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1

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Element Fluxes and Landscape Position in a Northern Hardwood Forest Watershed Ecosystem (2000)

Johnson, Chris E. ; Driscoll, Charles T. ; Siccama, Thomas G. ; [et al.]

Springer

Ecosystems 3 (2000), S. 159-184

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ISSN: 1435-0629

Keywords: Key words: biogeochemistry; calcium; carbon; forest ecology; Hubbard Brook; nitrogen; soil chemistry; soil solution; stream chemistry; weathering.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: ABSTRACT Chemical changes along headwater streams at the Hubbard Brook Experimental Forest in New Hampshire suggest that important differences exist in biogeochemical cycles along an altitudinal gradient within small watershed ecosystems. Using data collected during the period 1982–92, we have constructed element budgets [Ca, Mg, K, Na, Si, Al, dissolved organic carbon (DOC), S, and N] for three subcatchments within watershed 6, a forested watershed last logged around 1917–20. The biogeochemistry of the high-elevation spruce-fir–white birch subcatchment was dominated by processes involving naturally occuring organic compounds. Stream water and soil solutions in this zone had elevated concentrations of organic acidity, DOC, and organically bound monomeric aluminum (Alo), relative to lower-elevation sites. The middle-elevation subcatchment, dominated by hardwood vegetation, had the greatest net production of inorganic-monomeric aluminum (Ali), and exhibited net immobilization of DOC and Alo. The low-elevation subcatchment, also characterized by deciduous vegetation, had the highest rates of net production of base cations (Ca2+, Mg2+, K+, Na+) among the subcatchments. Living biomass of trees declined slightly in the spruce-fir–white birch subcatchment during the study period, remained constant in the middle-elevation zone, and increased by 5% in the low-elevation subcatchment. Coupling the corresponding changes in biomass nutrient pools with the geochemical patterns, we observed up to 15-fold differences in the net production of Ca, Mg, K, Na, and Si in soils of the three subcatchments within this 13.2-ha watershed. Release of Ca, Na, and dissolved Si in the highest-elevation subcatchment could be explained by the congruent dissolution of 185 mol ha−1 y−1 of plagioclase feldspar. The rate of plagioclase weathering, based on the net output of Na, increased downslope to 189 and 435 mol ha−1 y−1 in the middle-elevation and low-elevation subcatchments, respectively. However, the dissolution of feldspar in the hardwood subcatchments could account for only 26%–37% of the observed net Ca output. The loss of Ca from soil exchange sites and organic matter is the most likely source of the unexplained net export. Furthermore, this depletion appears to be occurring most rapidly in the lower half of watershed 6. The small watersheds at the Hubbard Brook Experimental Forest occupy a soil catena in which soil depth and soil-water contact time increase downslope. By influencing hydrologic flowpaths and acid neutralization processes, these factors exert an important influence on biogeochemical fluxes within small watersheds, but their influence on forest vigor is less clear. Our results illustrate the sensitivity of watershed-level studies to spatial scale. However, it appears that much of the variation in element fluxes occurs in the first 10–20 ha of drainage area.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100210000017

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Cloudwater Inputs of Nitrogen to Forest Ecosystems in Southern Chile: Forms, Fluxes, and Sources (2000)

Weathers, Kathleen C. ; Lovett, Gary M. ; Likens, Gene E. ; [et al.]

Springer

Ecosystems 3 (2000), S. 590-595

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ISSN: 1435-0629

Keywords: Key words: organic nitrogen; marine-terrestrial; flux; nitrogen; upwelling; cloud deposition; Chile; cloud chemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Nitrogen (N) has been considered a limiting nutrient to many aquatic and terrestrial ecosystems. However, human activity has resulted in increased atmospheric N deposition worldwide such that N pollution is now altering ecosystem function in many locations. Research on atmospheric deposition has focused primarily on inorganic nitrogen (DIN; NH4 +-N + NO3 −-N) via rainwater and dry deposition as the main N input to ecosystems. Recently, organic N (ON) has been shown to be an important constituent in rainwater or dry deposition. Here we show that ON dominated (66%) total N in cloudwater from a remote site in southern Chile. Cloudwater from more human-impacted sites in northeastern USA had lower ON concentrations and DIN was dominant. We estimate that cloudwater delivers up to 2 kg ha−1 DIN and 9 kg ha−1 ON annually, compared to less than 1 kg ha−1 of DIN deposition via rainwater, thus it may contribute substantially to the N-economy of Chilean coastal forests. We also suggest that the adjacent ocean, where biologic productivity is high, may be a major source of N in Chilean cloudwater. This proposed marine-terrestrial flux via cloud deposition has not previously been identified and may be an example of the ocean feeding the forest. We suggest that this type of cross boundary flux may be common in other upwelling zones, such as along the west coasts of Africa, North and South America and east India, and warrants further substantiation and investigation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100210000051

