Resilience of terrestrial and aquatic fauna to historical and future wildfire regimes in western North America

Jager, Henriëtte I.; Long, Jonathan W.; Malison, Rachel L.; Murphy, Brendan P.; Rust, Ashley; Silva, Luiz G. M.; Sollmann, Rahel; Steel, Zachary L.; Bowen, Mark; Dunham, Jason B.; Ebersole, Joseph L.; Flitcroft, Rebecca

doi:10.1002/ece3.8026

Cited by 32 publications

(26 citation statements)

References 335 publications

(406 reference statements)

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“…When stream temperature warms, it can negatively impact sensitive cold water aquatic species, such as salmonid fishes and amphibians, by reducing habitat suitability for spawning and rearing life stages, and influencing individual metabolism and behaviour (Dallas & Ross‐Gillespie, 2015; Eaton & Scheller, 1996; Hester & Doyle, 2011; McCullough et al, 2009; Sloat & Osterback, 2013; Welsh, Hodgson, Harvey, & Roche, 2001). Recent studies have illustrated that climate change and shifts in forest disturbance regimes have the potential to intensify thermal pollution and increase the risks to anadromous fish and other aquatic vertebrate populations (Benjamin, Connolly, Romine, & Perry, 2013; Jager et al, 2021; Thomas et al, 2004; Wagner et al, 2014) In Mediterranean climates, the threat to aquatic species is particularly important during the summer low flow period, when precipitation inputs are low and both thermal inputs from solar radiation and convective heat exchange between the warm air and cooler streams are at their maximum (Arismendi et al, 2013; Larsen & Woelfle‐Erskine, 2018; Xu et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Comparing headwater stream thermal sensitivity across two distinct regions in Northern California

Wissler

Segura

Bladon

2022

Hydrological Processes

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Thermal regimes in headwater streams are critical for freshwater ecological condition and habitat resilience to disturbance, and to inform sustainable forest management. However, stream temperatures vary depending on characteristics of the stream, catchment, or region. To improve our knowledge of stream thermal regimes, we collected stream and air temperature data along eight headwater streams in two regions in Northern California. Five streams were in the Coast Range, which is characterized by permeable sandstone lithology, rain dominated precipitation regime, and dense coast redwood forests. Three streams were in the Cascade Range, which is characterized by fractured and resistant basalt lithology, snow dominated precipitation, and low to moderate density pine forests. We instrumented each stream with 12 stream temperature and four air temperature sensors during summer 2018. We compared stream thermal regimes and thermal sensitivity—slope of the linear regression between daily stream and air temperature—within and between study regions. Mean daily stream temperatures were ~4.7°C warmer in the Coast Range but were less variable (SD = 0.7°C) compared to the Cascade Range (SD = 2.3°C). Median thermal sensitivity was 0.33°C °C−1 in the Coast Range and 0.23°C °C−1 in the Cascade Range. We posit that the volcanic lithology underlying the Cascade streams likely supported discrete groundwater discharge locations of cold snowmelt water, which dampened thermal sensitivity. At locations of apparent groundwater discharge in these streams, median stream temperatures rapidly decreased by 2.0–7.0°C relative to locations 70–90 m upstream. In contrast, thin friable soils in the Coast Range likely contributed warmer, rain dominated baseflow from shallow subsurface sources, which strongly co‐varied with air temperature and generally warmed downstream (up to 2.1°C km−1). Our study revealed distinct longitudinal thermal regimes in streams with contrasting lithology, precipitation regimes, and stand densities suggesting that streams in these different regions may respond differentially to forest disturbances or climate change.

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Section: Introductionmentioning

confidence: 99%

Comparing headwater stream thermal sensitivity across two distinct regions in Northern California

Wissler

Segura

Bladon

2022

Hydrological Processes

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“…Historical wildfire regimes in our study area were characterized by infrequent (>200‐year return interval), high‐severity fires, whereby subalpine and boreal forests would recover long before another burn (Jager et al, 2021; Turner & Romme, 1994). In the near term, however, wildfire frequency, severity, and area burned are predicted to increase (Hagmann et al, 2021), which could affect overwintering sites in upland habitat and critical riparian corridors, which were strongly preferred by boreal toads during the summer foraging season (July–September; Barrile, Chalfoun, & Walters, 2021b).…”

