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Soil Carbon: Measurements & Markets

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Information about Soil Carbon: Measurements & Markets
Business & Mgmt

Published on December 28, 2008

Author: michaelkielymarketing

Source: slideshare.net

Description

Tony Lovell, of Soil Carbon Australia, explores the degrees of measurement exactitude needed for a market to operate. Tony is a thought leader in the soil carbon movement worldwide.
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Measurement and Markets

Measurement and Markets Soil Carbon is too hard to measure, and the market won’t buy it unless we can measure it.

Soil Carbon is too hard to measure, and the market won’t buy it unless we can measure it.

Measurement and Markets Soil Carbon is too hard to measure, and the market won’t buy it unless we can measure it. Eliyahu Goldratt 1 – challenge your basic assumptions 2 – get your definitions clear

Soil Carbon is too hard to measure, and the market won’t buy it unless we can measure it.

Eliyahu Goldratt

1 – challenge your basic assumptions

2 – get your definitions clear

Challenge our basic assumptions

Challenge our basic assumptions Basic assumption – we need to “measure” it in the first place Can we challenge this?

Basic assumption – we need to “measure” it in the first place

Can we challenge this?

Challenge our basic assumptions Basic assumption – we need to “measure” it in the first place Can we challenge this? Why would we need to measure Soil Carbon?

Basic assumption – we need to “measure” it in the first place

Can we challenge this?

Why would we need to measure Soil Carbon?

Challenge our basic assumptions Basic assumption – we need to “measure” it in the first place Can we challenge this? Why would we need to measure Soil Carbon? To know how much we have so we can sell it

Basic assumption – we need to “measure” it in the first place

Can we challenge this?

Why would we need to measure Soil Carbon?

To know how much we have so we can sell it

Challenge our basic assumptions Basic assumption – we need to “measure” it in the first place Can we challenge this? Why would we need to measure Soil Carbon? To know how much we have so we can sell it We need to satisfy the Market

Basic assumption – we need to “measure” it in the first place

Can we challenge this?

Why would we need to measure Soil Carbon?

To know how much we have so we can sell it

We need to satisfy the Market

Get your definitions clear

Measurement is the process of estimating the magnitude of some attribute of an object, such as its length, weight, or depth relative to some standard ( unit of measurement ), such as a meter or a kilogram . ( Wikipedia ) Get your definitions clear

Measurement is the process of estimating the magnitude of some attribute of an object, such as its length, weight, or depth relative to some standard ( unit of measurement ), such as a meter or a kilogram .

( Wikipedia )

Measurements always have errors and therefore uncertainties . In fact, the reduction —not necessarily the elimination— of uncertainty is central to the concept of measurement. Measurement errors are often assumed to be normally distributed about the true value of the measured quantity.

Measurements always have errors and therefore uncertainties . In fact, the reduction —not necessarily the elimination— of uncertainty is central to the concept of measurement.

Measurement errors are often assumed to be normally distributed about the true value of the measured quantity.

Under this assumption, every measurement has three components: the estimate, the margin of error , and the confidence level — that is the probability that the actual magnitude lies within the margin of error. For example, a measurement of the length of a plank might result in an estimate of 2.53 meters plus or minus 0.01 meter, with a level of confidence of 99%.

Under this assumption, every measurement has three components: the estimate, the margin of error , and the confidence level — that is the probability that the actual magnitude lies within the margin of error.

For example, a measurement of the length of a plank might result in an estimate of 2.53 meters plus or minus 0.01 meter, with a level of confidence of 99%.

http://www.greenhouse.gov.au/inventory/methodology/index.html   This inventory methodology workbook presents the Australian methodology to estimate greenhouse gas emissions and sinks for the transport sector. The methodology in this workbook was developed with input from researchers and other experts specialising in greenhouse gas emissions from transport sources. It is based on the methodology first presented in the  Australian Methodology for the  Estimation  of Greenhouse Gas Emissions and Sinks, Energy, Workbook for Transport (Mobile Sources),  National Greenhouse Gas Inventory Committee, Workbooks 2.0 (1994) and 2.1 (1998), Canberra.

