Table list
Table list
Research topics
Research grant



  1. Chang S.-C., Saitoh T.M.*., Shibata H., Suzuki S.N. (2020) Recent advances in the understanding of ecosystem processes at eddy covariance CO2 flux sites in East Asian forest ecosystems: a review, Journal of Agricultural Meteorology, accepted (*corresponding author)
  2. Nagai S., Saitoh T.M., Morimoto H. (2020) Does global warming decrease the correlation between cherry blossom flowering date and latitude in Japan? International Journal of Biometeorology, accepted.
  3. Nagai S., Saitoh T.M., Miura T. (2020) Peak autumn leaf colouring along latitudinal and elevational gradients in Japan evaluated with online phenological data. International Journal of Biometeorology, accepted.
  4. Ueyama M., Ichii K., Kobayashi H., Kumagai T., Beringer J., Merbold L., Euskirchen E., Hirano T., Belelli M.L., Baldocchi D., Saitoh T.M., Mizoguchi Y., Ono K., Kim J., Varlagin A., Kang M., Shimizu T., Kosugi Y., Bret-Harte M., Machimura T., Matsuura Y., Ohta T., Takagi K., Takanashi S., Yasuda Y. (2020) Inferring CO2 fertilization effect based on global monitoring land-atmosphere exchange with a theoretical model, Environmental Research Letters, in press.
  5. •½–ì—DEÖ“¡‘ôE•’Ép‘¾˜YE¬—ÑŒ³E‘º‰ª—T—RE’¾úc“ŒEˆÀ]P (2020) ’†•”’n•û‚ɐ¶ˆç‚·‚éƒXƒM‚Ì”N—֍\‘¢‚Æ‹CŒó—v‘f‚Æ‚ÌŠÖŒWD–؍ފw‰ïŽCˆóü’†
  6. Shen Y., Fukatsu E., Muraoka H., Saitoh T.M., Hirano Y., Yasue K. (2020) Climate responses of ring widths and radial growth phenology of Betula ermanii, Fagus crenata and Quercus crispula in a cool temperate forest in central Japan, Trees,
  7. Nagai S., Morimoto H., Saitoh T.M. (2020) A simpler way to predict flowering and full bloom dates of cherry blossoms by self-organizing maps, Ecological Informatics, 56, 101040
  8. Nagai S., Saitoh T.M., Yoshitake S. (2019) Cultural ecosystem services provided by flowering of cherry trees under climate change: a case study of the relationship between the periods of flowering and festivals. International Journal of Biometeorology, 63(8): 1051-1058.
  9. ’¾úc“ŒE—OˆäKŽqE’|Œ´—DŽqE¯–ìˆÀ–èE“àŠC‘׍OEŠ™“c’¼lE–ì–x‰Ã—TEŽs‰h’q–¾E‘º‰ª—T—REÖ“¡‘ôE•½–ì—DEˆÀ]Pi2018j“ú–{Še’n‚ɐ¶ˆç‚·‚éƒuƒi‚Ì”ì‘听’·‚ɉe‹¿‚·‚é‹CŒó—v‘f,C–؍ފw‰ïŽC64C171-186
  10. Nagai S., Akitsu T., Saitoh T.M., Busey R.C., Fukuzawa K., Honda Y., Ichie T., Ide R., Ikawa H., Iwasaki A., Iwao K., Kajiwara K., Kang S., Kim Y., Khoon K.-L., Kononov A.V., Kosugi Y., Maeda T., Mamiya W., Matsuoka M., Maximov T.C., Menzel A., Miura T., Mizunuma T., Morozumi T., Motohka T., Muraoka H., Nagano H., Nakai T., Nakaji T., Oguma H., Ohta T., Ono K., Pungga R.A.S., Petrov R.E., Sakai R., Schunk C., Sekikawa S., Shakhmatov R., Son Y., Sugimoto A., Suzuki R., Takagi K., Takanashi S., Tei S., Tsuchida S., Yamamoto H., Yamasaki E., Yamashita M., Yoon T.-K., Yoshida T., Yoshimura M., Yoshitake S., Wilkinson M., Wingate L., Nasahara K.N. (2018) 8 million phenological and sky images from 29 ecosystems from the Arctic to the tropics: the Phenological Eyes Network, Ecological Research, 33, 1091-1092.
