A. 学術論文 (査読有)
  72)
Yamanaka, T. and I. Adachi (2024): Hot springs reflect the flooding of slab-derived water as a trigger of earthquakes. Communications Earth & Environment, 5, 459, doi:10.1038/s43247-024-01606-1. (2024.9)

  71)
Adachi, I. and T. Yamanaka (2024): Isotopic evolutionary track of water due to interaction with rocks and its use for tracing water cycle through the lithosphere. Journal of Hydrology, 628, 130589, doi:10.1016/j.jhydrol.2023.130589. (2024.1)

  70)
Rahman, M., T. Tokunaga, T. Yamanaka (2021) :Origin and evolutionary processes of deep groundwater salinity in southwestern coastal region of the Ganges-Brahmaputra-Meghna Delta, Bangladesh . Journal of Hydrology: Regional Studies, 36, 100854. (2021.6)

  69)
安達郁哉・山中 勤 (2020) :中部地方の温泉に含まれる非天水成分の特徴と成因. 日本水文科学会誌, 50, 55-70. (2020.8)

  68)
山中 勤・辻村真貴 (2020) : 滞留時間に関する諸概念と用語法. 水文・水資源学会誌, 33, 156-163. (2020.7)

  67)
Yamanaka, T. (2018) : Root functional change achieves water source separation under vegetation succession. Ecohydrology, DOI: 10.1002/eco.1985. (2018.5)

  66)
Wang, P., T. Yamanaka, X-Y. Li, X. Wu, B. Chen, Y. Liu, Z. Wei, W. Ma (2018) : A multiple time scale modeling investigation of leaf water isotope enrichment in a temperate grassland ecosystem. Ecological Research, 33, 901-915. (2018.3)

  65)
Yamanaka, T., T. Kimura, X. Sun, H. Kato and Y. Onda (2017) : Comparing root water uptake profile estimations from an isotope-calibrated mechanistic model and a mixing model. Hydrological Research Letters, 11, 161−167. (2017.9)

  64)
Yamanaka, T. and Y. Yamada (2017) : Regional assessment of recharge elevation of tap water sources using the isoscape approach. Mountain Research and Development, 37, 198−205. (2017.5)

  63)
Yamanaka, T. and W. Ma (2017) : Runoff prediction in a poorly gauged basin using isotope-calibrated models. Journal of Hydrology, 544, 567-574. (2016.12)

  62)
山中 勤・鈴木啓助・脇山義史・岸 和央・牧野裕紀・丸山浩輔・加納正也・馬 文超・正木大祐・杉山昌典・山川陽祐・吉竹晋平 (2016) : 山岳域の同位体マッピング: 現状と展望. 日本水文科学会誌, 46, 73−86. (2016.8)

  61)
Deka, J.P., T. Yamanaka, S. Singh, R. Choudhry, G. Tyang and M. Kumar (2016) : Tracing the imprints of climate change through hydrogeochemical studies on the eastern Himalayan high altitude lakes. Journal of Climate Change, 2, 69-78. (2016.1)

  60)
Ma, W. and T. Yamanaka (2016) : Factors controlling inter-catchment variation of mean transit time with consideration of temporal variability. Journal of Hydrology, 534, 193-204. (2016.1)

  59)
Yamanaka, T., Y. Makino, Y. Wakiyama, K. Kishi, K. Maruyama, M. Kano, W. Ma and K. Suzuki (2015) : How reliable are modeled precipitation isoscapes over a high-relief mountainous region? Hydrological Research Letters, 9, 118-124. (2015.12)

  58)
Wang, P., T. Yamanaka, X-Y. Li and Z. Wei (2015) : Partitioning evapotranspiration in a temperate grassland ecosystem: numerical modeling with isotopic tracers. Agricultural and Forest Meteorology, 208, 16-31. (2015.4)

  57)
山中 勤 (2015) : 天然記念物塩川の湧出機構 ―短期集中観測と数理モデルによる定量的検証―. 地理学評論, 88(3), 1-18. (2015.4)

  56)
Liu, Y., X. Zhou, Z. Deng, B. Fang, T. Yamanaka, J. Zhao and X. Wang (2015) : Hydrochemical characteristics and genesis analysis of the Jifei hotspring in Yunnan, southwestern China. Geothermics, 53, 38-45. (2015.1)

  55)
Liu, Y., T. Yamanaka, X. Zhou, F Tian and W. Ma (2014) : Combined use of tracer approach and numerical simulation to estimate groundwater recharge in an alluvial aquifer system: A case study of Nasunogahara area, central Japan. Journal of Hydrology, 519, 833-847. (2014.11)

  54)
Wakiyama, Y. and T. Yamanaka (2014) : Year-to-year variation in snowmelt runoff from a small forested watershed in the mountainous region of central Japan. Hydrological Research Letters, 8, 90-95. (2014.6)

  53)
Hosono, T., O. Lorphensriand, S. Onodera, H. Okawa, T. Nakano, T. Yamanaka, M. Tsujimura and M Taniguchi (2014) : Different isotopic evolutionary trends of δ34S and δ18O compositions of dissolved sulfate in an anaerobic deltaic aquifer system. Applied Geochemistry, 45, 30-42. (2014.5)

  52)
Wang, P. and T. Yamanaka (2014) : Application of a two-source model for partitioning evapotranspiration and assessing its controls in temperate grasslands in central Japan. Ecohydrology, 7, 345-353. DOI: 10.1002/eco.1352. (2014.4)

  51)
Ma, W and T. Yamanaka (2013) : Temporal variability in mean transit time and transit time distributions assessed by a tracer-aided tank model of a meso-scale catchment. Hydrological Research Letters, 7, 104-109. (2013.12)

  50)
Kato, H., Y. Onda, K. Nanko, T. Gomi, T. Yamanaka, and S. Kawaguchi (2013) : Effect of canopy interception on spatial variability and isotopic composition of throughfall in japanese cypress plantations. Journal of Hydrology, 504, 1-11. DOI:10.1016/j.jhydrol.2013.09.028. (2013.9)

