989 resultados para 29-280A
Resumo:
J. H. Dünner
Resumo:
Strassburg, Univ., Diss., 1891
Resumo:
Hss. auf Titelbl. Sign. aus Freimann-Kat.:Jud. Ff. 599
Resumo:
von S. R. Hirsch
Resumo:
[Jacob Ochs ; Beer Hertz Oppenheimer ; Moyses Benedickt Beyfuß] [[Elektronische Ressource]]
Resumo:
Vorbesitzer: Hilarion a S. Francisco; Karmeliterkloster Frankfurt am Main
Resumo:
Vorbesitzer: Abraham Merzbacher
Resumo:
Welsch (Projektbearbeiter): Ausführungsbestimmungen zu der Wahl der Abgeordneten zur zweiten preußischen Kammer nach dem neueingeführten Dreiklassenwahlrecht
Resumo:
Lake Towuti (2.5°S, 121.5°E) is a long-lived, tectonic lake located on the Island of Sulawesi, Indonesia, and in the center of the Indo-Pacific warm pool (IPWP). Lake Towuti is connected with upstream lakes Matano and Mahalona through the Mahalona River, which constitutes the largest inlet to the lake. The Mahalona River Delta is prograding into Lake Towuti’s deep northern basin thus exerting significant control on depositional processes in the basin. We combine high-resolution seismic reflection and sedimentological datasets from a 19.8-m-long sediment piston core from the distal edge of this delta to characterize fluctuations in deltaic sedimentation during the past ~29 kyr BP and their relation to climatic change. Our datasets reveal that, in the present, sedimentation is strongly influenced by deposition of laterally transported sediments sourced from the Mahalona River Delta. Variations in the amount of laterally transported sediments, as expressed by coarse fraction amounts in pelagic muds and turbidite recurrence rates and cumulative thicknesses, are primarily a function of lake-level induced delta slope instability and delta progradation into the basin. We infer lowest lake-levels between ~29 and 16, a gradual lake level rise between ~16 and 11, and high lake-levels between ~11 and 0 kyr BP. Periods of highest turbidite deposition, ~26 to 24 and ~18 to 16 kyr BP coincide with Heinrich events 2 and 1, respectively. Our lake-level reconstruction therefore supports previous observations based on geochemical hydroclimate proxies of a very dry last glacial and a wet Holocene in the region, and provides new evidence of millennial-scale variations in moisture balance in the IPWP.