Carbon Sequestration in Alaska's Boreal Forest
Carbon Sequestration in Alaska's Boreal Forest

Author: Nancy Fresco

Publisher:

Published: 2006

Total Pages: 378

ISBN-13:

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Northern ecosystems and those who rely upon them are facing a time of unprecedented rapid change. Global boreal forests will play an important role in the feedback loop between climate, ecosystems, and society. In this thesis, I examine forest carbon dynamics and the potential for carbon management in Interior boreal Alaska in three distinct frameworks, then analyze my results in the context of social-ecological resilience. In Chapter 1, I analyze comparative historical trends and current regulatory frameworks governing the use and management of boreal forests in Russia, Sweden, Canada, and Alaska, and assess indicators of socio-ecological sustainability in these regions. I conclude that low population density, limited fire suppression, and restricted economic expansion in Interior Alaska have resulted in a 21st-century landscape with less compromised human-ecosystem interactions than other regions. Relative wealth and a strong regulatory framework put Alaska in a position to manage for long-term objectives such as carbon sequestration. In Chapter 2, I model the landscape-level ecological possibilities for sequestration under three different climate scenarios and associated changes in fire and forest growth. My results indicate that Interior Alaska could act as either a weak carbon source or as a weak sink in the next hundred years, and that management for carbon credits via fire suppression would be inadvisable, given the associated uncertainty and risks. In Chapter 3, I perform a social, ecological, and economic analysis of the feasibility of switching from fossil fuels to wood energy in Interior Alaska villages. I demonstrate that this is a viable option with the potential benefits of providing lower-cost power, creating local employment, reducing the risk of catastrophic wildfire near human habitation, and earning marketable carbon credits. Finally, in Chapter 4, I assess how each of the above factors may impact social-ecological resilience. My results show some system characteristics that tend to bolster resilience and others that tend to increase vulnerability. I argue that in order to reduce vulnerability, management goals for Alaska's boreal forest must be long-term, flexible, cooperative, and locally integrated.

Carbon Sequestration in Forests
Carbon Sequestration in Forests

Author: Ross W. Gorte

Publisher: DIANE Publishing

Published: 2009

Total Pages: 28

ISBN-13: 1437922678

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Contents: (1) Background: Congressional Interest in Carbon Sequestration; (2) Carbon Cycling in Forests: The Forest Cycle; Forest Types: Tropical Forests; Temperate Forests; Boreal Forests; (3) Measuring and Altering Forest Carbon Levels: Forest Carbon Accounting; Land Use Changes; Forestry Events and Management Activities: Vegetation and Soil Carbon; Forest Events ¿ Wildfires; Forestry Practices; Wood Energy; Leakage: Land Use Leakage; Product Demand Leakage; Federal Government Programs: Federal Forests; Federal Assistance for State and Private Forestry; Federal Tax Expenditures; Federal Programs Affecting Land Use; Accounting for Forest Carbon Sequestration; (4) Conclusions. Table.

Alaska's Changing Boreal Forest
Alaska's Changing Boreal Forest

Author: F. Stuart Chapin

Publisher: Oxford University Press

Published: 2006-01-12

Total Pages: 369

ISBN-13: 019534832X

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The boreal forest is the northern-most woodland biome, whose natural history is rooted in the influence of low temperature and high-latitude. Alaska's boreal forest is now warming as rapidly as the rest of Earth, providing an unprecedented look at how this cold-adapted, fire-prone forest adjusts to change. This volume synthesizes current understanding of the ecology of Alaska's boreal forests and describes their unique features in the context of circumpolar and global patterns. It tells how fire and climate contributed to the biome's current dynamics. As climate warms and permafrost (permanently frozen ground) thaws, the boreal forest may be on the cusp of a major change in state. The editors have gathered a remarkable set of contributors to discuss this swift environmental and biotic transformation. Their chapters cover the properties of the forest, the changes it is undergoing, and the challenges these alterations present to boreal forest managers. In the first section, the reader can absorb the geographic and historical context for understanding the boreal forest. The book then delves into the dynamics of plant and animal communities inhabiting this forest, and the biogeochemical processes that link these organisms. In the last section the authors explore landscape phenomena that operate at larger temporal and spatial scales and integrates the processes described in earlier sections. Much of the research on which this book is based results from the Bonanza Creek Long-Term Ecological Research Program. Here is a synthesis of the substantial literature on Alaska's boreal forest that should be accessible to professional ecologists, students, and the interested public.

Fire, Climate Change, and Carbon Cycling in the Boreal Forest
Fire, Climate Change, and Carbon Cycling in the Boreal Forest

Author: Eric S. Kasischke

Publisher: Springer Science & Business Media

Published: 2012-08-22

Total Pages: 490

ISBN-13: 0387216294

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A discussion of the direct and indirect mechanisms by which fire and climate interact to influence carbon cycling in North American boreal forests. The first section summarizes the information needed to understand and manage fires' effects on the ecology of boreal forests and its influence on global climate change issues. Following chapters discuss in detail the role of fire in the ecology of boreal forests, present data sets on fire and the distribution of carbon, and treat the use of satellite imagery in monitoring these regions as well as approaches to modeling the relevant processes.

