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Growth by intussusception : ecological essays in honor of G. Evelyn Hutchinson (1972)

Deevey, Edward S. ; Hutchinson, George Evelyn 1903-1991

Hamden, Conn. : Archon Books [in Komm.]

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Keywords: Ecology

Type of Medium: Book

Pages: 441 S , Ill

Series Statement: Transactions of the Connecticut Academy of Arts and Sciences 44,[1]

DDC: 081 s

Language: English

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Paleolimnology of the Peten Lake District, Guatemala (1983)

Deevey, Edward S. ; Brenner, Mark ; Binford, Michael W.

Springer

Hydrobiologia 103 (1983), S. 211-216

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ISSN: 1573-5117

Keywords: paleolimnology ; Pleistocene aridity ; calcite ; dolomite ; gypsum ; laminated gyttja

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The transition from an arid, glacial Late Pleistocene to an early Holocene (Gamblian ‘pluvial’) moist period has not been documented in Central America. Finding accessible volcanic lakes too youthful, and knowing that most Florida and Yucatan lakes were dry during glacial ages, we sought appropriate deposits lying deeper than 40 m in the deeper karst lakes of the Peten, in northern Guatemala. The bottom half of a 19.7 m core from Lake Quexil, and the bottom third of a 15 m core from Lake Salpeten, appear to be of Pleistocene age. The sediments contain lacustrine shells, sponge spicules, and Pinus pollen, and include several bands of humified gyttja with fragments of wood, but are dominantly montmorillonitic and mixed-layer clays and may be in part colluvial, like the later Holocene Maya clay. Calcite, gypsum, and (in presently saline Lake Salpeten only) dolomite indicate shallow, closed, moderately saline lakes 30–40 m lower than at present. In both cores a layer of inorganic sediment with gypsum dominant, perhaps recording the most arid phase of the glacial Late Pleistocene, overlies a similar clay layer with calcite dominant. As calcite and dolomite occur throughout the section(s), both minerals are believed to be detrital, but one source of calcite is algal crusts, formed and exposed today in the littoral and supralittoral zones. The early Holocene rise of lake levels formed several meters of fossiliferous gyttja with pollen of mesic tropical forest, now assigned to the pan-tropical Gamblian moist episode. Where deposited in oligomictic or meromictic lakes 〉 30 m deep, Gamblian gyttja of pollen zone Pl is finely laminated, the dark layers being richer in Ptot and Stot and poorer in Fe, Mn, Mg, and K than the light (clay) layers, but we cannot yet say that the laminae are annual.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00028454

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Sedimentary records of accelerated nutrient loading in Florida lakes (1986)

Deevey, Edward S. ; Binford, Michael W. ; Brenner, Mark ; [et al.]

Springer

Hydrobiologia 143 (1986), S. 49-53

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ISSN: 1573-5117

Keywords: paleolimnology ; eutrophication ; trophic state ; 210Pb ; transfer functions ; Florida lakes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Transfer functions relating trophic state (Carlson's TSIchlorophyll-a) to present day accumulation rate of (1) nutrients, (2) cations, and (3) organic sediment, are computed using Binford's 210Pb-dilution method. As computed from surficial sediments of 27 lakes, former trophic states are reconstructed for recent (210Pb-dated) sedimentary histories of 14 lakes. Of the three kinds of models potentially available, model (3) (TSI vs. organic accumulation) is the weakest statistically, and may be unduly influenced by exceptional deposition and/or preservation of allochthonous organic matter. At present, however, it is the only model applicable to all 14 of the histories tested. Results are encouraging in that model accurately predicts observed TSI's in several mesotrophic and eutrophic lakes. Clearly significant increases (accelerations) are inferred only for a of the most eutrophic lakes of the set, while the model consistently overpredicts TSI's of the 7 most oligotrophic lakes. As Whitmore's diatom-assemblage index is a better predictor of TSI than is model (3) in the one eutrophic lake in which it has been tested, we expect more persuasive results when models (1) and (2) can be tested within a more complete set of analytical data. We were surprised to find 3 severely disturbed lakes among the 12 that show little or no acceleration in rate of eutrophication in recent decades, but we defer attempts at explanation until former nutrient loading can be tested by model (1).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00026644

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