Tradition Lake - PowerPoint PPT Presentation

1 / 22
About This Presentation
Title:

Tradition Lake

Description:

Results Live Tree Biomass. 506.28. 1902.8. 278.17. 17.889. HW. 5250.39. 14370.6. 1723.35 ... These two tables show the results of calculations for the coarse ... – PowerPoint PPT presentation

Number of Views:24
Avg rating:3.0/5.0
Slides: 23
Provided by: megan85
Category:
Tags: lake | tradition

less

Transcript and Presenter's Notes

Title: Tradition Lake


1
Tradition Lake
  • Carbon Sequestration and Biomass

2
Introduction
  • The objective of this exercise is to be able to
    accurately measure the approximate amount of
    carbon contained within a given area. This
    allows you to be able to determine the depth of
    carbon sequestration within a particular area.
  • What is Carbon Sequestration?
  • Why is this important?
  • How does it apply?

3
Carbon Sequestration
  • Carbon sequestration is the total removed CO2
    from the atmosphere into long-lived pools of
    carbon. The pools can be living, aboveground
    biomass (e.g., trees), products with a long,
    useful life created from biomass (e.g., lumber),
    living biomass in soils (e.g., roots and
    microorganisms), or organic and inorganic carbon
    in soils and deeper subsurface environments.

4
Significance
  • Carbon sinks are useful tools in lowering the
    impact of global carbon dioxide emissions by
    drawing carbon dioxide out of the atmosphere and
    breaking it down to carbon and oxygen through
    photosynthesis. The carbon is kept within the
    sink and the oxygen is released.

5
Applications
  • Carbon sinks provide the atmosphere with a slight
    buffer system against the harmful effects of our
    rising global carbon dioxide emissions.

6
Materials
  • Notebook
  • 5 dbh tape
  • 50 meter tape
  • Flags
  • Increment corer
  • Digging tool
  • 10 meter rope
  • large nail
  • Clinometers
  • compass
  • bags
  • magic marker

7
Methods
  • Establish a plot (radius of 10m)
  • Measure all the trees within plot touches
  • Measure height and width
  • Indicate if its dead or alive (D1, D2, D3)
  • Identify species

8
Methods (cont.)
  • Measure 2 20m transects
  • 90 degrees from one another
  • Measure average height of shrubs and coverage (in
    )
  • Record dead material above ground into decay
    classes
  • Estimate shrub biomass
  • collect 1mx1m square of high and low

9
Methods (cont.)
  • Measure depth of litter
  • Note deepest and shallowest points
  • Remove 1x1m square at these points
  • To be weighed later

10
Site Description
  • Under story
  • Prominent species
  • Sword Fern
  • Oregon Grape
  • Salal
  • Density mostly thick ground cover
  • Conclusions about this site mostly wet site,
  • Salal being found mostly near trails
  • openings to the under story mostly man-made

11
Site Description - plot
12
Decay Classes
  • D1 - bark is still hard
  • D2 - stem wood is still hard
  • D3 - finger could be stuck through wood

13
Results Live Tree Biomass
Df Douglas-fir OC Other Conifers HW
Hardwoods
x 31.85 accounts for plots per hector
14
Douglas Fir
15
Other Conifers
16
Hardwoods
17
Results Coarse Woody Debris
  • These two tables show the results of
    calculations for the coarse woody debris. Table
    one shows sound wood (D1/D2 classes) and table
    two shows rotten wood (D3 class). Multiplying
    this by the number of meters (20x2 40) we come
    up with the biomass/ha of this part.

Total 193.75 x 40 m 7750
Total 781.25 x 40 m 31250
18
Results Ground cover
Total 22904.9
Shrub cover
Forest floor
19
Graph forest floor
20
Graph cover
21
Results Biomass totals
22
Conclusion
  • Why are carbon sequestration and sinks are
    important?
  • Responsible for carbon dioxide reduction in
    atmosphere.
  • Provides a buffer system for global climate
    change.
  • The only useful tool in lowering carbon dioxide
    levels in the atmosphere aside from curbing
    emissions.
Write a Comment
User Comments (0)
About PowerShow.com