  49)
山中 勤・脇山義史・鈴木啓助 (2013) : 中部山岳地域における融雪流出特性の標高依存性. 地学雑誌, 122, 682-693. (2013.8)

  48)
脇山義史・牧野裕紀・山中 勤・鈴木啓助 (2013) : 中部山岳地域における降水のd-excessの時空間変動. 地学雑誌, 122, 666-681. (2013.8)

  47)
Kaihotsu, I., K. Imaoka, H. Fujii, D. Oyunbaatar, T. Yamanaka, K. Shiraishi and T. Koike (2013) : First evaluation of SMOS L2 soil moisture products using in situ observation data of MAVEX on the Mongolian Plateau in 2010 and 2011. Hydrological Research Letters, 7, 30-35. (2013.5)

  46)
Yamanaka, T., Y. Wakiyama and K. Suzuki (2012) : Is snowmelt runoff timing in the Japanese Alps region shifting toward earlier in the year? Hydrological Research Letters, 6, 87-91. (2012.9)

  45)
Liu, Y. and T. Yamanaka (2012) : Tracing groundwater recharge sources in a mountain-plain transitional area using stable isotopes and hydrochemistry. Journal of Hydrology, 464-465, 116-126. (2012.9)

  44)
Kaihotsu, I., T. Koike, H. Fujii, T. Yamanaka, O. Dambaravjaa, A Dorgorsren and K. Shiraki (2012) : alidation of the soil moisture measurement algorithm of AMSR-E. Remote Sensing and Hydrology, IAHS Publ. 352, 38-41. (2012.9)

  43)
Liu, Y., X. Zhou, B. Fang, H. Zhou and T. Yamanaka (2012) : A preliminary analysis of the formation of travertine and travertine cones in the Jifei hot spring, Yunnan, China. Environmental Earth Sciences, 66, 1887-1896. (2012.8)

  42)
Wang, P., T. Yamanaka and G.Y. Qiu (2012) : Causes of decreased reference evapotranspiration and pan evaporation in the Jinghe River catchment, northern China. The Environmentalist, 32, 1-10. (2012.4)

  41)
Kumar, P., S. Iwagami, L. Yaping, M. Mikita, T. Tanaka and T. Yamanaka (2011) : Multivariate approach for surface water quality mapping with special reference to nitrate enrichment in Sugadaira, Nagano Prefecture (Japan). The Environmentalist, 31, 358-363. (2011.11)

  40)
Yamanaka, T., M. Mikita, O. Lorphensri, J. Shimada, M. Kagabu, R. Ikawa, T. Nakamura and M. Tsujimura (2011) : Anthropogenic changes in a confined groundwater flow system in the Bangkok Basin, Thailand, part II: how much water has been renewed? Hydrological Processes, 25, 2734-2741. (2011.8)

  39)
Mikita, M., T. Yamanaka and O. Lorphensri (2011) : Anthropogenic changes in a confined groundwater flow system in the Bangkok Basin, Thailand, part I: was groundwater-recharge enhanced? Hydrological Processes, 25, 2726-2733. (2011.8)

  38)
Yamanaka, T., J. Shimada, M. Tsujimura, O. Lorphensri, M. Mikita, A. Hagihara and S. Onodera (2011) : Tracing a confined groundwater flow system under the pressure of excessive groundwater use in the Lower Central Plain, Thailand. Hydrological Processes, 25, 2654-2664. (2011.8)

  37)
Jelassi, H., T. Tanaka, T. Yamanaka and M. Bedir (2011) : Geochemical processes regulating groundwater quality in coastal aquifer in Odawara region, Kanagawa Prefecture, Japan. 水文・水資源学会誌, 24, 37-49. (2011.1)

  36)
Hosono, T., F. Siringan, T. Yamanaka, Y. Umezawa, S. Onodera, T. Nakano and M. Taniguchi (2010) : Application of multi-isotope ratios to study the source and quality of urban groundwater in Metro Manila, Philippines. Applied Geochemistry, 25, 900-909. (2010.6)

  35)
Yamanaka, T. (2009) : Interdisciplinary perspectives on hydrological cycle in arid zones. Annals of Arid Zone, 48, 341-357. (2011.11)

  34)
Hosono, T., S. Buapeng, S. Onodera, T. Yamanaka, J. Shimada, T. Nakano, M. Taniguch (2009) : Sulfate and strontium isotopic variations of groundwater in the Lower Central Plain, Thailand. In M. Taniguchi, A. Dausman, K. Howard, M. Polemio and E. Lakshmanan (eds.) : Trends and Sustainability of Groundwater in Highly Stressed Aquifers, IAHS publication 329, 284-290. (2009.9)

  33)
平田昌弘・岸川沙織・近藤昭彦・山中 勤・開發一郎・ダムディン バトムンフ・本江昭夫 (2009) : モンゴル高原中央部における植物の生育に影響を及ぼす自然環境の諸要因の分析. 砂漠研究 (日本沙漠学会誌), 19, 403-411. (2009.9)

  32)
Kaihotsu, I., T. Koike, T. Yamanaka, H. Fujii, T. Ohta, K. Tamagawa, D. Oyunbaatar and R. Akiyama (2009) : Validation of soil moisture estimation by AMSR-E in the Mongolian Plateau. Journal of the Remote Sensing Society of Japan, 29, 271-281. (2009.1)

  31)
檜山哲哉・阿部 理・栗田直幸・藤田耕史・池田健一・橋本重将・辻村真貴・山中 勤 (2008) : 水の酸素・水素安定同位体を用いた地球水循環研究と今後の展望. 水文・水資源学会誌, 21, 158-176.