This inventory methodology workbook presents the Australian methodology to estimate greenhouse gas emissions and sinks for the transport sector.

The methodology in this workbook was developed with input from researchers and other experts specialising in greenhouse gas emissions from transport sources.

It is based on the methodology first presented in the  Australian Methodology for the  Estimation  of Greenhouse Gas Emissions and Sinks, Energy, Workbook for Transport (Mobile Sources),  National Greenhouse Gas Inventory

Committee, Workbooks 2.0 (1994) and 2.1 (1998), Canberra.

It is part of a series that includes: Australian Methodology for the  Estimation  of Greenhouse Gas Emissions and Sinks 2006: Energy (Stationary Sources) Energy (Transport) Energy (Fugitive Fuel Emissions) Industrial Processes Solvents Agriculture Land Use, Land Use Change and Forestry Waste

It is part of a series that includes:

Australian Methodology for the  Estimation  of Greenhouse Gas Emissions and Sinks 2006:

Energy (Stationary Sources)

Energy (Transport)

Energy (Fugitive Fuel Emissions)

Industrial Processes

Solvents

Agriculture

Land Use, Land Use Change and Forestry

Waste

For what purpose?

For what purpose? We need to satisfy the Market We need to make Soil Carbon commercial

For what purpose? Commercialising Soil Carbon

For what purpose? Commercialising Soil Carbon Commerce

For what purpose? Commercialising Soil Carbon Commerce Customer

For what purpose? Commercialising Soil Carbon Commerce Customer Confident

For what purpose? Commercialising Soil Carbon Commerce Customer How Confident?

For what purpose? Commercialising Soil Carbon Commerce Customer Confident enough

For what purpose? Commercialising Soil Carbon Commerce Customer Confident enough NOT Certain

In a true market certainty is either impossible or fatal.

In a true market certainty is either impossible or fatal.

In a true market certainty is either impossible or fatal. In a true market uncertainty is necessary and healthy.

In a true market certainty is either impossible or fatal.

In a true market uncertainty is necessary and healthy.

From a commercial perspective, the spatial variability and other measurement uncertainties about Soil Carbon may actually be positives

From a commercial perspective, the spatial variability and other measurement uncertainties about Soil Carbon may actually be positives

A story about markets Weaner steers Export abattoir UK wholesaler

Weaner steers

Export abattoir

UK wholesaler

Babcock and Brown “ It all comes down to confidence ” says Peter Morgan, investment director at 452 Capital. “ This is not a reflection on Phil, but when confidence is gone, not a lot of people want to be on that boat”

“ It all comes down to confidence ” says Peter Morgan, investment director at 452 Capital.

“ This is not a reflection on Phil, but when confidence is gone, not a lot of people want to be on that boat”

 

 

 

 

The Risk/Return Relationship

 

 

The Risk/Return Relationship

 

Insert carbon limit graph from presentation page 11

Insert carbon limit graph from presentation page 11

For what purpose Enough investors Enough confidence Enough producers Enough change in management Enough carbon Long enough To meet or exceed their minimum expectations

Enough investors

Enough confidence

Enough producers

Enough change in management

Enough carbon

Long enough

To meet or exceed their minimum expectations

 

 

CCX has developed standardized rules for issuing CFI contracts for the following types of  projects: Agricultural methane Coal mine methane Landfill methane Agricultural soil carbon Rangeland soil carbon management Forestry Renewable energy Ozone depleting substance destruction Other project types, to be approved on a project-by-project basis, may include: Energy efficiency and fuel switching Clean Development Mechanism (CDM) eligible projects

CCX has developed standardized rules for issuing CFI contracts for the following types of  projects:

Agricultural methane

Coal mine methane

Landfill methane

Agricultural soil carbon

Rangeland soil carbon management

Forestry

Renewable energy

Ozone depleting substance destruction

Other project types, to be approved on a project-by-project basis, may include:

Energy efficiency and fuel switching

Clean Development Mechanism (CDM) eligible projects

Agricultural Soil Carbon Offsets   Eligible agricultural soil carbon sequestration projects include continuous conservation tillage and grass planting. Basic Specifications: Conservation tillage: Minimum five year contractual commitment (2006-2010) to continuous no-till, strip till or ridge till on enrolled acres. Grass planting: projects initiated on or after January 1, 1999 in CCX eligible counties may qualify.  Carbon sequestration projects must be enrolled through a CCX-registered Offset Aggregator.  All projects must be independently verified by a CCX-approved verifier. CCX contracts are issued at a standardized rate of CO2 per acre per year to land managers who commit to continuous conservation tillage and/or maintenance grass cover plantings. 

  Eligible agricultural soil carbon sequestration projects include continuous conservation tillage and grass planting.

Basic Specifications:

Conservation tillage: Minimum five year contractual commitment (2006-2010) to continuous no-till, strip till or ridge till on enrolled acres.

Grass planting: projects initiated on or after January 1, 1999 in CCX eligible counties may qualify. 

Carbon sequestration projects must be enrolled through a CCX-registered Offset Aggregator. 

All projects must be independently verified by a CCX-approved verifier.

CCX contracts are issued at a standardized rate of CO2 per acre per year to land managers who commit to continuous conservation tillage and/or maintenance grass cover plantings. 

 

 

Rangeland Soil Carbon Management Offsets Agricultural carbon emission reductions for improved rangeland management.   Basic Specifications: Minimum 5 year contractual commitment. Non-degraded rangeland managed to increase carbon sequestration through grazing land management that employs sustainable stocking rates, rotational grazing and seasonal use in eligible locations. Restoration of previously degraded rangeland through adoption of sustainable stocking rates, rotational grazing and seasonal use grazing practices initiated on or after January 1, 1999. Projects must take place within designated land resource regions. Offsets are issued at standard rates depending on project type and location. Rates vary from 0.12 to 0.52 metric tons of CO2 per acre per year. All projects must be independently verified by a CCX-approved verifier.

Agricultural carbon emission reductions for improved rangeland management.  

Basic Specifications:

Minimum 5 year contractual commitment.

Non-degraded rangeland managed to increase carbon sequestration through grazing land management that employs sustainable stocking rates, rotational grazing and seasonal use in eligible locations.

Restoration of previously degraded rangeland through adoption of sustainable stocking rates, rotational grazing and seasonal use grazing practices initiated on or after January 1, 1999.

Projects must take place within designated land resource regions.

Offsets are issued at standard rates depending on project type and location.

Rates vary from 0.12 to 0.52 metric tons of CO2 per acre per year.

All projects must be independently verified by a CCX-approved verifier.

 

One standard deviation away from the mean in either direction on the horizontal axis (the red area on the above graph) accounts for somewhere around 68 percent of the people in this group. Two standard deviations away from the mean (the red and green areas) account for roughly 95 percent of the people. And three standard deviations (the red, green and blue areas) account for about 99 percent of the people.

One standard deviation away from the mean in either direction on the horizontal axis (the red area on the above graph) accounts for somewhere around 68 percent of the people in this group. Two standard deviations away from the mean (the red and green areas) account for roughly 95 percent of the people. And three standard deviations (the red, green and blue areas) account for about 99 percent of the people.

Soil carbon change and CO2 consumption per annum Estimated areas of each soil type within the >200mm average annual rainfall zone (adjusted for area loss due to National Parks etc) (Grace)

 

One standard deviation away from the mean in either direction on the horizontal axis (the red area on the above graph) accounts for somewhere around 68 percent of the people in this group. Two standard deviations away from the mean (the red and green areas) account for roughly 95 percent of the people. And three standard deviations (the red, green and blue areas) account for about 99 percent of the people.

One standard deviation away from the mean in either direction on the horizontal axis (the red area on the above graph) accounts for somewhere around 68 percent of the people in this group. Two standard deviations away from the mean (the red and green areas) account for roughly 95 percent of the people. And three standard deviations (the red, green and blue areas) account for about 99 percent of the people.

