The United States continues to endure the worst drought to hit the country in over 50 years. Although conditions have improved, 53 percent of the US is still experiencing moderate or worse levels of drought. The United States Department of Agriculture (USDA) projected last week that the drought will reduce the nation’s corn yield by 13 percent and soybean yield by 12 percent. As the world’s largest exporter of corn, soybean and wheat, this major disruption in U.S. supply is already having an impact on global food prices.

Is this summer a glimpse of what our future could look like under a changing climate, and what does that mean for the world’s poor who are disproportionately impacted by volatile food prices? What policy options are available to help avoid a repeat of the 2007-2008 food crisis? I sat down with FSE visiting scholar Thomas Hertel, an agricultural economist from Purdue University, to discuss these questions and related research as he wraps up his sabbatical year here at Stanford.

DEAN: The current drought has already had a dramatic impact on US corn prices, exceeding record highs of $8 a bushel. While American consumers are unlikely to feel the impacts until next year, the spike in corn prices has sparked debate over whether to drop or temporarily suspend US ethanol mandates to free up supply and ease the pressure on world food prices. In April, you published a paper in Nature Climate Change with Stanford environmental scientist Noah Diffenbaugh that looked at this very scenario.

How are current biofuel policies affecting the market’s ability to respond to extreme weather events like the current drought?

HERTEL: The remarkable thing about that paper is how timely it was. We predicted a volatile interplay between an extremely hot summer and the Renewable Fuel Standard for corn ethanol, and that is what we are now seeing, with the value of the mandates’ Renewable Identification Numbers (RINs) accruing greater value as the drought deepens. There are increasing calls for a waiver of the mandated 13.2 billion gallons of corn ethanol needed to meet this year’s federal renewable-fuel standards. This new source of demand (about 40 percent of production last year) has absorbed virtually all of the increased output the US has generated over the past eight years. By limiting the ability of commodity markets to adjust to yield fluctuations, biofuel mandates work in exactly the wrong direction. These price spikes are likely to be even larger in the future if these policies are not altered.

DEAN: In that same paper you warn that extreme weather events, like the current drought, are likely to become more common and potentially even more intense under a changing climate. To better understand the impacts of climate change on global agricultural production, trade, prices and poverty you have developed a global trade analysis model (GTAP), now used by over 10,000 members. Some of those results were published in a 2010 paper with FSE fellow David Lobell and FSE affiliated researcher Marshall Burke.

What have been some of the most interesting findings to come out of that model?

HERTEL: Prior to the publication of our 2010 paper in Global Environmental Change, most studies of climate change and poverty focused on the likely impact on prices and low income food consumers. Our paper was one of the first to examine the impact on wages and farm incomes. We found that low income farm households in regions of the world that are relatively less hard hit by climate change may actually benefit from the ensuing rise in world prices. Of course, low income consumers worldwide, as well as farmers in the regions hardest hit by climate change, such as Southern Africa and South Asia, will be hurt.

DEAN: Poor households in developing countries spend a disproportionately large amount of their disposable income on food. Even small price spikes can have a large impact.

What policies are needed to help protect the world’s poorest from price volatility?

HERTEL: This is an important question. Being a trade economist, I think immediately of trade policies and their role in improving or worsening the situation. From a global perspective, the best thing that can be done is for all regions of the world to share in the needed adjustments to events like the US drought of 2012. If all countries were to adjust their corn use by just a modest  amount, the shortfall could be accommodated more easily. However, the evidence from the 2007-2008 commodity crisis suggests that many countries – most notably India and China – responded to the crisis by adjusting border policies so as to shield domestic consumers from the price rise, thereby failing to share in the adjustment. This, in turn, made the world price rise larger and worsened the situation for low income households in other developing countries.

DEAN: In addition to focusing on climate change impacts on agriculture and poverty, you have a long-standing interest in agricultural impacts on the environment, and the role economics can play in mitigating agriculture’s destructive planetary impacts. The latter is particularly important given that agricultural production accounts for 70 percent of global freshwater consumption, 38 percent of total land use, and 14 percent of the world’s greenhouse gas emissions.

