Innovation Needed to Meet Global Food Security Challenges
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Join us for a talk with agricultural and development economist Christopher B. Barrett, this quarter’s visiting scholar with the Center on Food Security and the Environment. Barrett is the Stephen B. and Janice G. Ashley Professor of Applied Economics and Management and an International Professor of Agriculture with Cornell’s Dyson School of Applied Economics and Management.
Professor Barrett will discuss food systems advances over the past 50 years that have promoted unprecedented reduction globally in poverty and hunger, averted considerable deforestation, and broadly improved lives, livelihoods and environments in much of the world. He’ll share perspectives on the reasons why, despite those advances, those systems increasingly fail large communities in environmental, health, and increasingly in economic terms and appear ill-suited to cope with inevitable further changes in climate, incomes, and population over the coming 50 years. Barrett will explore the new generation of innovations underway that must overcome a host of scientific and socioeconomic obstacles.
Also a Professor of Economics in the Department of Economics, Barrett is co-editor in chief of the journal Food Policy, is a faculty fellow with David R. Atkinson Center for a Sustainable Future and serves as the director of the Stimulating Agriculture and Rural Transformation (StART) Initiative housed at the Cornell International Institute for Food, Agriculture and Development.
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Reduced Soil Tilling Helps Both Soils and Yields, Stanford Researchers Find
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By monitoring crops through machine learning and satellite data, Stanford scientists have found farms that till the soil less can increase yields of corn and soybeans and improve the health of the soil – a win-win for meeting growing food needs worldwide.
Agriculture degrades over 24 million acres of fertile soil every year, raising concerns about meeting the rising global demand for food. But a simple farming practice born from the 1930’s Dust Bowl could provide a solution, according to new Stanford research. The study, published Dec. 6 in Environmental Research Letters, shows that Midwest farmers who reduced how much they overturned the soil – known as tilling – increased corn and soybean yields while also nurturing healthier soils and lowering production costs.
“Reduced tillage is a win-win for agriculture across the Corn Belt,” said study lead author Jillian Deines, a postdoctoral scholar at Stanford’s Center on Food Security and the Environment. “Worries that it can hurt crop yields have prevented some farmers from switching practices, but we found it typically leads to increased yields.”
The U.S. – the largest producer of corn and soybeans worldwide – grows a majority of these two crops in the Midwest. Farmers plucked about 367 million metric tons of corn and 108 million metric tons of soybeans from American soil this past growing season, providing key food, oil, feedstock, ethanol and export value.
Monitoring farming from space
Farmers generally till the soil prior to planting corn or soybeans – a practice known to control weeds, mix nutrients, break up compacted dirt and ultimately increase food production over the short term. However, over time this method degrades soil. A 2015 report from the Food and Agriculture Organization of the United Nations found that in the past 40 years the world has lost a third of food-producing land to diminished soil. The demise of once fertile land poses a serious challenge for food production, especially with mounting pressures on agriculture to feed a growing global population.
In contrast, reduced tillage – also known as conservation tillage – promotes healthier soil management, reduces erosion and runoff and improves water retention and drainage. It involves leaving the previous year’s crop residue (such as corn stalks) on the ground when planting the next crop, with little or no mechanical tillage. The practice is used globally on over 370 million acres, mostly in South America, Oceania and North America. However, many farmers fear the method could reduce yields and profits. Past studies of yield effects have been limited to local experiments, often at research stations, that don’t fully reflect production-scale practices.
The Stanford team turned to machine learning and satellite datasets to address this knowledge gap. First, they identified areas of reduced and conventional tilling from previously published data outlining annual U.S. practices for 2005 to 2016. Using satellite-based crop yield models – which take into account variables such as climate and crop life-cycles – they also reviewed corn and soybean yields during this time. To quantify the impact of reduced tillage on crop yields, the researchers trained a comput
Average impacts on corn yields from conservation tillage across the U.S. Corn Belt from 2008 to 2017. Red colors indicate increased yields under conservation tillage, blue colors indicate yield declines.
