| Publisher | Springer |
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| Volume / Issue | 6/9 |
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| Total Pages | 17 pages |
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| PDF Link | https://cbmjournal.biomedcentral.com/articles/10.1186/1750-0680-6-9 |
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| DOI | doi.org/10.1186/1750-0680-6-9 |
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| Tags | forest carbon offsets; MRV; LiDAR; Airborne Laser Scanning; stratification; post-stratification; carbon project; carbon stock estimation |
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| Publication Date | October 17, 2011 |
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| Abstract | Background
The voluntary carbon market is a new and growing market that is increasingly important to consider in managing forestland. Monitoring, reporting, and verifying carbon stocks and fluxes at a project level is the single largest direct cost of a forest carbon offset project. There are now many methods for estimating forest stocks with high accuracy that use both Airborne Laser Scanning (ALS) and high-resolution optical remote sensing data. However, many of these methods are not appropriate for use under existing carbon offset standards and most have not been field tested.
Results
This paper presents a pixel-based forest stratification method that uses both ALS and optical remote sensing data to optimally partition the variability across an ~10,000 ha forest ownership in Mendocino County, CA, USA. This new stratification approach improved the accuracy of the forest inventory, reduced the cost of field-based inventory, and provides a powerful tool for future management planning. This approach also details a method of determining the optimum pixel size to best partition a forest.
Conclusions
The use of ALS and optical remote sensing data can help reduce the cost of field inventory and can help to locate areas that need the most intensive inventory effort. This pixel-based stratification method may provide a cost-effective approach to reducing inventory costs over larger areas when the remote sensing data acquisition costs can be kept low on a per acre basis. |
Created: 9/18/2018 2:39 PM (ET)
Modified: 9/18/2018 2:39 PM (ET)