Nome |
# |
Age of the Mt. Ortles ice cores, the Tyrolean Iceman and glaciation of the highest summit of South Tyrol since the Northern Hemisphere Climatic Optimum, file e4239ddc-30ac-7180-e053-3705fe0a3322
|
459
|
Past temperature reconstructions from deep ice cores: relevance for future climate change, file e4239ddc-806c-7180-e053-3705fe0a3322
|
390
|
Precipitation and synoptic regime in two extreme years 2009 and 2010 at Dome C, Antarctica - implications for ice core interpretation, file e4239ddb-e441-7180-e053-3705fe0a3322
|
322
|
Three-year monitoring of stable isotopes of precipitation at Concordia Station, East Antarctica, file e4239ddc-28e3-7180-e053-3705fe0a3322
|
317
|
Climate dependent contrast in surface mass balance in East Antarctica over the past 216 ka, file e4239ddc-30a9-7180-e053-3705fe0a3322
|
291
|
Data Descriptor: A global multiproxy database for temperature reconstructions of the Common Era, file e4239ddc-6d75-7180-e053-3705fe0a3322
|
275
|
Holocene sea ice variability driven by wind and polynya efficiency in the Ross Sea, file e4239ddc-8629-7180-e053-3705fe0a3322
|
263
|
Volcanic Fluxes Over the Last Millennium as Recorded in the Gv7 Ice Core (Northern Victoria Land, Antarctica), file e4239ddd-8aad-7180-e053-3705fe0a3322
|
262
|
Assessing the robustness of Antarctic temperature reconstructions over the past 2 millennia using pseudoproxy and data assimilation experiments, file e4239ddd-1d27-7180-e053-3705fe0a3322
|
259
|
Retrieving the paleoclimatic signal from the deeper part of the EPICA Dome C ice core, file e4239ddb-af2a-7180-e053-3705fe0a3322
|
253
|
A comparison of the present and last interglacial periods in six Antarctic ice cores, file e4239ddb-6dc3-7180-e053-3705fe0a3322
|
242
|
Tree-ring δ18O from an Alpine catchment reveals changes in glacier stream water inputs between 1980 and 2010, file e4239ddd-34d1-7180-e053-3705fe0a3322
|
238
|
Regional Antarctic snow accumulation over the past 1000 years, file e4239ddc-845a-7180-e053-3705fe0a3322
|
233
|
A Nine-year series of daily oxygen and hydrogen isotopic composition of precipitation at Concordia station, East Antarctica, file e4239ddd-cad6-7180-e053-3705fe0a3322
|
233
|
Antarctic temperature changes during the last millennium: evaluation of simulations and reconstructions, file e4239ddb-6e2e-7180-e053-3705fe0a3322
|
232
|
On the reproducibility and repeatability of laser absorption spectroscopy measurements for δ2H and δ18O isotopic analysis, file e4239ddb-6e38-7180-e053-3705fe0a3322
|
231
|
Antarctic climate variability on regional and continental scales over the last 2000 years, file e4239ddc-79fb-7180-e053-3705fe0a3322
|
215
|
Acquisition of isotopic composition for surface snow in East Antarctica and the links to climatic parameters, file e4239ddb-e360-7180-e053-3705fe0a3322
|
210
|
Climate dependent contrast in surface mass balance in East Antarctica over the past 216 ka, file e4239ddc-41f3-7180-e053-3705fe0a3322
|
204
|
Ranges of moisture-source temperature estimated from Antarctic ice cores stable isotope records over glacial–interglacial cycles, file e4239ddb-6e28-7180-e053-3705fe0a3322
|
199
|
A global database of Holocene paleotemperature records, file e4239ddd-9da2-7180-e053-3705fe0a3322
|
180
|
Millennial and sub-millennial scale climatic variations recorded in polar ice cores over the last glacial period, file e4239ddb-6e37-7180-e053-3705fe0a3322
|
177
|
Archival processes of the water stable isotope signal in East Antarctic ice cores, file e4239ddc-b8e2-7180-e053-3705fe0a3322
