Declining water yield from forested mountain watersheds in response to climate change and forest mesophication

Caldwell, Peter V.; Miniat, Chelcy Ford; Elliott, Katherine J.; Swank, Wayne T.; Brantley, Steven T.; Laseter, Stephanie H.

doi:10.1111/gcb.13309

Cited by 101 publications

(76 citation statements)

References 83 publications

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“…Even as the ESMs project increasing precipitation and temperature, we see the variability in responses through the cascade of scale and land cover variability. This finding is consistent with other studies that observed that variability (forest cover composition and topography) in the area and size of forest-shrub conversion can buffer responses of streamflow or evapotranspiration shifts from climate change (Winkler et al, 2014;Caldwell et al, 2016).…”

Section: Changing Streamflow and Water Balancessupporting

confidence: 93%

“…Studies pointing towards increased streamflow also broadly found evapotranspiration from the canopy decreased, leading to an increase in runoff. However, work based on observations across scales and encompassing multiple disturbances indicates that the regrowth potential for understory, such as shrubs used in this study, is high and that the regrowth is a major controlling factor for water availability and direction of change for evapotranspiration and runoff (Caldwell et al, 2016;Biederman et al, , 2015Brown et al, 2014;Pribulick et al, 2016). Moreover, ecologists project that global forest covers are expected to decline and be replaced with species and understory compositions that are more water intensive.…”

Section: Discussionmentioning

confidence: 90%

“…Effects may also be impacted by the type of post-disturbance regrowth and extent of disturbance that occurs, such as increases or a difference in shrubs, grasses, forbs coverage, or differences in the composition of tree species that replace the forests (Buma and Livneh, 2017). For instance, water-yield declines have been associated with changes in species compositions of forests in the southern Appalachian Mountains (Caldwell et al, 2016). A recent study indicates that soil water residence time is a key factor in water availability post-disturbance owing to limited (or enhanced) evapotranspiration processes (Buma and Livneh, 2017).…”

Section: K E Bennett Et Al: Climate-driven Disturbances In the Sanmentioning

confidence: 99%

“…In addition, we investigated the aridity effect upon water availability under forest disturbances using a one-cell analysis. Some studies have suggested an aridity effect, whereby basins with less than 500 mm annual precipitation will see streamflow decrease and vice-versa (Guardiola-Claramonte et al, 2011;Adams et al, 2012), although this finding is not supported in all work (Brown et al, 2010;Caldwell et al, 2016). For the single cell, we considered climate change by adding +3 • C (warm) and +6 • C (hot) to the temperature time series and changing precipitation by 20 or −20 %.…”

Section: Climate and Vegetation Change Scenariosmentioning

confidence: 99%

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Climate-driven disturbances in the San Juan River sub-basin of the Colorado River

Bennett

Bohn

Solander

et al. 2018

Hydrol. Earth Syst. Sci.

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Abstract. Accelerated climate change and associated forest disturbances in the southwestern USA are anticipated to have substantial impacts on regional water resources. Few studies have quantified the impact of both climate change and land cover disturbances on water balances on the basin scale, and none on the regional scale. In this work, we evaluate the impacts of forest disturbances and climate change on a headwater basin to the Colorado River, the San Juan River watershed, using a robustly calibrated (Nash-Sutcliffe efficiency 0.76) hydrologic model run with updated formulations that improve estimates of evapotranspiration for semiarid regions. Our results show that future disturbances will have a substantial impact on streamflow with implications for water resource management. Our findings are in contradiction with conventional thinking that forest disturbances reduce evapotranspiration and increase streamflow. In this study, annual average regional streamflow under the coupled climate-disturbance scenarios is at least 6-11 % lower than those scenarios accounting for climate change alone; for forested zones of the San Juan River basin, streamflow is 15-21 % lower. The monthly signals of altered streamflow point to an emergent streamflow pattern related to changes in forests of the disturbed systems. Exacerbated reductions of mean and low flows under disturbance scenarios indicate a high risk of low water availability for forested headwater systems of the Colorado River basin. These findings also indicate that explicit representation of land cover disturbances is required in modeling efforts that consider the impact of climate change on water resources.