  11. Nagai S.*, Saitoh T.M.*, Kajiwara K., Yoshitake S., Honda Y. (2018) Investigation of the potential of drone observations for detection of forest disturbance caused by heavy snow damage in a Japanese cedar (Cryptomeria japonica) forest, Journal of Agricultural Meteorology, in press (*co-first author)
  12. Irina M., Awaya Y., Saitoh T.M., Muraoka H., Sasai T. (2018) Estimation of leaf area index in a mountain forest of central Japan with a 30-m spatial resolution based on landsat operational land imager imagery: an application of a simple model for seasonal monitoring, Remote Sensing, 10, 179. DOI 10.3390/rs10020179
  13. Noh N.-J., Kuribayashi M., Saitoh T.M., Muraoka H. (2017) Different responses of soil, heterotrophic and autotrophic respirations to a 4-year soil warming experiment in a cool-temperate deciduous broadleaved forest in central Japan, Agricultural and Forest Meteorology, 247, 560-570. DOI 10.1016/j.agrformet.2017.09.002
  14. Ichii K., Ueyama M., Kondo M., Saigusa N., Kim J., Alberto M.C., Ardoe J., Euskirchen E.S., Kang M., Hirano T., Joiner J., Kobayashi H., Marchesini L.B., Merbold L., Miyata A., Saitoh T.M., Takagi K., Varlagin A., Bret-Harte M.S., Kitamura K., Kosugi Y., Kotani A., Kumar K., Li S.-G., Machimura T., Matsuura Y., Mizoguchi Y., Ohta T., Mukherjee S., Yanagi Y., Yasuda Y., Zhang Y. and Zhao F. (2017) New data-driven estimation of terrestrial CO2 fluxes in Asia using a standardized database of eddy covariance measurements, remote sensing data, and support vector regression, Journal of Geophysical Research Biogeosciences, 122, 767|795, DOI 10.1002/2016JG003640
  15. Nagai S., Nasahara K.N., Yoshitake S., Saitoh T.M. (2017) Seasonality of leaf litter and leaf area index data for various tree species in a cool-temperate deciduous broad-leaved forest, Japan, 2005-2014, Ecological Research, 32, 297. DOI 10.1007/s11284-017-1452-5
  16. Kuribayashi M., Noh N.-J., Saitoh T.M., Ito A., Wakazuki Y., Muraoka H., (2017) Current and future carbon budget at Takayama site, Japan, evaluated by a regional climate model and a process-based terrestrial ecosystem model, International Journal of Biometeorology, DOI:10.1007/s00484-016-1278-9
  17. Kondo M., Saitoh T.M., Sato H., Ichii K. (2017) Comprehensive synthesis of spatial variability in carbon flux across monsoon Asian forests, Agricultural and Forest Meteorology, 232, 623-634,@DOI:10.1016/j.agrformet.2016.10.020
  18. Nagai S., Nasahara K.N., Inoue T., Saitoh T.M., Suzuki R. (2016) Review: advances in in situ and satellite phenological observations in Japan. International Journal of Biometeorology, 60, 615-627, DOI:10.1007/s00484-015-1053-3
  19. Noh N.-J., Kuribayashi M., Saitoh T.M., Nakaji T., Nakamura M., Hiura T., Muraoka H. (2016) Responses of soil, heterotrophic, and autotrophic respiration to experimental open-field soil warming in a cool-temperate deciduous forest, Ecosystems, 19, 504-520, DOI 10.1007/s10021-015-9948-8
