10,631 to 10,640 of 10,835 Results
Jan 10, 2025 -
Replication Data for: Acoustic occurrence of deep-diving cetaceans in the southern Adriatic Sea
MATLAB Data - 48.4 KB -
MD5: 79da08ed89350ab6001d5723b0923173
Timestamps of annotated clicks for the third recording period (from 06-09-20 to 12-22-20). |
Jan 10, 2025 -
Replication Data for: Acoustic occurrence of deep-diving cetaceans in the southern Adriatic Sea
MATLAB Data - 7.6 GB -
MD5: 0dd025ba94b157b7b7e32a70a24bceb2
TPWS stands for "start Time, Peak-to-peak amplitude, Waveform, and Spectra parameters", therefore giving start times of detections, received level amplitudes (dBpeak-to-peak), waveforms and detection spectra of the detected clicks for the third recording period (from 06-09-20 to... |
Jan 10, 2025 -
Replication Data for: Acoustic occurrence of deep-diving cetaceans in the southern Adriatic Sea
ZIP Archive - 9.0 GB -
MD5: 7d1ce49c82811cbdbd5b92174dede2e2
Folder with files containing start and end times of detected clicks for the third recording period (from 06-09-20 to 12-22-20). |
Jan 9, 2025 - University of Bergen
Auer, Andreea Gabriela; van der Bilt, Willem G. M.; Schomacker, Anders; Bakke, Jostein; Støren, Eivind W. N.; Buckby, Joseph M.; Cederstrøm, Jan Magne; van der Plas, Sander, 2025, "Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene", https://doi.org/10.18710/VDCUJE, DataverseNO, V1
This dataset includes the results of analyses presented in the study "Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene" by Auer et al. 2025. The study presents evidence of glacier survival on Svalbard during the warmer-than-present Holo... |
Jan 9, 2025 -
Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene
Plain Text - 14.8 KB -
MD5: 2f816d200ca49718de328d8b77c23e4a
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Jan 9, 2025 -
Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene
Plain Text - 12.4 KB -
MD5: e79c599f2d0ac6d7b582c5805a0a5fbf
The magnetic susceptibility (MS) data seen in Figure 3 and used to align the gravity (602-21-10) and piston (602-21-11) cores from lake Berglivatnet. |
Jan 9, 2025 -
Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene
Plain Text - 13.2 KB -
MD5: e853f04e4dc69450638e42c4108c68f1
The data behind Figure 4 containing interpolated calibrated down-core ages for the Berglivatnet record, based on the radiocarbon chronology |
Jan 9, 2025 -
Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene
Plain Text - 712.5 KB -
MD5: 7e47a76994194341082cd2711270a383
All stratigraphic data (LOI, DBD, XRF, CT, grain size) presented in Figure 5 |
Jan 9, 2025 -
Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene
Plain Text - 2.3 KB -
MD5: 79f00e7dd618ac6c691ce43f76ad5461
End-member densities output of the End Member analysis presented in Figure 5 as well as Supplementary Figure 5 |
Jan 9, 2025 -
Replication Data for: Hydroclimate intensification likely aided glacier survival on Svalbard in the Early Holocene
Plain Text - 281.7 KB -
MD5: 2131dbbadd334de490e469701bc02d00
Particle Sized Distributions (PSD) from measured samples as presented in Figure 5 and Supplementary Figure 5 |