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Section: Changing Streamflow and Water Balancessupporting

confidence: 93%

Section: Discussionmentioning

confidence: 90%

Section: K E Bennett Et Al: Climate-driven Disturbances In the Sanmentioning

confidence: 99%

Section: Climate and Vegetation Change Scenariosmentioning

confidence: 99%

See 2 more Smart Citations

Climate-driven disturbances in the San Juan River sub-basin of the Colorado River

Bennett

Bohn

Solander

et al. 2018

Hydrol. Earth Syst. Sci.

View full text Add to dashboard Cite

show abstract

“…For example, in many temperate forest communities in the eastern United States (U.S.), recent decreases in the abundance of oak species have been associated with impacts on biodiversity, wildlife habitat, and water quantity (Fralish 2004;Nowacki and Abrams 2008;Hanberry 2013;Hiers et al 2014;Caldwell et al 2016). Because changes in tree species composition can affect forest functions in these ways, characterizing species composition of existing forest communities is important for understanding the functions of those communities (Tierney et al 2009; Thompson et al 2013).…”

Section: Introductionmentioning

confidence: 99%

Classifying forest inventory data into species-based forest community types at broad extents: exploring tradeoffs among supervised and unsupervised approaches

et al. 2018

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Background: Knowledge of the different kinds of tree communities that currently exist can provide a baseline for assessing the ecological attributes of forests and monitoring future changes. Forest inventory data can facilitate the development of this baseline knowledge across broad extents, but they first must be classified into forest community types. Here, we compared three alternative classifications across the United States using data from over 117,000 U.S. Department of Agriculture Forest Service Forest Inventory and Analysis (FIA) plots. Methods: Each plot had three forest community type labels: (1) "FIA" types were assigned by the FIA program using a supervised method; (2) "USNVC" types were assigned via a key based on the U.S. National Vegetation Classification; (3) "empirical" types resulted from unsupervised clustering of tree species information. We assessed the degree to which analog classes occurred among classifications, compared indicator species values, and used random forest models to determine how well the classifications could be predicted using environmental variables.

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Assessment of wildland fire impacts on watershed annual water yield: Analytical framework and case studies in the United States

et al. 2016

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More than 50% of water supplies in the conterminous United States originate on forestland or rangeland and are potentially under increasing stress as a result of larger and more severe wildfires. Little is known, however, about the long-term impacts of fire on annual water yield and the role of climate variability within this context. We here propose a framework for evaluating wildland fire impacts on streamflow that combines double-mass analysis with new methods (change point analysis, climate elasticity modeling, and process-based modeling) to distinguish between multiyear fire and climate impacts. The framework captures a wide range of fire types, watersheds characteristics, and climate conditions using streamflow data, as opposed to other approaches requiring paired watersheds. The process is illustrated with three case studies. A watershed in Arizona experienced a +266% increase in annual water yield in the 5 years after a wildfire, where +219% was attributed to wildfire and +24% to precipitation trends. In contrast, a California watershed had a lower (−64%) post-fire net water yield, comprised of enhanced flow (+38%) attributed to wildfire offset (−102%) by lower precipitation in the post-fire period.Changes in streamflow within a watershed in South Carolina had no apparent link to periods of prescribed burning but matched a very wet winter and reports of storm damage. The presented framework is unique in its ability to detect and quantify fire or other disturbances, even if the date or nature of the disturbance event is uncertain, and regardless of precipitation trends.

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Declining water yield from forested mountain watersheds in response to climate change and forest mesophication

Cited by 101 publications

References 83 publications

Climate-driven disturbances in the San Juan River sub-basin of the Colorado River

Climate-driven disturbances in the San Juan River sub-basin of the Colorado River

Classifying forest inventory data into species-based forest community types at broad extents: exploring tradeoffs among supervised and unsupervised approaches

Assessment of wildland fire impacts on watershed annual water yield: Analytical framework and case studies in the United States

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