|
170
|
The influence of the synoptic regime on stable water isotopes in precipitation at Dome C, East Antarctica, file e4239ddc-72cf-7180-e053-3705fe0a3322
|
169
|
Continuous monitoring of summer surface water vapor isotopic composition above the Greenland Ice Sheet, file e4239ddb-6e35-7180-e053-3705fe0a3322
|
159
|
Volcanic synchronisation of the EPICA-DC and TALDICE ice cores for the last 42 kyr BP, file e4239ddb-6e3a-7180-e053-3705fe0a3322
|
156
|
Deglaciation records of 17O-excess in East Antarctica: reliable reconstruction of oceanic normalized relative humidity from coastal sites, file e4239ddb-6e34-7180-e053-3705fe0a3322
|
155
|
Drought-induced dieback of Pinus nigra: a tale of hydraulic failure and carbon starvation, file e4239ddd-34cf-7180-e053-3705fe0a3322
|
155
|
Interpreting last glacial to Holocene dust changes at Talos Dome (East Antarctica): implications for atmospheric variations from regional to hemispheric scales, file e4239ddb-6dc1-7180-e053-3705fe0a3322
|
152
|
TALDICE-1 age scale of the Talos Dome deep ice core, East Antarctica, file e4239ddb-6e3e-7180-e053-3705fe0a3322
|
146
|
Interannual analysis of high spatially-resolved δ18O and δ2H data in precipitation across North-East Italy, file e4239ddd-c070-7180-e053-3705fe0a3322
|
144
|
Volcanic synchronisation of the EPICA-DC and TALDICE ice cores for the last 42 kyr BP, file e4239ddb-6dc2-7180-e053-3705fe0a3322
|
139
|
What controls the isotopic composition of Greenland surface snow?, file e4239ddb-36e3-7180-e053-3705fe0a3322
|
134
|
Using data assimilation to investigate the causes of Southern Hemisphere high latitude cooling from 10 to 8 ka BP, file e4239ddb-36e0-7180-e053-3705fe0a3322
|
132
|
Climate dependent contrast in surface mass balance in East Antarctica over the past 216 kyr, file e4239ddb-dfb2-7180-e053-3705fe0a3322
|
131
|
An extension of the TALDICE ice core age scale reaching back to MIS 10.1, file e4239dde-553e-7180-e053-3705fe0a3322
|
129
|
Links between MIS 11 millennial to sub-millennial climate variability and long term trends as revealed by new high resolution EPICA Dome C deuterium data – A comparison with the Holocene., file e4239ddb-6dbf-7180-e053-3705fe0a3322
|
128
|
Monitoring plant water status and rooting depth for precision irrigation in the vineyards of Classic Karst, file e4239ddc-4b4b-7180-e053-3705fe0a3322
|
128
|
7000 year European climate record from the Ortles ice core, file e4239ddc-4171-7180-e053-3705fe0a3322
|
126
|
Atmospheric depositions of black carbon, inorganic pollutants and mineral dust from the Ortles, Eastern European Alps ice cores during the last 3000 years, file e4239ddc-49b0-7180-e053-3705fe0a3322
|
124
|
Experimental observation of transient δ18O interaction between snow and advective airflow under various temperature gradient conditions, file e4239ddc-72cd-7180-e053-3705fe0a3322
|
123
|
Characterization of SurfaceWater and Groundwater Quality in the Lower Tano River Basin Using Statistical and Isotopic Approach., file e4239ddc-4ada-7180-e053-3705fe0a3322
|
121
|
Ice cores and calcite precipitates from alpine ice caves as useful proxies in paleoclimate reconstructions, file e4239ddc-48c8-7180-e053-3705fe0a3322
|
120
|
Stable isotopes in water vapor and precipitation for a coastal lagoon at mid latitudes, file e4239ddb-df6e-7180-e053-3705fe0a3322
|
119
|
The Ortles ice cores: uncovering an extended climate archive from the Eastern Alps, file e4239ddc-4ced-7180-e053-3705fe0a3322
|
118
|