Improved yields
The researchers calculated corn yields improved an average of 3.3 percent and soybeans by 0.74 percent across fields managed with long-term conservation tillage practices in the nine states sampled. Yields from the additional tonnage rank in the top 15 worldwide for both crops. For corn, this totals approximately 11 million additional metric tons matching the 2018 country output of South Africa, Indonesia, Russia or Nigeria. For soybeans, the added 800,000 metric tons ranks in between Indonesia and South Africa’s country totals.
Some areas experienced up to an 8.1 percent increase for corn and 5.8 percent for soybeans. In other fields, negative yields of 1.3 percent for corn and 4.7 for soybeans occurred. Water within the soil and seasonal temperatures were the most influential factors in yield differences, especially in drier, warmer regions. Wet conditions were also found favorable to crops except during the early season where water-logged soils benefit from conventional tillage that in turn dries and aerates.
“Figuring out when and where reduced tillage works best could help maximize the benefits of the technology and guide farmers into the future,” said study senior author David Lobell, a professor of Earth system science in the School of Earth, Energy & Environmental Sciences and the Gloria and Richard Kushel Director of the Center on Food Security and the Environment.
It takes time to see the benefits from reduced tillage, as it works best under continuous implementation. According to the researchers’ calculations, corn farmers won’t see the full benefits for the first 11 years, and soybeans take twice as long for full yields to materialize. However, the approach also results in lower costs due to reduced need for labor, fuel and farming equipment while also sustaining fertile lands for continuous food production. The study does show a small positive gain even during the first year of implementation, with higher gains accruing over time as soil health improves. According to a 2017 Agricultural Censuses report, farmers appear to be getting on board with the long-term investment and close to 35 percent of cropland in the U.S. is now managed with reduced tillage.
“One of the big challenges in agriculture is achieving the best crop yields today without comprising future production. This research demonstrates that reduced tillage can be a solution for long-term crop productivity,” Deines said.
To read all stories about Stanford science, subscribe to the biweekly Stanford Science Digest.
David Lobell is also the William Wrigley Senior Fellow at the Stanford Woods Institute for the Environment, a senior fellow at the Freeman Spogli Institute for International Studies and the Stanford Institute for Economic Policy and Research. Graduate student Sherrie Wang is also a co-author. Research was funded by NASA Harvest.
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The role of irrigation in changing wheat yields and heat sensitivity in India
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Irrigation has been pivotal in wheat’s rise as a major crop in India and is likely to be increasingly important as an adaptation response to climate change. Here we use historical data across 40 years to quantify the contribution of irrigation to wheat yield increases and the extent to which irrigation reduces sensitivity to heat. We estimate that national yields in the 2000s are 13% higher than they would have been without irrigation trends since 1970. Moreover, irrigated wheat exhibits roughly one-quarter of the heat sensitivity estimated for fully rainfed conditions. However, yield gains from irrigation expansion have slowed in recent years and negative impacts of warming have continued to accrue despite lower heat sensitivity from the widespread expansion of irrigation. We conclude that as constraints on expanding irrigation become more binding, furthering yield gains in the face of additional warming is likely to present an increasingly difficult challenge.
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Fighting to End Hunger at Home & Abroad: Ambassador Ertharin Cousin shares her journey & lessons learned
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Fighting to End Hunger at Home & Abroad: Ambassador Ertharin Cousin shares her journey & lessons learned
A Conversation in Global Health with Ertharin Cousin
FSI Payne Distinguished Lecturer | Former Executive Director of the World Food Programme | TIME's 100 Most Influential People
RSVP for conversation & lunch: www.tinyurl.com/
Professor Ertharin Cousin has been fighting to end global hunger for decades. As executive director of the World Food Programme from 2012 until 2017, she led the world’s largest humanitarian organization with 14,000 staff serving 80 million vulnerable people across 75 countries. As the US ambassador to the UN Agencies for Food and Agriculture, she served as the US representative for all food, agriculture, and nutrition related issues.
