1 |
Application of cosmogenic nuclides dating to the glacial and paleoclinatological study |
2017.08.03 |
2 |
The study of biogeochemical alteration of clay mineral in marine and terrigenous sediments distributed in exposure area of glacier, West Antarctica |
2017.08.03 |
3 |
Spatial and temporal variabilities of spring Asian dust events and their impacts on chlorophyll-a concentrations in the western North Pacific Ocean |
2017.08.03 |
4 |
High-resolution analytical study of the Holocene-deglacial sediments in the Antarctic Ocean |
2017.08.03 |
5 |
Research of paleoenvironmental change using diatoms from Holocene core sediments in Antarctica |
2017.08.03 |
6 |
Redox transformation of heavy metal substances in ice phase |
2017.08.03 |
7 |
The study of biogeochemical alteration of clay mineral in marine and terrigenous sediments distributed in exposure area of glacier, West Antarctica |
2018.05.14 |
8 |
The study of biogeochemical alteration of clay mineral in marine and terrigenous sediments distributed in exposure area of glacier, West Antarctica |
2018.05.16 |
9 |
Redox transformation of heavy metal substances in ice phase |
2018.05.10 |
10 |
Application of cosmogenic nuclides dating to the glacial and paleoclimatological study |
2018.05.10 |
11 |
Production of Molecular Iodine and Tri-iodide in the Frozen Solution of Iodide: Implication for Polar Atmosphere |
2017.08.03 |
12 |
Quaternary Record of Paleoenvironmental Conditions in the Antarctic zone in Southwest Pacific sector of the Southern Ocean: Preliminary results |
2017.08.03 |
13 |
Marinobacterium profundum sp. nov., a marine bacterium from deep-sea sediment |
2017.08.03 |
14 |
High-resolution analytical study of the Holocene-deglacial sediments in the Antarctic Ocean |
2017.08.03 |
15 |
Application of cosmogenic nuclides dating to the glacial and paleoclinatological study |
2017.08.03 |
16 |
Composition of beach sands of the King George Island and their relationship with environmental conditions in the Antarctic area |
2017.08.03 |
17 |
The study of biogeochemical alteration of clay mineral in marine and terrigenous sediments distributed in exposure area of glacier, West Antarctica |
2017.08.03 |
18 |
Paleoenvironmental research from the Holocene core sediment in the Antarctic, based on diatom assemblage |
2017.08.03 |
19 |
Redox transformation of heavy metal substances in ice phase |
2017.08.03 |
20 |
Accelerated redox chemical processes of inorganic compounds in frozen state and its impact on polar environment |
2017.08.03 |
21 |
Non-biological production of active iodine in ice and its implication in polar region |
2017.08.03 |
22 |
Marinobacterium profundum sp. nov., a marine bacterium from deep-sea sediment |
2018.03.29 |
23 |
High-resolution analytical study of the Holocene-deglacial sediments in the Antarctic Ocean |
2018.05.10 |
24 |
Paleoenvironmental research from the Holocene core sediment in the Antarctic, based on diatom assemblage |
2018.05.10 |
25 |
Composition of beach sands of the King George Island and their relationship with environmental conditions in the Antarctic area |
2018.05.10 |
26 |
Enhanced Removal of Hexavalent Chromium in the Presence of H2O2 in Frozen Aqueous Solutions |
2017.08.03 |
27 |
Freezing-Enhanced Dissolution of Iron Oxides: Effects of Inorganic Acid Anions |
2017.08.03 |
28 |
Diatom Succession Representing the Paleoclimatic Change from Laminated Sediments around Antarctica |
2017.08.03 |
29 |
Metagenomic Analysis of Marine RNA Virioplankton in the Vicinity of the Antarctic Peninsula |
2017.08.03 |
30 |
Late Holocene glacial advance and ice shelf growth in Barilari Bay, Graham Land, west Antarctic Peninsula |
2017.08.03 |
31 |
Configuration of the Northern Antarctic Peninsula Ice Sheet at LGM based on a new synthesis of seabed imagery |
