Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range

Terrestrial ecosystems are shaped by natural disturbances such as wildland fire. In the intermountain western United States, forests, shrub and grasslands adapt to repeated fires. An important long-term legacy of wildland fires is black C (BC) commonly referred to as char or charcoal. Black C is a r...

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Main Author: Licata, Christopher William
Format: Text
Language:English
Published: Digital Commons @ DU 2012
Subjects:
Black carbon
Charcoal
Conifer forest
Fire
Fire regime
Rocky Mountains
College of Natual Science and Mathematics
Ecology and Evolutionary Biology
Life Sciences
Tundra
Online Access:https://digitalcommons.du.edu/etd/366
https://digitalcommons.du.edu/context/etd/article/1365/viewcontent/Licata_denver_0061D_10567.pdf
id ftunivdenverir:oai:digitalcommons.du.edu:etd-1365
record_format openpolar
spelling ftunivdenverir:oai:digitalcommons.du.edu:etd-1365 2023-08-27T04:12:25+02:00 Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range Licata, Christopher William 2012-03-01T08:00:00Z application/pdf https://digitalcommons.du.edu/etd/366 https://digitalcommons.du.edu/context/etd/article/1365/viewcontent/Licata_denver_0061D_10567.pdf en eng Digital Commons @ DU https://digitalcommons.du.edu/etd/366 https://digitalcommons.du.edu/context/etd/article/1365/viewcontent/Licata_denver_0061D_10567.pdf Electronic Theses and Dissertations Black carbon Charcoal Conifer forest Fire Fire regime Rocky Mountains College of Natual Science and Mathematics Ecology and Evolutionary Biology Life Sciences text 2012 ftunivdenverir 2023-08-10T18:00:28Z Terrestrial ecosystems are shaped by natural disturbances such as wildland fire. In the intermountain western United States, forests, shrub and grasslands adapt to repeated fires. An important long-term legacy of wildland fires is black C (BC) commonly referred to as char or charcoal. Black C is a recalcitrant C form that has been long known to influence soil physical, chemical, and biological processes that they vary across landscapes and over time. The objective of this research is to address two key areas in the emerging field of ecosystem BC research; 1) how much BC as charcoal C is formed per fire at a watershed scale and 2) how much charcoal C and total soil organic C are in mineral soil pools in the predominant Colorado Front Range vegetation types. For the former, we combined fire model results for fuel consumption with published charcoal conversion constants to create maps of predicted charcoal C per fire. These maps represent the first spatial estimates shown at a watershed scale. For the latter, we measured charcoal C pools in surface soils (0-10 cm) at mid-slope positions on east facing aspects in five continuous shrublands and forests from grassland to tundra. We found a significant statistical effect of vegetation type on soil charcoal C pools along this ecological gradient, but not a linear pattern of increasing charcoal C amounts with elevation gain. This study yielded the largest collection of soil samples analyzed for charcoal C in the United States. The geospatial data and thermo-chemical analysis methods developed here are an advance in the framework for evaluating the two critical phases in ecosystem black C cycling. Future modeling and field-based efforts are called for after revealing a landscape-pattern of SOC and charcoal C pools. Text Tundra University of Denver: Digital Commons @ DU
institution Open Polar
collection University of Denver: Digital Commons @ DU
op_collection_id ftunivdenverir
language English
topic Black carbon
Charcoal
Conifer forest
Fire
Fire regime
Rocky Mountains
College of Natual Science and Mathematics
Ecology and Evolutionary Biology
Life Sciences
spellingShingle Black carbon
Charcoal
Conifer forest
Fire
Fire regime
Rocky Mountains
College of Natual Science and Mathematics
Ecology and Evolutionary Biology
Life Sciences
Licata, Christopher William
Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range
topic_facet Black carbon
Charcoal
Conifer forest
Fire
Fire regime
Rocky Mountains
College of Natual Science and Mathematics
Ecology and Evolutionary Biology
Life Sciences
description Terrestrial ecosystems are shaped by natural disturbances such as wildland fire. In the intermountain western United States, forests, shrub and grasslands adapt to repeated fires. An important long-term legacy of wildland fires is black C (BC) commonly referred to as char or charcoal. Black C is a recalcitrant C form that has been long known to influence soil physical, chemical, and biological processes that they vary across landscapes and over time. The objective of this research is to address two key areas in the emerging field of ecosystem BC research; 1) how much BC as charcoal C is formed per fire at a watershed scale and 2) how much charcoal C and total soil organic C are in mineral soil pools in the predominant Colorado Front Range vegetation types. For the former, we combined fire model results for fuel consumption with published charcoal conversion constants to create maps of predicted charcoal C per fire. These maps represent the first spatial estimates shown at a watershed scale. For the latter, we measured charcoal C pools in surface soils (0-10 cm) at mid-slope positions on east facing aspects in five continuous shrublands and forests from grassland to tundra. We found a significant statistical effect of vegetation type on soil charcoal C pools along this ecological gradient, but not a linear pattern of increasing charcoal C amounts with elevation gain. This study yielded the largest collection of soil samples analyzed for charcoal C in the United States. The geospatial data and thermo-chemical analysis methods developed here are an advance in the framework for evaluating the two critical phases in ecosystem black C cycling. Future modeling and field-based efforts are called for after revealing a landscape-pattern of SOC and charcoal C pools.
format Text
author Licata, Christopher William
author_facet Licata, Christopher William
author_sort Licata, Christopher William
title Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range
title_short Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range
title_full Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range
title_fullStr Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range
title_full_unstemmed Fire-Derived Charcoal Along an Ecological Gradient in the Colorado Front Range
title_sort fire-derived charcoal along an ecological gradient in the colorado front range
publisher Digital Commons @ DU
publishDate 2012
url https://digitalcommons.du.edu/etd/366
https://digitalcommons.du.edu/context/etd/article/1365/viewcontent/Licata_denver_0061D_10567.pdf
genre Tundra
genre_facet Tundra
op_source Electronic Theses and Dissertations
op_relation https://digitalcommons.du.edu/etd/366
https://digitalcommons.du.edu/context/etd/article/1365/viewcontent/Licata_denver_0061D_10567.pdf
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