Prior to her global work, Cousin lead the domestic fight to end hunger. As chief operating officer at America’s Second Harvest (now Feeding America), she oversaw operations for a confederation of 200 food banks across America that served more than 50,000,000 meals per year.
Stanford School of Medicine Senior Communications Strategist Paul Costello will interview Professor Cousin about her experiences, unique pathway, and the way forward for ending the global hunger crisis.
Li Ka Shing Room 320
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Sustainable development of the palm oil sector in the Congo Basin
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Key messages:
- The Congo Basin is rich in biodiversity and stores an estimated 25%-30% of the worlds tropical forest carbon stocks. As agricultural land becomes increasingly scarce in Southeast Asia, and regulatory pressures continue to intensify, the Congo Basin could become the next frontier for oil palm expansion. Most of the roughly 280 million hectares (Mha) of additional land suitable for oil palm in the Congo Basin are found in the Democratic Republic of Congo (60%), Cameroon (11%) and the Republic of Congo (10%).
- Many heavily forested countries in the Congo Basin are setting national targets to increase production to meet national and regional demands. Land area allocated to oil palm increased by 40% in the Congo Basin and five additional top-producing countries in Africa between 1990 and 2017. Without intervention, future production increases in the region will likely come from expansion rather than intensification due to low crop and processing yields, possibly at the expense of forest.
- Sustainability strategies initiated by companies and aimed at certifying palm oil mills are unlikely to be effective at curbing deforestation in the Congo Basin. Smallholder farmers are an engine of growth in the regions palm oil sector, and recent evidence suggests they are actively clearing forest to expand. Because of the proliferation of non-industrial processing facilities (artisanal mills), a substantial fraction of the palm oil produced by smallholders never passes through a company's jurisdiction. Smallholders are also disadvantaged by power imbalances and limited access to technical and financial resources. Including smallholders in sustainability strategies offers opportunities to achieve multisectoral goals.
- Recommendations to improve the sustainability of the palm oil sector in the Congo Basin include (1) improving access to finance for smallholders and non-industrial mill managers; (2) implementing policies to safeguard natural resources and facilitate access to appropriate market opportunities that offer incentives to prevent future deforestation; (3) intensifying production by replanting aging plantations, rehabilitating abandoned plantations with disease-resistant and high-yielding varieties, and increasing fertilization, without further expansion into high conservation value or high carbon stock forest areas; and (4) improving processing capacity and extraction rates by upgrading mill technologies. Sustainable palm oil development in the Congo Basin will require careful consideration of the governance, institutional, environmental and socioeconomic factors that underpin the complex regional supply chains.
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Center for International Forestry Research Center for International Forestry Research
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Global warming has increased global economic inequality
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Understanding the causes of economic inequality is critical for achieving equitable economic development. To investigate whether global warming has affected the recent evolution of inequality, we combine counterfactual historical temperature trajectories from a suite of global climate models with extensively replicated empirical evidence of the relationship between historical temperature fluctuations and economic growth. Together, these allow us to generate probabilistic country-level estimates of the influence of anthropogenic climate forcing on historical economic output. We find very high likelihood that anthropogenic climate forcing has increased economic inequality between countries. For example, per capita gross domestic product (GDP) has been reduced 17–31% at the poorest four deciles of the population-weighted country-level per capita GDP distribution, yielding a ratio between the top and bottom deciles that is 25% larger than in a world without global warming. As a result, although between-country inequality has decreased over the past half century, there is ∼90% likelihood that global warming has slowed that decrease. The primary driver is the parabolic relationship between temperature and economic growth, with warming increasing growth in cool countries and decreasing growth in warm countries. Although there is uncertainty in whether historical warming has benefited some temperate, rich countries, for most poor countries there is >90% likelihood that per capita GDP is lower today than if global warming had not occurred. Thus, our results show that, in addition to not sharing equally in the direct benefits of fossil fuel use, many poor countries have been significantly harmed by the warming arising from wealthy countries’ energy consumption.
