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1. Multi-trophic occupancy modeling connects temporal dynamics of woodpeckers and beetle sign following fire

Author

Tingley, Morgan W, Montgomery, Graham A, Wilkerson, Robert L, Cluck, Daniel R, Sawyer, Sarah C, and Siegel, Rodney B

Subjects
Ecological Applications, Environmental Sciences, Animals, Fires, Wildfires, Animals, Wild, Birds, Coleoptera, Trees, General Science & Technology
Abstract

In conifer forests of western North America, wildlife populations can change rapidly in the decade following wildfire as trees die and animals respond to concomitant resource pulses that occur across multiple trophic levels. In particular, black-backed woodpeckers (Picoides arcticus) show predictable temporal increases then declines following fire; this trajectory is widely believed to be a response to the woodpeckers' main prey, woodboring beetle larvae of the families Buprestidae and Cerambycidae, but we lack understanding of how abundances of these predators and prey may be associated in time or space. Here, we pair woodpecker surveys over 10 years with surveys of woodboring beetle sign and activity, collected at 128 survey plots across 22 recent fires, to ask whether accumulated beetle sign indicates current or past black-backed woodpecker occurrence, and whether that relationship is mediated by the number of years since fire. We test this relationship using an integrative multi-trophic occupancy model. Our results demonstrate that woodboring beetle sign is a positive indicator of woodpecker presence 1-3 years following fire, an uninformative indicator from 4-6 years after fire, and a negative indicator beginning 7 years following fire. Woodboring beetle activity, itself, is temporally variable and dependent on tree species composition, with beetle sign generally accumulating over time, particularly in stands with diverse tree communities, but decreasing over time in Pinus-dominated stands where faster bark decay rates lead to brief pulses of beetle activity followed by rapid degradation of tree substrate and accumulated beetle sign. Altogether, the strong connections of woodpecker occurrence to beetle activity support prior hypotheses of how multi-trophic interactions govern rapid temporal dynamics of primary and secondary consumers in burned forests. While our results indicate that beetle sign is, at best, a rapidly shifting and potentially misleading measure of woodpecker occurrence, the better we understand the interacting mechanisms underlying temporally dynamic systems, the more successfully we will be able to predict the outcomes of management actions.

Published
2023

6. Spotted owls and forest fire: Comment

Author

Jones, Gavin M, Gutiérrez, RJ, Block, William M, Carlson, Peter C, Comfort, Emily J, Cushman, Samuel A, Davis, Raymond J, Eyes, Stephanie A, Franklin, Alan B, Ganey, Joseph L, Hedwall, Shaula, Keane, John J, Kelsey, Rodd, Lesmeister, Damon B, North, Malcolm P, Roberts, Susan L, Rockweit, Jeremy T, Sanderlin, Jamie S, Sawyer, Sarah C, Solvesky, Ben, Tempel, Douglas J, Wan, Ho Yi, Westerling, A LeRoy, White, Gary C, and Peery, M Zachariah

Subjects
Ecological Applications, Ecology, Zoology
Published
2020

11. Correction: Managing Climate Change Refugia for Climate Adaptation

Author

Morelli, Toni Lyn, Daly, Christopher, Dobrowski, Solomon Z, Dulen, Deanna M, Ebersole, Joseph L, Jackson, Stephen T, Lundquist, Jessica D, Millar, Constance I, Maher, Sean P, Monahan, William B, Nydick, Koren R, Redmond, Kelly T, Sawyer, Sarah C, Stock, Sarah, and Beissinger, Steven R

Subjects
Climate Change Impacts and Adaptation, Environmental Sciences, Climate Action, General Science & Technology
Abstract

[This corrects the article DOI: 10.1371/journal.pone.0159909.].

