Research confirms biochar in soils boosts crop yields
New research confirms the huge and revolutionary potential of soils to reduce greenhouse gases on a large scale, increase agricultural production while at the same time delivering carbon-negative biofuels based on feedstocks that require less fertilizer and water. Trials at Australia's New South Wales Department of Primary Industries’ (DPI) Wollongbar Agricultural Institute show that crops grown on agrichar-improved soils received a major boost. The findings come at a time when carbon-negative bioenergy is becoming one of the most widely debated topics in the renewable energy and climate change community.
The Australian trials of 'agrichar' or 'biochar' have doubled and, in one case, tripled crop growth when applied at the rate of 10 tonnes per hectare. The technique of storing agrichar in soils is now seen as a potential saviour to restore fertility to depleted or nutrient-poor soils (especially in the tropics), and as a revolutionary technique to mitigate climate change. Moreover, agrichar storage in soils is a low-tech practise, meaning it can be implemented on a vast scale in the developing world, relatively quickly.
Agrichar is a black carbon byproduct of a process called pyrolysis, which involves heating biomass without oxygen to generate renewable energy. Pyrolysis of biomass results in the production of bio-oil, that can be further refined into liquid biofuels for transport (earlier post, on Dynamotive's trials). When the agrichar is consequently sequestered into soils, the biofuels become carbon-negative - that is, they take more carbon dioxide out of the atmosphere than they release. This way, they can clean up our past emissions. No other renewable energy technology has both the advantages of being carbon-negative while at the same time being physically tradeable.
The biochar sequestration technique is now confirmed to boost soil fertility while storing carbon long-term. New South Wales Department of Primary Industries' senior research scientist Dr Lukas Van Zwieten said soils naturally turn over about 10 times more greenhouse gas on a global scale than the burning of fossil fuels.
“So it is not surprising there is so much interest in a technology to create clean energy that also locks up carbon in the soil for the long term and lifts agricultural production,” he said.
Multiple benefits
The trials at Wollongbar have focused on the benefits of agrichar to agricultural productivity: “When applied at 10t/ha, the biomass of wheat was tripled and of soybeans was more than doubled,” said Dr Van Zwieten. This percentage increase remained the same when applications of nitrogen fertiliser were added to both the agrichar and the control plots. For the wheat, agrichar alone was about as beneficial for yields as using nitrogen fertiliser only. And that is without considering the other benefits of agrichar.
Regarding soil chemistry, Dr Van Zwieten said agrichar raised soil pH at about one-third the rate of lime, lifted calcium levels and reduced aluminium toxicity on the red ferrosol soils of the trial. Soil biology improved, the need for added fertiliser reduced and water holding capacity was raised. The trials also measured gases given off from the soils and found significantly lower emissions of carbon dioxide and nitrous oxide (a greenhouse gas more than 300 times as potent as carbon dioxide):
bioenergy :: biofuels :: energy :: sustainability :: climate change :: energy crops :: pyrolysis :: biomass :: biochar :: agrichar :: terra preta :: carbon-negative :: soil fertility :: Australia ::
Long term carbon storage
NSW DPI environmental scientist Steve Kimber said an added benefit for both the farmer who applies agrichar and the environment is that the carbon in agrichar remains locked up in the soil for many years longer than, for example, carbon applied as compost, mulch or crop residue.
“We broadly categorise carbon in the soil as being labile (liable to change quickly) or stable – depending on how quickly they break down and convert into carbon dioxide,” he said. “Labile carbon like crop residue, mulch and compost is likely to last two or three years, while stable carbon like agrichar will last up to hundreds of years.
“This is significant for farmer costs because one application of agrichar may be the equivalent of compost applications of the same weight every year for decades. “For the environment, it means soil carbon emissions can be reduced because rapidly decomposing carbon forms are being replaced by stable ones in the form of agrichar.”
Unfortunately, agrichar is not widely available yet. BEST Energies Australia, a company involved with NSW DPI in the trials, has a pilot plant at Gosford which is producing minimal amounts for research purposes. “We are hoping the technology will take hold and pyrolysis plants will be built where there is a steady stream of green or other biomass waste providing clean energy that is carbon negative,” Dr Van Zwieten said. “But until pyrolysis plants are up and running, the availability of agrichar for farmers will be scarce.”
Agrichar mimics Amazon
The pyrolysis process which BEST Energies Australia is using seeks to emulate creation of the highly fertile Amazonian dark earths known as ‘terra preta’ (previous post).