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Proceedings of the national Academy of Sciences of the United States of America
Mapping Missing Population in Rural India: A Deep Learning Approach with Satellite Imagery
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Millions of people worldwide are absent from their country’s census. Accurate, current, and granular population metrics are critical to improving government allocation of resources, to measuring disease control, to responding to natural disasters, and to studying any aspect of human life in these communities. Satellite imagery can provide sufficient information to build a population map without the cost and time of a government census. We present two Convolutional Neural Network (CNN) architectures which efficiently and effectively combine satellite imagery inputs from multiple sources to accurately predict the population density of a region. In this paper, we use satellite imagery from rural villages in India and population labels from the 2011 SECC census. Our best model achieves better performance than previous papers as well as LandScan, a community standard for global population distribution.
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Oceans and the Future of Food
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Stanford’s Center for Ocean Solutions and Center on Food Security and the Environment, together with Springer-Nature, are hosting a workshop focused on building a research agenda that, for the first time, analyzes the role of oceans within the context of global food systems.
Massive changes in the global food sector over the next few decades – driven by climate change and other environmental stresses, growing population and income, advances in technology, and shifts in policies and trade patterns – will have profound implications for the oceans and vice versa. While there is a large community of researchers addressing challenges in food policy and agriculture and a similar community in oceans and fisheries, there is very little interaction between them. This workshop addresses a pressing need to foster more interaction among these communities, to build a research agenda that illuminates the many interconnections among food and the oceans, and to inform action to meet these challenges.
“Stanford is in a perfect position to take the lead in developing this new area of research and outreach, with its strong expertise in terrestrial food systems, global food security, and the oceans,” claims Roz Naylor, Professor of Earth System Science, founding Director of the Center on Food Security and the Environment, and co-organizer of the workshop.
This event brings together diverse leaders across academia, business, policy, and government. Together participants will analyze the role of the oceans within a global food systems context, highlighting issues related to food security, equity, poverty alleviation, marine ecosystems, and environmental change. The aim is to define and develop this emerging field, as researchers and stakeholders explore cutting edge ideas and identify emerging trends and challenges that can inform ongoing policy discussions.
“This is a unique opportunity to build a new and vibrant community, bringing together leading researchers in oceans, fisheries, food, and agriculture from around the world," explained COS co-director Jim Leape. "We're coming together to ask the key questions needed to identify emerging themes and solutions, in lockstep with those who will put these findings into practice," added COS co-director Fiorenza Micheli. "As the world's demand for food continues to grow, we will increasingly need to understand and act on the critical role of the oceans to meet these challenges."
Jim Leape is also the William and Eva Price Fellow at the Stanford Woods Institute for the Environment. Fiorenza Micheli is also the David and Lucile Packard Professor in Marine Sciences at Stanford's Hopkins Marine Station and senior fellow at the Woods Institute. Read more about the Stanford Center for Ocean Solutions.
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The Double-Edged Sword of Palm Oil
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Widespread cultivation of oil palm trees has been both an economic boon and an environmental disaster for tropical developing-world countries. New research points to a more sustainable path forward through engagement with small-scale producers.
Nearly ubiquitous in products ranging from cookies to cosmetics, palm oil represents a bedeviling double-edged sword. Widespread cultivation of oil palm trees has been both an economic boon and an environmental disaster for tropical developing-world countries, contributing to large-scale habitat loss, among other impacts. New Stanford-led research points the way to a middle ground of sustainable development through engagement with an often overlooked segment of the supply chain (read related overview and research brief).
"The oil palm sector is working to achieve zero-deforestation supply chains in response to consumer-driven and regulatory pressures, but they won’t be successful until we find effective ways to include small-scale producers in sustainability strategies,” said Elsa Ordway, lead author of a Jan. 10 Nature Communications paper that examines the role of proliferating informal oil palm mills in African deforestation. Ordway, a postdoctoral fellow at The Harvard University Center for the Environment, did the research while a graduate student in Stanford’s School of Earth, Energy & Environmental Sciences.