How are economic forces impacting the kind of farming we see today?

HERTEL: One of agriculture’s most important impacts on the environment has been its contribution to global greenhouse gas emissions (GHGs). Farming accounts for a disproportionate share of GHGs, including nitrous oxide emissions from fertilizer applications, methane emissions from livestock and paddy rice, as well as indirect emissions from the conversion of tropical forests to agricultural uses. There is little doubt that the globalization of agriculture has contributed to an acceleration of land conversion in some regions which had previously been insulated from world markets. New agricultural technologies offer great hope for moderating such GHG emissions – both by reducing the emissions intensity of agricultural production and by reducing the total amount of land required to feed the world. And there is evidence that more rigorous enforcement of restrictions on land conversion in places like the Amazon can have a tangible impact on global emissions. So the answer lies in a combination of investments, regulations and enforcement. We have explored the potential for agriculture and land-based mitigation policies to contribute to reduced GHG emissions – as well as the implications for food security – in a joint project with the UN-Food and Agriculture Organization. These findings are forthcoming in a paper in the Proceedings of the National Academy of Sciences.

DEAN: While at Stanford, you have had the opportunity to work closely with climate and earth system scientists to conduct research on the energy-water-land-agriculture-climate nexus under the umbrella of John Weyant’s Integrated Assessment Modeling (IAM) project and with former Purdue colleague, Noah Diffenbaugh.

How did you enjoy working in such an interdisciplinary environment?

HERTEL: This was the first deeply interdisciplinary experience of my career and it was both challenging and rewarding. Noah is the person who first stimulated my research interest in climate change five years ago. The idea that extreme events could have an important impact on agriculture, food prices and poverty is something that we have been exploring intensively since that time. However, it was only in the context of this sabbatical—with the help of Martin Scherer and Monika Verma—that we were able to really get our teeth into the issue, resulting in the April paper.

DEAN: You also taught an interdisciplinary graduate seminar with FSE fellow David Lobell on global agricultural land use change in 2050.

What sort of lessons did you learn from teaching an interdisciplinary seminar?

HERTEL: I really enjoyed the opportunity and the challenge of teaching an interdisciplinary course. I was fortunate to work closely with David Lobell in designing this course, as the structure was different from the typical economics course which I have taught in the past. Teaching the course also changed my perspective on which research questions are most important. Sometimes the points that most intrigue economists are of little broader relevance, while some of those issues which seem obvious to economists are deserving of much greater attention, more thorough investigation and better communication to the broader scientific community. I plan to offer this course when I return to Purdue, and I am also planning to write a textbook based on this course.

DEAN: You have also been working on the launch of an open source data program called GEOSHARE (Geospatial, Open-Source Hosting of Agriculture, Resources and Environmental Data).

What does GEOSHARE do and why is it needed?

Hertel: Feeding 9 billion people in 2050 in the face of a changing climate, while preserving the environment and eliminating extreme poverty, is one of the most important challenges facing us today. Yet the data currently available to understand how global and local phenomena affect the agriculture-environment-poverty nexus are insufficient to advance needed discovery and enable effective decision making. In order to address this limitation, we have initiated GEOSHARE. During my time at Stanford I was able to finalize funding for a two-year pilot effort aimed at providing proof of concept. It will prototype this freely available, global, spatially explicit database which will be accompanied by analysis tools and training programs for new scientists, decision makers, and development practitioners.

What will you take away with you from your time spent here on the Farm?

HERTEL: I greatly enjoyed my colleagues and conducting research, auditing courses (including a course in Geographical Information Science and David Lobell’s course in Climate and Agriculture) and teaching. But I also had great fun cycling and hiking in the hills around Palo Alto, windsurfing, singing in a local choir, and partaking of all that San Francisco has to offer. This is a lovely place to spend a sabbatical leave!