Organic matter or biomass, including green or feedlot wastes, is converted to char during pyrolysis, a thermochemical process conducted in the absence of oxygen. Between 25 and 70 per cent of the dry feed material is converted during pyrolysis into a high-carbon char material which is far more stable than the original biomass.
In the Amazon today, these highly fertile soils are prized. Created by pre-Columbian populations thousands of years ago through the addition of charred organic matter, terra preta continues to be staggeringly productive despite being intensively cultivated.
BEST Energies Australia first began working on the pyrolysis process 10 years ago and now has a fully operational demonstration plant on the NSW Central Coast with the capacity to take 300 kilograms of biomass per hour.
NSW Department of Primary Industries (DPI) formed a research partnership with BEST to investigate the potential of agrichar products as soil amendments which could boost profitability while also sequestering carbon and reducing greenhouse emissions. Initial laboratory trials conducted by DPI found that by matching soil type to char from certain feedstocks and processing conditions, yields of some crops more than doubled.
NSW has a vast untapped biomass resource from a variety of waste streams, estimated to be about seven megatonnes of biomass a year.
Image: NSW DPI environmental scientist Steve Kimber shows one of the chambers used to monitor greenhouse gases emitted from the Wollongbar trial plot. Credit: NSW DPI.
More information:
Eurekalert: Soils offer new hope as carbon sink - May 31, 2007.
The Australian trials of 'agrichar' or 'biochar' have doubled and, in one case, tripled crop growth when applied at the rate of 10 tonnes per hectare. The technique of storing agrichar in soils is now seen as a potential saviour to restore fertility to depleted or nutrient-poor soils (especially in the tropics), and as a revolutionary technique to mitigate climate change. Moreover, agrichar storage in soils is a low-tech practise, meaning it can be implemented on a vast scale in the developing world, relatively quickly.
Agrichar is a black carbon byproduct of a process called pyrolysis, which involves heating biomass without oxygen to generate renewable energy. Pyrolysis of biomass results in the production of bio-oil, that can be further refined into liquid biofuels for transport (earlier post, on Dynamotive's trials). When the agrichar is consequently sequestered into soils, the biofuels become carbon-negative - that is, they take more carbon dioxide out of the atmosphere than they release. This way, they can clean up our past emissions. No other renewable energy technology has both the advantages of being carbon-negative while at the same time being physically tradeable.
The biochar sequestration technique is now confirmed to boost soil fertility while storing carbon long-term. New South Wales Department of Primary Industries' senior research scientist Dr Lukas Van Zwieten said soils naturally turn over about 10 times more greenhouse gas on a global scale than the burning of fossil fuels.
“So it is not surprising there is so much interest in a technology to create clean energy that also locks up carbon in the soil for the long term and lifts agricultural production,” he said.
Multiple benefits
The trials at Wollongbar have focused on the benefits of agrichar to agricultural productivity: “When applied at 10t/ha, the biomass of wheat was tripled and of soybeans was more than doubled,” said Dr Van Zwieten. This percentage increase remained the same when applications of nitrogen fertiliser were added to both the agrichar and the control plots. For the wheat, agrichar alone was about as beneficial for yields as using nitrogen fertiliser only. And that is without considering the other benefits of agrichar.
Regarding soil chemistry, Dr Van Zwieten said agrichar raised soil pH at about one-third the rate of lime, lifted calcium levels and reduced aluminium toxicity on the red ferrosol soils of the trial. Soil biology improved, the need for added fertiliser reduced and water holding capacity was raised. The trials also measured gases given off from the soils and found significantly lower emissions of carbon dioxide and nitrous oxide (a greenhouse gas more than 300 times as potent as carbon dioxide):
bioenergy :: biofuels :: energy :: sustainability :: climate change :: energy crops :: pyrolysis :: biomass :: biochar :: agrichar :: terra preta :: carbon-negative :: soil fertility :: Australia ::
Long term carbon storage
NSW DPI environmental scientist Steve Kimber said an added benefit for both the farmer who applies agrichar and the environment is that the carbon in agrichar remains locked up in the soil for many years longer than, for example, carbon applied as compost, mulch or crop residue.
“We broadly categorise carbon in the soil as being labile (liable to change quickly) or stable – depending on how quickly they break down and convert into carbon dioxide,” he said. “Labile carbon like crop residue, mulch and compost is likely to last two or three years, while stable carbon like agrichar will last up to hundreds of years.