Published
2017

12. Managing Climate Change Refugia for Climate Adaptation

Author

Morelli, Toni Lyn, Daly, Christopher, Dobrowski, Solomon Z, Dulen, Deanna M, Ebersole, Joseph L, Jackson, Stephen T, Lundquist, Jessica D, Millar, Constance I, Maher, Sean P, Monahan, William B, Nydick, Koren R, Redmond, Kelly T, Sawyer, Sarah C, Stock, Sarah, and Beissinger, Steven R

Subjects
Climate Change Impacts and Adaptation, Environmental Sciences, Climate Action, Adaptation, Physiological, Animals, Climate Change, Ecosystem, Rabbits, Refugium, General Science & Technology
Abstract

Refugia have long been studied from paleontological and biogeographical perspectives to understand how populations persisted during past periods of unfavorable climate. Recently, researchers have applied the idea to contemporary landscapes to identify climate change refugia, here defined as areas relatively buffered from contemporary climate change over time that enable persistence of valued physical, ecological, and socio-cultural resources. We differentiate historical and contemporary views, and characterize physical and ecological processes that create and maintain climate change refugia. We then delineate how refugia can fit into existing decision support frameworks for climate adaptation and describe seven steps for managing them. Finally, we identify challenges and opportunities for operationalizing the concept of climate change refugia. Managing climate change refugia can be an important option for conservation in the face of ongoing climate change.

Published
2016

20. Using bioacoustics to enhance the efficiency of spotted owl surveys and facilitate forest restoration.

Author

Kramer, H. Anu, Kelly, Kevin G., Whitmore, Sheila A., Berigan, William J., Reid, Dana S., Wood, Connor M., Klinck, Holger, Kahl, Stefan, Manley, Patricia N., Sawyer, Sarah C., and Peery, M. Zachariah

Subjects
FOREST restoration, FOREST surveys, OWLS, BIOACOUSTICS, DROUGHT management, FOREST management
Abstract

The California spotted owl (Strix occidentalis occidentalis) is an older‐forest associated species that resides at the center of forest management planning in the Sierra Nevada and Southern California, USA, which are experiencing increasingly large and severe wildfires and drought‐related tree mortality. We leveraged advances in passive acoustic survey technologies to develop an acoustically assisted survey design that could increase the efficiency and effectiveness of project‐level surveys for spotted owls, allowing surveys to be completed in a single year instead of in multiple years. We deployed an array of autonomous recording units (ARUs) across a landscape and identified spotted owl vocalizations in the resulting audio using BirdNET. We then evaluated spatio‐temporal patterns in spotted owl vocalizations near occupied territories and the ability of a crew naïve to the location of occupied territories to locate spotted owls based on patterns of acoustic detections. After only 3 weeks of acoustic surveys, ≥1 ARU within 750 m of all 17 occupied territories obtained spotted owl detections across ≥2 nights. When active surveys using broadcast calling were conducted near ARUs with spotted owl detections by surveyors naïve to territory occupancy status and locations, surveyors located owls in 93% to 100% of occupied territories with ≤3 surveys. To further improve the efficiency of spotted owl surveys, we developed a statistical model to identify and prioritize areas across the Sierra Nevada for different survey methods (active only, acoustically assisted, no surveys) based on the expected probability of occupancy predicted from remotely sensed measurements of tree height and historical occupancy. Depending on managers' tolerance for false negatives, this model could help identify large areas that might not benefit from surveys based on low expected occupancy probabilities and areas where acoustically assisted surveys might enhance survey effectiveness and efficiency. Collectively, these findings can help managers streamline the survey process and thus increase the pace of forest restoration while minimizing potential near‐term adverse effects on California spotted owls. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Tall, heterogeneous forests improve prey capture, delivery to nestlings, and reproductive success for Spotted Owls in southern California

Author

Wilkinson, Zachary A, primary, Kramer, H Anu, additional, Jones, Gavin M, additional, Zulla, Ceeanna J, additional, McGinn, Kate, additional, Barry, Josh M, additional, Sawyer, Sarah C, additional, Tanner, Richard, additional, Gutiérrez, R J, additional, Keane, John J, additional, and Peery, M Zachariah, additional

Published
2022
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25. Incorporating pyrodiversity into wildlife habitat assessments for rapid post‐fire management: A woodpecker case study.

