Sustainable Land Development

Sustainable Land Development International Project Goes Carbon Negative – See attached full article from August 2009 SLDT magazine
Ocean Mountain Ranch is serving as a pilot program and is expected to achieve carbon negative status through the utilization of low impact development practices, energy efficient buildings, renewable/clean energy systems, distributed waste management systems, biochar production, and other practices – with certification as a SLDI-Certified Sustainable Project…

Carbon Gold Promote Strict Regulations With World’s First Biochar Methodology
by Leonora Oppenheim, London, UK on 07.31.09

Today the world’s first biochar methodology has been published for public consultation by the Voluntary Carbon Standard. This ground breaking paper has been submitted by the UK based biochar project developers Carbon Gold. They are confident that their methodology will help create an ethical and sustainable structure for a potential biochar offsetting industry. This method of turning waste biomass into charcoal has been lauded as a miracle solution to rising CO2 emissions, but skeptics have also warned that there is plenty of room for error and exploitation…

—– Original Message —–

From: Jerry Seager

To: Climate Change Info Mailing List

Sent: Saturday, August 01, 2009 5:44 AM

Subject: Comments invited on new VCS methodology

Dear Colleagues

The following methodology is being assessed under the VCS double approval process and as part of this process has been posted on the VCS website for a 30-day public comment period:


General Methodology for Quantifying the Greenhouse Gas Emission Reductions from the Production and Incorporation of Soil of Biochar in Agricultural and Forest Management Systems


Carbon Gold


This methodology applies to projects that increase the carbon stocks in soils by treating crop residues or other biomass produced as part of agricultural activities or forest management through controlled pyrolysis. The resulting carbon rich residue is applied to soils. Due to the project activity, net GHG emissions from cropland, grassland or managed forest land will be reduced by increasing carbon stocks in soils.

The methodology is available at http://www.v- ogy_gmfqtgger. html

Any comments should be emailed to secretariat@ by close of business 29 August 2009. When providing comments, stakeholders must also provide their name, organisation/ institution, country and email address.

The full list of methodology elements available for public comment is available at http://www.v- comment.html. Further information on VCS global stakeholder consultation and the double approval process is available on the same page.

kind regards,

Jerry Seager

Program Manager

Voluntary Carbon Standard Association

Tel: +1 202 756 1273


One Response to “Sustainable Land Development”

  1. Terry Mock Says:

    SLDI Project Goes Carbon Negative
    Yours can too.

    “Climate change is inevitable, proceeding and even accelerating.”

    With those alarming opening words, British scientist James Lovelock, author of the new book, “The Vanishing Face of Gaia: A Final Warning,” is delivering a sobering message to large and influential audiences around the world. He says there’s nothing we can do now but adapt and survive. He claims it is too late for sustainable development and says civilization’s best strategy is “sustainable retreat.” If we stopped burning fossil fuels tomorrow, he explains, it wouldn’t do much. We’ve already released enough carbon over the past hundred years to push us past the point of no return.

    When pushed, Lovelock says, the only way we could do something meaningful to avoid catastrophe is to extract and permanently store CO2 from the atmosphere, in addition to dramatically reducing our emissions. And the approach with the most potential, says Lovelock, is to turn biomass material into charcoal, now re-branded as “biochar,” in a process known as “pyrolysis” and then bury it. The biochar, unlike the original biomass, can’t rot and release CO2 into the atmosphere. It doesn’t oxidize. It is chemically stable for hundreds of years, meaning the carbon is permanently sequestered. “This makes it safe to bury in the soil or in the ocean,” writes Lovelock.

    Lovelock isn’t alone in his enthusiasm for biochar sequestration. Australian biologist Tim Flannery, author of the bestselling climate-change book, “The Weather Makers,” is an avid supporter of the approach. James Hansen, head of the NASA Goddard Institute for Space Studies and a professor of Earth sciences at Columbia University, also sees an important role for turning biomass into charcoal as long as it’s done responsibly.

    Regardless of whether you believe human action can ultimately impact climate change, the overwhelming sentiment throughout the world is that we must do everything possible to reduce and offset human-emitted greenhouse gases. Strategies are currently being considered about the best ways to do just that. If we’re serious about halting the rise of – and eventually lowering – CO2 concentration in the atmosphere, biochar could prove the best way. The challenge, as with all other carbon-mitigation approaches, comes with reaching scale. Can biochar be produced to a large enough scale to make a measurable impact? The answer lies in the triple-bottom-line perspective. In other words, the only way it can happen is if it can be produced in ways that meet the needs of people, planet and profit.

    What makes biochar perhaps the most compelling solution is that it also provides significant benefits that go way beyond carbon mitigation. It allows us to more sustainably manage organic waste from municipalities, croplands, wastewater treatment plants. In addition, it can help manage a certain amount of residues from forested lands which are largely responsible for the rapid spread of forest fires.

    Biochar and Sustainable Land Development

    Key factors in developing the social, environmental and economic potential for biochar lie not only in its carbon-sequestration abilities, but in those other valuable properties that the process brings to sustainable land development best practices.

