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Total incorganic carbon content in sediment core Lz1120
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Total incorganic carbon content in sediment core Lz1086
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Total incorganic carbon content in sediment core Lz1085
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Total incorganic carbon content in sediment core Lz1083
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Fig. 7.8 Susceptibility of sediment core Lz1086
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Fig. 7.5 Susceptibility of sediment core Lz1085
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Fig. 7.4 Susceptibility of sediment core Lz1084
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Fig. 7.2 Susceptibility of sediment core Lz1083
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Fig. 7.1 Susceptibility of sediment core Lz1120
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Fig. 6 Radionuclides and total incorangic carbon in sediment core OHR02-1
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Total incorganic carbon content in sediment core OHR03-2
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Total incorganic carbon content in sediment core OHR03-1
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Fig. 4 Sedimentology of core Lz1084 from the central lake basin
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Table 2 Radiocarbon ages determined on bulk TOC from core Lz1084, Lake Ohrid
The surface sediment age most likely represents the recent hard water effect. -
Fig. 8 (a) Bulk sedimentology of core Lz1104-1
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Grain size analysis of sediment core Lz1120
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Susceptibility of sediment core Lz1120
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(Table 3) Main characteristics of tephra layers recognised in core Lz1120
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(Table 2) Major elements glass chemistry of the three tephra layers recognise...
Chemistry of tephra layers at 310-315 and 896-897 cm were obtained using SEM-EDS analyses (Scanning Electron Microscopy - Energy Dispersive Spectroscopy), while EPMA-WDS... -
(Table 1) Radiocarbon measurements of charcoal and plant remains collected at...
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