大野 浩
Ohno Hiroshi
研究者情報
| 職名 | 准教授 |
| 所属 | 社会環境系 |
| 電話番号 | 0157-26-9467 (9527) |
| ファックス | 0157-26-9467 |
| メールアドレス | h_ohno@mail.kitami-it.ac.jp |
| 関連ウェブサイト | http://www.ohno-glaciology.com |
学位・学歴・職歴
学位
| 博士(地球環境科学) | 極地氷床中に存在する水溶性不純物の分布と化学状態ならびに空気包接水和物結晶の形成過程に関する研究 | 2005 |
学歴
| 1998/3 | 岡山大学理学部物理学科卒業 |
| 2000/3 | 北海道大学大学院地球環境科学研究科修士課程修了 |
| 2005/3 | 北海道大学大学院地球環境科学研究科博士課程修了 |
職歴
| 2005/4-2006/3 | 北海道大学 低温科学研究所 学術研究員 |
| 2006/4-2008/9 | Center for Hydrate Research, Colorado School of Mines, USA 博士研究員 |
| 2008/10-2010/2 | Materials Structure and Function Group, National Research Council Canada / Department of Biology, Queen's University, Canada 博士研究員 |
| 2010/3-2012/3 | 産業技術総合研究所 メタンハイドレート研究センター 特別研究員 |
| 2012/4-2013/3 | 国立極地研究所 気水圏研究グループ 特任助教 |
| 2013/4-2017/3 | 北見工業大学 社会環境工学科 助教 |
| 2017/4-2019/9 | 北見工業大学 地球環境工学科 助教 |
| 2019/10- | 北見工業大学 地球環境工学科 准教授 |
担当科目・専門分野等
- 担当授業科目(学部)
- 物理実験 地球環境AB, 物理実験 地球環境CD, 物理実験 地球E/未来F, 物理実験 地域未来GH, 物理実験 地域未来IJ, 地球環境科学 環境防災, オホーツク地域と環境 地球環境, ガスハイドレート概論 環境防災, 地球環境工学入門/短期履修, 環境防災キャリアアップ総合演習 環境防災, 環境防災総合工学I 環境防災, 環境防災総合工学II 環境防災, 環境化学実験 環境防災, 物理II 地球E/未来F
- 専門分野
- 雪氷学、地球物理学、物理化学
- 研究内容キーワード
- 氷、ガスハイドレート、南極氷床、北極圏
- 所属学会
- 日本雪氷学会, アメリカ地球物理学連合, アメリカ化学会
学術論文等
学術論文
| 論文名/掲載誌名等 | 掲載年月 | |
|---|---|---|
Alteration of interstellar organic materials in meteorites’ parent bodies: a novel route for diamond formation
Proceedings of the Japan Academy Series B-Physical and Biological Sciences, 78, 9, 277-281
|
 |
2002-11 |
Physical properties of the Dome Fuji ice core
Memoirs of National Institute of Polar Research. Special issue, 57, 63-71
|
2003-03 | |
Evolution of air-bubble ensemble in hydrate formation process in ice sheets: I. Model construction and evaluation
Data of Glaciological Studies, 94, 174-186
|
2003-04 | |
Multiday variations in flow velocity at Glaciar Soler, Northern Patagonia, Chile
Arctic, Antarctic, and Alpine Research, 35, 2, 170-174
|
|
2003-05 |
Evolution of air-bubble ensemble in hydrate formation process in ice sheets: II. Computational experiments on kinetics of hydrate nucleation
Data of Glaciological Studies, 96, 34-46
|
2004-04 | |
Modeling formation of air-hydrate ensemble in transition zone of Antarctic ice sheet
Data of Glaciological Studies, 97, 71-79
|
2004-10 | |
Air bubble to clathrate hydrate formation in polar ice sheets: a reconsideration based on the new data from Dome Fuji ice core
Geophysical Research Letters, 31, 21, L21401 1-4
|
|
2004-11 |
Salt inclusions in polar ice core: Location and chemical form of water-soluble impurities
Earth and Planetary Science Letters, 232, 1-2, 171-178
|
|
2005-03 |
Characteristics of salt inclusions in polar ice from Dome Fuji, East Antarctica
Geophysical Research Letters, 33, 8, L08501
|
|
2006-04 |
Micro-Raman study of air clathrate hydrates in polar ice from Dome Fuji, Antarctica
In Physics and Chemistry of Ice; Kuhs, W. F., Ed.; Royal Society of Chemistry: Cambridge, 459-468
