Общедоступные статьи - Takashi GomiПодробнее...
3 статьи недоступны нигде
Stomatal ozone uptake of a Quercus serrata stand based on sap flow measurements with calibrated thermal dissipation sensors
R Tanaka, CW Chiu, T Gomi, K Matsuda, T Izuta, M Watanabe
Science of The Total Environment 888, 164005, 2023
Финансирование: Japan Science and Technology Agency
Satellite remote sensing model for estimating canopy transpiration in cypress plantation using in situ sap flow observations and forest inventory
A Hashimoto, CW Chiu, Y Onda, M Tateishi, K Tsuruta, T Gomi
ISPRS Journal of Photogrammetry and Remote Sensing 206, 258-272, 2023
Финансирование: Japan Science and Technology Agency
A watershed-scale evapotranspiration model considering forest type, stand parameters, and climate factors
S Inokoshi, T Gomi, CW Chiu, Y Onda, A Hashimoto, Y Zhang, TM Saitoh
Forest Ecology and Management 547, 121387, 2023
Финансирование: Japan Science and Technology Agency
6 статей доступны в некоторых источниках
Estimation of throughfall with changing stand structures for Japanese cypress and cedar plantations
X Sun, Y Onda, H Kato, T Gomi, X Liu
Forest Ecology and Management 402, 145-156, 2017
Финансирование: National Natural Science Foundation of China
Understory biomass measurement in a dense plantation forest based on drone-SfM data by a manual low-flying drone under the canopy
Y Zhang, Y Onda, H Kato, B Feng, T Gomi
Journal of Environmental Management 312, 114862, 2022
Финансирование: Japan Science and Technology Agency
A tree detection method based on trunk point cloud section in dense plantation forest using drone LiDAR data
Y Zhang, Y Tan, Y Onda, A Hashimoto, T Gomi, C Chiu, S Inokoshi
Forest Ecosystems 10, 100088, 2023
Финансирование: Japan Science and Technology Agency
Effect of canopy openness and meteorological factors on spatial variability of throughfall isotopic composition in a Japanese cypress plantation
X Sun, Y Onda, A Hirata, H Kato, T Gomi, X Liu
Hydrological Processes 32 (8), 1038-1049, 2018
Финансирование: National Natural Science Foundation of China
Evaluating changes in catchment‐scale evapotranspiration after 50% strip‐thinning in a headwater catchment
CW Chiu, T Gomi, M Hiraoka, K Shiraki, Y Onda, BX Dung
Hydrological Processes 36 (6), e14611, 2022
Финансирование: Japan Science and Technology Agency
Headwater stream temperature response to forest harvesting: Do lower flows cause greater warming?
RD Moore, SM Guenther, T Gomi, JA Leach
Hydrological Processes 37 (11), e15025, 2023
Финансирование: Natural Sciences and Engineering Research Council of Canada
Информация о публикациях и финансировании собрана автоматически.