  20. Nagai S., Inoue T., Ohtsuka T., Yoshitake S., Nasahara K.N., Saitoh T.M. (2015) Uncertainties involved in leaf fall phenology detected by digital camera. Ecological Informatics, 30, 124-132, DOI 10.1016/j.ecoinf.2015.10.005
  21. Saitoh T.M., Nagai S., Yoshino J., Kondo H., Tamagawa I., Muraoka H. (2015) Effects of canopy phenology on deciduous overstory and evergreen understory carbon budgets in a cool-temperate forest ecosystem under ongoing climate change, Ecological Research, 30, 267-277, DOI 10.1007/s11284-014-1229-z
  22. Ito A., Saitoh T.M., Sasai T. (2015) Synergies between observational and modeling studies at the Takayama site: toward a better understanding of terrestrial ecosystem processes, Ecological Research, 30, 201-210, DOI 10.1007/s11284-014-1205-7
  23. Nagai S., Saitoh T.M., Suzuki R., Nasahara K.N. (2015) Spatio-temporal distribution of the timing of start and end of growing season along vertical and horizontal gradients in Japan. International Journal of Biometeorology, 59, 47-54, doi:10.1007/s00484-014-0822-8
  24. Ö“¡‘ôE‰iˆäME‘º‰ª—T—Ri2014j—¤ˆæ¶‘ÔŒn‚Ì’Y‘fŽûŽx‚ÌŒ»óf’f‚Ə«—ˆ—\‘ª|ƒŠƒ‚[ƒgƒZƒ“ƒVƒ“ƒO‚Ì—˜—p|D“ú–{¶‘ÔŠw‰ïŽ, 64, 243-252. DOI 10.18960/seitai.64.3_243
  25. Nagai S., Yoshitake S., Inoue T., Suzuki R., Muraoka H., Nasahara K., Saitoh T.M. (2014) Year-to-year blooming phenology observation by using time-lapse digital camera images. Journal of Agricultural Meteorology, 70 (3), 163-170. DOI:10.2480/agrmet.D-13-00021
  26. Inoue T., Nagai S., Saitoh T.M., Muraoka M., Nasahara K.N., Koizumi H. (2014) Detection of the characteristics of year-to-year variations in foliage phenology among deciduous broad-leaved trees by using time-lapse digital camera images. Ecological Informatics, 22, 58-68. DOI:10.1016/j.ecoinf.2014.05.009
  27. Kuribayashi M., Noh N.J., Saitoh T.M., Tamagawa I., Wakazuki Y., Muraoka H. (2013) Comparison of Snow Water Equivalent Estimated 1 in Central Japan by High-Resolution Simulations Using Different Land-Surface Models, SOLA, 9, 148-152, DOI:10.2151/sola.2013-033.
  28. ã–쌒ˆêEˆé–쏃•½E¡ò•¶ŽõEˆä”g–¾GE‹àˆä—²Ž¡E—é–ØŒ[•E¬—ÑŒ³E‹Êìˆê˜YEÖ“¡‘ôE‹ß“¡—Tºi2013j‘åŠwŠÔ˜AŒgŽ–‹Æ‚ð’Ê‚¶‚½’†•”ŽRŠxˆæ‚Ì‹CÛƒf[ƒ^ƒA[ƒJƒCƒuD’nŠwŽGŽ, 122(4), 638-650, DOI:10.5026/jgeography.122.638. DOI 10.5026/jgeography.122.638
  29. Nagai S., Saitoh T.M., Noh N.-J., Yoon T.-K., Kobayashi H, Suzuki R., Nasahara K.N., Son Y., Muraoka H. (2013) Utility of information in photographs taken upwards from the floor of closed-canopy deciduous broadleaved and closed-canopy evergreen coniferous forests for continuous observation of canopy phenology, Ecological Informatics, 18, 10-19, DOI: 10.1016/j.ecoinf.2013.05.005.
  30. Saitoh T.M., Tamagawa I., Muraoka H., and Kondo H. (2013) An analysis of summer evapotranspiration based on multi-year observations including extreme climatic conditions over a cool-temperate evergreen coniferous forest, Takayama, Japan. Hydrological Processes, 27, 3341-3349, DOI: 10.1002/hyp.9834.