Author

Stillman, Andrew N., Wilkerson, Robert L., Kaschube, Danielle R., Siegel, Rodney B., Sawyer, Sarah C., and Tingley, Morgan W.

Subjects
HABITATS, POST-fire forests, WOODPECKERS, FOREST fire ecology, ZOOGEOGRAPHY, FIELD research, SPATIAL variation
Abstract

Spatial and temporal variation in fire characteristics—termed pyrodiversity—are increasingly recognized as important factors that structure wildlife communities in fire‐prone ecosystems, yet there have been few attempts to incorporate pyrodiversity or post‐fire habitat dynamics into predictive models of animal distributions and abundance to support post‐fire management. We use the black‐backed woodpecker—a species associated with burned forests—as a case study to demonstrate a pathway for incorporating pyrodiversity into wildlife habitat assessments for adaptive management. Employing monitoring data (2009–2019) from post‐fire forests in California, we developed three competing occupancy models describing different hypotheses for habitat associations: (1) a static model representing an existing management tool, (2) a temporal model accounting for years since fire, and (3) a temporal–landscape model which additionally incorporates emerging evidence from field studies about the influence of pyrodiversity. Evaluating predictive ability, we found superior support for the temporal–landscape model, which showed a positive relationship between occupancy and pyrodiversity and interactions between habitat associations and years since fire. We incorporated the new temporal–landscape model into an RShiny application to make this decision‐support tool accessible to decision‐makers. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Forest heterogeneity outweighs movement costs by enhancing hunting success and fitness in spotted owls

Author

Zulla, Ceeanna J, primary, Jones, Gavin M., additional, Kramer, H. Anu, additional, Keane, John J., additional, Roberts, Kevin N., additional, Dotters, Brian P., additional, Sawyer, Sarah C., additional, Whitmore, Sheila A., additional, Berigan, William J., additional, Kelly, Kevin G., additional, Gutiérrez, R. J., additional, and Peery, M. Zachariah, additional

Published
2022
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30. Mega‐disturbances cause rapid decline of mature conifer forest habitat in California.

Author

Steel, Zachary L., Jones, Gavin M., Collins, Brandon M., Green, Rebecca, Koltunov, Alexander, Purcell, Kathryn L., Sawyer, Sarah C., Slaton, Michèle R., Stephens, Scott L., Stine, Peter, and Thompson, Craig

Subjects
CONIFEROUS forests, HABITATS, WILDFIRE prevention, FOREST declines, DROUGHT management, FOREST density, FOREST degradation, TROPICAL dry forests
Abstract

Mature forests provide important wildlife habitat and support critical ecosystem functions globally. Within the dry conifer forests of the western United States, past management and fire exclusion have contributed to forest conditions that are susceptible to increasingly severe wildfire and drought. We evaluated declines in conifer forest cover in the southern Sierra Nevada of California during a decade of record disturbance by using spatially comprehensive forest structure estimates, wildfire perimeter data, and the eDaRT forest disturbance tracking algorithm. Primarily due to the combination of wildfires, drought, and drought‐associated beetle epidemics, 30% of the region's conifer forest extent transitioned to nonforest vegetation during 2011–2020. In total, 50% of mature forest habitat and 85% of high density mature forests either transitioned to lower density forest or nonforest vegetation types. California spotted owl protected activity centers (PAC) experienced greater canopy cover decline (49% of 2011 cover) than non‐PAC areas (42% decline). Areas with high initial canopy cover and without tall trees were most vulnerable to canopy cover declines, likely explaining the disproportionate declines of mature forest habitat and within PACs. Drought and beetle attack caused greater cumulative declines than areas where drought and wildfire mortality overlapped, and both types of natural disturbance far outpaced declines attributable to mechanical activities. Drought mortality that disproportionately affects large conifers is particularly problematic to mature forest specialist species reliant on large trees. However, patches of degraded forests within wildfire perimeters were larger with greater core area than those outside burned areas, and remnant forest habitats were more fragmented within burned perimeters than those affected by drought and beetle mortality alone. The percentage of mature forest that survived and potentially benefited from lower severity wildfire increased over time as the total extent of mature forest declined. These areas provide some opportunity for improved resilience to future disturbances, but strategic management interventions are likely also necessary to mitigate worsening mega‐disturbances. Remaining dry mature forest habitat in California may be susceptible to complete loss in the coming decades without a rapid transition from a conservation paradigm that attempts to maintain static conditions to one that manages for sustainable disturbance dynamics. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Tall, heterogeneous forests improve prey capture, delivery to nestlings, and reproductive success for Spotted Owls in southern California.

