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齋藤 拓也 様の 共著関連データベース

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+(A list of literatures under single or joint authorship with "齋藤 拓也")

共著回数と共著者名 (a list of the joint author(s))

28: 齋藤 拓也

11: 渋谷 岳造

8: 丸山 茂徳, 波多野 恭弘

7: 澤木 佑介

6: 上田 修裕, 小宮 剛, 松井 洋平

5: 上野 雄一郎, 中井 亮佑, 佐藤 友彦, 森川 徳敏, 玉木 秀幸, 須田 好, 高橋 浩

4: 宮入 陽介, 横山 祐典, 西澤 学, 阿瀬 貴博

3: 高井 研, 黒澤 正紀

2: 丹 秀也, 住野 豊, 北島 宏輝, 吉田 尚弘, 山口 哲生, 山本 伸次, 眞壁 明子

1: ALEXIS Gilbert, DE WIT Maarten, FURNES Harald, QIU Huaning, ラッセル マイケル, 三島 郁, 井出 哲, 冨田 勝, 呉 鵬, 坂田 周平, 小野 周平, 山田 桂太, 岡田 吉弘, 川口 慎介, 平田 岳史, 星野 健一, 梁 翼, 水上 勇佑, 沼保 壮太, 菊池 早希子, 藤崎 渉, 谷 湘平, 金子 雅紀, 関根 康人, 阿部 真理子, 高橋 嘉夫, 高谷 雄太郎

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発行年とタイトル (Title and year of the issue(s))

2011: 22億年前の流体包有物分析による全球凍結の真核生物への影響力に対する解釈(BPT022 18) [Net] [Bib]
Geochemical analyses of the 2.2 Ga fluid inclusions: Impact of Snowball Earth on eukaryote diversification(BPT022 18) [Net] [Bib]

2011: 22億年前の海水塩化物イオン濃度と表層環境の進化 [Net] [Bib] [Doi]
Chloride ion concentration of 2.2Ga seawater and evolution of Earth surface environment [Net] [Bib] [Doi]

2013: 四国，四万十帯北帯，横浪メランジュのジルコンU Pb年代測定による同地域の年代構造の再考(T3 O 7) [Net] [Bib] [Doi]
Reconstruction of chronological structure by U Pb chronology with zircon in Yokonami melange, Northern Part of Shimanto belt, Shikoku (T3 O 7) [Net] [Bib] [Doi]

2014: 35億年前の南アフリカ・バーバートン緑色岩帯における高解像度四種硫黄同位体比分析 [Net] [Bib]
Multiple sulfur isotope study in the Barberton Greenstone Belt, South Africa [Net] [Bib]

2015: 22億年前Ongeluk累層中に産する熱水性石英を用いた当時の海水組成の復元 [Net] [Bib]
Estimation of the seawater salinity from fluid inclusion analysis used by hydrothermal quartz precipitated with hydrothermal altered basalt [Net] [Bib]

2015: 原生代前期全球凍結時の大気CO2分圧 [Net] [Bib]
Atmospheric CO2 levels during the Paleoproterozoic global glaciation [Net] [Bib]

2015: 地球史を通した海洋塩化物イオン濃度の変化(T6 O 6) [Net] [Bib] [Doi]
Secular change of seawater salinity through Earth history (T6 O 6) [Net] [Bib] [Doi]

2015: 熱水性石英中の流体包有物を用いたAr Ar年代測定と試料の産状の比較(SGC51 P04) [Net] [Bib]
Ar Ar dating by fluid inclusions in hydrothermal quartz, compared with its field and microscopic observations (SMP51 P04) [Net] [Bib]

2016: 22億年前南アフリカ オンゲルック累層に産する熱水性石英中流体包有物を用いた，PIXE分析並びに氷点測定から読み解く過去の海水塩濃度(BPT05 P08) [Net] [Bib]
PIXE and microthermometric analyses of fluid inclusions in hydrothermal quartz from the 2.2 Ga Ongeluk Formation, South Africa: implications for ancient seawater salinity (BPT05 P08) [Net] [Bib]