  31. Nagai S., Saitoh T.M., Kurumado K., Tamagawa I., Kobayashi H, Inoue T., Suzuki R., Gamo M., Muraoka H., Nasahara K.N. (2013) Detection of bio-meteorological year-to-year variation by using digital canopy surface images of a deciduous broad-leaved forest. SOLA, 9, 106-110, DOI:10.2151/sola.2013-024
  32. Muraoka H., Noda H.M., Nagai N., Motohka T., Saitoh T.M., Nasahara K.N. and Saigusa N. (2013) Spectral vegetation indices as the indicator of canopy photosynthetic productivity in a deciduous broadleaf forest, Journal of Plant Ecology,6, 393-407. DOI: 10.1093/jpe/rts037.
  33. Nagai S., Nakai T., Saitoh T.M., Busey R.C., Kobayashi H., Suzuki R., Muraoka H., Kim Y. (2013) Seasonal changes in camera-based indices from an open canopy black spruce forest in Alaska, and comparison with indices from a closed canopy evergreen coniferous forest in Japan. Polar Science, 7, 125-135, DOI: 10.1016/j.polar.2012.12.001
  34. Katayama A., Kume T., Komatsua H., Saitoh T.M., Ohashi M., Nakagawa M., Suzuki M., Otsuki K., Kumagai T. (2013) Carbon allocation in a Bornean tropical rainforest without dry seasons, Journal of Plant Research, 126, 505-515, DOI: 10.1007/s10265-012-0544-0
  35. Saigusa N., Li S.-G., Kwon H., Takagi K, Zhang L.-M, Ide R., Ueyama M., Asanuma J. Choi Y.-J., Chun J.H., Han S.-J., Hirano T., Hirata R., Kang M., Kato T., Kim J., Li Y.-N., Maeda T., Miyata A., Mizoguchi Y., Murayama S., Nakai Y., Ohta T., Saitoh T.M., Wang H.-M., Yu G.-R., Zhang Y.-P., Zhao F.-H. (2013) Dataset of CarboEastAsia and the uncertainties in the CO2 budget evaluation caused by different data-processing. Journal of Forest Research, 18, 41-48, DOI 10.1007/s10310-012-0378-6.
  36. Ichii K., Kondo M., Lee Y.-H., Wang S.-Q., Kim J., Ueyama M., Lim H.-J., Shi H., Suzuki T., Ito A., Ju W., Huang M., Sasai T., Asanuma J., Han S., Hirano T., Hirata R., Kato T., Kwon H., Li S.-G., Li Y.-N., Maeda T., Miyata A., Matsuura Y., Murayama S., Nakai Y., Ohta T., Saitoh T.M., Saigusa N., Takagi K., Tang Y.-H., Wang H.-M., Yu G.-R., Zhang Y.-P., Zhao F.-H. (2013) Site-level model-data synthesis of terrestrial 1 carbon fluxes in the CarboEastAsia eddy-covariance observation network: Toward future modeling efforts. Journal of Forest Research, 18, 13-20, DOI 10.1007/s10310-012-0367-9.
  37. Saitoh T.M., Nagai S., Yoshino J., Muraoka H., Saigusa N., and Tamagawa I. (2012) Functional consequences of differences in canopy phenology for the carbon budgets of two cool-temperate forest types: simulations using the NCAR/LSM model and validation using tower flux and biometric data. Eurasian Journal of Forest Research, 15(1), 19-30.
  38. Saitoh T.M., Nagai S, Saigusa N, Kobayashi H., Suzuki R., Nasahara K.N., and Muraoka H. (2012) Assessing the use of camera-based indices for characterizing canopy phenology in relation to gross primary production in a deciduous broad-leaved and an evergreen coniferous forest in Japan. Ecological Informatics., 11, 45-54, doi: 10.1016/j.ecoinf.2012.05.001.
