Microbial Processes in the Alaskan Boreal Forest

Forest ecosystems typically occur in moderate environments where growing season rainfall is adequate to support tree growth and where nongrowing season conditions are not too extreme. The Alaskan boreal forests, however, occur at the limit of the forest biome, in an environment that is climatically...

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Main Authors: Schimel, Joshua P., Chapin III, F. Stuart
Format: Book Part
Language:unknown
Published: Oxford University Press 2006
Subjects:
Online Access:http://dx.doi.org/10.1093/oso/9780195154313.003.0020
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spelling croxfordunivpr:10.1093/oso/9780195154313.003.0020 2023-05-15T17:58:18+02:00 Microbial Processes in the Alaskan Boreal Forest Schimel, Joshua P. Chapin III, F. Stuart 2006 http://dx.doi.org/10.1093/oso/9780195154313.003.0020 unknown Oxford University Press Alaska's Changing Boreal Forest book-chapter 2006 croxfordunivpr https://doi.org/10.1093/oso/9780195154313.003.0020 2022-08-05T10:31:38Z Forest ecosystems typically occur in moderate environments where growing season rainfall is adequate to support tree growth and where nongrowing season conditions are not too extreme. The Alaskan boreal forests, however, occur at the limit of the forest biome, in an environment that is climatically extreme, with strong physical gradients. The seasonal variation in temperature is among the greatest on earth, with winter temperatures as low as –50ºC and summer growing season temperatures that can reach +30ºC (Chapter 4). The growing season is short, the climate is semi-arid, and growing season rainfall is limited. Forests exist in the region because evapotranspiration is also limited. Steep south-facing slopes can be too dry to support tree growth (Chapter 6). In contrast, in flat, low-lying areas, low evapotranspiration combined with permafrost produces wetlands despite the low rainfall. Regular drought makes the forest highly susceptible to fires. At large scales (many square kilometers), the boreal forest experiences regular, extensive fires that destroy whole stands, resetting succession (Chapter 17). This regular fire cycle produces a patchwork mosaic of forest stands in different successional stages across the landscape (Dyrness et al. 1986, Kasischke and Stocks 2000; Chapter 7). In large rivers (e.g., the Tanana), the cutting and filling of meander loops washes away some forest stands while depositing new silt bars for colonization and succession (Zasada 1986). At the landscape scale, the biogeochemical cycles in the boreal forest are therefore dominated by landscape structure (e.g., dry uplands vs. wet lowlands) and by disturbance (particularly fire). At smaller scales, however, the strong feedbacks between plant and soil processes control much of the functioning of individual forest stands, and possibly the rate of transition among successional stages. In this chapter, we discuss how microbial processes in the boreal forest produce unusual patterns of nutrient cycling that drive the overall functioning of ... Book Part permafrost Oxford University Press (via Crossref)
institution Open Polar
collection Oxford University Press (via Crossref)
op_collection_id croxfordunivpr
language unknown
description Forest ecosystems typically occur in moderate environments where growing season rainfall is adequate to support tree growth and where nongrowing season conditions are not too extreme. The Alaskan boreal forests, however, occur at the limit of the forest biome, in an environment that is climatically extreme, with strong physical gradients. The seasonal variation in temperature is among the greatest on earth, with winter temperatures as low as –50ºC and summer growing season temperatures that can reach +30ºC (Chapter 4). The growing season is short, the climate is semi-arid, and growing season rainfall is limited. Forests exist in the region because evapotranspiration is also limited. Steep south-facing slopes can be too dry to support tree growth (Chapter 6). In contrast, in flat, low-lying areas, low evapotranspiration combined with permafrost produces wetlands despite the low rainfall. Regular drought makes the forest highly susceptible to fires. At large scales (many square kilometers), the boreal forest experiences regular, extensive fires that destroy whole stands, resetting succession (Chapter 17). This regular fire cycle produces a patchwork mosaic of forest stands in different successional stages across the landscape (Dyrness et al. 1986, Kasischke and Stocks 2000; Chapter 7). In large rivers (e.g., the Tanana), the cutting and filling of meander loops washes away some forest stands while depositing new silt bars for colonization and succession (Zasada 1986). At the landscape scale, the biogeochemical cycles in the boreal forest are therefore dominated by landscape structure (e.g., dry uplands vs. wet lowlands) and by disturbance (particularly fire). At smaller scales, however, the strong feedbacks between plant and soil processes control much of the functioning of individual forest stands, and possibly the rate of transition among successional stages. In this chapter, we discuss how microbial processes in the boreal forest produce unusual patterns of nutrient cycling that drive the overall functioning of ...
format Book Part
author Schimel, Joshua P.
Chapin III, F. Stuart
spellingShingle Schimel, Joshua P.
Chapin III, F. Stuart
Microbial Processes in the Alaskan Boreal Forest
author_facet Schimel, Joshua P.
Chapin III, F. Stuart
author_sort Schimel, Joshua P.
title Microbial Processes in the Alaskan Boreal Forest
title_short Microbial Processes in the Alaskan Boreal Forest
title_full Microbial Processes in the Alaskan Boreal Forest
title_fullStr Microbial Processes in the Alaskan Boreal Forest
title_full_unstemmed Microbial Processes in the Alaskan Boreal Forest
title_sort microbial processes in the alaskan boreal forest
publisher Oxford University Press
publishDate 2006
url http://dx.doi.org/10.1093/oso/9780195154313.003.0020
genre permafrost
genre_facet permafrost
op_source Alaska's Changing Boreal Forest
op_doi https://doi.org/10.1093/oso/9780195154313.003.0020
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