Author

Wilkinson, Zachary A., Kramer, H. Anu, Jones, Gavin M., Zulla, Ceeanna J., McGinn, Kate, Barry, Josh M., Sawyer, Sarah C., Tanner, Richard, Gutiérrez, R. J., Keane, John J., and Peery, M. Zachariah

Subjects
BABY birds, BIRD reproduction, SPOTTED owl, BIRD habitats
Abstract

Copyright of Ornithological Applications is the property of Oxford University Press / USA and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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34. Elevational gradients strongly mediate habitat selection patterns in a nocturnal predator

Author

Kramer, H. Anu, primary, Jones, Gavin M., additional, Kane, Van R., additional, Bartl‐Geller, Bryce, additional, Kane, Jonathan T., additional, Whitmore, Sheila A., additional, Berigan, William J., additional, Dotters, Brian P., additional, Roberts, Kevin N., additional, Sawyer, Sarah C., additional, Keane, John J., additional, North, Malcolm P., additional, GutiÉrrez, R. J., additional, and Peery, M. Zachariah, additional

Published
2021
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40. Using the ecological significance of animal vocalizations to improve inference in acoustic monitoring programs.

Author

Wood, Connor M., Klinck, Holger, Gustafson, Michaela, Keane, John J., Sawyer, Sarah C., Gutiérrez, R. J., and Peery, M. Zachariah

Subjects
ANIMAL sound production, ANIMAL sounds, FALSE positive error, OCCUPANCY rates
Abstract

Copyright of Conservation Biology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2021
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41. Chapter 5: California Chaparral Case Study.

Author

Molinari, Nicole A., Underwood, Emma C., Sawyer, Sarah C., and Butz, Ramona J.

Subjects
CHEATGRASS brome, RIPARIAN plants, SOIL conservation, ECOLOGICAL restoration monitoring
Published
2021

42. Chapter 1: Principles of Postfire Restoration.

Author

Meyer, Marc D., Long, Jonathan W., Safford, Hugh D., Sawyer, Sarah C., North, Malcolm P., and White, Angela M.

Subjects
WETLAND restoration, FOREST fire ecology, CONSERVATION of natural resources, TRADITIONAL ecological knowledge, ECOSYSTEM management, NATURAL resources management, FORESTS & forestry, ECOSYSTEM services
Published
2021

45. Lessons from the Mist: What can International Environmental Law Learn from Gorilla Conservation Efforts?

Author

Sawyer, Jessica M. and Sawyer, Sarah C.

Subjects
*INTERNATIONAL environmental law, *ENVIRONMENTAL regulations, CONVENTION on Biological Diversity (1992), CONVENTION on International Trade in Endangered Species of Wild Fauna & Flora (1973)
Abstract

An essay is presented which argues that for international conservation treaties such as the Convention on Biological Diversity (CBD) and the Convention on Intemational Trade in Endangered Species (CITES) to be successful in practice, the international community must create a framework to ensure that local benefits outweigh local costs. It also examines the available sources of international environmental law and support designed to enable conservation projects.

Published
2011

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