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3

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Organic matter and nutrient dynamics of the forest and forest floor in the Hubbard Brook forest (1976)

Gosz, James R. ; Likens, Gene E. ; Bormann, F. Herbert

Springer

Oecologia 22 (1976), S. 305-320

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The forest floor is a major reservoir of organic matter and nutrients for the ecosystem and as such it influences or regulates most of the functional processes occurring throughout the ecosystem. This study reports on the nutrient and organic matter content of the forest floor of the Hubbard Brook Experimental Forest during different seasons and attempts to correlate results from studies of vegetation, litter, decomposition, stemflow, throughfall, and soil. An organic matter budget is presented for an undisturbed watershed. Average weight of the forest floor on an undisturbed watershed ranged from 25,500 to 85,500 kg/ha. The weighted watershed average was 46,800 kg/ha. Although the F and H horizons did not vary significantly with time, the L horizon increased significantly during the period June to August largely as a result of a severe hail storm. The order of abundance of elements in the forest floor was Nτ;Ca≷Fe〉S〉P〉Mn〉K〉Mg〉Na〉Zn〉Cu. The concentrations of Ca, K, and Mn decreased with depth in the forest floor while N, P, S, Na, Fe, Zn, and Cu concentrations increased. N:P ratios were similar in decomposing leaf tissue, the forest floor, litterfall, and net stemflow plus throughfall suggesting a similar pattern of cycling. S was proportional to N and P in decomposing leaf tissue, the forest floor, and litterfall. Net stemflow and throughfall were affected by a relatively large input of SO4=-S from the atmosphere. Residence times for elements in the forest floor were affected by inputs other than litterfall (precipitation, stemflow, and throughfall). Calculation of residence times using all inputs caused smaller values than if litterfall alone was used. While all residence times were reduced, the major differences occurred for K, S, and Na. N and P showed relatively long residence times as a result of retranslocation and immobilization by decomposers. The slow turnover rate because of the strong demand and retention by all biota must account for the efficiency of the intrasystem cycling process for N and P. K showed the shortest residence time. A rapid and efficient uptake of K by vegetation seems to account for the efficient cycling of this element. The patterns of nutrient cycling are several depending on the chemical properties of the forest floor, and nutritional requirements of the biota.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00345310

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4

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Primary production: Freshwater ecosystems (1973)

Likens, Gene E.

Springer

Human ecology 1 (1973), S. 347-356

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ISSN: 1572-9915

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Ethnic Sciences

Notes: Abstract Freshwater bodies include a small fraction of the earth's surface (0.5%) and the biosphere's production. Freshwater productivity is difficult to estimate because of both problems of measurement and the great diversity of water bodies. A total production of 1.3×10 9 tons/year is suggested. Freshwater bodies are now subject to widespread unnatural fertilization or cultural eutrophication. While this process increases their productivity, in many cases it shifts that productivity into forms less suitable for use as human food.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01536731

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5

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Introduction (1973)

Whittaker, Robert H. ; Likens, Gene E.

Springer

Human ecology 1 (1973), S. 301-302

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ISSN: 1572-9915

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Ethnic Sciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01536728

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6

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Primary production: The biosphere and man (1973)

Whittaker, Robert H. ; Likens, Gene E.

