Planet under pressure / Agriculture (finally) at the global change table

The Banquet, by William Hogarth, 1755 (image on Wikipaintings; painting at Sir John Soane’s Museum, London, UK).

If discretion, as Falstaff frankly noted, is the better part of valour in field battle, perception might be said to be the better part of substance here in the conference proceedings at Planet Under Pressure (PUP), now moving into its third day in London.

A shift in ‘our perception of our place in the world’, says the chief scientific advisor to the conference, Elinor Ostrom, a 2009 Nobel Laureate in economic sciences, ‘came from scientific findings since the first Rio Summit on Sustainable Development in 1992. Within one lifetime, humanity has become the prime driver of change on the planet; we are pushing Earth towards thresholds in the Earth system; we have many solutions but lack the urgency to implement them.’

The road from, and to, Rio
Another, less obvious, shift in perception is manifest here, as noted by Cheryl Palm, senior research scientist in the Tropical Agriculture and Rural Environment Program of the Earth Institute, at Columbia University, and Thomas Rosswall, chair of the steering committee of the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS). Palm and Rosswall, attending a conference launch last night (27 Mar 2012) of a new CGIAR Research Program on Water, Land and Ecosystems, remarked that this was the first event of its kind that they could remember to which agricultural scientists had been invited.

The road from Rio in 1992 to Rio is 2012 has indeed been a long one for agricultural scientists, who until now have been largely excluded from fora where august bodies have deliberated on global change, the Earth system and its planetary boundaries. Even here, a full two decades after the first United Nations Earth Summit and with widespread recognition that agriculture (cast recently here and elsewhere mostly in terms of ‘food security’) is—and has always been—a main driver of change on our planet, agricultural researchers still comprise perhaps less than 10 per cent of the 3,000 or so PUP delegates.

Of thresholds and tipping points
Among the examples of failed collective action repeatedly being cited in discussions here, such as that between science and policy, surely a glaring if unspoken one has been that agriculture until now has been missing from the global change table.

Most of the food-related scientists here are members of the CGIAR, the world’s largest consortium of agricultural researchers, now entering its sixth decade. Some 10,000 CGIAR scientists, technical staff, students and support staff work in extensive partnerships in developing countries to boost food production and improve livelihoods of the poor while also protecting their environments.

For these under-represented agriculturalists, with their many neglected passions—whether plantains, roots and tubers; or small-scale rain-fed farming systems; pastoral herders and mixed crop-and-livestock farmers; Kenyan dairy women; Rwandan bean farmers; the millet-growers of the Sahel; the wheat farmers of South Asia; the rice growers of Southeast Asia; or informal market food sellers everywhere, . . .)—a tipping point here may be the passing of an era of a kind of  ‘agricultural exceptionalism’. With their voices now being heard for the first time among the many other kinds of scientists working for global public goods, these agricultural researchers have great expectations of how much agriculture can, working with the socio-economic, environmental and other pillars of global sustainability, contribute to the ‘fundamental reform needed to create a genuinely sustainable society’ (Ostrom).

Getting ahead of the curve
Can we get ahead of the disaster? Can we develop novel governance structures? Will we do so in time? Will the newly connected wired world help us do that? On to the day’s break out sessions . . .

Read more about the Planet Under Pressure conference on the ILRI News Blog
Planet under pressure / Livestock under the radar, 26 Mar 2012.

Planet under pressure / A numbers game–but which numbers are the numbers that matter?, 26 Mar 2012.

Planet under pressure / Food security policy brief, 27 Mar 2012.

Planet under pressure / ‘Get out of the nerd loop’–NYT environmental reporter, 27 Mar 2012.

 

Planet under pressure / Food security policy brief

A series of nine policy briefs have been prepared as part of the scientific preparations for the Planet Under Pressure conference, now in its second day of deliberations (26–29 Mar 2012) in London. The briefs specifically target policymakers in the Rio+20 Earth Summit process, aiming to give them access to the latest scientific thinking on sustainable development issues. Each brief tackles an issue of importance to the Rio+20 conference, with a focus on the ‘green economy’ and the ‘institutional framework for sustainable development’.

Rio+20 policy briefs
The Rio+20 policy briefs are on the following topics: Water security | Food security | Biodiversity and ecosystems | Transforming governance and institutions | Interconnected risks and challenges | Energy security | Health | Well-being | Green economy. To download the briefs, visit the Planet Under Pressure website.