    Biochar production is modeled after a process begun thousands of years ago in the Amazon basin, where islands of rich, fertile soils called “terra preta” were created by indigenous people. Anthropologists speculate that cooking fires and kitchen middens along with deliberate placing of charcoal in soil resulted in soils with high fertility and carbon content. These soils continue to “hold” carbon today and remain so nutrient rich that they have been dug up and sold as potting soil in Brazilian markets.

    When added to soils, biochar’s impressive capacity to retain nutrients can reduce fertilizer requirements while increasing crop yields. It can also be used for commercial potting soils. Research is now confirming benefits that include:

    • Reduced leaching of nitrogen into ground water
    • Possible reduced emissions of nitrous oxide
    • Increased nutrient retention capacity
    • Moderating of soil acidity
    • Increased water retention
    • Increased number of beneficial soil microbes

    Plants simply grow better – far better – in biochar enriched soil! Biochar can improve almost any soil. Areas with low rainfall or nutrient-poor soils will benefit the most. Biochar systems can reverse soil degradation and create sustainable food and fuel production in areas with severely depleted soils, scarce organic resources, and inadequate water and chemical fertilizer supplies. Low-cost, small-scale biochar production units can produce biochar to build garden, agricultural and forest productivity. And with the addition of an engine or turbine, these systems can produce a biogas that creates distributed systems for heating, cooling and electricity.

    The total benefits that potentially flow from biochar production and use include waste reduction, energy co-production, improved soil fertility and structure, and carbon emissions mitigation. Not all of these benefits are well accounted for under current economic systems, but under the carbon-constrained economy most are projecting for the near future, the carbon emission mitigation benefit is likely to be accounted for as an economic benefit.

    Profitability of biochar systems will be especially sensitive to the cost and quality of the biomass feedstock that goes into the system, as well as to prices for energy and the carbon capping and trading markets. Farming and gardening systems stand to profit from the soil and water quality benefits biochar provides. Forested, preserve and agricultural land provides ready supply of the needed biomass feedstock. And as waste management systems and regulations “catch up” to this opportunity, therein lies another virtually unending supply of needed biomass.

    International Biochar Initiative

    The International Biochar Initiative (IBI) was formed in July 2006 at a side meeting held at the World Soil Science Congress (WSSC) in Philadelphia, Pennsylvania. At the 2006 meeting, individuals and representatives from academic institutions, commercial ventures, investment bankers, non-governmental organizations, federal agency representatives, and the policy arena from around the world acknowledged a common interest in promoting the research, development, demonstration, deployment (RDD&D) and commercialization of the promising technology of biochar production.

    The mission of the IBI is to provide a platform for the international exchange of information and activities in support of biochar research, development, demonstration, and commercialization. IBI advocates biochar as a strategy to:

    • improve soil quality;
    • reduce greenhouse gas emissions and sequester carbon; and
    • improve water quality by filtering agrochemicals.

    IBI also promotes:

    • sustainable co-production of clean energy and other biobased products as part of the biochar process;
    • efficient biomass utilization in developing country agriculture; and
    • cost-effective utilization of urban, agricultural and forest co-products.

    SLDI partners with Ocean Mountain Ranch in effort to go “Carbon Negative”

    Fossil fuels are carbon-positive — burning them adds more carbon to the atmosphere. Ordinary biomass fuels are carbon neutral — the carbon captured in the biomass by photosynthesis would have eventually returned to the atmosphere through natural processes — burning plants for energy just speeds it up. Biochar systems can be carbon negative because they retain a substantial portion of the carbon that would otherwise be emitted by the plants or waste matter when it rots. The result is a net reduction of carbon dioxide in the atmosphere.

    Located in the headwaters of the Port Orford Community Stewardship Area in Southern Oregon, Ocean Mountain Ranch (OMR) is a mixed-use development project that incorporates residential, agricultural, educational, recreational, and industrial uses. It overlooks the newly-designated Redfish Rocks Marine Reserve and the largest remaining old growth forest on the southern coast in Humbug Mountain State Park. OMR is planned to be developed pursuant to a forest stewardship management plan which has been approved by the Oregon Department of Forestry and Northwest Certified Forestry under the high standards of the Forest Stewardship Council (FSC). OMR will provide for long-term yield of high quality hardwood, softwood, and wildlife habitat. OMR is also serving as a pilot program and is expected to achieve carbon negative status through the utilization of low impact development practices, energy efficient buildings, renewable/clean energy systems, distributed waste management systems, biochar production, and other practices – with certification as a SLDI-Certified Sustainable Project.

    The land development industry is uniquely positioned to utilize SLDI best management practices to take advantage of emerging ancient and new biochar technologies to help address a multitude of pressing environmental, social and economic concerns by balancing the needs of people, planet and profit – for today and future generations. We encourage you to learn more about these opportunities for your projects by contacting SLDI Executive Director Terry Mock at

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