Aluminum in acidic surface waters: chemistry, transport, and effects.

Driscoll, Charles T.

doi:10.1289/ehp.856393

Cited by 108 publications

(38 citation statements)

References 42 publications

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“…Though pH tolerance levels offer a general ranking of each species' sensitivity in acidified systems, many studies have shown that other factors such as Al im , DOC, and Ca 2+ , along with the timing and magnitude of episodic fluctuations in toxic acid and Al im concentrations, are strongly related to the degree of stream acidification and influence fish survival in natural systems (Baker et al, 1990;Gagen et al, 1993;Simonin et al, 1993;Van Sickle et al, 1996;Baldigo and Murdoch, 1997). Aluminum fractionation and Al im concentration are also directly dependent upon pH levels (Driscoll, 1985) and both acidity and Al im act in a similar manner to affect fish survival (Wood et al, 1990). These findings imply that the degree of stream acidification and related differences in stream-water chemistry may be primarily responsible for the restricted distributions of most fish-species' populations in the Neversink river, and in other similarly acidified riverine systems.…”

Section: Discussionmentioning

confidence: 99%

Effects of stream acidification and habitat on fish populations of a North American river

Baldigo

Lawrence

2001

Aquat. sci.

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Water quality, physical habitat, and fisheries at sixteen reaches in the Neversink River Basin were studied during 1991 -95 to identify the effects of acidic precipitation on stream-water chemistry and on selected fish-species populations, and to test the hypothesis that the degree of stream acidification affected the spatial distribution of each fish-species population. Most sites on the East Branch Neversink were strongly to severely acidified, whereas most sites on the West Branch were minimally to moderately acidified. Mean density of fish populations ranged from 0 to 2.15 fish/m 2 ; biomass ranged from 0 to 17.5 g/m 2 . Where brook trout were present, their population density ranged from 0.04 to 1.09 fish/m 2 , biomass ranged from 0.76 to 12.2 g/m 2 , and condition (K) ranged from 0.94 to 1.07. Regression analyses revealed strong relations (r 2 ± 0.41 to 0.99; p ≤ 0.05) between characteristics of the two most common species (brook trout and slimy sculpin) populations and mean concentrations of inorganic monomeric aluminum (Al im ), pH, Si, K + , NO 3 -, NH + 4 , DOC, Ca 2+ , and Na + ; acid neutralizing capacity (ANC); and water temperature. Stream acidification may have adversely affected fish populations at most East Branch sites, but in other parts of the Neversink River Basin these effects were masked or mitigated by other physical habitat, geochemical, and biological factors.

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Section: Discussionmentioning

confidence: 99%

Effects of stream acidification and habitat on fish populations of a North American river

Baldigo

Lawrence

2001

Aquat. sci.

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“…Stream acidification and mobilization of potentially toxic Al species are especially important concerns because many streams in the northeastern USA are already acidic and contain elevated Al concentrations due to acidic deposition (Driscoll, 1985;Johnson et al, 1981). The increased acidification caused by forest harvesting may therefore contribute additional stress to the aquatic ecosystem.…”

Section: Introductionmentioning

confidence: 99%

The effects of whole-tree clear-cutting on soil processes at the Hubbard Brook Experimental Forest, New Hampshire, USA

1994

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The effects of whole-tree clear-cutting on soil processes and streamwater chemistry were examined in a northern hardwood forest at the Hubbard Brook Experimental Forest, New Hampshire. Soil processes were examined by monitoring soil solution chemistry collected using zero-tension lysimeters from the Oa, Bh and Bs horizons at three sites along an elevationalivegetation gradient. Whole-tree clear-cutting created a severe ecosystem disturbance leading to leaching losses of nutrients from the soil profile, increased acidification, and elevated concentrations of Al-ions in soil solutions and streamwater. The response was driven by the process of nitrification that led to production of nitric acid in both the forest floor and mineral soil horizons. This acidity was largely neutralized by release and leaching of basic cations and inorganic monomeric Al-ions leaching with the NO,-ions. The major source of nutrient loss was from the forest floor. The chemical response to the clear-cut was most intense during the second year following the treatment and declined to near reference concentrations in 4-5 years. High elevation sites showed the greatest response to disturbance and the slowest recovery of soil solution concentrations to pre-cut concentrations. Shallow soils and a slower recovery of vegetation at the upper elevation sites were the primary factors contributing to the enhanced disturbance and delayed recovery (and enhanced response to disturbance in the upper elevation sites).