Food security policy brief

Two of the seven authors of the Food Security policy brief (full title is ‘Rio+20 Policy Brief #2, Food Security for a Planet Under Pressure: Transition to sustainability—interconnected challenges and solutions’) are Pramod Aggarwal, of the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) and Polly Ericksen, of the International Livestock Research Institute (ILRI). A 2011 study by Ericksen commissioned and published by CCAFS, Mapping Hotspots of Climate Change and Food Insecurity in the Global Tropics (CCCAFS Report no. 5) is one of eight studies used to compile this PUP Food Security policy brief.

The other authors of this new Food Security policy brief come from the UK Natural Environment Research Council (John Ingram), East Malling Research (Peter Gregory), the United Nations Development Programme (Leo Horn-Phathanothai), South Africa’s University of KwaZulu-Natal (Alison Misselhorn) and the Food and Agriculture Organization of the United Nations (Keith Wiebe).

Food security, say authors of the brief, is met when ‘all people, at all times, have physical, social and economic access to sufficient, safe and nutritious food to meet their dietary needs and food preferences for an active and healthy life’ (FAO, 2002).

‘Despite a marked increase in global food production over the past half century, around one billion people do not have enough to eat, and a further billion lack adequate nutrition. Continuing population growth over the next 50 years, coupled with increasing consumption by a wealthier population, is likely to raise global food demand still higher. Meeting this demand will be complicated by changes in environmental factors (collectively termed ‘global environmental change’, GEC), including climate, biodiversity, water availability, land use, tropospheric ozone and other pollutants, and sea-level rise. These changes are themselves caused partly by food system activities (e.g., excessive use of nitrogen fertilizers leading to eutrophication of freshwater and coastal systems, greenhouse gas emissions, and loss of “wild-land” biodiversity leading to reduced ecosystem services such as pollination, biological control, etc.). The effects of these food system “feedbacks” on the environment are exacerbated by GEC interacting with competition for resources from such changing land uses as production of feedstocks for biofuels. . . .

‘While there is scope to increase global food production, future approaches and technologies must be based on sustainable approaches to intensification, with the public goods provided by natural ecosystems (e.g., water and carbon storage) taken into account wherever possible. The complex interactions within and between the food system, natural resources and socioeconomic factors mean that close coordination among multiple sectors is vital. Stronger links must be forged between sectors relating to agriculture, fisheries, environment, trade, energy, transportation, marketing, health and consumer goods. In taking forward action agreed internationally, including through the G20 Action Plan, countries should adopt a sustainable and integrated approach to promoting improvements in productivity. This implies adopting a particular research focus on key crops, including those most relevant for vulnerable countries and populations.

‘A more joined-up approach should involve integrated analyses of food, climate, environment, population and socio-economic systems. The results will guide cross-sectoral decision making and the integrated responses needed to address food security and support sustainable and resilient livelihoods for future generations.’

Changing consumption patterns
‘As people in the rapidly developing nations (e.g., China) become wealthier, they increase demand for processed food, meat, fish and dairy products. Such food often has a larger environmental ‘footprint’ than less processed food, and the larger volumes demanded by more affluent people cause even greater environmental impacts. The changing nature of demand offers both opportunities and threats to farmers, with those having better access to information, resources and markets set to benefit most. Multinational food retailers are becoming more powerful in negotiating prices with farmers and other suppliers. For the rural poor, the key challenge is to match supply and demand across the seasons, which calls for improvements in post-harvest handling, storage and distribution as well as better access to insurance and credit.’

 

Read more about the Planet Under Pressure conference on the ILRI News Blog
Planet under pressure / Livestock under the radar, 26 Mar 2012.

Planet under pressure / A numbers game–but which numbers are the numbers that matter?, 26 Mar 2012.

 

 

 

 

 

New reports explore reliability of climate models at predicting impacts on agriculture

Washing harvested potatoes in a village in central Malawi

A farmer washing newly-harvested potatoes in Malawi. New studies in Africa and Asia offer insights into the reliablity of climate projections for agriculture (photo credit: ILRI/Stevie Mann).

Findings from a series of studies that assessed the reliability of climate models in predicting the impact of climate change on agriculture were released today.