2017.08.03 |
32 |
Hydrography of Marian Cove, King George Island, West Antarctica: implications for ice-proximal sedimentation during summer |
2017.08.03 |
33 |
Geochemical Characteristics of Volcanic Glasses from the Limnopolar Lake, Byers Peninsula, Livingston Island, Antarctica: Application as age Indicator |
2017.08.03 |
34 |
Presence of diatomaceous mud beneath stratified diamicton in the southwestern Ross Sea and its implication |
2017.08.03 |
35 |
Open marine sedimentation in the southwestern Ross Sea during the Last Glacial Maximum |
2017.08.03 |
36 |
Metagenomic Analysis of Marine RNA Virioplankton in the Vicinity of the Antarctic Peninsula |
|
37 |
Enhanced Removal of Hexavalent Chromium in the Presence of H2O2 in Frozen Aqueous Solutions |
2018.03.29 |
38 |
Freezing-Enhanced Dissolution of Iron Oxides: Effects of Inorganic Acid Anions |
2018.03.29 |
39 |
The study of biogeochemical alteration of clay mineral in marine and terrigenous sediments distributed in exposure area of glacier, West Antarctica |
2017.08.03 |
40 |
Mineralogy adn biogeochemistry of elemental cycles through rock, microbe, and soils in the Antarctica |
2017.08.03 |
41 |
Application of cosmogenic nuclides dating to the glacial and paleoclinatological study |
2017.08.03 |
42 |
Composition of beach sands of the King George Island and their relationship with environmental conditions in the Antarctic area |
2017.08.03 |
43 |
Change in deep water circulation in southern Drake Passage during the Mid-Pleistocene Transition |
2017.08.03 |
44 |
GEOCHEMICAL CHARACTERISTICS OF VOLCANIC GLASSES FROM THE LIMNOPOLAR LAKE, BYERS PENINSULA, LIVINGSTON ISLAND, ANTARCTICA: APPLICATION AS AGE INDICATOR |
2018.03.28 |
45 |
Rare earth element composition of paleo-maar sediments (latestPleistocene - early Holocene), Jeju Island, Korea: implications forAsian dust record and monsoon climate |
2017.08.03 |
46 |
Geochemical characteristics of meltwater and pondwater on Barton and Weaver Peninsulas of King George Island, West Antarctica |
2017.08.03 |
47 |
Dissolution of iron and manganese oxides in ice and its impacts on polar regions |
2017.08.03 |
48 |
Late Quaternary climatic changes around the Elephant Islands, Antarctic Peninsula |
2017.08.03 |
49 |
Arsenite Oxidation Initiated by the UV Photolysis of Nitrite and Nitrate |
2017.08.03 |
50 |
Change in Deep Water Circulation in Southern Drake Passage during the Mid-Pleistocene Transition |
2017.08.03 |
51 |
Characteristics of seabird eggshell carbonate and membrance and their relationship with environmental conditions in the Antarctic area |
2017.08.03 |
52 |
Application of cosmogenic nuclides dating to the glacial and paleoclinatological study |
2017.08.03 |
53 |
Paleoenvirmental changes by analysis of Diatom assemblages in core sediments, Antarctica |
2017.08.03 |
54 |
Late Holocene paleoclimatic record of sediment from the Weddell Sea off the northern Antarctic Peninsula: preliminary results |
2017.08.03 |
55 |
The enhanced iodide oxidation in frozen environment and the following release of gaseous iodine molecules (I2) to the atmosphere |
2017.08.03 |
56 |
Accelerated dissolution of iron oxides in ice media and its environmental effects |
2017.08.03 |
57 |
Enhanced production of atmospheric iodine in Antarctica |
2017.08.03 |
58 |
Increased bioavailability of iron in frozen environments |
2017.08.03 |
59 |
Enhanced formation of atmospheric iodine species in ice media and its impacts on Antarctica |
2017.08.03 |
60 |
Paleoceanographic changes in southern Drake Passage during the Mid-Pleistocene Transition |
2017.08.03 |
61 |
Late Holocene paleoclimatic record of sediment near JoinvilleIsland, Antarctic Peninsula |
2017.08.03 |