, M. ; Troell, M. ; Hall, S.J. 2013. Meeting the food and nutrition needs of the poor: the role of fish and the opportunities and challenges emerging from the rise of aquaculture. Journal of Fish Biology, VOL. 83, Issue 4. DOI: 10.1111/jfb.12187
 

Does the threat of environmental collapse change our behavior?
2013-12-10

The Beijer Institute has been awarded funding from the Swedish research council Formas for a new project in the area of behavioural economics. Led by Dr Therese Lindahl, the project will investigate how and if people’s management of a natural resource is affected by the possible threat of a regime shift. 
 
Many natural resources, like fishing and grazing grounds, are managed as common resources, which often results in over-exploitation. Ecological research show that if an ecosystem, let’s say a grassland used for grazing, is grazed to hard and reach a certain threshold, it can quickly change in to another state, in this case a desert. The ecosystem has undergone a regime shift. Such shifts can have serious impact on human well being and threaten local livelihoods, especially in poorer regions where people may depend heavily on local ecosystems and the goods and services derived from them.
 
The risk of regime shifts can affect people’s will to care for their common resource. Therese Lindahl, program coordinator of the BENN research program of which this project is a part, and her team will use field experiments to investigate the links between the risk and peoples behavior.  She hopes the results will support finding policies that protect livelihoods and the ecological functions they depend on:
“We believe this project fills an important research gap that will provide essential information to help us better understand the social mechanisms underlying regime shifts in ecosystems and how we can overcome them“, says Therese Lindahl.
 
This project will be a part of the BENN research program.