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“…The speciation of Al was not determined in the treatments. Fluoride was negligible in the treatments, as is common for most soft- water lakes in the mid-west (Cook et al, 1986), so Al-fluoride complexes were unimportant in this experiment, although they can be the dominant form in Adirondack lakes (Driscoll, 1985). We expected that the Al bound to the ligands in the natural lake water of the treatments would mimic Al activity in lakes of similar chemistry.…”

Section: Discussionmentioning

confidence: 91%

“…However, the plankton in the treatments may have experienced the additions of Al as a toxic pulse of inorganic monomeric Al, which became less toxic as it was bound to ligands in the solution. Plankton may also experience pulses of toxic Al in the form of hydrologic events that introduce large amounts of labile monomeric Al to surface waters (Driscoll, 1985). For instance, poorly-buffered northern lakes commonly undergo a pulse of Al-rich, acidic water from spring snowmelt into their surface waters (B. WonsonLiukkonen, pers.…”

Section: Discussionmentioning

confidence: 99%

“…Substantial filamentous algal communities often dominate these acidic lakes. Free aluminum concentration and pH are strongly correlated, and the presence of this metal can inhibit the growth of some plankton species by apparently reducing the amount of available, dissolved phosphorus (Dickson, 1978;Driscoll, 1985) or by a direct toxic effect (Folsom et al, 1986). Elevated Al concentrations are detrimental to fish (Baker & Schofield, 1980;Muniz & Leivestad, 1980), but little quantitative work on algal communities has been published (but see Helliwell et al, 1983;Hmrnstrom et al, 1985, andNalewajko &Paul, 1985).…”

Section: Introductionmentioning

confidence: 99%

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The pH-independent effect of aluminum on cultures of phytoplankton from an acidic Wisconsin lake

Pillsbury

Kingston

1990

Hydrobiologia

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Negative correlations between aluminum and planktonic algal abundance have been reported in acidic lakes. Natural assemblages of phytoplankton from a low-pH, low-Al lake (Franklin Lake, WI) were grown in semi-continuous cultures consisting of four treatments at pH 5.7 with 0.0, 50, 100, and 200 pg Al L-1 and one treatment at pH 4.7 with no Al added. Asterionella ralfsii var. americana (a common diatom plankter in acidic lakes) grew well at both pH 4.7 and 5.7 when no Al was added but declined in all other treatments and so may be useful as an indicator of acidic, low monomeric-Al conditions. Other common plankters that showed this pattern included: Arthrodesmus indentatus, Ar. octocornus, Ar. quiriferus, Staurastrum arachne var. curvatum, S. longipes var. contractum, and S. pentacerum. Common taxa showing no toxic effects of Al were Dinobryon bavaricum, Peridinium limbatum, Stenokalyx monilifera, Elaktothrix sp. and Oedogonium sp. We hypothesize that metal toxicity as a pulse at spring snowmelt could dramatically change algal succession in moderately acidic lakes. The experimental results agreed well with field observations. These types of experiments are useful for predicting the responses of natural phytoplankton communities to increases in Al concentration.

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Aluminum in acidic surface waters: chemistry, transport, and effects.

Cited by 108 publications

References 42 publications

Effects of stream acidification and habitat on fish populations of a North American river

Effects of stream acidification and habitat on fish populations of a North American river

The effects of whole-tree clear-cutting on soil processes at the Hubbard Brook Experimental Forest, New Hampshire, USA

The pH-independent effect of aluminum on cultures of phytoplankton from an acidic Wisconsin lake

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