“This is significant for farmer costs because one application of agrichar may be the equivalent of compost applications of the same weight every year for decades. “For the environment, it means soil carbon emissions can be reduced because rapidly decomposing carbon forms are being replaced by stable ones in the form of agrichar.”
Unfortunately, agrichar is not widely available yet. BEST Energies Australia, a company involved with NSW DPI in the trials, has a pilot plant at Gosford which is producing minimal amounts for research purposes. “We are hoping the technology will take hold and pyrolysis plants will be built where there is a steady stream of green or other biomass waste providing clean energy that is carbon negative,” Dr Van Zwieten said. “But until pyrolysis plants are up and running, the availability of agrichar for farmers will be scarce.”
Agrichar mimics Amazon
The pyrolysis process which BEST Energies Australia is using seeks to emulate creation of the highly fertile Amazonian dark earths known as ‘terra preta’ (previous post).
Organic matter or biomass, including green or feedlot wastes, is converted to char during pyrolysis, a thermochemical process conducted in the absence of oxygen. Between 25 and 70 per cent of the dry feed material is converted during pyrolysis into a high-carbon char material which is far more stable than the original biomass.
In the Amazon today, these highly fertile soils are prized. Created by pre-Columbian populations thousands of years ago through the addition of charred organic matter, terra preta continues to be staggeringly productive despite being intensively cultivated.
BEST Energies Australia first began working on the pyrolysis process 10 years ago and now has a fully operational demonstration plant on the NSW Central Coast with the capacity to take 300 kilograms of biomass per hour.
NSW Department of Primary Industries (DPI) formed a research partnership with BEST to investigate the potential of agrichar products as soil amendments which could boost profitability while also sequestering carbon and reducing greenhouse emissions. Initial laboratory trials conducted by DPI found that by matching soil type to char from certain feedstocks and processing conditions, yields of some crops more than doubled.
NSW has a vast untapped biomass resource from a variety of waste streams, estimated to be about seven megatonnes of biomass a year.
Image: NSW DPI environmental scientist Steve Kimber shows one of the chambers used to monitor greenhouse gases emitted from the Wollongbar trial plot. Credit: NSW DPI.
More information:
Eurekalert: Soils offer new hope as carbon sink - May 31, 2007.
5 Comments:
This is facinating.
I'll be watching for developments closly.
Terra Preta has gotten much good news since the IAI conference and recent major articles;
In Focus
May 15, 2007
Special Report: Inspired by Ancient Amazonians, a Plan to Convert Trash into Environmental Treasure
New bill in U.S. Senate will advocate adoption of "agrichar" method that could lessen our dependence on fossil fuel and help avert global warming
By Anne Casselman
http://www.sciam.com/article.cfm?articleID=5670236C-E7F2-99DF-3E2163B9FB144E40
The main hurtle now is to change the current perspective held by the IPCC that the soil carbon cycle is a wash, to one in which soil can be used as a massive and ubiquitous Carbon sink via Charcoal. Below are the first concrete steps in that direction;
Tackling Climate Change in the U.S.
Potential Carbon Emissions Reductions from Biomass by 2030
by Ralph P. Overend, Ph.D. and Anelia Milbrandt
National Renewable Energy Laboratory
http://www.ases.org/climatechange/toc/07_biomass.pdf
The organization 25x25 (see 25x'25 - Home) released it's (first-ever, 55-page )"Action Plan" ; see http://www.25x25.org/storage/25x25/d...ActionPlan.pdf
On page 31, as one of four foci for recommended RD&D, the plan lists: "The development of biochar, animal agriculture residues and other non-fossil fuel based fertilizers, toward the end of integrating energy production with enhanced soil quality and carbon sequestration."
and on p 32, recommended as part of an expanded database aspect of infrastructure: "Information on the application of carbon as fertilizer and existing carbon credit trading systems."
I feel 25x25 is now the premier US advocacy organization for all forms of renewable energy, but way out in front on biomass topics.
There are 24 billion tons of carbon controlled by man in his agriculture , I forgot the % that is waste, but when you add all the other cellulose waste which is now dumped to rot or digested or combusted and ultimately returned to the atmosphere as GHG, the balanced number is around 24 Billion tons. So we have plenty of bio-mass.
