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Abstract (from Ecological Society of America): Large, severe fires are becoming more frequent in many forest types across the western United States and have resulted in tree mortality across tens of thousands of hectares. Conifer regeneration in these areas is limited because seeds must travel long distances to reach the interior of large burned patches and establishment is jeopardized by increasingly hot and dry conditions. To better inform postfire management in low elevation forests of California, USA, we collected 5‐year postfire recovery data from 1,234 study plots in 19 wildfires that burned from 2004–2012 and 18 years of seed production data from 216 seed fall traps (1999–2017). We used this data in conjunction...
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This data consists of presence/absence observations for post-fire conifer regeneration. The data also includes estimates of plot-level topography (slope, aspect), relativized differenced normalized burn ratio (RdNBR), post-fire climate, live basal area, and seed rain. These data support the following publication: Stewart, J.A.E., van Mantgem, P.J, Young, D.J.N., Shive, K.L., Preisler, H.K., Das, A.J., Stephenson, N.L., Keeley, J.E., Safford, H.D., Wright, M.C., Welch, K.R., Thorne, J.H. 2020. Influence of variable postfire climate and seed production on postfire conifer regeneration. Ecological Applications. https://doi.org/10.1002/eap.2280
Categories: Data;
Tags: Eldorado National Forest,
Forestry,
Klamath National Forest,
Lassen National Forest,
National Forest land in California, All tags...
Plumas National Forest,
San Bernardino National Forest,
Shasta National Forest,
Stanislaus National Forest,
Tahoe National Forest,
Trinity National Forest,
USGS Science Data Catalog (SDC),
biota,
coniferous trees,
fire damage,
forest ecosystems,
post-fire conifer regeneration,
precipitation (atmospheric),
terrestrial surface, Fewer tags
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