Biochar to benefit ten years on

Soil carbon on the up with biochar

Top Stories
NSW DPI senior principal research scientist, Adjunct Professor Southern Cross University and project leader, Dr Van Zwieten has led decade long research into biochar as a soil ammendment.

NSW DPI senior principal research scientist, Adjunct Professor Southern Cross University and project leader, Dr Van Zwieten has led decade long research into biochar as a soil ammendment.

Aa

Decade-long research published in the Nature Climate Change journal points to the single addition of correct charcoal in soil as leading to increased soil carbon content above and beyond expectation.

Aa

A single application of biochar can enhance below-ground recovery of new root-derived carbon by a remarkable 20 per cent, say North coast researchers publishing decade long findings in the Nature Climate Change journal.

The NSW Department of Primary Industries team at Wollongbar via Alstonville, led by Dr Lukas Van Zwieten, explained that more of the carbon photosynthesised by plants was retained in biochar-amended soil. “We immediately saw an increase in soil carbon from the biochar, as expected, but we didn’t expect soil carbon content to continue increasing,” said Dr Van Zwieten.

Cutting-edge research from NSW Department of Primary Industries’ (DPI) has been published in the international Nature Climate Change Journal, presenting for the first time the results of 10 years’ research that shows the accumulation of carbon in soil following a single application of biochar.

NSW DPI senior principal research scientist, Adjunct Professor Southern Cross University and project leader, Dr Van Zwieten said the research was conducted on the state’s north coast where biochar derived from eucalypt residues was applied in 2006 into a pasture soil managed for intensive dairy production.

“We immediately saw an increase in soil carbon from the biochar, as expected, but what we didn’t expect was that soil carbon content continued to increase,” Dr Van Zwieten said.

“This research demonstrates the ongoing benefits of biochar in farming systems to improve pastures and grasslands and increase farmers production and profitability.”

Biochar is produced through a process known as pyrolysis which makes the organic carbon more stable to degradation.

To find out why the soil carbon level continued to increase after biochar was added to the soil, Dr Van Zwieten enlisted the help of then PhD student Zhe (Han) Weng, enrolled through the University of New England and located at Wollongbar Primary Industries Institute.

Dr Van Zwieten said the researchers found that biochar enhanced the below-ground recovery of new root-derived carbon by 20 per cent – that is, more of the carbon photosynthesised by plants was retained in the biochar-amended soil.

“Biochar accelerated the formation of soil microaggregates via interactions between organic matter and soil minerals, thus stabilising the root-derived carbon,” Dr Van Zwieten said.

Southern Cross University’s Associate Professor Terry Rose, a co-author of the study, said the biochar also impacted on turnover of existing soil carbon.

“Importantly, the biochar also slowed down the natural breakdown of native soil organic carbon by over 5 per cent,” he said.

Han Weng’s co-supervisor, NSW DPI technical specialist climate policy, Dr Annette Cowie, said that these new findings are important for managing climate change, and for global CO2 accounting.

“The research has relevance to 3500 million hectares of grassland worldwide,” Dr Cowie said.

“Application of biochar to soils could increase soil carbon sequestration, which has benefits not only for helping to stabilise atmospheric CO2 concentrations, but flow on benefits to farmers through improved soil health and sustainability.”

The project had collaborators from Southern Cross University, Central Queensland University, University of Newcastle, University of Wollongong and the Brazilian National Institute for Meteorology.

The research paper can be found on the Nature Climate Change website http://dx.doi.org/10.1038/nclimate3276

Aa

From the front page

Sponsored by