Add to ORKGFinal Report / Prepared for: The Devils Tower Natural History AssociationIn the fall of 1982 the Modern Studies section of the Laboratory of Tree-Ring Research agreed to analyze increment cores and cross sections of ponderosa pine (Pinus ponderosa) from Devils Tower National Monument for the purpose of providing a tree-ring chronology and a chronology of fire occurrence in Devils Tower. Three subsites were chosen and sampled in November, 1982 by Richard Guilmette of Devils Tower National Monument. A cross section was taken from one fire-scarred tree on each subsite, and increment cores were taken from ten trees on each subsite. Increment cores were collected from four additional trees on subsite DSF (vicinity of Tree 11) in January, 1983, i...
To create a database of existing published and unpublished tree-ring reconstructions of fire regimes...
Fire-scarred cross-sections from coast redwood (Sequoia sempervirens) at two sites were dendrochrono...
Historic fire return intervals in three different vegetation types dominated by ponderosa pine (Pinu...
Final Report to National Park Service, Southern Arizona Group OfficeEighteen samples of fire-scarred...
This study documents over six centuries of historic fire events at Devils Tower National Monument in...
Report Prepared For: The Silviculture Laboratory, Bend, OregonIn 1982 the Silviculture Laboratory lo...
A fire scar chronology was constructed from ponderosa pine (Pinus ponderosa Dougl. ex Laws.) and Roc...
Fire history was investigated in 4 curlleaf mountain-mahogany (Cercocarpus ledifolius) communities c...
Knowledge regarding the historic role of fire in forest ecosystems is often derived by dating fire s...
In an effort to better understand past climates, fire regimes, and vegetation response to climate in...
Growth-ring studies were made on material from 28 pinyon (Pinus monophylla) stumps, cut in the late ...
Few tree-ring based fire-history studies have been completed in pine ecosystems of the Southeastern ...
Traditional counting of tree rings between fire scars to establish a fire history is examined for a ...
Scientists use climate proxies, such as tree rings, to extend the climate record back in time, addin...
Dendroecology is the science that dates tree rings to their exact calendar year of formation to stud...
To create a database of existing published and unpublished tree-ring reconstructions of fire regimes...
Fire-scarred cross-sections from coast redwood (Sequoia sempervirens) at two sites were dendrochrono...
Historic fire return intervals in three different vegetation types dominated by ponderosa pine (Pinu...
Final Report to National Park Service, Southern Arizona Group OfficeEighteen samples of fire-scarred...
This study documents over six centuries of historic fire events at Devils Tower National Monument in...
Report Prepared For: The Silviculture Laboratory, Bend, OregonIn 1982 the Silviculture Laboratory lo...
A fire scar chronology was constructed from ponderosa pine (Pinus ponderosa Dougl. ex Laws.) and Roc...
Fire history was investigated in 4 curlleaf mountain-mahogany (Cercocarpus ledifolius) communities c...
Knowledge regarding the historic role of fire in forest ecosystems is often derived by dating fire s...
In an effort to better understand past climates, fire regimes, and vegetation response to climate in...
Growth-ring studies were made on material from 28 pinyon (Pinus monophylla) stumps, cut in the late ...
Few tree-ring based fire-history studies have been completed in pine ecosystems of the Southeastern ...
Traditional counting of tree rings between fire scars to establish a fire history is examined for a ...
Scientists use climate proxies, such as tree rings, to extend the climate record back in time, addin...
Dendroecology is the science that dates tree rings to their exact calendar year of formation to stud...
To create a database of existing published and unpublished tree-ring reconstructions of fire regimes...
Fire-scarred cross-sections from coast redwood (Sequoia sempervirens) at two sites were dendrochrono...
Historic fire return intervals in three different vegetation types dominated by ponderosa pine (Pinu...