Multi-isotope and elemental pattern for tracing the geographical origin of Treviso Red Chicory (NE Italy), file e4239ddc-b0ff-7180-e053-3705fe0a3322
|
116
|
Evaluation of water isotopic composition of Treviso Red Chicory and soil in northern Italy, file e4239ddc-7668-7180-e053-3705fe0a3322
|
98
|
Technical Note: Evaluation of between-sample memory effects in the analysis of δ2H and δ18O of water samples measured by laser spectroscopes, file e4239ddb-6dc6-7180-e053-3705fe0a3322
|
97
|
Unveiling the anatomy of Termination 3 using water and air isotopes in the Dome C ice core, East Antarctica, file e4239ddd-ffc0-7180-e053-3705fe0a3322
|
94
|
From precipitation to ice core: On the importance of surface processes for stable water-isotope records in East Antarctica, file aae1813e-4919-4bdc-817c-80a723638246
|
90
|
Dating of the GV7 East Antarctic ice core by high-resolution chemical records and focus on the accumulation rate variability in the last millennium, file e4239dde-67f1-7180-e053-3705fe0a3322
|
83
|
A review of the bipolar see-saw from synchronized and high resolution ice core water stable isotope records from Greenland and East Antarctica, file e4239ddd-f676-7180-e053-3705fe0a3322
|
75
|
Antarctic climate variability from ice core records over the last two millennia, file e4239ddb-6dcb-7180-e053-3705fe0a3322
|
58
|
Two-dimensional impurity imaging in deep Antarctic ice cores: snapshots of three climatic periods and implications for high-resolution signal interpretation, file e4239dde-543f-7180-e053-3705fe0a3322
|
58
|
Water Isotopic Signature of Surface Snow Metamorphism in Antarctica, file e4239dde-63ca-7180-e053-3705fe0a3322
|
58
|
Isotopic composition of water vapor near the air-water interface, file e4239ddc-4dc9-7180-e053-3705fe0a3322
|
54
|
Late Holocene sedimentation in coastal areas of the northwestern Ross Sea (Antarctica)., file e4239ddb-6e2c-7180-e053-3705fe0a3322
|
51
|
Modelling stable water isotopes during “high-precipitation” events at Dome C, Antarctica, file e4239ddb-6e26-7180-e053-3705fe0a3322
|
50
|
Atmospheric synoptic conditions of snow precipitation in East Antarctica using ice core and reanalysis data, file e4239ddb-6dc4-7180-e053-3705fe0a3322
|
46
|
Using continuous measurements of near-surface atmospheric water vapour isotopes to document snow-air interactions, file e4239ddb-6dc9-7180-e053-3705fe0a3322
|
45
|
Prominent features in isotopic, chemical and dust stratigraphies from GV7, a drilling site in East Antarctica, file e4239ddb-dff9-7180-e053-3705fe0a3322
|
45
|
The isotopic composition of water vapor: from discrete to continuous measurements. A focus on calibration methods, file e4239ddc-43b2-7180-e053-3705fe0a3322
|
44
|
Enhanced Antarctic climate variability during the last interglacial period, file e4239ddb-6e30-7180-e053-3705fe0a3322
|
38
|
Characterization of a customized calibration unit for continuous measurements of the isotopic composition of water vapor, file e4239ddc-46ee-7180-e053-3705fe0a3322
|
37
|
Reconstructing Antarctic Holocene climate/environmental changes from ice and marine cores, file e4239ddb-6e2d-7180-e053-3705fe0a3322
|
34
|
Isotopic composition of precipitation of Friuli-Venezia Giulia (Northeastern Italy), file e4239ddb-36e6-7180-e053-3705fe0a3322
|
32
|
Snow in the desert – measuring and modeling precipitation in an extreme environment, file e4239ddb-6e40-7180-e053-3705fe0a3322
|
30
|
Holocene climate variability from ice core records in the Ross Sea area (East Antarctica), file e4239ddb-6e44-7180-e053-3705fe0a3322
