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Transcript 
Forest carbon sequestration and climate change
Dr Brian Tobin
University College Dublin
Overview
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•
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Sequestration –what is it & why important?
Role of forests in climate change
CARBiFOR research project
Forest biomass and carbon
Role of afforestation & sequestration
Context: Climate change –increasing rate driven by anthropogenic emissions
•
Increasing atmospheric carbon dioxide concentration •
leading to global warming No longer any doubt –proof all around us
Carbon sequestration
Proof of global warming!
The net removal from the atmosphere of carbon dioxide, and storage in plant biomass (e.g. in the form of increasing forests or in other reservoirs such as soil, geological formations, oceans, wood products, etc.)
Photosynthesis – Respiration = Sequestration
Tree growth
Solar radiation
Carbon dioxide
Oxygen
Water
Carbon dioxide
Nutrients
Wood/Timber
Mitigation of climate change?
To decrease sources and increase sinks!
Options: • Renewable energy
• Energy efficiency & conservation
• Nuclear power
• Transport, urban planning and design
• Carbon air capture, CCS and scrubbers in factory chimney stacks
• Societal and population control
• Reforestation and avoided deforestation
• Forest carbon sequestration
Role of forests in climate change mitigation:
• Sequestration in new forest stocks (5 pools) • Conservation of existing forests (avoiding degradation and deforestation)
• HWP stock pool (life span important)
• Energy source (carbon neutral)
• Substitution for other fossil fuels
Harvested Wood Products
Climate change & Irish forestry
Impacts
•Species distribution / suitability
•Productivity
•Pests and diseases
•Frequency of extreme climatic events
Understanding of effects required before suitable adaptive strategies can be developed
Species suitability
Black et al., 2010
Species suitability
Black et al., 2010
CARBiFOR
• Carbon sequestration in Irish Forest ecosystems
• Common species, typical of commercial forestry
• Chronosequence approach
• Focus on the ecosystem
Web: http://www.ucd.ie/carbifor/index.html
Ecosystem approach
Measuring forest productivity
Eddy covariance
Biomass sampling
Soil sampling
Litter collection sampling
Respiration chambers
Chronosequence of sites
Biomass Sampling
• Sample trees:
‐ Stem
Different components or tissue types
‐
‐
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Bark Dead branches
Live Foliage
Roots • Component samples used to determine:
Moisture content, basic density and carbon content
Root Excavation:
Biomass distribution
Per tree…
Biomass allocation (% dry biomass) to tree
components across the chronosequence.
Carbon fraction
Tree Component
Total tree
Root
Stem wood
Bark
Branches
Dead branches
Needles
Stem & Bark
Foliage
IPCC GPG default = 50%
Mean
50.24
48.99
49.90
51.30
51.06
51.31
51.57
50.16
51.39
C-fraction (%)
95% Confidence interval
0.14
0.19
0.24
0.25
0.17
0.29
0.16
0.21
0.14
Forest ecosystem carbon balance
Units of NEP: T C ha‐1 year‐1
5 carbon pools:
• Aboveground
• Belowground
• Deadwood
• Litter
• Soil
Black & Farrell, 2006
Other land‐uses
Forests in Ireland
• Forests cover 10% of total land area
– Public 57%; Private 43%
• Total stocked forest area 625,750 ha
– Conifer 73.9%
– Broadleaf 24.3%
– Temporarily unstocked 1.8%
• 2/3 of estate 20‐years‐old or less
NFI, 2007
Carbon uptake in Irish forests
• 6.2 MT CO2 ha per year (1.96 T CO2 per second)
• Harvest removals 2.6 MT
• Net removal from atmosphere of 3.6 MT CO2
• Kyoto forests ‐2.63 MT CO2 for 2010 (valued at €40M)
BUT
Sequestration through afforestation is finite,
potentially short term, and reversible. One rotation
5 rotations
After one rotation C‐sequestration reaches ± steady state.
Therefore afforestation effect is once‐off
Is it worth it???
Is it sustainable?
Mitigation of emissions
Sustainable?
Bioenergy and products
Forestry Commission, 2003
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37
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09
Annual afforestation (ha)
Afforestation rates
Age distribution of forest estate
25,000
Total
20,000
State
Private
15,000
10,000
5,000
0
Dependant on afforestation rate
Hendrick & Black, 2009
Conclusions
Mitigation –forests contributing significantly
Age distribution a challenge
Adaptation required
Anticipatory policy strategies Modelling of outcomes/senarios and climate change
• Sustainable development across the industry (production and use of forest bio‐products)
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Acknowledgments
• COFORD
• Coillte & private forest owners
• CARBiFOR project team
Thanks for your attention!
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