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Stemflow nutrient inputs to soil in a successional hardwood forest (1992)

Potter, Christopher S.

Springer

Plant and soil 140 (1992), S. 249-254

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ISSN: 1573-5036

Keywords: acid deposition ; hardwood forests ; nutrient leaching ; soil inputs ; stemflow ; succession

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Stemflow and throughfall from a regenerating (8-year-old) southern Appalachian hardwood forest were collected to examine the relative importance of tree bole nutrient leaching in response to acid deposition. Samples from nine (2 m2) stemflow collection plots were analyzed for four dormant season and 11 growing season rainstorm events. Results showed that, relative to throughfall fluxes, stemflow accounted, on average, for approximately 8.5% of total water reaching the forest floor during both dormant and growing season storms. Relative to foliar leaching, K-, SO4-, and PO4 ions appear to be the most easily leached ions from young tree stems. Proportional nitrate and base cation stemflow fluxes increased significantly (p〈0.05) with growing-season storm-event duration, suggesting that the stemsurface nutrient pool is depleted by precipitation more slowly than the foliar pool. On average, proportional stemflow fluxes of SO4 (12%) and K (14%) were consistently higher than reported maximum values for more mature forest stands, which indicates that small-scale stemflow inputs of ions such as these to the forest floor may be important in early successional ecosystems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00010601

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Controls on leaching from coniferous forest floor microcosms (1980)

Cronan, Christopher S.

Springer

Plant and soil 56 (1980), S. 301-322

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ISSN: 1573-5036

Keywords: Acid rain ; Biogeochemistry ; Coniferous ecosystem ; Forest floor ; Forest soils ; Microcosm ; Plant uptake ; Soil leaching

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Studies were conducted with coniferous forest floor microcosms to examine the potential influence of acid precipitation, temperature changes, and plant uptake upon the chemistry of soil leachate solutions. The experimental design included two temperatures and three different simulated throughfall chemistry treatments. When the acidity of throughfall inputs to the microscosms increased, the forest floors exhibited increased leaching losses of calcium, magensium, potassium, and ammonium. The fact that aluminum losses did not incrase correspondingly suggested that there may be a kinetic lag in the mobilization and leaching of aluminum. When microcosms were exposed to warmer temperatures, percolates showed increased leaching losses of calcium, potassium, ammonium, sulfate, nitrate, and organic anions. Forest floor microcosms exposed to simulated average field conditions behaved very much like field plots under the same environmental conditions; however, there were predictable differences in leaching losses between laboratory and field systems for those ions which are strongly controlled by plant uptake. In general, the exclusion of plant uptake from microcosms resulted in increased leaching of potassium, nitrate, ammonium. and sulfate relative to field plots.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02205859

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Comparative effects of precipitation acidity on three forest soils: carbon cycling responses (1985)

Cronan, Christopher S.

Springer

Plant and soil 88 (1985), S. 101-112

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ISSN: 1573-5036

Keywords: Acid deposition ; Acid precipitation ; Biogeochemistry ; Carbon cycling ; Forest soils ; Inceptisol ; Microcosms ; Soil respiration ; Spodosol

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary This comparative soil microcosm study examined the effects of precipitation acidity on decomposition processes in three contrasting eastern North American forest soils: a Becket series Haplorthod, an Unadilla series Dystrochrept, and an Adams series Haplorthod. Results from all three soils showed that soil respiration is quantitatively unaffected by differences in precipitation acidity over the range of pH 5.7 to 3.5 (annual loading rates of 36 to 5,520 eq H+ · ha−1). Soil respiration did vary as a function of edaphic differences between soils. Data from all three soils also indicated that precipitation acidity (at pH≧3.5 and lime potential ≧1.11) had no consistent quantitative effect upon total dissolved organic carbon leaching. Again, differences in DOC flux were related to inter-soil edaphic variations. Carbon turnover budgets for the three soils indicated that 54–68% of the forest floor carbon loss occurred through respiration, while DOC leaching accounted for the remaining 32–46% of carbon loss. Finally, results from all three soils showed that increased inputs of strong acids to the forest floor caused distinct decreases in the hydrophobic acid (fulvic acid) content of leachate dissolved organic carbon.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02140669

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Forest vegetation in relation to surface water chemistry in the North Branch of the Moose River, Adirondack Park, N.Y. (1987)

Cronan, Christopher S. ; Conlan, Julia C. ; Skibinski, Sandra

Springer

Biogeochemistry 3 (1987), S. 121-128

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ISSN: 1573-515X

Keywords: acid deposition ; forest cover ; forest structure ; biogeochemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract The Regional Integrated Lake-Watershed Acidification Study (RILWAS) was conducted to identify and to quantify the environmental factors controlling surface water chemistry in forested watersheds of the Adirondack region of New York. The RILWAS vegetation research was designed to: (1) compare the quantitative patterns of forest cover and tree community structure in the study catchments of the Moose River drainage system; and (2) identify important vegetation differences among study watersheds that might help to explain inter-watershed differences in water chemistry and aquatic responses to acidic deposition. Field transect data indicated that the overall drainage system includes 50% mixed forest cover, 38% hardwood forest, 10% coniferous forest, and 2% wetland cover. Major tree species include yellow birch, red spruce, American beech, sugar maple, eastern hemlock, and red maple. Analysis of forest structure indicated that mean weighted basal area estimates ranged two-fold from 24–48 m2ha−1 among watersheds. Likewise, mean weighted estimates for aboveground biomass and aboveground annual productivity ranged among watersheds from 160 to 320 MT ha−1 and from 8 to 18 MT ha−1 yr−1, respectively. Results showed that differences in surface water chemistry were independent of vegetation differences among watersheds.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02185188

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