|
|
2007-07 |
Raman studies of methane-ethane hydrate metastability
Journal of Physical Chemistry A, 113, 9, 1711-1716
|
|
2009-03 |
Chemical compounds of water-soluble impurities in Dome Fuji ice core
Low Temperature Science, 68, 273-285
|
2009-12 | |
Towards a green hydrate inhibitor: Imaging antifreeze proteins on clathrates
PLoS ONE, 5, 2, e8953
|
|
2010-02 |
A technique for measuring microparticles in polar ice using micro-Raman spectroscopy
International Journal of Spectroscopy, 2010, Article ID 384956
|
|
2010-07 |
Interaction of antifreeze proteins with hydrocarbon hydrates
Chemistry - A European Journal, 16, 34, 10409-10417
|
|
2010-09 |
Symmetric stretching vibration of CH4 in clathrate hydrate structures
ChemPhysChem, 11, 14, 3070-3073
|
|
2010-10 |
Magnesium methanesulfonate salt found in the Dome Fuji (Antarctica) ice core
Journal of Glaciology, 56, 199, 837-842
|
|
2010-12 |
Formation of air clathrate hydrates in polar ice sheets; heterogeneous nucleation induced by micro-inclusions
Journal of Glaciology, 56, 199, 917-921
|
|
2010-12 |
Different modes of gas hydrate dissociation to ice observed by microfocus X-ray computed tomography
Journal of Physical Chemistry Letters, 2, 3, 201-205
|
|
2011-02 |
Morphological and compositional characterization of self-preserved gas hydrates by low-vacuum scanning electron microscopy
ChemPhysChem, 12, 9, 1661-1665
|
|
2011-06 |
Dissociation behavior of C2H6 hydrate at temperatures below the ice point: melting to liquid water followed by ice nucleation
Journal of Physical Chemistry A, 115, 32, 8889-8894
|
|
2011-08 |
The chemical forms of water-soluble microparticles preserved in the Antarctic ice sheet during Termination I
Journal of Glaciology, 27, 206, 1027-1032
|
|
2011-12 |
Structures of hydrocarbon hydrates during formation with and without inhibitors
Journal of Physical Chemistry A, 116, 5, 1337-1343
|
|
2012-02 |
Potassium alum and aluminum sulfate micro-inclusions in polar ice from Dome Fuji, East Antarctica
Polar Science, 8, 1, 1-9
|
|
2014-03 |
Antifreeze proteins as gas hydrate inhibitors
Canadian Journal of Chemistry, 10.1139/cjc-2014-0538
|
|
2015-02 |
Spatial distributions of soluble salts in surface
snow of East Antarctica
Tellus B, 68, 29285
|
|
2016-07 |
Physicochemical properties of bottom ice from Dome Fuji, inland East Antarctica
Journal of Geophysical Research: Earth Surface, 121, 7, 1230–1250
|
|
2016-07 |
Micro-droplets containing sulfate in the Dome Fuji deep ice core, Antarctica: findings using micro-Raman spectroscopy
Journal of Raman Spectroscopy, 48, 448-452
|
|
2016-10 |
Asynchrony between Antarctic temperature and CO2 associated with obliquity over the past 720,000 years
Nature Communications, 9, Article number: 961
|
|
2018-03 |
Ion concentrations in ice wedges: an innovative approach to reconstruct past climate variability
Earth and Planetary Science Letters, 514
|
|
2019-03 |