  30)
山中 勤・田中 正・辻村真貴・大倉 博・清水英幸・吉谷純一・嶋田 純・開發一郎・近藤昭彦 (2008) : 国際高等教育協力における水問題・環境問題の認知構造:数量化3類による知的リソース・ニーズマッピング. 水文・水資源学会誌, 21, 39-49.

  29)
Umezawa Y., T. Ishitobi, S. Rungsupa, S. Onodera, T. Yamanaka, C. Yoshimizu, I. Tayasu, T. Nagata and M. Taniguchi Y. (2007) : Fresh groundwater contributions to the nutrient dynamics at shallow subtidal areas adjacent to a mega city, Bangkok. In W. Sanford, C. Langevin, M. Polemio and P. Povinec (eds.) : A New Focus on Groundwater-Seawater Interactions. IAHS publication 312, 169-179.

  28)
Sato T., M. Tsujimura, T. Yamanaka, H. Iwasaki, A. Sugimoto, M. Sugita, F. Kimura, G. Davaa, D. Oyunbaatar (2007) : Water sources in semiarid northeast Asia as revealed by field observations and isotope transport model. J. Geophys. Res., 112, D17112, doi:10.1029/2006JD008321.

  27)
Yamanaka, T., and R. Shimizu (2007) : Spatial distribution of deuterium in atmospheric water vapor: diagnosing sources and the mixing of atmospheric moisture. Geochimica et Cosmochimica Acta, 71, 3162-3169.

  26)
Yamanaka, T., I. Kaihotsu, D. Oyunbaatar, and T. Ganbold (2007) : Characteristics and controlling factors of regional-scale surface soil moisture variability over semi-arid grassland in Mongolia. Journal of Meteorological Society of Japan, 85A, 261-270.

  25)
Yamanaka, T., I. Kaihotsu, D. Oyunbaatar, and T. Ganbold (2007) : Summertime soil hydrological cycle and surface energy balance on the Mongolian steppe. Journal of Arid Environments, 69, 65-79.

  24)
Yamanaka, T., M. Tsujimura, D. Oyunbaatar, and G. Davaa (2007) : Isotopic variation of precipitation over eastern Mongolia and its implication for the atmospheric water cycle. Journal of Hydrology, 333, 21-34.

  23)
Tsujimura, M., L. Sasaki, T. Yamanaka, A. Sugimoto, S-G. Li, D. Matsushima, A. Kotani and M. Saandar (2007) : Vertical distribution of stable isotopic composition in atmospheric water vapor and subsurface water in grassland and forest sites, eastern Mongolia. Journal of Hydrology, 333, 35-46.

  22)
Tsujimura, M., Y. Abe, T. Tanaka, J. Shimada, S. Higuchi, T. Yamanaka, G. Davaa, D. Oyunbaatar (2007) : Stable isotopic and geochemical characteristics of groundwater in Kherlen River basin, a semi-arid region in eastern Mongolia, Journal of Hydrology, 333, 47-57.

  21)
涌井久司・山中 勤 (2006) : 安定同位体組成からみた那須扇状地扇央部における地下水涵養源とその地域性. 地下水学会誌, 48, 263-277.

  20)
山中 勤・飯塚幸子・田中 正 (2006) : 共存植物種間の水源分化:同位体生態水文学的アプローチ. 水文・水資源学会誌, 19, 458-464.

  19)
Li, S-G, M. Tsujimura, A. Sugimoto, L. Sasaki, T. Yamanaka, G. Davaa, D. Oyunbaatar, and M. Sugita (2006) : Seasonal valiation in oxygen isotope composition of waters for a montane larch forest in Mongolia. Trees, 20, 122-130.

  18)
綱川明芳・山中 勤 (2005) : 安定同位体分析のための大気水蒸気サンプリング手法の信頼性. 水文・水資源学会誌, 18, 306-309.

  17)
山中 勤・三谷克之輔・小野寺真一・開發一郎 (2005) : 瀬戸内圏の貧栄養牧草地における水・熱・物質収支. 地理学評論, 78, 113-125.

  16)
Yamanaka, T., J. Shimada, Y. Hamada, T. Tanaka, Y. Yang, Z. Wanjun and H. Chunsheng (2004) : Hydrogen and oxygen isotopes in precipitation in a northern part of the North China Plain: Climatology and inter-storm variability. Hydrological Processes, 18, 2211−2222.

  15)
山中 勤・福島武彦・小寺浩二 (2004) : 水との共生に係わる思想的・社会的背景と研究動向:環境共生科学としての水文学の再構築へむけて. 日本水文科学会誌, 34, 111−124.
  14)
Yamanaka, T., M. Inoue and I. Kaihotsu (2004) : Effects of gravel mulch on water vapor transfer above and below the soil surface. Agricultural Water Management, 67, 145−155.

  13)
山中 勤・開發一郎・ウウィンバータル・ダムバラヴィア (2003) : TDRによる土壌水分量測定値の温度依存性とその原位置測定データに基づく補正. 水文・水資源学会誌, 16, 246−254.

  12)
Yamanaka, T., J. Shimada, and K. Miyaoka (2002) : Footprint analysis using event-based isotope data for identifying source area of precipitated water. Journal of Geophysical Research - Atmosphere, 107(D22), 4624, doi10.1029/2001JD001187.

  11)
山中 勤・嶋田 純・宮岡邦任 (2001) : 関東平野における暖候期のイベント降水同位体組成の時空間変動. 日本水文科学会誌, 31, 123−133.

  10)
Yamanaka, T. (2000) : Testing an energy balance model for the simultaneous estimation of actual evaporation and soil moisture conditions. Journal of Groundwater Hydrology, 42, 47−60.

(* 日本地下水学会 研究奨励賞 1999-2000 受賞)

  9)
山中 勤・開發一郎・中谷亜紀・飯田真一 (1999) : デジタル式ヒートパルスセンサーによる樹液流速測定. 地下水学会誌, 41, 307-318.

