Daisuke Komori scite author profile

A catastrophic flood event which caused massive economic losses occurred in Thailand, in 2011.Several studies have already been conducted to analyze the Thai floods, but none of them have assessed the impacts of reservoir operation on flood inundation. This study addresses this gap by combining physically based hydrological models to explicitly simulate the impacts of reservoir operation on flooding in the Chao Phraya River Basin, Thailand. H08, an integrated water resources model with a reservoir operation module, was combined with CaMa-Flood, a river routing model with representation of flood dynamics. The combined H08-CaMa model was applied to simulate and assess the historical and alternative reservoir operation rules in the two largest reservoirs in the basin. The combined H08-CaMa model effectively simulated the 2011 flood: regulated flows at a major gauging station have high daily NSE-coefficient of 92% as compared with observed discharge; spatiotemporal extent of simulated flood inundation match well with those of satellite observations. Simulation results show that through the operation of reservoirs in 2011, flood volume was reduced by 8.6 billion m 3 and both depth and area of flooding were reduced by 40% on the average. Nonetheless, simple modifications in reservoir operation proved to further reduce the flood volume by 2.4 million m 3 and the depth and area of flooding by 20% on the average. By modeling reservoir operation with a hydrodynamic model, a more realistic simulation of the 2011 Thai flood was made possible, and the potential of reducing flood inundation through improved reservoir management was quantified.

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Extension of Light-Harvesting Ability of Photosynthetic Light-Harvesting Complex 2 (LH2) through Ultrafast Energy Transfer from Covalently Attached Artificial Chromophores

Yoneda

Noji

Katayama

et al. 2015

J. Am. Chem. Soc.

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Introducing appropriate artificial components into natural biological systems could enrich the original functionality. To expand the available wavelength range of photosynthetic bacterial light-harvesting complex 2 (LH2 from Rhodopseudomonas acidophila 10050), artificial fluorescent dye (Alexa Fluor 647: A647) was covalently attached to N- and C-terminal Lys residues in LH2 α-polypeptides with a molar ratio of A647/LH2 ≃ 9/1. Fluorescence and transient absorption spectroscopies revealed that intracomplex energy transfer from A647 to intrinsic chromophores of LH2 (B850) occurs in a multiexponential manner, with time constants varying from 440 fs to 23 ps through direct and B800-mediated indirect pathways. Kinetic analyses suggested that B800 chromophores mediate faster energy transfer, and the mechanism was interpretable in terms of Förster theory. This study demonstrates that a simple attachment of external chromophores with a flexible linkage can enhance the light harvesting activity of LH2 without affecting inherent functions of energy transfer, and can achieve energy transfer in the subpicosecond range. Addition of external chromophores, thus, represents a useful methodology for construction of advanced hybrid light-harvesting systems that afford solar energy in the broad spectrum.

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Local people's perceptions of climate change and related hazards in mountainous areas of northern Thailand

Manandhar

Pratoomchai

Ono

et al. 2015

International Journal of Disaster Risk Reduction

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a b s t r a c tThis study investigates the perceptions of local people on climate change and related hazards in Yang Luang Village (YLV), which is located in the mountainous region of the Mae Chaem basin in northern Thailand. Furthermore, this study examines the differences between the perceptions of local people and scientific observations in this area. Both quantitative and qualitative methods were used, and the data were collected from various sources. Results show that nearly 45% of households have personally perceived climate change, mainly in the form of increasing rainfall, decreasing number of rainy days in the last two decades and of extremely late rainfall in recent year's rainy season. A comparison of locals' perceptions and climatic observations shows that local people have correctly perceived rainfall changes, which have largely influenced the experiences and perceptions regarding climate-related hazards. More than 70% of households have perceived droughts and floods impacts on their livelihoods but have not completely understood their causes. They have correctly perceived the landslide resulted from increasing amounts of rainfall. However, they are unaware of increasing landslide trends, flood hazards and the associated potential risks. The results are helpful to assess the needs in terms of actions and information to facilitate climate-related hazard management at the local level in Thailand. Hazard awareness campaign, training and early warning system are necessary for breaking the low perception of potential hazards in YLV. Moreover, a hazard management strategy without waiting for proof of a trend coming from reviews of the climate science is essential.

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Body shape indices are predictors for estimating fat-free mass in male athletes

et al. 2018

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It is unknown whether body size and body shape parameters can be predictors for estimating whole body fat-free mass (FFM) in male athletes. This study aimed to investigate whether body size and shape variables can be predictors for FFM in male athletes. Using a whole-body dual-energy X-ray absorptiometry scanner, whole body fat mass (FM) and FFM were determined in 132 male athletes and 14 sedentary males. The sample was divided into two groups: validation (N = 98) and cross-validation (N = 48) groups. Body height (BH), body mass (BM), and waist circumference at immediately above the iliac crest (W) were measured. BM-to-W and W-to-BH ratios were calculated as indices of body shapes. Stepwise multiple regression analysis revealed that BM/W and W/BH were selected as explainable variables for predicting FFM. The equation developed in the validation group was FFM (kg) = 0.883 × BM/W (kg/m) + 43.674 × W/BH (cm/cm)– 41.480 [R2 = 0.900, SEE (%SEE) = 2.3 kg (3.8%)], which was validated in the cross-validation group. Thus, the current results demonstrate that an equation using BM/W and W/BH as independent variables is applicable for predicting FFM in male athletes.

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Daisuke Komori

Characteristics of the 2011 Chao Phraya River flood in Central Thailand

Assessing the impacts of reservoir operation to floodplain inundation by combining hydrological, reservoir management, and hydrodynamic models

Extension of Light-Harvesting Ability of Photosynthetic Light-Harvesting Complex 2 (LH2) through Ultrafast Energy Transfer from Covalently Attached Artificial Chromophores

Local people's perceptions of climate change and related hazards in mountainous areas of northern Thailand

Body shape indices are predictors for estimating fat-free mass in male athletes

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