Even with all the big corporations coming to the GHG negotiation table, like Exxon, Alcoa, .etc, we still need to keep watch as they try to influence how carbon management is legislated in the USA. Carbon must have a fair price, that fair price and the changes in the view of how the soil carbon cycle now can be used as a massive sink verses it now being viewed as a wash, will be of particular value to farmers and a global cool breath of fresh air for us all.
If you have any other questions please feel free to call me or visit the TP web site I've been drafted to administer. http://terrapreta.bioenergylists.org/?q=node
It has been immensely gratifying to see all the major players join the mail list , Cornell folks, T. Beer of Kings Ford Charcoal (Clorox), Novozyne the M-Roots guys(fungus), chemical engineers, Dr. Danny Day of G. I. T. , Dr. Antal of U. of H., Virginia Tech folks and probably many others who's back round I don't know have joined.
This Earth Science Forum thread on these soils contains further links, and has been viewed by 40,000 self-selected folks. ( I post everything I find on Amazon Dark Soils, ADS here):
http://forums.hypography.com/earth-science/3451-terra-preta.html
Also Here is the Latest BIG Terra Preta Soil news;
ConocoPhillips Establishes $22.5 Million Pyrolysis Program at Iowa State 04/10/07
http://www.conocophillips.com/newsroom/news_releases/2007+News+Releases/041007.htm
Other Links;
University of Beyreuth TP Program, Germany http://terrapreta.bioenergylists.org/?q=taxonomy/term/118
__All the Bio-Char Companies and equipment manufactures I've found:
Carbon Diversion
http://www.carbondiversion.com/
Eprida: Sustainable Solutions for Global Concerns
http://www.eprida.com/home/index.php4
BEST Pyrolysis, Inc. | Slow Pyrolysis - Biomass - Clean Energy - Renewable Ene
http://www.bestenergies.com/companies/bestpyrolysis.html
Dynamotive Energy Systems | The Evolution of Energy
http://www.dynamotive.com/
Ensyn - Environmentally Friendly Energy and Chemicals
http://www.ensyn.com/who/ensyn.htm
Agri-Therm, developing bio oils from agricultural waste
http://www.agri-therm.com/
Advanced BioRefinery Inc.
http://www.advbiorefineryinc.ca/
Technology Review: Turning Slash into Cash
http://www.technologyreview.com/Energy/17298/
_The reason TP has elicited such interest on the Agricultural/horticultural side of it's benefits is this one static:
One gram of charcoal cooked to 650 C Has a surface area of 400 m2 (for soil microbes & fungus to live on), now for conversion fun:
One ton of charcoal has a surface area of 400,000 Acres!! which is equal to 625 square miles!! Rockingham Co. VA. , where I live, is only 851 Sq. miles
Now at a middle of the road application rate of 2 lbs/sq ft (which equals 1000 sqft/ton) or 43 tons/acre yields 26,000 Sq miles of surface area per Acre. VA is 39,594 Sq miles.
What this suggest to me is a potential of sequestering virgin forest amounts of carbon just in the soil alone, without counting the forest on top.
To take just one fairly representative example, in the classic Rothampstead experiments in England where arable land was allowed to revert to deciduous temperate woodland, soil organic carbon increased 300-400% from around 20 t/ha to 60-80 t/ha (or about 20-40 tons per acre) in less than a century (Jenkinson & Rayner 1977). The rapidity with which organic carbon can build up in soils is also indicated by examples of buried steppe soils formed during short-lived interstadial phases in Russia and Ukraine. Even though such warm, relatively moist phases usually lasted only a few hundred years, and started out from the skeletal loess desert/semi-desert soils of glacial conditions (with which they are inter-leaved), these buried steppe soils have all the rich organic content of a present-day chernozem soil that has had many thousands of years to build up its carbon (E. Zelikson, Russian Academy of Sciences, pers. comm., May 1994). http://www.esd.ornl.gov/projects/qen/carbon1.html
______________________
Erich J. Knight
Hey, great overview of Biochar. I've been reading up on the subject with much interest and I decided to write a brief on my ScribeMedia blog.
URL: http://www.scribemedia.org/2007/06/27/biochar/
I would love to do some on-camera interviews with those people involved with Biochar and maybe some feature content about its history and current development.
If anyone out there is currently involved in Biochar research and/or development, please contact me @ curtiss[at]scribemedia.org.
Thanks a lot. Again, great post!
---------------
Curtiss P. Martin
Editor - Clean Technology
ScribeMedia.org
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