Top Banner
Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010
24
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Page 1: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Fire Ecology and Fire Regimes in Boreal Ecosystems

Oct 19, 2010

Page 2: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Fire ecology of boreal region• Black spruce (Picea mariana)– serotinous cones, highly flamable– Early successional

• White spruce (Picea glauca)– Non serotinous cones– Late successional

• Other species: larch, birch, alder, willow, aspen

Page 3: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Soil temperature, moisture, and fire influence vegetation types

Page 4: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Boreal region: land of fire & ice• Vegetation shaped by fire and permafrost

– Heat and cold– Aridity and moisture

• Permafrost: permanently frozen ground– Impermeable boundary between surface and ground waters– Active layer (thaw zone) – allows for shallow soil, rooted vegetation

• Dynamic equilibrium between vegetation and permafrost determined by fire

Page 5: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Boreal Forests Fire Regime• Wildfires are episodic

Some years very large wildfires

• Relatively frequent firesContinuous layer of fuels:grasses, moss, shrubs, black spruce (~ lodgepole pine *)

• Dry summers Lightning, long days (midnight sun)

• Mixed fire-regimehigh intensity stand-replacing crown fires +

ground fires (smoldering in deep organic layers)

Natural fire cycles: ~50-200 years

After human use/protection:<100 years in remote regions to >500 in heavily protected(Beniston 2003)

Page 6: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Smoldering?

Page 7: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Boreal fires: high energy release rates

Page 8: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Effects of fire on boreal landscapeFire is the dominant disturbance in boreal forests

• Allows for massive decomposition and recycling of water and nutrients

• Fires cause active zone of permafrost to increase temporarily (vegetation = insulation)

• Replaces forest stands

Page 9: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Loss of protective insulation from vegetation

Page 10: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Post-fire permafrost thaw: recycling of nutrients & water

Page 11: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Fire creates mosaic of vegetation…

Page 12: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

and mosaic of stand types…

Page 13: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Human influence on Boreal fires• Fires deliberately set by Native Americans and

settlers– Signal fires, campfires, hunting (ring of fire –

moose, caribou), mosquito control– Gold rush in 1896 – “epidemic of forest fires”• Railroad construction• Expose mine deposits• Create/improve pasture

• After railroad completed (1923) – new emphasis

on fire suppression and control

Page 14: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Fire management in Alaska• 1930-1950’s – emphasis on fire control– Patrols and strong military presence

• 1950’s = enormous fires, mostly lightening caused (5 mill acres burned in 1957)– Smoke shut down “the state” for 2 weeks

• 1960’s and 70’s fire control in Alaska reached similar levels as the lower 48 (under BLM)– Emphasis on aircraft, helicopters, smokejumpers

• 17% of land is designated for fire suppression: “valued areas” (proximity to communities and roads)

• 83% of land (interior Alaska) under a natural fire regime.

Page 15: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Fire and Climate Change in the Boreal Region

TTYGroup on potential general impacts of CC on fire dynamics:

• What has been predicted for temperature and precipitation due to climate change in North American boreal region?

• What does this mean for the fire weather of the N. A. boreal region?

• What are the direct effects of climate change on the vegetation composition of boreal forests?

• What does this mean for fire behavior?

Page 16: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Relationship between climate change and fire in Boreal regions (1)

• Climate change increases fire activity:– Warmer and drier climate (Higher

T, lower PP) = drier fuels – Longer fire season – Increased lightening

• More fire = positive feedback on global warming– Increased greenhouse gas

emissions enhancing warming.– Increased CO2 = greater biomass

production, more fuel (controversial)

Page 17: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Relationship between climate change and fire in Boreal regions (2)

• Indirect effects of climate change– More fuel loads ?

CO2 fertilization insect outbreakstree line expansion into tundra

– Less fuel loads / different fuel loads? = negative feedback

Deciduous vs. coniferous

– Longer fire season = drier forest floor = potential to alter depth of burn + deeper thaw of permafrost

Page 18: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Boreal forests: Carbon sink or source?

TTYGroup:1. What factors determine whether a region (or ecosystem) is a “sink” or “source,” and why?

2. What does it mean to refer to the boreal region as a “carbon sink” or a “carbon source”?

Page 19: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Boreal forests: Carbon sink or source?• Forests sequester carbon via

photosynthesis– Carbon stored in biomass– Long-term carbon storage: soil,

permafrost, peat

• Carbon released to atmosphere by: – Respiration– Fire– Decomposition of soil organic

matter, melting of permafrost

• Downward carbon flux: carbon sequestration

• Upward carbon flux: carbon emission

• Net carbon flux: sink or source Balance between CO2 sequestration and emissions = complex!

Page 20: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Sink

Source

Page 21: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

CO2 fert

Climate

Fire

CO2, Climate, fire

Page 22: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Effects of post-fire succession and human activities on future fire regimes in the boreal region?

• Rate of biomass recovery• Species composition (deciduous vs. coniferous)• Tree line expansion into tundra• Fire severity – depth of burn, permafrost – feedbacks• Fire suppression efforts – successful?• Insects and disease – increase with warming?

Page 23: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.

Climate change effects on

permafrost…

Page 24: Fire Ecology and Fire Regimes in Boreal Ecosystems Oct 19, 2010.