Section: Discussionmentioning

confidence: 99%

Wildfire influences individual growth and breeding dispersal, but not survival and recruitment in a montane amphibian

et al. 2022

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Global wildfire regimes are changing rapidly, with widespread increases in the size, frequency, duration, and severity of wildfires. Whereas the effects of wildfire on ecological state variables such as occupancy, abundance, and species diversity are relatively well documented, changes in population vital rates (e.g., survival, recruitment) and individual responses (e.g., growth, movement) to wildfire are more limited because of the detailed information needed on the same individuals both pre-and post-fire. We capitalized on the 2018 Roosevelt wildfire, which occurred during our 6-year (2015-2020) capture-mark-recapture study of boreal toads (Anaxyrus boreas boreas; n = 1415) in the Bridger-Teton National Forest, USA, to evaluate the responses of population vital rates and individual metrics to wildfire. We employed robust design capture-recapture models to compare the growth, dispersal, survival, and recruitment of adult boreal toads pre-and post-fire at burned versus unburned sites. At burned locations, growth increased 2 years post-fire compared with the year directly following wildfire and was higher 2 years post-fire than any other interval during our study period.Boreal toads dispersed to alternative breeding patches more at burned sites than unburned sites and dispersal increased 2 years post-fire compared with the year directly following wildfire. Annual survival and recruitment neither differed between pre-and post-fire years nor among pre-fire years, the year following wildfire, and 2 years post-fire. We demonstrate that, in certain contexts, dispersal can play a major role in changes to state variables (e.g., abundance) after wildfire, as opposed to other vital rates such as survival and recruitment. Our study represents

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“…Trophic cascade effects, such as a longer‐term reduction in leaf litter inputs post‐wildfire (Bixby et al, 2015), are also likely to differ between reconnected river corridors and unrestored river corridors. However, the current literature on the interplay between aquatic ecosystems, wildfires and trophic cascades indicates context‐specific and complex processes that require more research to be understood for a management context (Jager et al, 2021; Minshall, 2003; Verkaik et al, 2015). For instance, aquatic–riparian ecosystems are influenced by the timing of climatic variables, such as precipitation, in concurrence with wildfire events (Jackson & Sullivan, 2015), or reduction of riparian shading, which promotes algal growth, producing shorter‐term flood–wildfire productivity pulse events (Malison & Baxter, 2010).…”

Section: Mechanisms Generating Positive Biodiversity Outcomes From Ri...mentioning

confidence: 99%

A possible role for river restoration enhancing biodiversity through interaction with wildfire

Pugh

Colley

Dugdale

et al. 2022

Global Ecol Biogeogr

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Background: Historically, wildfire regimes produced important landscape-scale disturbances in many regions globally. The "pyrodiversity begets biodiversity" hypothesis suggests that wildfires that generate temporally and spatially heterogeneous mosaics of wildfire severity and post-burn recovery enhance biodiversity at landscape scales.However, river management has often led to channel incision that disconnects rivers from their floodplains, desiccating floodplain habitats and depleting groundwater. In conjunction with predicted increases in frequency, intensity and extent of wildfires under climate change, this increases the likelihood of deep, uniform burns that reduce biodiversity. Predicted synergy of river restoration and biodiversity increase:Recent focus on floodplain re-wetting and restoration of successional floodplain habitat mosaics, developed for river management and flood prevention, could reduce wildfire intensity in restored floodplains and make the burns less uniform, increasing climate-change resilience; an important synergy. According to theory, this would also enhance biodiversity. However, this possibility is yet to be tested empirically. We suggest potential research avenues. Illustration and future directions:We illustrate the interaction between wildfire and river restoration using a restoration project in Oregon, USA. A project to reconnect the South Fork McKenzie River and its floodplain suffered a major burn ("Holiday Farm" wildfire, 2020), offering a rare opportunity to study the interaction between this type of river restoration and wildfire; specifically, the predicted increases in pyrodiversity and biodiversity. Given the importance of river and wetland ecosystems for biodiversity globally, a research priority should be to increase our understanding of potential mechanisms for a "triple win" of flood reduction, wildfire alleviation and biodiversity promotion.

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Resilience of terrestrial and aquatic fauna to historical and future wildfire regimes in western North America

Cited by 32 publications

References 335 publications

Comparing headwater stream thermal sensitivity across two distinct regions in Northern California

Comparing headwater stream thermal sensitivity across two distinct regions in Northern California

Wildfire influences individual growth and breeding dispersal, but not survival and recruitment in a montane amphibian

A possible role for river restoration enhancing biodiversity through interaction with wildfire

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