Springer

Human ecology 1 (1973), S. 357-369

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ISSN: 1572-9915

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Ethnic Sciences

Notes: Abstract The net primary production of the biosphere is about 160×10 9 tons/year, with 34% of this in marine, 0.8% in freshwater, and 66% in terrestrial ecosystems. World biomass (in the year 1950) is estimated as 1840×109 tons of dry matter, strongly concentrated on the continents (99.8%) and mostly in forests (90%). The total chlorophyll of the biosphere is about 240×106 tons; with about 90% of this on land. Land communities typically have 3–8 m2 of leaf surface and 1–4 g of chlorophyll per m2 of ground surface; chlorophyll in the oceans ranges mostly downward from 0.5 g/m2. Terrestrial and marine communities are in contrast in their mean ratios of biomass to net annual productivity (17.3 and 0.07) and of net annual productivity to chlorophyll (473 and 3100g/g). Man harvests about 1.3×109 tons/year of food from the land surface, about 17×106 tons/year from water bodies, with 88% of this from the seas. Despite the immensity of the biosphere, man has reduced its biomass and is beginning, with pollution, to affect its productivity. The relation of an exponentially increasing human population and industry to the biosphere is thus unstable. Some characteristics of this instability and the different consequences of overgrowth for poor or developing and rich or developed countries are considered.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01536732

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7

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Watershed- and plot-scale tests of the mobile anion concept (1999)

Christ, Martin J. ; Driscoll, Charles T. ; Likens, Gene E.

Springer

Biogeochemistry 47 (1999), S. 335-353

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ISSN: 1573-515X

Keywords: base cations ; calcium ; forest ecosystem ; mobile anions ; soil acidification ; surfacewater acidification

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract Anion fluxes from a forest soil are usually correlated with those of base cations (BC). Declines in base cation deposition or long-term depletion from the soil may change these relationships. We used multiple regression to identify biogeochemical variables predicting annual volume-weighted concentrations of BC in streamwater draining a forested watershed, and analysis of variance to compare the effects of Ca and Cl inputs on BC fluxes out of soil horizons in irrigated plots. For the watershed, anion concentrations in streamwater predicted BC export most precisely (R 2=0.84). The best two-variable model (adjustedR 2=0.91) also included BC concentration in bulk deposition. Consistent with predictions from equations governing exchange chemistry, the proportion of charge contributed by Ca2+ increased with increasing total anion concentration, while that of Na+ decreased. At the plot scale, Cl− concentrations in treatment solutions had a stronger effect (p=0.06) on BC concentration in Oa-horizon solutions than did Ca2+ concentrations (p=0.33). In individual horizons of individual plots, BC and total ion concentrations were correlated, but cation composition was not consistent within horizons from different plots. This study detected no evidence of longterm cation depletion in the soils controlling streamwater, but did detect extremely base-poor plots. Because acid deposition affects surface horizons first, streamwater chemistry may not be an adequate way to assess nutrient supply of forest soils.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00992913

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8

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The biogeochemistry of potassium at Hubbard Brook (1994)

Likens, Gene E. ; Driscoll, Charles T. ; Buso, Donald C. ; [et al.]

Springer

Biogeochemistry 25 (1994), S. 61-125

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ISSN: 1573-515X

Keywords: forest disturbance ; forest ecosystem ; Potassium biogeochemistry ; soil chemistry ; stream chemistry ; wet and dry deposition

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract A synthesis of the biogeochemistry of K was conducted during 1963–1992 in the reference and human-manipulated watershed-ecosystems of the Hubbard Brook Experimental Forest (HBEF), NH. Results showed that during the first two years of the study (1963–65), which coincided with a drought period, the reference watershed was a net sink for atmospheric inputs of K. During the remaining years, this watershed has been a net source of K for downstream ecosystems. There have been long-term declines in volume-weighted concentration and flux of K at the HBEF; however, this pattern appears to be controlled by the relatively large inputs during the initial drought years. Net ecosystem loss (atmospheric deposition minus stream outflow) showed an increasing trend of net loss, peaking during the mid-1970s and declining thereafter. This pattern of net K loss coincides with trends in the drainage efflux of SO4 2− and NO3 −, indicating that concentrations of strong acid anions may be important controls of dissolved K loss from the site. There were no long-term trends in streamwater concentration or flux of K. A distinct pattern in pools and fluxes of K was evident based on biotic controls in the upper ecosystem strata (canopy, boles, forest floor) and abiotic controls in lower strata of the ecosystem (mineral soil, glacial till). This biological control was manifested through higher concentrations and fluxes of K in vegetation, aboveground litter, throughfall and forest floor pools and soil water in the northern hardwood vegetation within the lower reaches of the watershedecosystem, when compared with patterns in the high-elevation spruce-fir zone. Abiotic control mechanisms were evident through longitudinal variations in soil cation exchange capacity (related to soil organic matter) and soil/till depth, and temporal and disturbance-related variations in inputs of strong-acid anions. Marked differences in the K cycle were evident at the HBEF for the periods 1964–69 and 1987–92. These changes included decreases in biomass storage, net mineralization and throughfall fluxes and increased resorption in the latter period. These patterns seem to reflect an ecosystem response to decreasing rates of biomass accretion during the study. Clearcutting disturbance resulted in large losses of K in stream water and from the removal of harvest products. Stream losses occur from release from slash, decomposition of soil organic matter and displacement from cation exchange sites. Elevated concentrations of K persist in stream water for many years after clearcutting. Of the major elements, K shows the slowest recovery from clearcutting disturbance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00000881