  8)
Yamanaka, T. and T. Yonetani (1999) : Dynamics of the evaporation zone in dry sandy soils. Journal of Hydrology, 217, 135−148.

  7)
山中 勤・嶋田 純・谷口真人 (1999) : 乾燥期のプラヤにおける土壌特性が蒸発および土壌水分移動に及ぼす影響. 地理学評論, 72, 215−226.

  6)
Yamanaka, T., A. Takeda, and J. Shimada (1998) : Evaporation beneath the soil surface: Some observational evidence and numerical experiments. Hydrological Processes, 12, 2193−2203.

  5)
Sugita, F., T. Kishii, Y. Kuzuha, and T. Yamanaka (1998) : A wind tunnel investigation of roughness properties over non-homogeneous rough surfaces. Hydrological Processes, 12, 2149−2161.

  4)
Yamanaka, T., A. Takeda, and F. Sugita (1997) : A modified surface-resistance approach for representing bare-soil evaporation: Wind-tunnel experiments under various atmospheric conditions. Water Resources Research, 33, 2117−2128.

  3)
山中 勤・嶋田 純 (1997) : 安定同位体分析のための信頼性ある簡便な土壌水採手法の提案. 水文・水資源学会誌, 10, 181−184.

  2)
山中 勤・檜山哲哉・嶋田 純 (1994) : 裸地面蒸発に伴う砂質土壌中の水蒸気の挙動. ハイドロロジー(日本水文科学会誌), 24, 31−46.

  1)
檜山哲哉・山中 勤・嶋田 純・古藤田一雄 (1993) : 裸地面蒸発とそれに関わる諸現象−従来の研究成果と今後の展望−. ハイドロロジー(日本水文科学会誌), 23, 155−168.


 
B. 学術論文ほか (査読無)
  68)
山中 勤 (2024) : 地下水トレーサー:水素・酸素同位体. 地下水学会誌, 66(2), 125-133. (2024.5)

  67)
山中 勤 (2024) : 古代日本の王名に現れる水:3)古代王名の意味. 日本水文科学会誌, 54, 5-12. (2024.2)

  66)
山中 勤 (2023) : 古代日本の王名に現れる水:2)古代地名の語義. 日本水文科学会誌, 53, 67-73. (2023.8)

  65)
山中 勤 (2023) : 古代日本の王名に現れる水:1)地名による古代日本語の復元. 日本水文科学会誌, 53, 55-60. (2023.6)

  64)
飯田真一・清水貴範・玉井幸治・壁谷直記・清水 晃・荒木 誠・大貫靖浩・伊藤江利子・田中憲蔵・鳥山淳平・久保田多余子・山中 勤, Sophal CHANN・Delphis F. LEVIA (2022) : カンボジア熱帯季節林地帯の落葉林における蒸発散過程:上層木および下層植生による水循環への寄与の解明に向けて. 日本水文科学会誌, 52(2), 65-72. (2022.8)

  63)
山中 勤 (2019) : 同位体トレーサーで俯瞰する水の循環. 科学, 89(8), 683-685. (2019.8)

  62)
Kumar, M., V. Jain, T. Yamanaka, Y. Li, P. Bhattacharya (2018) : Contaminant transport and fate in freshwater systems ? Integrating the fields of geochemistry, geomorphology and nanotechnology. Groundwater for Sustainable Development, 7, 336-342. (2018.9)

  61)
Yamanaka, T. and R. Sato (2017) : Elevational dependence of catchment-scale evapotranspiration partitioning as revealed by water stable isotopes. American Geophysics Union 2017 Fall Meeting, New Orleans, USA, 11-15 December. (2017.12)

  61)
山中 勤 (2017) : 地名に見る文化の伝播. 地理, 62(7), 79-83. (2017.7)

  60)
山中 勤 (2017) : 地名変化の復元と語源の推定. 地理, 62(6), 58-62. (2017.6)

  59)
山中 勤 (2017) : 地名の変化と失われた歴史. 地理, 62(5), 4-9. (2017.5)

  58)
山中 勤 (2015) : Isoscape ― 同位体トレーサー利用の新たな潮流. 森林技術, No. 876, 8-11. (2015.3)

  57)
Yamanaka, T., K. Ueno and Y. Wakiyama (2014) : Snowmelt contribution to discharge from mountains in a snow-dominated region, northern central Japan. AOGS 11th annual meeting, Sanpporo, Japan, 28 July - 1 August. (2014.8)

  56)
脇山義史・山中 勤 (2013) : 川上演習林における水文観測 ― 2011-2012年の観測結果. 筑波大学農林研報, 1号, 47-59.

  55)
Ma, W., T. Yamanaka, Y. Wakiyama and P. Wang (2013) : Estimation of catchment transit time in Fuji River Basin by using an improved Tank model.2013 American Geophysical Union Fall meeting, San Francisco, USA, 13 December. (2013.12)

  54)
Yamanaka, T. (2013) : Root water uptake profiles for plants under competitive environment. The 12th Tunisian-Japanese Symposium on Society, Science & Technology, Yasmine Hammamet, Tunisia, 15-18 November. (2013.11)

  53)
Ma, W. and T. Yamanaka (2013) : Investigation of mean transit time and transit time distribution temporal variability by a tracer-aided tank model in Fuji catchment. International symposium on sediment disasters under the influence of climate change and tectonic activity (3rd), Kyoto, Japan, 26 September. (2013.9)

  52)
Yamanaka, T. (2013) : Integrated use of isotopic tracers and numerical simulation for analyzing water source separation between coexisting plant species. Central European Geology, 56, 61-62. (2013.9)

  51)
Yamanaka, T., T. Kimura, X. Sun and Y. Onda (2012) : Comparative study on methods for estimating root water uptake profile. The 3rd International Conference on Forest & Water in a Changing Environment, Fukuoka, Japan, 20 September. (2012.9)