  39. Nagai S., Saitoh T.M., Kobayashi H., Ishihara M., Suzuki R., Motohka T., Nasahara K.N. and Muraoka H. (2012) In situ examination of the relationship between various vegetation indices and canopy phenology in an evergreen coniferous forest, Japan. International Journal of Remote Sensing, 33(19), 6214-6214.
  40. Saitoh T.M., Nagai S., Noda H.M., Muraoka H. and Nasahara K.N. (2012) Examination of the extinction coefficient in the Beer-Lambert law for an accurate estimation of the forest canopy leaf area index. Forest Science and Technology, 8(2), 67-76.
  41. “n糐M„EŽ™“‡—˜Ž¡EŽÂ“c¬˜YE‘å‹´Œc‰îE‹Êìˆê˜YEÖ“¡‘ôi2012jí—ÎŽ÷—Ñ‹y‚Ñ—Ž—tŽ÷—Ñ‚É‚¨‚¯‚éŽ÷Š¥ŽÕ’fŒ»Û‚ÌŒ»’nŠÏ‘ª‚Æ‚»‚̃‚ƒfƒ‹‰». “y–ØŠw‰ï˜_•¶WB1(…HŠw), 68(4), I_1759-I_1764. DOI 10.2208/jscejhe.68.I_1759
  42. Nagai S, Saitoh T.M., Suzuki R., Nasahara K.N., Lee W.-K., Son T., and Muraoka H. (2011) The necessity and availability of noise-free daily satellite-observed NDVI during rapid phenological changes in terrestrial ecosystems in East Asia. Forest Science and Technology, 7(4), 174-183.
  43. Kume T., Tanaka N., Kuraji K., Komatsu H., Yoshifuji N., Saitoh T.M., Suzuki M., and Kumagai T. (2011) Ten-year evapotranspiration estimates in a Bornean tropical rainforest, Agricultural and Forest Meteorology, 151, 1183- 1192 doi:10.1016/j.agrformet.2011.04.005.
  44. Saitoh T.M., Tamagawa, I., Muraoka H., and Koizumi H. (2011) Energy balance closure over a cool temperate forest in steeply sloping topography during snowfall and snow-free periods, Journal of Agricultural Meteorology, 67(3), 107-116. DOI 10.2480/agrmet.67.3.4
  45. Ö“¡‘ôE‹Êìˆê˜YE‘º‰ª—T—Ri2011j‰Q‘ŠŠÖ–@‚ð—p‚¢‚½’Y‘fŽûŽx•]‰¿‚É‚¨‚¯‚éCO2’™—¯•Ï‰»—ʂ̉e‹¿@“ú–{X—ÑŠw‰ïŽ, 93,105-112. DOI 10.4005/jjfs.93.105
  46. Sasai T., Saigusa N., Nasahara K.M., Ito A., Hashimoto H., Nemani R., Hirata H., Ichii K., Takagi T., Saitoh T.M., Ohta T., Murakami K., Oikawa T., Yamagichi Y. (2011) Satellite-driven estimation of terrestrial carbon flux over Far East Asia with 1-km grid resolution, Remote Sensing of Environment 115, 1758-1771, doi:10.1016/j.rse.2011.03.007.
  47. Ö“¡‘ôE‹Êìˆê˜YE‘º‰ª—T—RE¬ò”Ži2010jX—Ñ‚É‚¨‚¯‚éŒõ‡¬EŒÄ‹zŠˆ“®‚É”º‚¤’™”M—Ê. ”_‹Æ‹CÛ, 66(4), 289-298. DOI 10.2480/agrmet.66.4.9.i“ú–{”_‹Æ‹CÛŠw‰ï2011”N“x˜_•¶Üj
  48. Yashiro Y., Lee N.-Y., Ohtsuka T., Shizu Y., Saitoh T.M., Koizumi H. (2010) Biometric based estimation of net ecosystem production (NEP) in a mature Japanese cedar (Cryptomeria japonica) plantation beneath a flux tower. Journal of Plant Research, 123, 463-472, doi:10.1007/s10265-010-0323-8..
