公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2018 | 8 million phenological and sky images from 29 ecosystems from the Arctic to the tropics: the Phenological Eyes Network | 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.; 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.; Wingate L.; TARO NAKAI | Ecological Research | 36 | 32 | |
2008 | Aerodynamic scaling for estimating the mean height of dense canopies | TARO NAKAI ; Sumida A.; Matsumoto K.; Daikoku K.; Iida S.; Park H.; Miyahara M.; Kodama Y.; Kononov A.V.; Maximov T.C.; Yabuki H.; Hara T.; Ohta T. | Boundary-Layer Meteorology | | | |
2020 | Application of an open-path eddy covariance methane flux measurement system to a larch forest in eastern Siberia | TARO NAKAI ; Hiyama, T.; Petrov, R.E.; Kotani, A.; Ohta, T.; Maximov, T.C. | Agricultural and Forest Meteorology | | 8 | |
2013 | Application of time-lapse digital imagery for ground-truth verification of satellite indices in the boreal forests of Alaska | Sugiura, Konosuke; Nagai, Shin; TARO NAKAI ; Suzuki, Rikie | Polar Science | 11 | 10 | |
2021 | Author Correction: The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data (Scientific Data, (2020), 7, 1, (225), 10.1038/s41597-020-0534-3) | Pastorello G; TARO NAKAI et al. | Scientific Data | 3 | | |
2012 | Calculating CO2 and H2O eddy covariance fluxes from an enclosed gas analyzer using an instantaneous mixing ratio | Burba, G.; Schmidt, A.; Scott, R. L.; TARO NAKAI ; Kathilankal, J.; Fratini, G.; Hanson, C.; Law, B.; McDermitt, D. K.; Eckles, R.; Furtaw, M.; Velgersdyk, M. | Global Change Biology | 87 | 85 | |
2014 | Change in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurements | Ueyama, Masahito; Ichii, Kazuhito; Iwata, Hiroki; Euskirchen, Eugenie S.; Zona, Donatella; Rocha, Adrian V.; Harazono, Yoshinobu; Iwama, Chie; TARO NAKAI ; Oechel, Walter C. | Journal of Geophysical Research-Biogeosciences | 18 | 16 | |
2013 | Characteristics of evapotranspiration from a permafrost black spruce forest in interior Alaska | TARO NAKAI ; Kim Y.; Busey R.C.; Suzuki R.; Nagai S.; Kobayashi H.; Park H.; Sugiura K.; Ito A. | Polar Science | | | |
2013 | A common stomatal parameter set used to simulate the energy and water balance over boreal and temperate forests | Yamazaki T.; Kato K.; Ito T.; TARO NAKAI ; Matsumoto K.; Miki N.; Park H.; Ohta T. | Journal of the Meteorological Society of Japan | | | |
2010 | A comparison between various definitions of forest stand height and aerodynamic canopy height | TARO NAKAI ; Sumida A.; Kodama Y.; Hara T.; Ohta T. | Agricultural and Forest Meteorology | | | |
1997 | Comparison of Evapotransiration Variation Among Different Vegetative Canopies Using ��Decoupling�� Theory | Machimura T.; TARO NAKAI ; Okada K.; Tanaka Y.; Urano S.; Horiguchi I. | Journal of Agricultural Meteorology | | | |
2006 | Correction of sonic anemometer angle of attack errors | TARO NAKAI ; Van Der Molen M.K.; Gash J.H.C.; Kodama Y. | Agricultural and Forest Meteorology | | | |
2023 | Differences between Catchment Water Storage and Soil Water Storage in a Forested Headwater Catchment | Chou, Li Han; TARO NAKAI ; WEI-LI LIANG | Taiwan Journal of Forest Science | | | |
2015 | Effects of water vapor dilution on trace gas flux, and practical correction methods | Harazono, Yoshinobu; Iwata, Hiroki; Sakabe, Ayaka; Ueyama, Masahito; Takahashi, Kenshi; Nagano, Hirohiko; TARO NAKAI ; Kosugi, Yoshiko | Journal of Agricultural Meteorology | 11 | 11 | |
2008 | Energy consumption and evapotranspiration at several boreal and temperate forests in the Far East | Matsumoto K.; Ohta T.; TARO NAKAI ; Kuwada T.; Daikoku K.; Iida S.; Yabuki H.; Kononov A.V.; van der Molen M.K.; Kodama Y.; Maximov T.C.; Dolman A.J.; Hattori S. | Agricultural and Forest Meteorology | | | |
2003 | Evaluation of Sensible Heat Advection between Canopies with Different Plant Heights | TARO NAKAI ; Urano S.-I.; Sato T.; Hirano T. | Journal of Agricultural Meteorology | | | |
2010 | Evaluation of snowfall interception of boreal forest | Kuno T.; Kodama Y.; TARO NAKAI ; Ishikawa N. | Summaries of JSSI and JSSE Joint Conference on Snow and Ice Research | | | |
2008 | Evaluation of snowfall interception of boreal forest | Kuno T.; Kodama Y.; TARO NAKAI ; Ishikawa N. | Summaries of JSSI and JSSE Joint Conference on Snow and Ice Research | 0 | 0 | |
2011 | Evaluation of snowfall interception of boreal forest and sublimation profile | Kodama Y.; Kuno T.; TARO NAKAI ; Ohta T. | Summaries of JSSI and JSSE Joint Conference on Snow and Ice Research | 0 | 0 | |
2009 | Evapotranspiration from understory vegetation in an eastern Siberian boreal larch forest | Iida S.; Ohta T.; Matsumoto K.; TARO NAKAI ; Kuwada T.; Kononov A.V.; Maximov T.C.; van der Molen M.K.; Dolman H.; Tanaka H.; Yabuki H. | Agricultural and Forest Meteorology | | | |