From Shanghai to São Paulo, people around the world are living longer than ever, challenging long-held ideas about retirement and well-established national retirement systems. Stanford health economists Karen Eggleston and Victor R. Fuchs offer an innovative view of the global aging phenomenon in an article published recently in the Journal of Economic Perspectives.

Drawing on a century of demographic data from 17 countries, Eggleston and Fuchs show that the share of increases in life expectancy realized after age 65 was only about 20 percent at the beginning of the 20th century but close to 80 percent by the dawn of the 21st century. Expected lifetime labor force participation as a percent of life expectancy is now declining. Eggleston and Fuchs share four interrelated responses to the economic and social challenges posed by this “new demographic transition:”

• Increase the retirement age.
• Encourage savings.
• Strengthen education.
• Emphasize healthy lifestyles early to ensure productivity in old age.

Eggleston is director of the Asia Health Policy Program at the Shorenstein Asia-Pacific Research Center. Fuchs is Henry J. Kaiser, Jr., Professor Emeritus, in Stanford’s Department of Economics and Department of Health Research and Policy, and a senior fellow at FSI and SIEPR.

Of the four policy responses the article proposes, is one especially critical?

Fuchs: The most important solution in terms of its potential impact would be people changing their attitudes toward retirement. This would mean people postponing retirement and saving more during their working years. If you work five years longer, for example, you would have greater savings and a shorter period of time when you would need the money.

Eggleston: We tend to think of the solutions as being interrelated. To address this longstanding and inevitable global demographic transition, organizations and policy structures need to support changes in individual behavior. In the case of the retirement age in the United States and European countries, policymakers need to change the many incentives that encourage people to retire younger.

What do you most hope policymakers will take away from the article?

Fuchs: We hope they will recognize the absolute need for individuals and organizations to plan for later retirement.

What are the special challenges faced by China and India, the world’s largest populations?

Eggleston: Longer lives in China and India contribute to improved human development, yet population aging also brings special challenges. China’s population is aging more rapidly than India’s and both countries need to invest more in the education and health of their young people, especially in poor rural areas.

In India, nutrition and education will help to reap a one-time boost to economic growth if the large cohorts of the working age population can be productively employed, while building a foundation for sustained improvement of living standards. China’s youth need to be as productive as possible to support the elderly while continuing to improve the national living standard.

The coming decade will be crucial in China, as the country transitions into a new economic phase and expands its fledging social protection system. The goal should be to ameliorate disparities and protect the vulnerable, while maintaining a financially sustainable and culturally appropriate balance of government and family responsibility for old-age support.

Indonesia’s rainforests are among the world’s most extensive and biologically diverse environments. They are also among the most threatened. An increasing population and growing economy have led to rapid development. Logging, mining, colonization, and subsistence activities have all contributed to deforestation.

But the recent and booming expansion of palm oil plantations could cause the most harm to the rainforests, and is generating considerable concern and debate among industry leaders, environmental campaigners and scholars.

Joanne Gaskell in Sumatra, Indonesia.

Joanne Gaskell has dedicated her graduate studies to better understanding the tradeoffs and demand side of this dilemma. The doctoral candidate and researcher for the Center on Food Security and the Environment recently defended her thesis before an audience of advisers, friends, and fellow students from Stanford’s Emmett Interdisciplinary Program in Environment and Resources (E-IPER).

“You need to understand the economics and politics of palm oil demand if you want to understand the regional dynamics of oil production and associated environmental impacts,” Gaskell said. “From a conservation perspective, this is as important as understanding supply since demand patterns affect the incentives facing producers.”

In the past 25 years, palm oil has become the world’s leading source of vegetable oil. Indonesia is currently the world’s top palm oil producer. Since the 1980s total land area planted to palm oil has increased by over 2,100 percent growing to 4.6 million hectares – the equivalent of six Yosemite National Parks. Plantation growth has predominately occurred on deforested native rainforest with major implications for global carbon emissions and biodiversity.

