Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada

Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada

Abstract California spotted owls (CSOs) (Strix occidentalis occidentalis) have received significant conservation attention beginning with the U.S. Forest Service interim management guidelines in 1992. The most commonly reported forest habitat feature for successful nesting habitat of CSO is canopy c...

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Bibliographic Details
Main Authors: Scott L. Stephens, Jay D. Miller, Brandon M. Collins, Malcolm P. North, John J. Keane, Susan L. Roberts
Format: Article
Language:English
Published: Wiley 2016-11-01
Series:Ecosphere
Subjects:
coarse filter
conservation
fine–filter
Jeffrey pine
mixed conifer forests
ponderosa pine
Online Access:https://doi.org/10.1002/ecs2.1478
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spelling doaj-54ea05930dcf446c92edc923feda907e2020-11-25T01:24:07ZengWileyEcosphere2150-89252016-11-01711n/an/a10.1002/ecs2.1478Wildfire impacts on California spotted owl nesting habitat in the Sierra NevadaScott L. Stephens0Jay D. Miller1Brandon M. Collins2Malcolm P. North3John J. Keane4Susan L. Roberts5Division of Ecosystem Science Department of Environmental Science, Policy, and Management University of California 130 Mulford Hall Berkeley California 94720 USAUSDA Forest Service Pacific Southwest Region, Fire and Aviation Management McClellan California 95652 USAPacific Southwest Research Station USDA Forest Service Davis California 95618 USAPacific Southwest Research Station USDA Forest Service Davis California 95618 USAPacific Southwest Research Station USDA Forest Service Davis California 95618 USAUniversity of California, Merced, Sierra Nevada Research Station 7799 Chilnualna Falls Road Wawona California 95389 USAAbstract California spotted owls (CSOs) (Strix occidentalis occidentalis) have received significant conservation attention beginning with the U.S. Forest Service interim management guidelines in 1992. The most commonly reported forest habitat feature for successful nesting habitat of CSO is canopy cover > 70%. Loss and degradation of Sierra Nevada CSO habitat, however, has been a growing concern, initially from commercial tree harvesting and, more recently, from wildfire. This study examined trends in wildfire impacts on potential nesting habitat of the CSO and discusses different management approaches that might lead to the conservation of CSO in fire‐dependent forests. A total of 85,046 ha of CSO potential nesting habitat was burned by fire that resulted in ≥ 50% tree basal area (BA) mortality, reducing canopy cover on average to < 25%, during 2000–2014; this included 2.7%, 12.3%, and 7.6% of dense red fir (Abies magnifica), eastside pine, and westside forests, respectively. Based on regression predictions, within the next 75 yr, the cumulative amount of nesting habitat burned at ≥ 50% tree basal area mortality will exceed the total existing habitat. Four management strategies are discussed that could enhance the conservation of the CSO: (1) increased fire suppression, (2) strategically reducing fire hazards using mechanical treatments and/or prescribed fire, (3) increasing the amount of managed wildfire in CSO habitat, and (4) developing a landscape strategy that uses historical forest structure information to identify areas where high‐canopy cover forests are more sustainable. Our estimates of how moderate‐ and high‐severity fire may affect forests into the future poise a substantial threat to CSO persistence. More comprehensive forest restoration activities may be needed in CSO habitat to avoid significant losses of older forests.https://doi.org/10.1002/ecs2.1478coarse filterconservationfine–filterJeffrey pinemixed conifer forestsponderosa pine
collection DOAJ
language English
format Article
sources DOAJ
author Scott L. Stephens
Jay D. Miller
Brandon M. Collins
Malcolm P. North
John J. Keane
Susan L. Roberts
spellingShingle Scott L. Stephens
Jay D. Miller
Brandon M. Collins
Malcolm P. North
John J. Keane
Susan L. Roberts
Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada
Ecosphere
coarse filter
conservation
fine–filter
Jeffrey pine
mixed conifer forests
ponderosa pine
author_facet Scott L. Stephens
Jay D. Miller
Brandon M. Collins
Malcolm P. North
John J. Keane
Susan L. Roberts
author_sort Scott L. Stephens
title Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada
title_short Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada
title_full Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada
title_fullStr Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada
title_full_unstemmed Wildfire impacts on California spotted owl nesting habitat in the Sierra Nevada
title_sort wildfire impacts on california spotted owl nesting habitat in the sierra nevada
publisher Wiley
series Ecosphere
issn 2150-8925
publishDate 2016-11-01
description Abstract California spotted owls (CSOs) (Strix occidentalis occidentalis) have received significant conservation attention beginning with the U.S. Forest Service interim management guidelines in 1992. The most commonly reported forest habitat feature for successful nesting habitat of CSO is canopy cover > 70%. Loss and degradation of Sierra Nevada CSO habitat, however, has been a growing concern, initially from commercial tree harvesting and, more recently, from wildfire. This study examined trends in wildfire impacts on potential nesting habitat of the CSO and discusses different management approaches that might lead to the conservation of CSO in fire‐dependent forests. A total of 85,046 ha of CSO potential nesting habitat was burned by fire that resulted in ≥ 50% tree basal area (BA) mortality, reducing canopy cover on average to < 25%, during 2000–2014; this included 2.7%, 12.3%, and 7.6% of dense red fir (Abies magnifica), eastside pine, and westside forests, respectively. Based on regression predictions, within the next 75 yr, the cumulative amount of nesting habitat burned at ≥ 50% tree basal area mortality will exceed the total existing habitat. Four management strategies are discussed that could enhance the conservation of the CSO: (1) increased fire suppression, (2) strategically reducing fire hazards using mechanical treatments and/or prescribed fire, (3) increasing the amount of managed wildfire in CSO habitat, and (4) developing a landscape strategy that uses historical forest structure information to identify areas where high‐canopy cover forests are more sustainable. Our estimates of how moderate‐ and high‐severity fire may affect forests into the future poise a substantial threat to CSO persistence. More comprehensive forest restoration activities may be needed in CSO habitat to avoid significant losses of older forests.
topic coarse filter
conservation
fine–filter
Jeffrey pine
mixed conifer forests
ponderosa pine
url https://doi.org/10.1002/ecs2.1478
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