2016: 中国湖南省柏坊鉱山柚子塘鉱床の銅鉱化作用の予察的研究 [Net] [Bib]
A preliminary study of the Cu mineralization in the Youzitang deposit of the Bofang mine, Hunan, China [Net] [Bib]

2017: 地震の核形成過程に対する周期的応力摂動の効果(S08 19) [Net] [Bib]
Earthquake nucleation process under periodic stress perturbations (S08 19) [Net] [Bib]

2018: Are slow earthquakes spatio temporal chaos? Reproducing slow earthquakes as the Benjamin Feir instability (SCG53 P22) [Net] [Bib]

2018: Geochemical study for serpentinite hosted hyperalkaline hot spring in Hakuba Happo, Japan (BCG07 05) [Net] [Bib]

2018: Tidal effects on seismic activity and rupture nucleation process (SCG53 32) [Net] [Bib]

2018: 地震の核形成過程における応力摂動の影響(S23 34) [Net] [Bib]
Effects of stress perturbation on earthquake nucleation (S23 34) [Net] [Bib]

2018: 地震の核形成過程に対する周期的応力摂動の効果(SSS15 06) [Net] [Bib]
Effects of Periodic Stress Perturbations on Earthquake Nucleation Processes (SSS15 06) [Net] [Bib]

2019: 14CH4および希ガス同位体を用いた白馬八方蛇紋岩温泉におけるメタンの起源の制約(BBC03 03) [Net] [Bib]
Constraint on the origin of methane from Hakuba Happo serpentinite hosted hot spring by using 14CH4 and noble gas isotope (BBC03 03) [Net] [Bib]

2020: 14Cおよび希ガス同位体を用いた白馬八方蛇紋岩温泉メタンの起源研究 [Net] [Bib] [Doi]
Radiocarbon and noble gas constraints on origin of methane in serpentinite hosted Hakuba Happo hot spring, Japan [Net] [Bib] [Doi]

2020: Effects of periodic stress perturbations on earthquake nucleation (SCG58 36) [Net] [Bib]

2020: Radiocarbon and noble gas isotope study to constrain origin of methane in Hakuba Happo serpentinite hosted hot spring (BBC03 P01) [Net] [Bib]

2020: Reduction of mathematical model for slip behavior of one dimensional elastic layer with rate and state friction (SCG58 35) [Net] [Bib]

2020: エンセラダスの水素に富む海底熱水環境(MIS07 P03) [Net] [Bib]
H2 rich hydrothermal environment in the Enceladus’ subsurface ocean (MIS07 P03) [Net] [Bib]

2020: 海底熱水環境における非生物学的硝酸還元反応と初期地球窒素循環(MIS07 P04) [Net] [Bib]
Abiotic nitrate reduction in hydrothermal environments and nitrogen cycle in early earth (MIS07 P04) [Net] [Bib]

2021: Effects of periodic stress perturbations on earthquake nucleation (SCG39 08) [Net] [Bib]

2021: 白馬八方蛇紋岩温泉の深部起源メタン [Net] [Bib] [Doi]
Deep origin of methane from serpentinite hosted Hakuba Happo hot spring, Japan [Net] [Bib] [Doi]

2023: Long term evolution of hydrothermal fluid chemistry on Earth (MIS20 04) [Net] [Bib]

2023: 地球初期海底熱水系におけるアンモニア生成の化学と同位体効果の実験的研究(MIS20 09) [Net] [Bib]
Experimental study of chemistry and isotopic effects of ammonia production from nitrate in komatiite hosted hydrothermal system in the early oceans (MIS20 09) [Net] [Bib]

2024: Investigations for metals in basalt hosted hydrothermal environments: Implications for habitability of Europa (MIS19 P03) [Net] [Bib]