  49. Saitoh T.M., Tamagawa, I., Muraoka H., Lee N-Y., Yashiro Y., and Koizumi H. (2010) Carbon dioxide exchange in a cool-temperate evergreen coniferous forest over complex topography in Japan during two years with contrasting climates. Journal of Plant Research, 123, 473-483, doi:10.1007/s10265-009-0308-7.
  50. Muraoka H., Saigusa N., Nasahara K.N., Noda H., Yoshino J., Saitoh T.M., Nagai S., Murayama S. and Koizumi H. (2010) Effects of seasonal and interannual variations in leaf photosynthesis and canopy leaf area index on gross primary production of a cool-temperate deciduous broadleaf forest in Takayama, Japan. Journal of Plant Research, 123, , 563-576, doi: 10.1007/s10265-009-0270-4. (JPR Best Paper Award)
  51. ‹g–쏃E‘º‰ª—T—RE‰iˆäMEÎŒ´Œõ‘¥EÖ“¡‘ôEŽ™“‡—˜Ž¡E‹Êìˆê˜YEˆÀ“cFŽui2008j—¬ˆæŒ—‚ðŽx‚¦‚éX—ъ‹«•Û‘S‚Ì‚½‚߂̐X—ÑŒ’Nf’fŽè–@. ŠÂ‹«ƒVƒXƒeƒ€Œ¤‹†˜_•¶WC36C277-286D
  52. Ohashi M., Kumagai T., Kume T., Gyokusen K., Saitoh T.M., Suzuki M. (2008) Characteristics of soil CO2 efflux variability in an aseasonal tropical rainforest in Borneo Island. Biogeochemistry, 90, pp275-289, DOI 10.1007/s10533-008-9253-0.
  53. ‹Êìˆê˜YE‹g–쏃E‰Á”[—˜¶EˆÀ“cFŽuE‘º‰ª—T—REŽ™“‡—˜Ž¡EÎŒ´Œõ‘¥E‰iˆäMEÖ“¡‘ôE—›”ü‘PE–q‰ëNEHŽRŠ¤E¬ò”Ži2008j¶‘ÔƒvƒƒZƒX‚ƃŠƒ‚[ƒgƒZƒ“ƒVƒ“ƒO‚ðŒ‹‚Ôƒ‚ƒfƒ‹‚ÌŠJ”­DƒVƒXƒeƒ€”_ŠwC24(2), 129-136. DOI 10.14962/jass.24.2_129
  54. Saitoh T.M., Tamagawa I., and Maki M., Koizumi H. (2006) Water and energy exchange over a plantation evergreen coniferous forest on mountain slopes, Proceeding of 3rd Asia Pacific Association of Hydrology and Water Resources (APHW) Conference, manuscript_ST-01-A03-304_1152949906.
  55. Kumagai T., Ichie T., Yoshimura M., Yamashita M., Kenzo T., Saitoh T. M., Ohashi M., Suzuki M., Koike T. and Komatsu H. (2006) Modeling CO2 exchange over a Bornean tropical rain forest using measured vertical and horizontal variations in leaf-level physiological parameters and leaf area densities. Journal of Geophysical Research -Atmospheres, 111, D10107, doi:10.1029/2005JD006676.
  56. Kumagai, T. Saitoh T.M., Sato, Y., Takahashi H., Manfroi O.J., Morooka T., Kuraji K., Suzuki M., Yasunari T. and Komatsu H. (2005) Annual water balance and seasonality of evapotranspiration in a Bornean tropical rainforest. Agricultural and Forest Meteorology, 128(1-2), pp81-92.
  57. Saitoh T.M., Kumagai T., Sato Y. and Suzuki M. (2005) Carbon dioxide exchange over a Bornean tropical rainforest. Journal of Agricultural meteorology, 60(5), 553-556. DOI 10.2480/agrmet.553.