Measurements of beryllium isotopes in ice wedges in Alaska
Nuclear Inst. and Methods in Physics Research B, 459, 2019, 64-70
|
|
2019-07 |
Mapping simulated circum-Arctic organic carbon, ground ice, and vulnerability of ice-rich permafrost to degradation
Progress in Earth and Planetary Science, 2020, 7, Article number: 31
|
|
2020-07 |
Future projection of greenhouse gas emissions due to permafrost degradation using a simple numerical scheme with a global land surface model
Progress in Earth and Planetary Science, 2020, 7, Article number: 56
|
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2020-10 |
Numerical model to simulate long-term soil organic carbon and ground ice budget with permafrost and ice sheets (SOC-ICE-v1.0)
Geoscientific Model Development, 14, 521–542
|
|
2021-01 |
Pure rotational Raman spectroscopy applied to N2/O2 analysis of air bubbles in polar firn
Journal of Glaciology, 67, 265, 903-908
|
|
2021-04 |
Surface Mass Balance Controlled by Local Surface Slope in Inland Antarctica: Implications for Ice-Sheet Mass Balance and Oldest Ice Delineation in Dome Fuji
Geophysical Research Letters, 48, 24, e2021GL094966
|
|
2021-12 |
Climatic assessment of circum-Arctic permafrost zonation over the last 122 kyr
Polar Science, 31, 100765
|
|
2022-03 |
High-resolution subglacial topography around Dome Fuji, Antarctica, based on ground-based radar surveys over 30 years
The Cryosphere, 16, 2967–2983
|
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2022-07 |
Development of crystal orientation fabric in the Dome Fuji ice core in East Antarctica: implications for the deformation regime in ice sheets
The Cryosphere, 16, 2985–3003
|
|
2022-07 |
High Flux of Small Sulfate Aerosols During the 1970s Reconstructed From the SE-Dome Ice Core in Greenland
Journal of Geophysical Research Atmospheres, 127, 17, e2022JD036880
|
|
2022-08 |
Temporal variations of surface mass balance over the last 5000 years around Dome Fuji, Dronning Maud Land, East Antarctica
Climate of the Past, 19, 2, 293–321
|
|
2023-02 |
Microplastics in snow from protected areas in Hokkaido, the northern island of Japan
scientific reports, 13, Article number: 9942
|
|
2023-06 |
科学研究費
| 研究課題・他 | 取得年月 |
|---|---|
地下氷コア解析によるアラスカ永久凍土域の環境動態解明-氷床コア研究法を応用して-
|
2016- |
エネルギー輸送・貯蔵に向けた界面活性剤によるガスハイドレート生成促進効果の解明
|
2014-2015 |
南極積雪中で変質する大気エアロゾル起源物質の構造及び挙動解明
|
2012-2013 |
氷床コアの総合解析による様々な時間スケールの地球環境変動の解明
|
2013 |
地下氷コア解析によるアラスカ永久凍土域の環境動態解明-氷床コア研究法を応用して-
|
|
過去72万年間の気候変動情報を含むアイスコアの物理と層位および「最古の氷」の研究
|
|
世界一の確度をもつ過去200年間の沈着エアロゾルのデータベース創成と変遷解明
|
|
過去72万年間の気候変動情報を含むアイスコアの物理と層位および「最古の氷」の研究
|
|
世界一の確度をもつ過去200年間の沈着エアロゾルのデータベース創成と変遷解明
|
|
過去72万年間の気候変動情報を含むアイスコアの物理と層位および「最古の氷」の研究
|
|
世界一の確度をもつ過去200年間の沈着エアロゾルのデータベース創成と変遷解明
|
|
過去72万年間の気候変動情報を含むアイスコアの物理と層位および「最古の氷」の研究
|
|
氷床表層部における気泡-空隙間ガス分別現象の解明-回転ラマン分光法を応用して-
|
|
世界一の確度をもつ過去200年間の沈着エアロゾルのデータベース創成と変遷解明
|
|
過去72万年間の気候変動情報を含むアイスコアの物理と層位および「最古の氷」の研究
|
|
氷床表層部における気泡-空隙間ガス分別現象の解明-回転ラマン分光法を応用して-
|