 

For what purpose Enough investors Enough confidence Enough producers Enough change in management Enough carbon Long enough To meet or exceed their minimum expectations A CCX-type model meets this purpose.

Enough investors

Enough confidence

Enough producers

Enough change in management

Enough carbon

Long enough

To meet or exceed their minimum expectations

A CCX-type model meets this purpose.

OK – so what do we do next? If we can estimate soil carbon “enough” to meet or exceed the reasonable expectations of the market, what more do we need to get this moving?

Tim Flannery on Soil C “ I think that soil carbon will be included in government policy when sufficient rural Australians ask for it to be. There's still a lot of climate sceptics on the land, and they are heard by pollies very loudly.” 6 October 2008

“ I think that soil carbon will be included in government policy when sufficient rural Australians ask for it to be.

There's still a lot of climate sceptics on the land, and they are heard by pollies very loudly.”

6 October 2008

Farmers must be part of carbon solution LUCY SKUTHORP 13/11/2008 National Farmers Federation president, David Crombie, believes it would be better for farmers if they were "part of the solution" if an emissions trading scheme is introduced, not sitting on the outside of the scheme as some grains groups suggested in recent weeks. “ We really have to look at the whole range of tools that farmers possess for taking carbon out of the atmosphere and putting it back in the soil where it belongs. So we're going to be hit with the costs, we should be researching the opportunities which are available to counter the other side…where farmers can actually earn credits.”

The Alliance for Abundant Food and Energy The Alliance for Abundant Food and Energy brings together a broad group of visionary companies and organizations committed to sustainably and responsibly improving diets and reducing dependence on fossil fuels through increased agricultural productivity worldwide. They understand that through innovation, American agriculture can help meet the growing global demand for food and energy. Members include the Archer Daniels Midland (ADM) Company, DuPont, John Deere, Monsanto, and the Renewable Fuels Association .

The Alliance for Abundant Food and Energy brings together a broad group of visionary companies and organizations committed to sustainably and responsibly improving diets and reducing dependence on fossil fuels through increased agricultural productivity worldwide. They understand that through innovation, American agriculture can help meet the growing global demand for food and energy. Members include the Archer Daniels Midland (ADM) Company, DuPont, John Deere, Monsanto, and the Renewable Fuels Association .

The Alliance for Abundant Food and Energy The Alliance for Abundant Food and Energy was formed to highlight the ability of Agriculture to meet both our future food and energy needs. Too often, the two are treated as an either/ or choice, but through better understanding of the potential of Agricultural innovation, the Alliance hopes to help people understand how we can achieve both. With members representing the entire spectrum of the Agricultural value chain, Alliance members are in a unique position to understand and address these important issues.

The Alliance for Abundant Food and Energy was formed to highlight the ability of Agriculture to meet both our future food and energy needs. Too often, the two are treated as an either/ or choice, but through better understanding of the potential of Agricultural innovation, the Alliance hopes to help people understand how we can achieve both. With members representing the entire spectrum of the Agricultural value chain, Alliance members are in a unique position to understand and address these important issues.

What happens when we organize? Most power occurs because one side is better organized than the other. Labor is usually less well organized than management, criminals are usually less well organized than the police, and customers are always less well organized than producers. The internet promises to change that. It does it occasionally, sort of randomly. Sometimes, users will rise up and complain (as they did at Facebook). Or voters will organize online and hurt (or help) a politician or candidate. Wikipedia works because so many contributors figured out how to self-organize into a group that produced something far more useful than a traditionally organized document. I think we're at the earliest possible beginning of the changes we're going to see because of this sort of grass roots coordination. Simple example: the Starbucks in Larchmont, NY keeps their thermostat at 64 degrees. And the stores in Breckenridge, Colorado keep their doors wide open all winter. If you're raging mad about energy waste, you could say something. And nothing would happen. But if customers organized and ten people said something or a hundred people said something... boom, new rules. The system doesn't know what to do with a movement. Seth Godin 15 April 2008

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