  58. Ö“¡‘ôEŒF’J’©bE‘å‹´]E”‰ª—˜KE—é–؉ëˆê (2005) ƒ{ƒ‹ƒlƒI”M‘щJ—Ñ‚É‚¨‚¯‚é–éŠÔCO2ƒtƒ‰ƒbƒNƒX. …•¶E…Ž‘Œ¹Šw‰ïŽC18(1), 64-72. DOI 10.3178/jjshwr.18.64
  59. Kumagai T., Katul G.G., Porporato A., Saitoh T.M., Ohashi M., Ichie T. and Suzuki M. (2004) Carbon and water cycling in a Bornean tropical rainforest under current and future climate scenarios. Advances in Water Resources, 27(12), pp1135-1150.
  60. Sato Y., Kumagai T., Saitoh T.M. and Suzuki M. (2004) Characteristics of soil temperature and soil heat flux within tropical rainforest, Lambir Hills National Park, Sarawak, Malaysia. Bulletin of the Institute of Tropical Agriculture, Kyushu University, 27, 55-63.
  61. Ö“¡‘ôEŒF’J’©bE²“¡‰Ã“WE—é–؉ëˆê (2004) Ž÷Š¥“àCO2”Z“xƒvƒƒtƒ@ƒCƒ‹Ž©“®Œv‘ª‘•’u‚ɂ‚¢‚Ä. …•¶E…Ž‘Œ¹Šw‰ïŽC17(6)C648-653DDOI 10.3178/jjshwr.17.648.
  62. Kumagai T., Saitoh T.M., Sato Y., Morooka T., Manfroi O.J., Kuraji K. and Suzuki, M. (2004) Transpiration, canopy conductance and the decoupling coefficient of a lowland mixed dipterocarp forest in Sarawak, Borneo: dry spell effects. Journal of Hydrology, 287(1-4), 237-251. DOI 10.1016/j.jhydrol.2003.10.002.
  63. Kumagai T., Katul G.G., Saitoh T.M., Sato Y., Manfroi O.J., Morooka T., Ichie T., Kuraji K., Suzuki M. and Porporato A. (2004) Water cycling in a Bornean tropical rainforest under current and projected precipitation scenarios. Water Resources Research, 40(1), W01104, 10.1029/2003WR002226.


  1. Ö“¡‘ô (2013) u‘æ4Í A•¨‚ÌŒQ—Ž‚Æ‹@”\vCwA¶‚̃Šƒ‚[ƒgƒZƒ“ƒVƒ“ƒOx, X–ko”ŁCHG Jones, RA Vaughan (’˜), ‹v•Ä“āE‘吭ŒªŽŸ(ŠÄ–ó) , pp84-113i•ª’S–|–ój
  2. Ö“¡‘ô i2009ju”÷‹CÛŠw“I‚È‘ª’èi‰Q‘ŠŠÖ–@‚É‚æ‚鑪’èjv. –kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†ŠE“ú–{Œõ‡¬Œ¤‹†‰ï‹¤•Ò, wŒõ‡¬Œ¤‹†–@x, –kŠC“¹‘åŠw’ቷ‰ÈŠwŒ¤‹†Š, ’ቷ‰ÈŠw 67, 129-136.


  1. Saitoh T.M., Noda H.M., Muraoka H. (2016) Report of Workshop on the ecosystem carbon/water cycling research in the changing climate -Challenges of carbon and water fluxes in terrestrial ecosystems: Ecophysiological and micro-meteorological understandings and their perspectives in current and future environmental sciences under climate change-, AsiaFlux Newsletter, 39, 8-9.
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  3. ŠÛŽR“ÄŽuE‹{è^E¬’JˆŸ—R”üEŒI—ѐ³rEÖ“¡‘ôE¬–ìŒ\‰îi2014jInternational Joint Conference of 11th AsiaFlux International Workshop, 3rd HESSS and 14th Annual Meeting of KSAFM "Communicating Science to Society: Coping with Climate Extremes for Resilient Ecological-Societal Systems"‚Ì•ñD¶•¨‚Æ‹CÛC14, D1-7.
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(2020.9.24 updated)