Changes in climate and effects on the food supply

When estimated as a trend of the past century, global mean surface temperature has risen by 0·74°C since 1906⁽²⁾. Findings of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) investigating Australian climate change are similar, reporting that the continental average temperature has risen by 0·7°C from 1910 to 1999⁽³⁾. The majority of this change occurred after 1950⁽³⁾. In Australia, it is projected that an average temperature increase of between 0·4 and 2·0°C will occur over most of the country by 2030, with slightly less warming in some coastal regions and Tasmania, and more warming possible in the north-west⁽³⁾.

Changes in climate have many impacts on the environment. The predicted impact on rainfall in Australia is varied⁽⁴⁾ with a bias towards a decrease in rainfall in the south-west, parts of the south-east and Queensland, with that decrease more pronounced in winter and spring. Other climate change impacts may include increased evaporation and increases in the frequency of oceanic storm surges, gales, flooding rains and tropical cyclones⁽⁴⁾. All of these impacts are likely to have a negative influence on Australia’s agricultural system and thus the food supply.

Predicted outcomes for agriculture include poor crop yields⁽Reference Howden and Jones^5–Reference Howden, Reyenga and Meinke¹²⁾, increased diseases and stress on livestock⁽Reference Howden and Turnpenny^13–Reference White, Suthherst, Hall, Whish-Wilson and Whish-Wilson¹⁵⁾, damage to the habitats of some species of fish^(14, Reference Meynecke, Lee, Duke and Warnken¹⁶⁾ and increased pest damage in fruit⁽Reference Suthherst, Collyer and Yonow¹⁷⁾. Moreover, the majority of the above-mentioned papers conclude that the ability for the agricultural industry to adapt to climate change is limited at the moment due to a lack of strong evidence to support strategies. While many researchers have studied the effects of climate change, few present adaptation strategies and even fewer recommendations are based on evidence.

Impact of the food supply on climate change

The food supply itself has a large impact on greenhouse gas emissions and therefore on climate change. Agricultural processes are the second largest source of greenhouse gas emissions in the Australian economy and accounted for 16 % of Australia’s net national emissions in 2005⁽¹⁾. The sources of agriculture emissions are well known through the heavy use of fossil fuels within the industry, but also include enteric fermentation in livestock, manure management, rice cultivation, agricultural soils, prescribed burning of savannahs and field burning of agricultural residues⁽¹⁾. Gas emissions from the livestock sector have the largest impact⁽¹⁾. Options to mitigate climate change through reductions of greenhouse gas emissions are also limited due to a lack of evidence.

In Australia, and no doubt other countries with similar climates, climate change has the potential to decrease the quality, availability and variety of the food supply. Decreased grain nitrogen content due to climate change may make wheat less suitable for use in pasta and bread making⁽Reference Pittock¹⁸⁾. If climate change results in poor live weight gain⁽Reference Howden, McKeon, Meinke, Entel and Flood¹⁹⁾ in livestock, this may lead to poorer-quality meat products in the food supply. Potential pest damage to fruit under climate change⁽Reference Suthherst, Collyer and Yonow¹⁷⁾ may result in poorer-quality fruit being sold as the only alternative. All of these potential impacts on the food supply may lead to decreased quality, decreased availability and/or increased price.

Economically disadvantaged groups are generally those most at risk of lifestyle diseases such as diabetes and CVD⁽Reference Drewnowski and Darmon²⁰⁾. There is evidence that the lower the cost of a diet, the higher the energy density⁽Reference Drewnowski and Darmon^20, Reference Drewnowski and Darmon²¹⁾. If the prices of healthy foods increase under climate change, disadvantaged groups may not afford them and hence turn to less expensive but unhealthy foods, thus increasing their risk of lifestyle disease.

Vulnerability due to climate change has implications between countries with regard to economically disadvantaged groups. For example, actions in Australia might increase vulnerability overseas if mitigation options to reduce transport end up decreasing imports, thereby negatively impacting on developing countries in the longer term.