|
30
|
Changes in sea-ice cover and temperature in the Western Ross Sea during the Holocene, file e4239ddb-dffa-7180-e053-3705fe0a3322
|
30
|
Comparison of data and model simulations over 4, 6, 8 and 10 ka snapshots at high-southern latitudes, file e4239ddb-6e2f-7180-e053-3705fe0a3322
|
29
|
Precipitation regime and stable isotopes at Dome C and Dome Fuji, East Antarctica, file e4239ddb-e365-7180-e053-3705fe0a3322
|
28
|
Isotopic Characterization of Italian Industrial Hemp (Cannabis sativa L.) Intended for Food Use: A First Exploratory Study, file e4239dde-a6ce-7180-e053-3705fe0a3322
|
26
|
Spatial variability in isotopic composition of surface snow along the East Antarctic International Ice Sheet Traverse (EAIIST), file 1a0e9f22-24ea-4547-ae8b-fe2da9d04684
|
21
|
Wilkes subglacial basin ice sheet response to Southern Ocean warming during late Pleistocene interglacials, file 25c9dd97-9138-4a0d-a993-db37310148e4
|
14
|
Assessing recent trends in high-latitude Southern Hemisphere surface climate, file e4239ddd-f431-7180-e053-3705fe0a3322
|
13
|
Sub-millennial climate variability from high-resolution water isotopes in the EPICA Dome C ice core, file 6fe4ae99-bfd8-40f6-af11-e818426fcab0
|
8
|
Isotopic Characterization of Italian Industrial Hemp (Cannabis sativa L.) Intended for Food Use: A First Exploratory Study, file e4239dde-a6cf-7180-e053-3705fe0a3322
|
8
|
The spatial variability in isotopic composition of surface snow and snowpits on the East Antarctic Ice Sheet, file b1b3d075-d3b6-49c4-8a24-a2332486abcd
|
7
|
Bromine, iodine and sodium along the EAIIST traverse: Bulk and surface snow latitudinal variability, file cd6aba96-01ed-4cf6-beec-3dd75f3da18b
|
7
|
Front Cover: Isotopic Characterization of Italian Industrial Hemp (Cannabis sativa L.) Intended for Food Use: A First Exploratory Study, file 719277e2-116e-4ac3-8ca4-8aa61e0a89e5
|
4
|
Ten years of isotopic composition of precipitation at Concordia Station, East Antarctica, file 71a4d1b3-a4ca-4462-8fe9-bc267a441d15
|
4
|
Climate change is rapidly deteriorating the climatic signal in Svalbard glaciers, file 027f8917-c0d2-4dd1-b00b-1d9c9816025e
|
3
|
Investigating two possible schemes of Laser Ablation – Cavity Ring Down Spectrometry for water isotope measurements on ice cores, file 5d9a7620-0cfc-4599-bcba-6c0ec742a1ec
|
3
|
Estimation of moisture fluxes in East Antarctica and their impact on the isotopic composition of the snow surface, file 63202063-12f0-485f-98ea-d8a96ee81ea3
|
3
|
null, file e4239dde-0dd3-7180-e053-3705fe0a3322
|
2
|
Temperature trends during the Present and Last Interglacial periods - a multi-model-data comparison, file e4239ddb-36e8-7180-e053-3705fe0a3322
|
1
|
A review of the bipolar see-saw from synchronized and high resolution ice core water stable isotope records from Greenland and East Antarctica, file e4239ddb-ab45-7180-e053-3705fe0a3322
|
1
|
Assessing recent trends in high-latitude Southern Hemisphere surface climate, file e4239ddc-2ab2-7180-e053-3705fe0a3322
|
1
|
Sea salt sodium record from Talos Dome (East Antarctica) as a potential proxy of the Antarctic past sea ice extent, file e4239ddc-4714-7180-e053-3705fe0a3322
|
1
|
Abrupt ice-age shifts in southern westerly winds and Antarctic climate forced from the north, file e4239ddd-0285-7180-e053-3705fe0a3322
|
1
|
Spatial distribution and interannual trends of δ18O, δ2H, and deuterium excess in precipitation across North-Eastern Italy, file e4239ddd-e892-7180-e053-3705fe0a3322
|
1
|
Totale |
10.442 |