The world can produce enough food and cut greenhouse gas emissions if it learns to use nitrogen more efficiently in agriculture, a world-leading Queensland University of Technology (QUT) scientist says.
Professor Richard Conant, a Smart Futures Fellow at the Institute for Sustainable Resources (ISR) at QUT, said global agricultural activities accounted for 15 to 20 per cent of total greenhouse gas emissions, including nitrous oxide, which was released from soil following the addition of nitrogen-based fertilisers.
"Most of the discussion about limiting greenhouse gases has focused on carbon dioxide, but the agricultural sector is the largest contributor to non-CO2 emissions," he said.
"Those emissions are dominated by nitrous oxide emissions from soils, which make up 38 per cent of total agricultural emissions, and methane emissions from ruminant livestock, which accounts for 34 per cent.
"Nitrous oxide is a more potent greenhouse gas than methane - it has a bigger effect on the environment."
Professor Conant, who was part of a team of scientists who received the 2007 Nobel Peace Prize in conjunction with Al Gore, will speak about agriculture and greenhouse gases tomorrow (June 16) at a special event at QUT's Gardens Point campus.
Professor Conant is among QUT researchers undertaking a global study on efficiency of nitrogen use in agriculture that is the first of its kind.
The study, conducted with the United Nations Food and Agriculture Organisation, is expected to be released later this year.
"What it tells us is that the efficiency of nitrogen use hasn't changed in the last 50 years. We are using it pretty efficiently in Australia but in poorer countries they are not," he said.
"When more nitrogen is used on crops, nitrous oxide is released into the environment, which pollutes our waterways and environment.
"We want to figure out ways to grow more food while reducing our use of nitrogen."
Professor Conant said increasing nitrogen efficiency could be as simple as educating producers to apply nitrogen at the roots of plants and using it gradually over the course of the year.
"This gap in efficiency is reason for optimism. The world needs more food and it is really important for us to think about the efficiency of food production per unit of greenhouse gas emissions.
"That's one of the key factors that makes the ISR's work unique."
Media contact: Stephanie Harrington, media officer, 3138 1150, stephanie.harrington@qut.edu.au