The reports, which are based on studies that tested General Circulation Models in West Africa, East Africa and the Indo-Gangetic plains were produced by the Climate Change, Agriculture and Food Security (CCAFS) research program of the Consultative Group on International Agricultural Research (CGIAR) and Oxford University. The studies reviewed impacts of different climate change scenarios on crop farming in these regions.

The reports show that though individual models have a number of severe weaknesses in predicting agricultural impacts of climate change, they can be used together to produce useful climate change projections. The reports give details on the specific strengths and weaknesses of each of the models used and how they can be used together to predict possible shifts in farming practices.

‘Ensemble model predictions can overcome many of the individual model weaknesses to help decision makers plan future agricultural activities,’ said Philip Thornton, a scientist with the International Livestock Research Institute (ILRI), who coordinated the research for the CGIAR Climate Change program. ‘This information can guide investments in risk management, adaptation and mitigation research, as well as infrastructural development.  These actions are crucial if agriculture is to adapt to a changing climate.’

Read full story on the CCAFS news blog: http://ccafs.cgiar.org/blog

 

More on getting credible figures for livestock emissions of greenhouse gases

Cover of recommendations produced Nov 2011 by CCAFS/Commission on Sustainable Agriculture and Climate Change

The Commission on Sustainable Agriculture and Climate Change, an initiative of the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), is identifying policy changes and actions needed to help the world achieve food security in the face of climate change; the Commission launched this summary for policymakers on 16 Nov 2011 (photo on cover by Neil Palmer/CIAT).

The current issue of New Scientist publishes an article describing a recently released study, ‘Achieving Food Security in the Face of Climate Change’, which was commissioned by the CGIAR Research Program on Climate Change, Agriculture and Food Security (Consultative Group on International Agricultural Research). For more on that study, see the CCAFS news release of 16 November 2011: ‘Global Commission Charts Pathway for Achieving Food Security in Face of Climate Change‘.

Sujata Gupta’s New Scientist article on meat consumption, ‘Just how much meat can eco-citizens eat?’ (online publication date: 16 November 2011; print issue date: 19 November 2011; print issue number: 2839), contains what we believe is a factual error. Gupta quotes a 2007 article in the Lancet (‘Food, livestock production, energy, climate change, and health’, doi:10.1016/S0140-6736(07)61256-2) that 80% of agricultural greenhouse gas emissions come from meat production.

More credible figures, compiled from international global assessments by agricultural systems analyst Mario Herrero and his colleagues at the International Livestock Research Institute, are the following.

The total agricultural sector emits around 25–32% of global anthropogenic greenhouse gas emissions. Crops emit 14% (EPA 2006) and all livestock emit 11–18%, depending on how emissions are attributed (FAO 2006, EPA 2006, PBL 2010). The emissions from livestock can be divided roughly as 30% methane from enteric fermentation, 30% nitrous oxide from manure management and 40% from carbon dioxide from land-use changes for grazing and feed production (FAO 2006). Figures for the emissions from land-use changes carry a lot of uncertainty. Emissions can also be divided by species and product. For example, the dairy sector is responsible for roughly 27% of greenhouse gas emissions from livestock (FAO 2010) while monogastric production (pigs/poultry) is responsible for  10–20% of the livestock emissions. Hence, it is not possible that beef production can account for 80% of all agricultural emissions. Even if beef cattle represent 50–60% of livestock emissions, this translates roughly into a figure close to 30–35% of all agricultural emissions—certainly not 80%. What is true is that of all livestock products, beef is the most inefficient in terms of greenhouse gas emissions produced per unit of product, especially compared to dairy and monogastrics (De Vries and de Boer 2010).

Herrero and his colleagues at ILRI, CCAFS and elsewhere are publishing updates on topics concerning livestock production and climate and other kinds of global change. Look out, for example, for the following book chapter, due next month, which we will report on in this blog: M Herrero, PK Thornton, P Havlík, and M Rufino, Livestock and greenhouse gas emissions: Mitigation options and trade-offs. In: E Wollenberg, A Nihart, ML Tapio-Bistrom and C Seeberg-Elverfeldt (eds), Climate Change Mitigation and Agriculture, Earthscan, London, UK (in press).

See an earlier report on a similar topic in this ILRI News Blog: Livestock and climate change: Towards credible figures, 27 Jun 2011.