  50)
山中 勤・恩田裕一 (2011) : 波長スキャンキャビティリングダウン分光法を用いた水同位体分析計の測定精度について. 筑波大学陸域環境研究センター報告, 12号, 31-40. (2011.12)

  49)
Jelassi, H., T. Yamanaka, T. Tanaka and M. Bedir (2011) : Numerical simulation approach for validating seawater intrusion process in Odawara region, central Japan. Proceedings of the 11th Tunisia-Japan Symposium on Society, Science and Technology, Hammamet, Tunisia, 11-13 November. (2011.11)

  48)
Ohte, N., Y. Watanabe, C. Yoshimizu, A. Kondo, E. Runtunuwu, T. Yamanaka and T. Tanaka (2010) : Stable isotpes of nitrate in Cilliwung River. Final Report of JSPS-DGHE Joint Research Project "Integrated Watershed Management for Sustainable Water Use in a Humid Tropical Region. Bull. TERC, Univ. of Tsukuba, No. 10 Suppl. 1, 65-74. (2010.3)

  47)
Yamanaka, T., E. Runtunuwu, H. Pawittan and T. Tanaka (2010) : Stable isotpes of water in Cilliwung River watershed. Final Report of JSPS-DGHE Joint Research Project "Integrated Watershed Management for Sustainable Water Use in a Humid Tropical Region. Bull. TERC, Univ. of Tsukuba, No. 10 Suppl. 1, 41-54. (2010.3)

  46)
Runtunuwu, E., Hendrayanto, H. Pawittan, A. Kondo, T. Yamanaka and K. Kosugi (2010) : Basic and raw data. Final Report of JSPS-DGHE Joint Research Project "Integrated Watershed Management for Sustainable Water Use in a Humid Tropical Region. Bull. TERC, Univ. of Tsukuba, No. 10 Suppl. 1, 19-26. (2010.3)

  45)
岩田拓記・山中 勤・杉田倫明 (2009) : 航空写真判読を用いた過去のつくば市における粗度長変化の推定. 筑波大学陸域環境研究センター報告, 10号, 13-17.

  44)
岩上 翔・林 敦史・熊坂秀人・ジェラスィ ヘンダ・山中 勤 (2009) : 栃木県那須扇状地における地表水の水質分布特性ならびに簡易水質測定法の比較. 筑波大学陸域環境研究センター報告, 10号, 3-12.

  43)
Yamanaka, T. and M. Mikita (2009) :Disturbance of groundwater flow system due to excessive pumping in the Bangkok metropolitan area, Thailand. Proceedings of the 3rd International Symposium on Human Impacts on Urban Subsurface Environment. Taipei, Republic of China, 17-20 November, 14.
  42)
Tanaka, T., M. Tsujimura, and T. Yamanaka (2009) : Characteristics of infiltration and groundwater recharge processes in arid and semi-arid regions. Proceedings of UNESCO Chair Workshop on Sustainable Groundwater Management in Arid and Semi-Arid Regions. IHP VII Technical Documents in Hydrology, No. 1, UNESCO Office Beijing, 21-30.
  41)
Yamanaka T., M. Mikita, M. Tsujimura, O. Lorphensri, J. Shimada, A. Hagihara, R. Ikawa, M. Kagabu, T. Nakamura, S. Onodera and M. Taniguchi (2009): Assesment of enhanced recharge of confined groundwater in and aroung the Bangkok metropolitan area: numerical experiments and multiple tracer studies. Proceedings of International Symposium on Efficient Groundwater Resources Management (IGS-TH 2009), Bangkok, Thailand, 16-18 February, CD-ROM.

  40)
Yamanaka, T., D. Matsuo and I. Hirota (2008) : Application of normal distribution model to estimate root water uptake profile by an isotopic approach. American Geophysics Union 2008 Fall Meeting, San Francisco, USA, 15 December.

  39)
Yamanaka T. (2008) : Living together with water: A review of the Japanese experience. paper presented at the International Workshop on Water Governance, JSPS/DGHE, Bogor, Indonesia, 23 July.

  38)
Yamanaka, T., J. Shimada and M. Tsujimura (2008) : Tracing deep groundwater underneath the Bangkok metropolitan area. paper presented at the International Symposium and Woekshop on Current Problem in Groundwater Management and Relat3ed Water Resources Issues, Kuta-Bali, Indonesia, 3-8 December 2007, Research Institute for Humanity and Nature Project 2-4 “Human Impacts on Urban Subsurface Environments” Progress Report 2007 (Taniguchi, M. ed.), Research Institute for Humanity and Nature, 42-45.

  37)
Yamanaka, T., and H. Wakui (2008) : Mixing analysis of groundwater recharge source for better watershed management. Proceedings of International Workshop on Integrated Watershed Management for Sustainable Water Use in a Humid Tropical Region. Bull. TERC, Univ. of Tsukuba, No. 8 Suppl. 2, 75-78.

  36)
Yamanaka, T., J. Shimada, R. Ikawa, S. Onodera, S. Buapeng, J. Suwanlert, O. Lorphensri and M. Taniguchi (2007) : Recharge and flow systems of deep groundwater in and around the Bangkok metropolitan area, Thailand: a preliminary result. paper presented at the 4th Annual Meeting of the Asia Oceania Geosciences Society, HS05-A0009, CD-ROM.

  35)
Yamanaka, T., and A. Tsunakawa (2007) : Isotopic signature of evapotranspiration flux and its use for partitioning evaporation/transpiration components. Tsukuba Geoenvironmental Sciences, 3, 11-21.

  34)
Yamanaka, T., M. Tsujimura, D. Oyunbaatar, and G. Davaa (2007) : Precipitation over Mongolia may provide good isotopic thermometers. Rangelands Atmosphere-Hydrosphere-Biosphere Interaction Study Experiment in Northeastern Asia -Highlights of the RAISE Project-. Bull. TERC, Univ. of Tsukuba, No. 8 Suppl, 83-84.