The Potential of U.S. Forest Soils to Sequester Carbon and Mitigate the Greenhouse Effect
The Potential of U.S. Forest Soils to Sequester Carbon and Mitigate the Greenhouse Effect

Author: John M. Kimble

Publisher: CRC Press

Published: 2002-09-25

Total Pages: 650

ISBN-13: 1000738124

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Much attention has been given to above ground biomass and its potential as a carbon sink, but in a mature forest ecosystem 40 to 60 percent of the stored carbon is below ground. As increasing numbers of forests are managed in a wide diversity of climates and soils, the importance of forest soils as a potential carbon sink grows. The Potenti

Changes in the Source/Sink Relationships of the Alaskan Boreal Forest as a Result of Climatic Warming
Changes in the Source/Sink Relationships of the Alaskan Boreal Forest as a Result of Climatic Warming

Author: J. Yarie

Publisher:

Published: 1992

Total Pages: 4

ISBN-13:

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A modified version of the LINKAGES ecosystem simulation model is used to access the changes in the role of forests in the interior of Alaska to act as a source or sink of carbon over a fifty-year period. The study area is the Tanana Valley State Forest (TVSF). The TVSF occupies an area of 5523 hectares along the Tanana River from the Canadian Border to the confluence of the Tanana River and the Yukon River. The current inventory for the TVSF is used to develop a starting state for the model for ten vegetation classes. The model is run with the current climate until the current stand age for the various vegetation types is reached. Then a 5 deg C increase in mean annual temperature and a doubling in precipitation distributed evenly over the year is gradually added to the model. The model was then used to develop an average estimate of the atmospheric carbon sequestering for the current vegetation distribution of the productive forest types in the TVSF. This value was estimated as 392 g M-2 yr-1 for a 490,000-hectare area of interior Alaska.

Biomes and Climate Change
Biomes and Climate Change

Author:

Publisher:

Published: 2019

Total Pages: 45

ISBN-13: 9780716627685

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"Planet Earth is warming, causing climates to change. In [this book], learn how climate change affects Earth's many biomes -- for example, its deserts, forests, and tundra. Such biomes exist under only certain climate conditions." -- Back cover.

Sensitivity of Boreal Forest Carbon Dynamics to Long-term (1989-2005) Throughfall Exclusion in Interior Alaska)
Sensitivity of Boreal Forest Carbon Dynamics to Long-term (1989-2005) Throughfall Exclusion in Interior Alaska)

Author: Sarah A. Runck

Publisher:

Published: 2008

Total Pages: 138

ISBN-13:

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"The objective of this study was to assess the effect of throughfall exclusion (1989-2005) on forest vegetation and soil in upland and floodplain landscape positions. In uplands, imposed drought reduced soil moisture at 5, 10, and 20 cm depths and increased soil C storage by slowing decomposer activity at the surface. In the drought plots, aboveground tree growth was reduced and root biomass in mineral soil was increased. In floodplains, imposed drought did not reduce soil moisture as strongly as it did in uplands, though near-surface soil C storage was still increased as a result of reduced decomposer activity. Floodplain vegetation response to imposed drought differed from that of uplands; imposed drought did not reduce aboveground tree growth but instead reduced root biomass in mineral soil. At both landscape positions, imposed drought accelerated the loss of understory vegetation. Overall, the results of the throughfall exclusion indicated that chronic soil drying is likely to increase forest C storage only in floodplains. In uplands, where soil moisture is more limited, forest C storage is not as likely to change because an increase in soil C may be offset by reduced tree growth"--Leaf iii.

Quantifying Fire Severity and Carbon and Nitrogen Pools and Emissions in Alaska's Boreal Black Spruce Forest
Quantifying Fire Severity and Carbon and Nitrogen Pools and Emissions in Alaska's Boreal Black Spruce Forest

Author: Leslie A. Boby

Publisher:

Published: 2007

Total Pages:

ISBN-13:

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ABSTRACT: Fire severity can be defined as the amount of biomass combusted by wildfire. Stored carbon (C) and nitrogen (N) are emitted into the atmosphere as wildfires consume vegetation and soil organic layers, thus C and N emissions should be related to fire severity. Since boreal forests store 30% of the world's terrestrial C and are subject to high-intensity, stand-replacing wildfires, it is critical to be able to estimate C fluxes from wildfires. Furthermore, quantifying fire severity is important for predicting post-fire vegetation recovery and future C sequestration. We reconstructed pre-fire organic soil layers and quantified fire severity levels from the 2004 wildfires in Interior Alaska with the adventitious root height (ARH) method. We tested the ARH method in unburned stands and by comparing our reconstructed values in burned stands with actual prefire measurements. We found that ARH correlated to organic soil height in unburned stands (with a small offset of 3 cm). We measured organic soil (using the ARH method) and stand characteristics in boreal black spruce forest and estimated the amount of soil and canopy biomass consumed by fire. We compared these results to the composite burn index (CBI), a standardized visual method, which has not been widely used in the boreal forest. CBI assessments were significantly related to our ground and canopy fire severity estimates. We calculated C and N pools using C and N concentration and bulk density estimates from soils sampled in burned and unburned stands. We conclude that the ARH method can be used to reconstruct pre-fire organic soil depth, C and N pools and to assess fire severity. Furthermore, CBI shows promise as a way of estimating fire severity quickly and is a reasonably good predictor of biomass and soil C loss.