Chronic and episodic acidification of streams along the Appalachian Trail corridor, eastern United States

Burns, Douglas A.; McDonnell, Todd C.; Rice, Karen C.; Lawrence, Gregory B.; Sullivan, Timothy J.

doi:10.1002/hyp.13668

Cited by 12 publications

(6 citation statements)

References 55 publications

(124 reference statements)

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“…However, new trends are beginning to emerge, suggesting that these high elevation ecosystems are now responding to newly elevated cation deposition (e.g., NH 4 + ) and a reversal of past trends in acid deposition. Similar reversals of deposition trends and ecosystem recovery from acidification are documented in the literature, for example, in the Northeastern USA (Dethier et al, 2018; Fuss et al, 2015), as well as examples of episodic acidification (Burns et al, 2020), but the pathways of acid recovery are not well understood for the alpine ecosystems of the Rocky Mountains.…”

Section: Discussionsupporting

confidence: 56%

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Long‐Term Trends in Acid Precipitation and Watershed Elemental Export From an Alpine Catchment of the Colorado Rocky Mountains, USA

2020

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Acid deposition associated with precipitation is an ecological problem that has affected watersheds in industrialized parts of North America and Europe, but remote landscapes, such as the Colorado Rocky Mountains, have also been impacted. The deposition of strong acids, including nitric and sulfuric acids, has decreased substantially over the past 30 years at Niwot Ridge, a high‐alpine watershed of Colorado. The pH of precipitation has followed these declines and has increased to ~5.5. Meanwhile, NH4+, another important constituent of acid/base balance, and a fertilizing nutrient, has more than doubled in precipitation between 1984 and 2017. A statistical model of long‐term water chemistry concentrations and loads revealed a variety of trends in watershed export of acids and bases, some of which were unexpected, and remain unexplained. For example, despite declining sulfate deposition, sulfate export has increased. On the other hand, watershed nitrate export has remained constant despite decreases in atmospheric deposition, while watershed NH4+ export has increased, albeit minimally, relative to total nitrogen export. Watershed pH and alkalinity appear to have stabilized in response to decreased acid precipitation, which may be explained by geochemical processes, such as carbonate weathering. Overall, in this high‐alpine watershed, atmospheric deposition is trending toward preindustrial conditions, and there is a need to conduct targeted, process‐based studies to determine the mechanisms underlying these trends. The unexpected watershed responses that we identify here require a new framework for understanding acid precipitation recovery.

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Section: Discussionsupporting

confidence: 56%

“…Journal of Geophysical Research: Biogeosciences (Burns et al, 2020), but the pathways of acid recovery are not well understood for the alpine ecosystems of the Rocky Mountains.…”

Section: 1029/2020jg005683mentioning

confidence: 99%

Long‐Term Trends in Acid Precipitation and Watershed Elemental Export From an Alpine Catchment of the Colorado Rocky Mountains, USA

2020

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“…As such, they commonly migrate up streams from lakes to spawn. During the spring runoff, stream pH can attain values as low as 4 (Burns et al., 2019; Fakhraei & Driscoll, 2015). Many of the streams used by brook trout for spawning in northern New England and New York are also poorly buffered and can exhibit negative acid neutralizing capacities (e.g., Fuss et al., 2015; Gbondo‐Tugbawa & Driscoll, 2003; Hall et al., 1985).…”

Section: Resultsmentioning

confidence: 99%

Acidification Of Northeastern USA Lakes From Rising Anthropogenic‐Sourced Atmospheric Carbon Dioxide and Its Effects on Aluminum Speciation

Johannesson,

Horne,

Misra

et al. 2023

Geophysical Research Letters

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The impact of rising atmospheric CO2 (pCO2atm) from anthropogenic activities on pH, dissolved inorganic carbon, carbonate mineral saturation, and aluminum (Al) speciation is evaluated for 18 northeastern USA lakes using polythermal, sliding activity reaction path models. pCO2atm was forced using two scenarios from the IPCC's Sixth Assessment Report in which pCO2atm attains either 600 or 1,100 ppm in 2,100. Results suggest pH will decrease 0.15 and 0.32 pH units, will decrease 24% and 49%, and Ωaragonite will decrease 21% and 45%, respectively. These changes are of the same magnitude as those expected for the oceans. The effects of rising pCO2atm on sub‐lethal 20% effect concentrations (i.e., EC20) of Al for brook trout (Salvelinus fontinalis) are evaluated with the biotic ligand model, which indicates Al toxicity effects will increase as pH decreases. These changes could reverse gains in water quality and fisheries health achieved since implementation of the Clean Air Act.

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“…The analyses presented in this study focused on annual trends and may mask seasonal and event‐scale dynamics, such as episodic acidification during spring freshet that have been observed in the northeastern United States (Burns et al, 2020; Fuss et al, 2015; Riscassi et al, 2019). Future work will try to better understand intra and inter‐ annual changes in flowpaths across the elevation gradient at TLW.…”

Section: Discussionmentioning

confidence: 99%

Acidification recovery in a changing climate: Observations from thirty‐five years of stream chemistry monitoring in forested headwater catchments at the Turkey Lakes watershed, Ontario

Webster

Leach

Houle

et al. 2021

Hydrological Processes

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Long-term ecosystem studies are valuable for understanding integrated ecosystem response to global changes in atmospheric deposition and climate. We examined trends for a 35-year period (1982/83-2017/18) in concentrations of a range of solutes in precipitation and stream water from nine headwater catchments spanning elevation and surficial geology gradients at the Turkey Lakes watershed (TLW) in northeastern Ontario, Canada. Average annual water year (WY, October to September) concentra-

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Chronic and episodic acidification of streams along the Appalachian Trail corridor, eastern United States

Cited by 12 publications

References 55 publications

Long‐Term Trends in Acid Precipitation and Watershed Elemental Export From an Alpine Catchment of the Colorado Rocky Mountains, USA

Long‐Term Trends in Acid Precipitation and Watershed Elemental Export From an Alpine Catchment of the Colorado Rocky Mountains, USA

Acidification Of Northeastern USA Lakes From Rising Anthropogenic‐Sourced Atmospheric Carbon Dioxide and Its Effects on Aluminum Speciation

Acidification recovery in a changing climate: Observations from thirty‐five years of stream chemistry monitoring in forested headwater catchments at the Turkey Lakes watershed, Ontario

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