Difference between revisions of "Biochar"
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Terra preta contains high levels of soil organic matter and nutrients such as nitrogen, phosphorus, potassium and calcium. This is attributed in part to a high charcoal content.<ref>Glaser, B., Haumaier, L., Guggenberger, G., Zech, W., 2001. The 'Terra Preta' phenomenon: A model for sustainable agriculture in the humid tropics. Naturwissenschaften, 37-41.</ref> | Terra preta contains high levels of soil organic matter and nutrients such as nitrogen, phosphorus, potassium and calcium. This is attributed in part to a high charcoal content.<ref>Glaser, B., Haumaier, L., Guggenberger, G., Zech, W., 2001. The 'Terra Preta' phenomenon: A model for sustainable agriculture in the humid tropics. Naturwissenschaften, 37-41.</ref> | ||
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+ | The soil scientist Bruno Glaser and co-researchers found that terra preta soils “not only contain higher concentrations of nutrients such as nitrogen, phosphorus, potassium and calcium, but also greater amounts of stable soil organic matter.” They believe that charcoal is a key factor in the persistence of organic matter in these soils. Their investigations showed that terra preta soils contained up to 70 times more charcoal than the surrounding soils.<ref>Bruno Glaser, Ludwig Haumaier, Georg Guggenberger, Wolfgang Zech, The 'Terra Preta' phenomenon: a model for sustainable agriculture in the humid tropics. Naturwissenschaften, Volume 88, Number 1, February, 2001.</ref> | ||
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+ | ===Terra preta not the same as charcoal-enriched soils=== | ||
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+ | Farmers practicing slash-and-burn (“swidden”) agriculture know that incorporating some charcoal into soil gives a temporary boost to fertility, because fresh charcoal retains nutrients important for plant growth. But critics say that the secrets of terra preta’s success are not understood. They say it is far more than soil with added charcoal and that attempts to recreate it have not succeeded. | ||
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+ | A report for Biofuelwatch, “Biochar for Climate Change Mitigation: Fact or Fiction?”, cautions that there is no evidence that the beneficial qualities of terra preta can be replicated by industrial production of charcoal: “While it is true that Terra Preta was incredibly successful, the indigenous peoples in pre-colonial Amazonia developed their technique over a long period based on small-scale, biodiverse farming techniques and a knowledge base that is now largely lost. Charcoal was only part of their technique.”<ref>Almuth Ernsting and Rachel Smolker, “[http://www.biofuelwatch.org.uk/docs/biocharbriefing.pdf Biochar for Climate Change Mitigation: Fact or Fiction?]”, Biofuelwatch, February 2009, p. 4</ref> | ||
==Resources== | ==Resources== |
Revision as of 11:44, 1 December 2009
Biochar (also known as agrichar, black carbon or BC) is a carbon-rich material produced by heating plant-derived organic matter in an environment with restricted oxygen. Biochar production from sustainable sources of organic waste is currently being advocated as a way to reduce greenhouse warming. Advocates say the biochar process is carbon-negative, removing more carbon dioxide from the atmosphere than it produces.[1][2] They also say charcoal is a sustainable method of soil enrichment and has the potential to help clean up environmental pollution.
The technology is strongly advocated by some scientists, notably Johannes Lehmann, associate professor of soil fertility management and soil biogeochemistry at Cornell University. Biofuel and energy companies are lobbying governments to subsidise biochar production and to allow it into the carbon trading program, as part of measures to counter greenhouse warming.
Biochar has, however, come under criticism from environmental groups, who warn that its claimed benefits are largely unproven and that it could lead to huge destruction of biodiversity.[3]
Contents
Claimed benefits
Biochar advocates say charcoal can be used as a soil conditioner which provides a stable carbon storage (sequestration) system, enhances soil fertility, and filters out pollutants.
These properties are said by biochar advocates to be able to address some of the most urgent environmental problems of our time:
- Soil degradation and food insecurity
- Water pollution by agrochemicals and other toxins
- Climate change due to an excess of carbon dioxide in the atmosphere.
Terra preta
Charcoal has been deliberately incorporated into cultivated soils for thousands of years. The best known charcoal-improved soil is the terra preta of the Brazilian Amazon. Its high level of fertility makes it popular for growing cash crops such as papaya and mango. These crops are said to grow three times faster than on surrounding unimproved land.[4] Similar soils have been identified in Ecuador, Peru, West Africa (Benin, Liberia), and the savannas of South Africa.
Terra preta contains high levels of soil organic matter and nutrients such as nitrogen, phosphorus, potassium and calcium. This is attributed in part to a high charcoal content.[5]
The soil scientist Bruno Glaser and co-researchers found that terra preta soils “not only contain higher concentrations of nutrients such as nitrogen, phosphorus, potassium and calcium, but also greater amounts of stable soil organic matter.” They believe that charcoal is a key factor in the persistence of organic matter in these soils. Their investigations showed that terra preta soils contained up to 70 times more charcoal than the surrounding soils.[6]
Terra preta not the same as charcoal-enriched soils
Farmers practicing slash-and-burn (“swidden”) agriculture know that incorporating some charcoal into soil gives a temporary boost to fertility, because fresh charcoal retains nutrients important for plant growth. But critics say that the secrets of terra preta’s success are not understood. They say it is far more than soil with added charcoal and that attempts to recreate it have not succeeded.
A report for Biofuelwatch, “Biochar for Climate Change Mitigation: Fact or Fiction?”, cautions that there is no evidence that the beneficial qualities of terra preta can be replicated by industrial production of charcoal: “While it is true that Terra Preta was incredibly successful, the indigenous peoples in pre-colonial Amazonia developed their technique over a long period based on small-scale, biodiverse farming techniques and a knowledge base that is now largely lost. Charcoal was only part of their technique.”[7]
Resources
Notes
- ↑ Lehmann, J., 2007, A handful of carbon, Nature 447: 143-144 doi:10.1038/447143a
- ↑ Lehmann, J., Gaunt, J. and Rondon, M., 2006, Bio-char sequestration in terrestrial ecosystems – a review, Mitigation and Adaptation Strategies for Global Change, 11:403-427
- ↑ Almuth Ernsting and Rachel Smolker, “Biochar for Climate Change Mitigation: Fact or Fiction?”, Biofuelwatch, February 2009, p. 5
- ↑ Saran Sohi, Elisa Lopez-Capel, Evelyn Krull and Roland Bol, “Biochar, climate change and soil: A review to guide future research,” CSIRO Land and Water Science Report 05/09, February 2009
- ↑ Glaser, B., Haumaier, L., Guggenberger, G., Zech, W., 2001. The 'Terra Preta' phenomenon: A model for sustainable agriculture in the humid tropics. Naturwissenschaften, 37-41.
- ↑ Bruno Glaser, Ludwig Haumaier, Georg Guggenberger, Wolfgang Zech, The 'Terra Preta' phenomenon: a model for sustainable agriculture in the humid tropics. Naturwissenschaften, Volume 88, Number 1, February, 2001.
- ↑ Almuth Ernsting and Rachel Smolker, “Biochar for Climate Change Mitigation: Fact or Fiction?”, Biofuelwatch, February 2009, p. 4