  33)
Yamanaka, T., I. Kaihotsu, D. Oyunbaatar, and T. Ganbold (2006) : Soil water balance at Mongolian steppe region without perennial rivers. Proceedings of International Workshop on Water Cycle and Sustainable Use of Water Resources, 88-94.

  32)
Yamanaka, T. (2005) : Root water uptake and competitive interaction among plants as revealed by isotopic approach. Proceedings of International Workshop on Research Progress and Current Issue of Unsaturation Process in Vadose Zone, 9-12.

  31)
山中 勤・松尾大悟・矢野 翠・角張順一・飯田真一・涌井久司・清水亮介・田中 正 (2005) : 遷移過程のアカマツ二次林における植物種間の根系分布の差異. 筑波大学陸域環境研究センター報告, 6号, 39-44.

  30)
清水亮介・山中 勤 (2005) : 微気象学的スケールにおける大気水蒸気同位体組成の空間構造. 筑波大学陸域環境研究センター報告, 6号, 3-9.

  29)
Yamanaka, T., I. Kaihotsu, D. Oyunbaatar, and T. Ganbold (2005) : Regional-scale variability of the surface soil moisture revealed by the AMPEX monitoring network. Ground Truth for Evaluation of Soil Moisture and Geophysical/Vegetation Parameters Related to Ground Surface Conditions with AMSR and GLI in the Mongolian Plateau, Japan Aerospace Exploration Agency, 33-42.

  28)
Yamanaka, T., I. Kaihotsu, D. Oyunbaatar, and T. Ganbold (2005) : Evaluation of water and energy exchanges between the Mongolian grassland and the atmosphere using AMPEX-AWS dataset. Ground Truth for Evaluation of Soil Moisture and Geophysical/Vegetation Parameters Related to Ground Surface Conditions with AMSR and GLI in the Mongolian Plateau, Japan Aerospace Exploration Agency, 23-32.

  27)
Kaihotsu, I., T. Yamanaka, T. Koike, D. Oyunbaatar, and G. Davaa (2005) : Ground-based observations for the ADEOS II/AQUA validation in the Momgolian Plateau. Ground Truth for Evaluation of Soil Moisture and Geophysical/Vegetation Parameters Related to Ground Surface Conditions with AMSR and GLI in the Mongolian Plateau, Japan Aerospace Exploration Agency, 5-21.

  26)
Tsujimura, M., L. Sasaki, T. Yamanaka, and S. Li (2005) : Hydrological processes in Kherlen River basin revealed by isotope tracer approachs. Bull. TERC, Univ. of Tsukuba, No. 5 Suppl., 70-71.

  25)
Yamanaka, T., M. Tsujimura, D. Oyunbaatar, and G. Davaa (2005) : Isotopic variation of precipitation over eastern Mongolia. Bull. TERC, Univ. of Tsukuba, No. 5 Suppl., 46-47.

  24)
Kaihotsu, I., T.,Yamanaka, and T. Koike (2005) : Current activities of the AMPEX AMSR/AMSR-E studies. Bull. TERC, Univ. of Tsukuba, No. 5 Suppl., 1-2.

  23)
鈴木和美・山中 勤 (2004) : Palmer Drought Severity Index (PDSI) を用いたモンゴルの旱魃の解析. 筑波大学陸域環境研究センター報告, 5号, 3-12.

  22)
若本実希・山中 勤 (2004) : 降水分取器内部での蒸発に伴う試水の同位体濃縮について. 筑波大学陸域環境研究センター報告, 5号, 73-79.

  21)
飯塚幸子・山中 勤・田中 正 (2004) : 安定同位体分析のための植物体からの水の抽出について―ポット試験による検討―. 筑波大学陸域環境研究センター報告, 5号, 81-86.

  20)
Kaihotsu, I., T. Yamanaka, G. Davaa, D. Oyunbaatar and T. Koike (2004) : Soil water movement at the Mongol CEOP and AMSR/AMSR-E validation site. Proceedings of APHW, 2, 67-73.

  19)
開發一郎・山中 勤・池淵周一・小尻利治 (2004) : 半乾燥地域平地での広域地下水涵養―モンゴル高原での観測結果解析―. 京都大学防災研究所年報, 47号B, 863-869.

  18)
Yamanaka, T., S. Iizuka, and T. Tanaka (2004) : An isotope-ecohydrological study on water use strategy of plants in a suburban secondary forest. EOS Trans. AGU, 85 (28), West. Pac. Geophys. Meet. Suppl., Abstract B12A-05.

  17)
Kaihotsu, I., T. Yamanaka, D. Oyunbaatar, T. Ganbold, G. Davaa and T. Koike (2003) : Long-term monitoring by water cycle stations int the central part of Mongoliam Plateau. Proceedings of APHW, 1, 173-120.

  16)
山中 勤・田中 正・浅沼 順・濱田洋平 (2003) : 栃木県那須扇状地における地下水と河川水の交流. 筑波大学陸域環境研究センター報告, 4号, 51−60.

  15)
Yamanaka, T., I. Kaihotsu, D. Oyunbaatar, and T. Ganbold (2003) : Time-space variability of soil moisture and surface energy/water balance. The 2nd International Workshop proceeding on Terrestrial Change in Mongolia, Institute of Meteorology and Hydrology, Mongolia, 23-25.

  14)
Yamanaka, T., I. Kaihotsu, and D. Oyunbaatar (2002) : Time-space structure of surface soil moisture variation over a Mongolian grassland. EOS Trans. AGU, 83 (22), West. Pac. Geophys. Meet. Suppl., Abstract WP24.

  13)
Yamanaka, T., I. Kaihotsu, J. Shimada, and V. Nandakumar (2001) : Soil moisture variablity and its possible impact on the atmosphere: A case in Sri Lanka. Mem. Fac. Integrated Arts and Sci., Hiroshima Univ, Ser. IV, 27, 77−93.