And Gaskell projects the demand for palm oil for food will double by 2035, requiring more than 8 million new hectares for production. Plantation expansion has already begun in Kalimantan and Papua, and Indonesian companies are now looking beyond Indonesia for new investment opportunities. Just as palm oil production spread from Malaysia to Indonesia to escape rising land and labor costs, palm oil production is now spreading to parts of Africa, where the crop is native, and Latin America.

Demand for palm oil is quickly rising in Asian markets – notably India and China – where it is used for cooking and industrial processes. Indonesia has the highest level of per capita palm oil consumption, resulting not just from population and income growth, but also from government policies that promoted the use of palm oil instead of coconut cooking oil.

“Taste preferences and investment more than international prices have driven palm oil demand in Indonesia,” Gaskell said.

Biodiesel production and speculation have also contributed to the rapid expansion of palm oil plantations, but to a lesser extent. Gaskell said the success of palm-based biodiesel hinges on remaining cheaper than petroleum diesel and whether governments subsidize the industry, as the United States has done with corn and soybean farmers.

Interest in palm oil as a cleaner burning fuel is already waning in Europe and the United States. The short-term carbon costs of deforesting and preparing land, fertilizing and managing the crops, then processing and transporting them outweigh the benefits. This is particularly true when palm oil plantations are grown on peat soils that release potent methane gas when drained for growing palm oil.

Palm oil seedlings ready for planting. Photo credit: Wakx/flikr

Growing plantations on ‘degraded land’, land that had been previously converted for other purposes, such as logging, is a much more favorable option over forest expansion. In theory, there is an abundance of degraded areas that can be profitably converted into palm oil plantations. But there are hurdles: The areas are not necessarily contiguous, making it difficult to organize a plantation, and ownership rights in these areas are often contested.

Palm oil’s considerable productivity and profitability offers wealth and development where help is most needed. Half of Indonesia’s population lives on less than $2 a day. But along with the negative ecological impacts, palm oil production increases competition for land and could exacerbate inequalities between the rich and the poor.

Gaskell believes sustainable expansion strategies are possible, and says smaller mills and different processing technologies are needed so production is affordable in scaled-down, more distributed systems.

Palm oil plantation in Cigudeg, Indonesia. Photo credit:  Achmad Rabin Taim/flickr

Her work is feeding an international conversation about palm oil production. The Roundtable on Sustainable Palm Oil (RSPO), an international organization of producers, distributors, conservationists and other stakeholders, has promoted better ways of managing palm oil production and encouraging transparency and dialogue among corporate players, governments, and NGOs.

“We need to protect the most ecologically valuable landscapes from agricultural production and we need to make sure that, in areas where palm oil agriculture occurs, there are ecological management strategies in place such as riparian buffers, wildlife corridors, and treatment systems for mill effluent,” she said. “From a food security perspective, small palm oil producers, who might be giving up rice production or the production of other food staples, need strategies to minimize the economic risk associated with fluctuating global palm oil prices.” 

Kavita N. Ramdas, executive director of the Ripples to Waves Program on Social Entrepreneurship at the Center on Democracy, Development and Rule of Law, has been appointed as the Ford Foundation representative to New Delhi serving India, Nepal and Sri Lanka. In this capacity, Ramdas will be leading the foundation's grant-making efforts to support democracy and social justice in South Asia.

In August 2012, Ramdas will step down as executive director of the Program to assume leadership of the Global Practitioner Council to provide strategic direction and guidance to the program's development and selection of the Social Entrepreneurs-in-Residence at Stanford (SEERS). Deborah Rhode, the Ernest McFarland Professor of Law and director of the Stanford Center on the Legal Profession at Stanford Law School who has served as the program’s faculty primary investigator since its launch last year, will assume leadership of the program. The Program on Social Entrepreneurship congratulates Ramdas on her new position and looks forward to welcoming Rhode in her new role as the program’s faculty director.