Ensuring equity is a primary health-care principle and therefore underpins public health nutrition practice. Throughout the world, vulnerable and socially disadvantaged people have less access to health resources, get sicker and die earlier than people in more privileged social positions⁽²²⁾. These gaps are growing in spite of an era of unprecedented global wealth, knowledge and health awareness⁽²²⁾. Climate change impacts on the food supply have the potential to increase these gaps and negatively affect equity; therefore this issue requires significant involvement of public health nutrition. In order to address the social determinants of health, nutritionists must have the necessary knowledge and skills to address environmental and social conditions that affect food and health⁽Reference Cannon and Leizmann²³⁾. This includes knowledge and skills associated with climate change.

The role of public health nutrition

Nutritionists have a responsibility to promote a food supply that is not only nutritious but also sustainable. Public health nutritionists have been involved in the debate concerning the environment and the food supply for many years; however, the focus has until recently been on ecological sustainability of the food supply. Gussow and Clancy⁽Reference Gussow and Clancy²⁴⁾ developed the ‘Dietary Guidelines for Sustainability’ which sought to encourage eating patterns more in sympathy with environmental imperatives. Other work has explored the issues of food variety and biodiversity in a changing environment, coining the term ‘econutrition’⁽Reference Wahlqvist and Specht²⁵⁾. Sustain, the UK organisation for sustainable food and farming, and the US Center for Science in the Public Interest are examples of organisations exploring and addressing ecological public health nutrition. The American Dietetic Association has released a position statement ‘Food and Nutrition Professionals Can Implement Practices to Conserve Natural Resources and Support Ecological Sustainability’⁽²⁶⁾.

There is limited Australian or overseas information on the role of public health nutritionists in addressing climate change. Some have suggested incorporating environmental messages into Australia’s nutrition messages such as ‘Go for 2 and 5’ as a way for nutritionists to address climate change⁽Reference Wallace²⁷⁾. Others suggest encouraging locally produced, less processed foods^(26, Reference Storper²⁸⁾, facilitating ‘buy local’ campaigns⁽²⁶⁾, learning about local food systems and imparting this knowledge to the public⁽Reference Peters²⁹⁾, and promoting seasonal foods to decrease reliance on imported foods⁽Reference Storper^28, Reference Peters²⁹⁾. These and other actions are best undertaken through a coordinated approach as part of alliances, coalitions and networks, including food policy councils⁽Reference Peters²⁹⁾. Coordinated approaches to bring about change usually require the development of strategies, or frameworks, which steer action towards defined goals.

One of the most influential frameworks in health promotion is the Ottawa Charter, which was developed as a template for action. The Ottawa Charter incorporates both indirect and direct actions. Direct actions are those that are able to be undertaken by health professionals at an individual level, whereas indirect actions are those that are undertaken through large-scale action such as policy change. Frameworks can also assist in instigating organisational change. For example, Mitchell⁽Reference Mitchell³⁰⁾ developed a framework to address equity in health promotion and notes the usefulness in providing structure for thinking about and understanding factors influencing an issue. The coordinated effort to address climate change is likely to benefit from the development of a framework to inform policy and practice in public health nutrition. This is highlighted by Johnson and Paton’s view that ‘frameworks are also useful when working with change from outside an entrenched power base’⁽Reference Johnson and Paton³¹⁾.

There are gaps in the literature regarding public health nutritionists’ opinions, motivation and perception of the importance of addressing climate change. Information is also lacking on the types of nutrition programmes required to address climate change in practice, as well as the knowledge, skills, support, partnerships, infrastructure, professional recognition and policies needed in order for them to be conducted. The purpose of the present research was to develop a framework to guide action in the public health nutrition workforce to develop policies and practices addressing factors contributing to climate change. The objectives were to:

1. 1. Identify the relationships between climate change, food supply and food choice.

2. 2. Examine the potential role of the public health nutrition workforce to address climate change.

3. 3. Assess public health nutritionists’ views and expectations about the feasibility of adopting policies and practices that would address climate change.

4. 4. Formulate a framework towards a public health nutrition response to address factors contributing to climate change.

Throughout the remainder of the paper the public health nutrition profession and public health nutritionists are referred to as the PHN workforce and PHNs, respectively. The latter title includes public health nutritionists and dietitians, community dietitians and nutritionists, and other public health nutrition positions (such as health promotion officers).