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Sustainable Development Goals must sustain both people and planet

In the wake of last week’s meetings at the UN on the definition of the Sustainable Development Goals (SDGs), a group of international scientists have published a call in the journal Nature today, arguing for a set of six SDGs that link poverty eradication to protection of Earth’s life support. The researchers argue that in the face of increasing pressure on the planet’s ability to support life, adherence to out-dated definitions of sustainable development threaten to reverse progress made in developing countries over past decades.

Melbourne, Australia, 21 March 2013 — Ending poverty and safeguarding Earth’s life support system must be the twin priorities for the Sustainable Development Goals, say the researchers. The team identified six goals that, if met, would contribute to global sustainability while helping to alleviate poverty.

“Climate change and other global environmental threats will increasingly become serious barriers to further human development,” says lead author Professor David Griggs from Monash University in Australia. Humans are transforming Earth’s life support system – the atmosphere, oceans, waterways, forests, ice sheets and biodiversity that allow us to thrive and prosper – in ways “likely to undermine development gains”, he added.

Co-author Professor Johan Rockström, director of the Stockholm Resilience Centre said, “Mounting research shows we are now at the point that the stable functioning of Earth systems is a prerequisite for a thriving global society and future development.”

The team asserts that the classic model of sustainable development, of three integrated pillars – economic, social and environmental – that has served nations and the UN for over a decade, is flawed because it does not reflect reality. “As the global population increases towards nine billion people sustainable development should be seen as an economy serving society within Earth’s life support system, not as three pillars,” says co-author Dr. Priya Shyamsundar from the South Asian Network for Development and Environmental Economics, Nepal.

The researchers say that the Millennium Development Goals (MDGs), set to expire in 2015, have helped focus international efforts on eight poverty-related goals. However, despite successes in some areas – the number of people living on less than one dollar a day has been more than halved – many MDGs have not been met, and some remain in conflict with one another. Economic gains, for example, have come at the expense of environmental protection. Politicians are struggling to link global environmental concerns with addressing poverty.

The new set of goals – thriving lives and livelihoods, food security, water security, clean energy, healthy and productive ecosystems, and governance for sustainable societies – aim to resolve this conflict. The targets beneath each goal include updates and expanded targets under the MDGs, including ending poverty and hunger, combating HIV/aids, and improving maternal and child health. But they also define a set of planetary “must haves”: climate stability, the reduction biodiversity loss, protection of ecosystem services, a healthy water cycle and oceans, sustainable nitrogen and phosphorus use, clean air and sustainable material use.

Co-author Dr. Mark Stafford Smith, science director of CSIRO’s climate adaptation research programme in Australia said:  “The key point is that the SDGs must genuinely add up to sustainability. The SDGs have the potential to lock in the spectacular gains on human development that we have achieved in the past two decades and help the globe transition to a sustainable lifestyle. But the link between these two aims must be more coherent”.

The new research is linked to Future Earth, a new international research programme designed to “develop the knowledge required for societies worldwide to face challenges posed by global environmental change and to identify opportunities for a transition to global sustainability.” Several authors are closely involved in developing this new research programme.

“Ultimately, the choice of goals is a political decision. But science can inform what combination of goals can achieve a sustainable future. And science can identify measurable targets and indicators,” said Dr Stafford Smith.

CONTACTS

Denise Young, International Council for Science (ICSU)

T: +33 1 45 25 57 77

M:+ 33 6 5115 1952

[email protected]

Owen Gaffney, International Geosphere-Biosphere Programme

T:  +46 86739556

M: +46 730208418

[email protected]

AUTHORS OF NATURE PAPER

David Griggs1, Mark Stafford-Smith2, Owen Gaffney3, Johan Rockström4, Marcus C. Öhman4, Priya Shyamsundar5, Will Steffen4,6, Gisbert Glaser7, Norichika Kanie8 & Ian Noble9.

1 Monash Sustainability Institute, Monash University, VIC 3800, Australia.

2 CSIRO Climate Adaptation Flagship, PO Box 1700, Canberra, ACT 2601, Australia

3 International Geosphere-Biosphere Programme, Royal Swedish Academy of Sciences, SE-104 05 Stockholm, Sweden

4 Stockholm Resilience Centre, Stockholm University, 10691 Stockholm, Sweden.

5 South Asian Network for Development and Environmental Economics, Nepal

6 Fenner School of Environment and Society, The Australian National University, Canberra, ACT 0200, Australia

7 International Council for Science, 75016 Paris, France

8 Tokyo Institute of Technology and United Nations University Institute of Advanced Studies, Tokyo, Japan

9 Global Adaptation Institute, Washington, USA

ABOUT FUTURE EARTH

Future Earth is a 10-year international research programme that will provide critical knowledge required for societies to face the challenges posed by global environmental change and to identify opportunities for a transition to global sustainability. It will deliver science of the highest quality, integrating, as necessary, different disciplines from the natural, social (including economic and behavioural), engineering and human sciences. It will be co-designed and co-produced by academics, governments, business and civil society, encompass bottom-up ideas from the wide scientific community, be solution-oriented, and inclusive of existing international Global Environmental Change projects and related research activities.  Future Earth aims to be fully operational in 2014.

This paper is an early example of the solutions-oriented work that Future Earth will undertake, with interdisciplinary teams of scientists coming together across international borders to help solve sustainability problems.

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