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T_Root-Local adaption.pdf
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Located in
Resources
/
Climate Science Documents
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Tall Timbers Geospatial Center-Scoping Activity Updates 2020-2021
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Tall Timbers Geospatial Center-Scoping Activity Updates 2020-2021
Located in
Resources
/
SE FireMap General Resources
/
SE FireMap Project Documents
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Tall Timbers Geospatial Center-Scoping Activity Updates 2020
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Tall Timbers Geospatial Center-Scoping Activity Updates 2020
Located in
Resources
/
SE FireMap General Resources
/
SE FireMap Project Documents
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Tall Timbers SE FireMap Technical Oversite Team Update April 23, 2020
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The Natural Resources Conservation Service and U.S Endowment for Forestry and Communities
established the SE FireMap Technical Oversight Team (TOT) to serve as the advisory body for the
proposed SE FireMap initiative. The TOT is comprised of subject area experts from a variety of
organizations who expressed an interest in directly supporting the project.
Located in
Resources
/
SE FireMap General Resources
/
SE FireMap Project Documents
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Tangible Landscape as a tool for modeling and science communication
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In this webinar the Conservation Biology Institute introduce Tangible Landscape, a technology that links an interactive physical model with GRASS GIS through a real-time cycle of interaction, 3D scanning, geospatial computation, and 3D rendering.
Located in
Training
/
Videos and Webinars
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Tangled Trends for Temperate Rain Forests as Temperatures Tick Up
-
Climate change is altering growing
conditions in the temperate rain forest
region that extends from northern California
to the Gulf of Alaska. Longer,
warmer growing seasons are generally
increasing the overall potential for
forest growth in the region. However,
species differ in their ability to adapt
to changing conditions. For example,
researchers with Pacific Northwest
Research Station examined forest
trends for southeastern and southcentral
Alaska and found that, in 13
years, western redcedar showed a
4.2-percent increase in live-tree biomass,
while shore pine showed a
4.6-percent decrease. In general, the
researchers found that the amount of
live-tree biomass in extensive areas
of unmanaged, higher elevation forest
in southern Alaska increased by
as much as 8 percent over the 13-year
period, contributing to significant
carbon storage.
Hemlock dwarf mistletoe is another species
expected to fare well under warmer
conditions in Alaska. Model projections
indicate that habitat for this parasitic
species could increase 374 to 757 percent
over the next 100 years. This could
temper the prospects for western hemlock—a
tree species otherwise expected
to do well under future climate conditions
projected for southern Alaska.
In coastal forests of Washington and
Oregon, water availability may be a
limiting factor in future productivity,
with gains at higher elevations
but declines at lower elevations
Located in
Resources
/
Climate Science Documents
-
Tangled Trends for Temperate Rain Forests as Temperatures Tick Up
-
Climate change is altering growing
conditions in the temperate rain forest
region that extends from northern California
to the Gulf of Alaska. Longer,
warmer growing seasons are generally
increasing the overall potential for
forest growth in the region. However,
species differ in their ability to adapt
to changing conditions. For example,
researchers with Pacific Northwest
Research Station examined forest
trends for southeastern and southcentral
Alaska and found that, in 13
years, western redcedar showed a
4.2-percent increase in live-tree biomass,
while shore pine showed a
4.6-percent decrease. In general, the
researchers found that the amount of
live-tree biomass in extensive areas
of unmanaged, higher elevation forest
in southern Alaska increased by
as much as 8 percent over the 13-year
period, contributing to significant
carbon storage.
Hemlock dwarf mistletoe is another species
expected to fare well under warmer
conditions in Alaska. Model projections
indicate that habitat for this parasitic
species could increase 374 to 757 percent
over the next 100 years. This could
temper the prospects for western hemlock—a
tree species otherwise expected
to do well under future climate conditions
projected for southern Alaska.
In coastal forests of Washington and
Oregon, water availability may be a
limiting factor in future productivity,
with gains at higher elevations
but declines at lower elevations.
Located in
Resources
/
Climate Science Documents
-
Tankersley 1996.pdf
-
Located in
Resources
/
TRB Library
/
STE-TAN
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Tankersley 1996.pdf
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Located in
Resources
/
TRB Library
/
TAN-TEV
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Tankersley 1999.pdf
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Located in
Resources
/
TRB Library
/
TAN-TEV