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9

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Stable sulfur isotopic biogeochemistry of the Hubbard Brook Experimental Forest, New Hampshire (1998)

Zhang, Yimin ; Mitchell, Myron J. ; Christ, Martin ; [et al.]

Springer

Biogeochemistry 41 (1998), S. 259-275

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ISSN: 1573-515X

Keywords: biogeochemistry of sulfur ; ecosystem analysis ; nutrient cycling ; stable sulfur isotopes ; δ34S ; isotopic fractionation

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract In natural ecosystems, differences often exist in the relative abundanceof stable S isotopes (°34S) that can provide clues as tothe source, nature, and cycling of S. Values of °34S inprecipitation, throughfall, soils, soil solution, and stream waters weremeasured at the Hubbard Brook Experimental Forest (HBEF), New Hampshire.Values of °34S in precipitation and throughfall weresimilar to each other but differed seasonally. Precipitation°34S values were higher in the dormant season[°34S = 5.9±0.6‰ (17)][Mean + SE(N)]than in the growing season [°34S = 5.0±0.6‰(40)] but throughfall growing-season values were higher[°34S = 5.6±0.6‰(68)] than for the dormantseason [°34S = 4.9±0.7‰ (9)]. Different treespecies did not affect throughfall °34S values. In soilsolution, °34S values were higher in the growing season(°34S = 8.9±2.8‰; 8.8±1.7‰;and 4.0±0.6‰ for Oa, Bh, and Bs horizons, respectively) thanin the dormant season (°34S = 5.6±1.5‰;3.7±2.4‰; and 3.4±1.2‰ for Oa, Bh, and Bshorizons, respectively). These seasonal differences in°34S were probably caused by biological isotopicfractionation. The °34S values in streams were generally2‰ lower and more variable than those in precipitation andthroughfall, suggesting fractionation and/or different isotopic sources inthe soil.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005992430776

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10

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Watershed- and plot-scale tests of the mobile anion concept (1999)

Christ, Martin J. ; Driscoll, Charles T. ; Likens, Gene E.

Springer

Biogeochemistry 47 (1999), S. 333-351

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ISSN: 1573-515X

Keywords: base cations ; calcium ; forest ecosystem ; mobile anions ; soil acidification ; surface-water acidification

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract Anion fluxes from a forest soil are usually correlated with those of base cations (BC). Declines in base cation deposition or long-term depletion from the soil may change these relationships. We used multiple regression to identify biogeochemical variables predicting annual volume-weighted concentrations of BC in streamwater draining a forested watershed, and analysis of variance to compare the effects of Ca and Cl inputs on BC fluxes out of soil horizons in irrigated plots. For the watershed, anion concentrations in streamwater predicted BC export most precisely (R2 = 0.84). The best two-variable model (adjusted R2 = 0.91) also included BC concentration in bulk deposition. Consistent with predictions from equations governing exchange chemistry, the proportion of charge contributed by Ca2+ increased with increasing total anion concentration, while that of Na+ decreased. At the plot scale, Cl- concentrations in treatment solutions had a stronger effect (p = 0.06) on BC concentration in Oa-horizon solutions than did Ca2+ concentrations (p = 0.33). In individual horizons of individual plots, BC and total ion concentrations were correlated, but cation composition was not consistent within horizons from different plots. This study detected no evidence of long-term cation depletion in the soils controlling streamwater, but did detect extremely base-poor plots. Because acid deposition affects surface horizons first, streamwater chemistry may not be an adequate way to assess nutrient supply of forest soils.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006158624144

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