  12)
山中 勤・岸井徳雄・葛葉泰久・杉田 文 (2001) : 大気−陸面間の水・熱交換過程における表層土壌水分の役割に関する風洞実験と数値実験. 全球水文過程における災害予測に関する研究成果報告集, 防災科学技術研究所, 232-239.

  11)
Yamanaka, T., J. Shimada, and K. Miyaoka (2000) : Time-space structures of variations in the stable isotopic compositions of summer rainfall over the Kanto Plain, Japan. EOS Trans. AGU, 81 (22), West. Pac. Geophys. Meet. Suppl., Abstract WP51.

  10)
開發一郎・小野寺真一・山中 勤 (1999) : 名水を訪ねて (45) 山口県秋吉台の名水 −別府弁天池と秋吉台の湧水−. 地下水学会誌, 41, 97-100.

  9)
Shimada, J., K. Miyaoka, A. Kondoh, T. Yamanaka, H. Iwasaki, M. Kumata, Y. Shimano, and Y. Miyashita (1998) : Vapor source of summer precipitation determined by the stable isotope ratio in precipitation at Kanto plain, Japan. Proceedings of international symposium & 2nd Chinese national conference on rainwater utilization, 417−423.

  8)
田瀬則雄・嶋田 純・山中 勤 ほか22名 (1997) : 日本における降水の酸素安定同位体比の時空間変動特性. 筑波大学地球環境変化特別プロジェクト研究報告集, 5, 209-223.

  7)
Yamanaka, T., A. Takeda, and J. Shimada (1997) : Comparative study on diurnal variation in surface energy balance among various bare-soil surfaces. Proceedings of International Workshop on Global Change and Terrestrial Environment in Monsoon Asia, 107−110.

  6)
Tase, N., Y. Shimano, T. Kono, K. Mori, O. Shinmi, S.Yokoyama, T. Miyazawa, Y. Kodama, E. Matsumoto, Y. Fushiwaki, S. Yasuike, T. Iijima, M. Kobayashi, T. Yamanaka, and J. Shimada (1997) : Isotopic variations in precipitation of Japan. Proceedings of International Workshop on Global Change and Terrestrial Environment in Monsoon Asia, 140−143.

  5)
Yamanaka, T., A. Takeda, and J. Shimada (1997) : Formation of the dry surface layer and its effect on bare soil evaporation: Field observation and numerical experiments. Proceedings of the International Symposium on "The Role of Remote Sensing for the Environmental Issues in Arid and Semi-Arid Regions", 117−122.

  4)
Yamanaka, T., A. Takeda, and J. Shimada (1996) : Evaporation beneath the soil surface: field observation and numerical experiments. Proceedings of IGBP/BAHC-LUCC Joint Inter-Core Projects Symposium, 196-199.

  3)
Sugita, F., T. Kishii, Y. Kuzuha, and T. Yamanaka (1996) : A wind tunnel investigation of roughness properties over nonhomogeneous rough surfaces. Proceedings of IGBP/BAHC-LUCC Joint Inter-Core Projects Symposium, 154-157.

  2)
山中 勤・嶋田 純・田瀬則雄 (1996) : 土浦市宍塚大池における降雨に伴う水収支変化を用いた集水面積の解析. 筑波大学水理実験センター報告, 21号, 1−10.

  1)
山中 勤・杉田 文・竹田 厚 (1995) : 地表面相対湿度に関する実験的研究−バルクα法の有効性−. 筑波大学水理実験センター報告, 20号, 55−67.


 
C. 著書
  22)
山中 勤 (2022) : II.2 水圏:水循環システム. 「地理学辞典」 (日本地理学会 編), 丸善出版, 150-153. (2023.1)

  21)
山中 勤 (2022) : 5.1 山岳域の水文現象. 「水文・水資源ハンドブック」 (水文・水資源学会 編), 朝倉書店, 89-92. (2022.9)

  20)
山中 勤 (2022) : 3.3 浸透と地中流. 「水文・水資源ハンドブック」 (水文・水資源学会 編), 朝倉書店, 33-36. (2022.9)

  19)
山中 勤 (2020) : 「環境同位体による水循環トレーシング」, 共立出版, 242 pp. (2020.8)

  18)
山川陽佑・池田 敦・山中 勤 (2020) : 第3章 山岳水循環. 「山岳科学」 (松岡憲知・泉山茂之・楢本正明・松本 潔 編), 古今書院, 16-20. (2020.8)

  17)
山中 勤 (2019) : 第23章 水不足で生じる諸問題. 「改訂版 地球環境学―地球環境を調査・分析・診断する―」 (松岡憲知・田中博・杉田倫明・八反地 剛・松井 圭介・呉羽正昭・加藤弘亮 編), 古今書院, 96-99. (2019.3)

  16)
山中 勤・上野健一・浅沼 順・恩田裕一 (2019) : 第22章 激甚災害とその予測. 「改訂版 地球環境学―地球環境を調査・分析・診断する―」 (松岡憲知・田中博・杉田倫明・八反地 剛・松井 圭介・呉羽正昭・加藤弘亮 編), 古今書院, 91-95. (2019.3)

  15)
釜江陽一・池田 敦・山中 勤 (2019) : 第21章 温暖化で地球環境システムが変わる. 「改訂版 地球環境学―地球環境を調査・分析・診断する―」 (松岡憲知・田中博・杉田倫明・八反地 剛・松井 圭介・呉羽正昭・加藤弘亮 編), 古今書院, 88-91. (2019.3)

  14)
山中 勤・田瀬則雄 (2019) : 第10章 人間活動が水環境を変える: 水質形成と汚染. 「改訂版 地球環境学―地球環境を調査・分析・診断する―」 (松岡憲知・田中博・杉田倫明・八反地 剛・松井 圭介・呉羽正昭・加藤弘亮 編), 古今書院, 40-43. (2019.3)

  13)
山中 勤 (2017) : C3-5 大気,海洋. 「自然地理学辞典」 (小池一之ほか 編), 朝倉書店, -. (2017.1)

  12)
Yamanaka, T. (2014) : Vadose zone hydrology and groundwater recharge. M. Taniguchi, T. Hiyama (Eds.): "Groundwater as a Key for Adaptation to Changing Climate and Society", Springer, 29-44. (2014.7)

  11)
Sato, T., M. Sugita, T. Yamanaka, M. Tsujimura and R. Ishii (2013) : Water dynamics within the soil-vegetation-atmosphere system in a steppe region covered by shrubs and herbaceous plants. N. Yamamura, N. Fujita and A. Maekawa (Eds.): "The Mongolian Ecosystem Network: Environmental Issues Under Climate and Social Changes", Springer, 43-63.