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An oil palm plantation in Cameroon (Image credit: Elsa Ordway)
Using remote sensing tools, Ordway and her colleagues mapped deforestation due to oil palm expansion in Southwest Cameroon, a top producing region in Africa’s third largest palm oil producing country (read about related Stanford research). Contrary to a widely publicized narrative of deforestation driven by industrial-scale expansion, the researchers found most oil palm expansion and associated deforestation occurred outside large, company-owned concessions, and that expansion and forest clearing by small-scale, non-industrial producers was more likely near low-yielding informal mills, scattered throughout the region. This is strong evidence that oil palm production gains in Cameroon are coming from extensification instead of intensification.
Possible solutions for reversing the extensification trend include improving crop and processing yields by using more high-yielding seed types, replanting old plantations, and upgrading and mechanizing milling technologies, among other approaches. To prevent intensification efforts from inciting further deforestation, they will need to be accompanied by complementary natural resource policies that include sustainability incentives for smallholders.
In Indonesia, where a large percentage of the world’s oil palm-related forest clearing has occurred, a similar focus on independent, smallholder producers could yield major benefits for both poverty alleviation and environmental conservation, according to a Jan. 4 Ambio study led by Rosamond Naylor, the William Wrigley Professor in the School of Earth, Energy & Environmental Sciences and a senior fellow at the Stanford Woods Institute for the Environment and the Freeman Spogli Institute for International Studies(Naylor coauthored the Cameroon study led by Ordway).
Using field surveys and government data, Naylor and her colleagues analyzed the role of small producers in economic development and environmental damage through land clearing. Their research focused on how changes in legal instruments and government policies during the past two decades, including the abandonment of revenue-sharing agreements between district and central governments and conflicting land title authority among local, regional and central authorities, have fueled rapid oil palm growth and forest clearing in Indonesia.
They found that Indonesia’s shift toward decentralized governance since the end of the Suharto dictatorship in 1998 has simultaneously encouraged economic development through the expansion of smallholder oil palm producers (by far the fastest growing subsector of the industry since decentralization began), reduced rural poverty, and driven ecologically destructive practices such as oil palm encroachment into more than 80 percent of the country’s Tesso Nilo National Park.
A worker in East Kalimantan, Indonesia, loads palm fruit for transport to a factory that will process it into palm oil (Image credit: Joann de Zegher)
A worker in East Kalimantan, Indonesia, loads palm fruit for transport to a factory that will process it into palm oil (Image credit: Joann de Zegher)
Among other potential solutions, Naylor and her coauthors suggest Indonesia’s Village Law of 2014, which devolves authority over economic development to the local level, be re-drafted to enforce existing environmental laws explicitly. Widespread use of external facilitators could help local leaders design sustainable development strategies and allocate village funds more efficiently, according to the research. Also, economic incentives for sustainable development, such as an India program in which residents are paid to leave forests standing, could make a significant impact.
There is reason for hope in recent moves by Indonesia’s government, including support for initiatives that involve large oil palm companies working with smallholders to reduce fires and increase productivity; and the mapping of a national fire prevention plan that relies on financial incentives.
“In all of these efforts, smallholder producers operating within a decentralized form of governance provide both the greatest challenges and the largest opportunities for enhancing rural development while minimizing environmental degradation,” the researchers write.
Coauthors of “Decentralization and the environment: Assessing smallholder oil palm development in Indonesia” include Matthew Higgins, a research assistant at Stanford’s Center on Food Security and the Environment; Ryan Edwards of Dartmouth College, and Walter Falcon, the Helen C. Farnsworth Professor of International Agricultural Policy, Emeritus, at Stanford.
Coauthors of “Oil palm expansion at the expense of forests in Southwest Cameroon associated with proliferation of informal mills” include Raymond Nkongho, a former fellow at Stanford’s Center for Food Security and the Environment; and Eric Lambin, the George and Setsuko Ishiyama Provostial Professor in the School of Earth, Energy & Environmental Sciences and a senior fellow at the Stanford Woods Institute for the Environment.
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