  10)
山中 勤 (2011) : 第3章 地下水涵養. 「地下水流動―モンスーンアジアの資源と循環」 (谷口真人 編), 共立出版, 45-64. (2011.5)

  9)
山中 勤 (2011) : 第3章 水文. 「地球学調査・解析の基礎」 (上野健一・久田健一郎 編), 古今書院, 23-38. (2011.4)

  8)
山中 勤 (2011) : 第6章3節 バンコク首都圏の水環境と水問題. 「アジアの都市と水環境 」 (谷口真人・吉越昭久・金子慎治 編), 古今書院, 167-178. (2011.3)

  7)
山中 勤 (2009) : 第5章 水蒸気の同位体を利用した大気境界層研究. 「気象学における水安定同位体比の利用」 (芳村 圭・一柳錦平・杉本敦子 編, 気象研究ノート, 220号), 日本気象学会, 61-76.

  6)
山中 勤 (2009) : 第3章 降水. 「水文科学」 (筑波大学水文科学研究室 著、杉田倫明・田中 正 編), 共立出版, 51-74.

  5)
Yamanaka, T. and H. Wakui (2009) : Intensive groundwater-surface water interaction in an alluvial fan: assessment using a numerical model and isotopic tracer. M. Taniguchi, W.C. Burnett, Y. Fukushima, M. Haigh & Y. Umezawa (Eds.): "From Headwaters to the Ocean: Hydrological Changes and Watershed Management", Taylor and Francis, 321-327.

  4)
山中 勤 (2007) : 第13章 水循環の変化が災害を引き起こす: 地球規模水循環と自然災害. 「地球環境学―地球環境を調査・分析・診断するための30章―」 (松岡憲知・田中博・杉田倫明・村山祐司・手塚 章・恩田裕一 編), 古今書院, 49-53.

  3)
Yamanaka, T. (2006) : Chapter 5 Assessment of Plant-Water Relations using Stable Isotope Tracers. “Water and Carbon Cycles in Terrestrial Ecosystems” (Hiyama, T. ed.), HyARC of Nagoya University and UNESCO, 87-109.

  2)
開發一郎・小野寺真一・山中 勤 (1999) : 山口県の名水 −別府弁天池湧水・寂地峡の水・桜井戸−. 「続 名水を科学する」 (日本地下水学会 編), 技報堂出版, 151-157.

  1)
Shimada, J., T. Yamanaka, T. Tanaka, and V. Nandakumar (1997) : Role of soil water in the regional hydrological process in Sri Lanka. M. Taniguchi (ed): Subsurface Hydrological Responses to Land Cover and Land Use Change, Kluwer Academic Publishers, 35-46.

 
D. その他
  10)
筑波大学次世代環境教育ワーキンググループ (2011) : つくば次世代環境教育カリキュラムの作成と試行実践 〜中間報告書〜. 筑波大学 陸域環境研究センター, 84 pp. (2011.3)

  9)
Tanaka, T., H. Pawittan and T. Yamanaka eds. (2010) : Final Report of JSPS-DGHE Joint Research Project "Integrated Watershed Management for Sustainable Water Use in a Humid Tropical Region. Bull. TERC, Univ. of Tsukuba, No. 10 Suppl. 106 pp. (2010.3)

  8)
水・環境関連国際教育協力調査委員会 (2009) : 水資源・環境・災害教育協力モデル ―インドネシアおよびモンゴルを対象とした最適化と実践検証―. 筑波大学 陸域環境研究センター, 54 pp.

  7)
Investigative Committee on Intellectual Resources and Needs Related to Water/Environmental Issues (2008) : "On-the-Job Training Program for Water Resources Problem in Mongolia" Teaching Material CD. Terrestiral Environment Research Center, University of Tsukuba.

  6)
Investigative Committee on Intellectual Resources and Needs Related to Water/Environmental Issues (2008) : "On-the-Job Training Program for Water Resources Problem in Indonesia" Teaching Material CD. Terrestiral Environment Research Center, University of Tsukuba.

  5)
Investigative Committee on Intellectual Resources and Needs Related to Water/Environmental Issues (2008) : IReNe in the Field of Water and Environment. Terrestiral Environment Research Center, University of Tsukuba, 24 pp.

  4)
水・環境関連国際教育協力調査委員会 (2008) : 水資源・環境・災害教育協力モデル ―中国を対象とした最適化と実践検証―. 筑波大学 陸域環境研究センター, 36 pp.

  3)
Investigative Committee on Intellectual Resources and Needs Related to Water/Environmental Issues (2007) : "On-the-Job Training Program for Water Resources Problem in China" Teaching Material CD. Terrestiral Environment Research Center, University of Tsukuba.

  2)
山中 勤 編 (2006) : 環境循環系診断のための同位体トレーサー技術. 電子モノグラフ No. 2, 筑波大学陸域環境研究センター, 68 pp.

  1)
山中 勤 編 (2003) : 多様な地域における土壌水分モニタリングの実際. 電子モノグラフ No. 1, 筑波大学陸域環境研究センター, 51 pp.



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