Your search keyword '"Siev, Sokly"' showing total 4 results

1. Relationship between water levels and flood pulse induced by river–lake interaction in the Tonle Sap basin, Cambodia

Author

Yang, Heejun, Siev, Sokly, Uk, Sovannara, and Yoshimura, Chihiro

Published

2022

2. Modelling inundation patterns and sediment dynamics in the extensive floodplain along the Tonle Sap River.

Author

Siev, Sokly, Paringit, Enrico C., Yoshimura, Chihiro, and Hul, Seingheng

Subjects

FLOODS, FLOODPLAINS, TSUNAMI hazard zones, SEDIMENTS, RIVERS

Abstract

The Tonle Sap River (TSR) serves as a natural medium for the reversal flow between Tonle Sap Lake (TSL) and the Mekong River to sustain productivity and biodiversity in the TSR floodplain and TSL. Understanding the hydrological connectivity and its dynamics in the TSR, including its floodplain, is therefore important to support activities that aim to maintain ecological services in the TSR–TSL system. Thus, the main objective of this study is to examine the hydrological connectivity of the TSR and its floodplain by a modelling approach that integrates inundation patterns and sediment dynamics. The Caesar–Lisflood model was applied to describe inundation, sediment erosion, transport, and deposition in the TSR for the period of 2003–2013. The inundation areas connected to the TSR ranged from 140 to 2,327 km2, whereas the isolated inundation areas from the TSR ranged from 0.27 to 504 km2. Sediment dynamics showed its influence on inundation patterns and hydrological connectivity and could alter the yearly inundation ratio (defined as a normalized inundation frequency with a value ranging from 0 to 1) up to 0.8. Our approach provides a quantitative way to determine key factors (e.g., total inundation areas, seasonality, and connectivity of inundation patterns) for further investigation of ecological processes in relation to the inundation patterns and sediment dynamics in the TSR and TSL. [ABSTRACT FROM AUTHOR]

Published

2019

3. Characterization of total suspended solid dynamics in a large shallow lake using long‐term daily satellite images.

Author

Hoshikawa, Keisuke, Fujihara, Yoichi, Siev, Sokly, Arai, Seiya, Nakamura, Takashi, Fujii, Hideto, Sok, Ty, and Yoshimura, Chihiro

Subjects

WATER resources development, REMOTE-sensing images, FLOODPLAIN forests, WATER levels, LAKES, WATER depth

Abstract

Large, shallow‐water lakes located on floodplains play an important role in creating highly productive ecosystems and are prone to high concentrations of suspended solids due to sediment resuspension. In this study, the aim was to determine the dominant processes governing the total suspended solid (TSS) concentration at the water surface in Tonle Sap Lake, Cambodia, which is a large, shallow‐water lake. Satellite remotely sensed daily reflectance data from 2003 to 2017 were used. Seasonal changes in TSS concentration indicated that bottom sediment resuspension during dry seasons was mostly caused by wind and the TSS concentration was closely correlated with the water depth of the lake. The TSS concentration during flood periods was controlled by both wind and inflow currents from the Tonle Sap River. Additionally, we confirmed that surface/subsurface flow with a low TSS concentration from forests on the floodplain lowered the TSS concentration year round, except during August and September. This fact implied that the floodplain forest area decrease may increase the lake TSS concentration. An analysis of the long‐term changes in TSS indicated that a decrease in the water level during flood periods resulted in the high TSS concentrations observed during the subsequent dry periods. Therefore, climate change and water resource development, which are likely to cause water level reductions in the Mekong River during flood periods, may increase the TSS concentration in Tonle Sap Lake, particularly during the dry season. [ABSTRACT FROM AUTHOR]

Published

2019

4. Characteristics of the Annual Maximum and Minimum Water Temperatures in Tonle Sap Lake, Cambodia from 2000 to 2019.

Author

Fujihara, Yoichi, Okuyama, Koki, Hoshikawa, Keisuke, Fujii, Hideto, Nakamura, Takashi, Lun, Sambo, and Siev, Sokly

Subjects

WATER temperature, MAXIMA & minima, LAKE management, WATER levels, EVAPOTRANSPIRATION, ATMOSPHERIC temperature, LAKES, FLOOD damage

Abstract

The Tonle Sap Lake contains unique hydrological environments and ecosystems. Although water temperature is an important consideration in lake management, information on the water temperature of the lake is limited. Thus, we investigated the characteristics of the daytime water temperatures of the Tonle Sap Lake from 2000 to 2019 using MOD11A1, a Moderate Resolution Imaging Spectroradiometers (MODIS) product. Moreover, the relationship between water temperature fluctuations and hydrological–meteorological conditions was analyzed. The maximum and minimum daytime water temperatures were recorded in May (30.7 °C) and January (24.6 °C), respectively, each a month after the maximum and minimum air temperatures were recorded. The annual maximum, average, and minimum water levels showed a downward trend (−0.14, −0.08, and −0.01 m/y, respectively). The annual maximum water temperature increased at a rate of 0.17 °C/decade, whereas the annual minimum water temperature decreased at a rate of 0.91 °C/decade. The annual maximum daytime water temperature had a strong negative correlation with water level change (flood pulse) and a weaker correlation with air temperature. The annual minimum daytime water temperature presented the strongest positive correlation with water level change (flood pulse) in the previous year. However, there was no correlation between the annual minimum daytime water temperature and air temperature. These results indicate that water temperature in the Tonle Sap Lake is mainly affected by water level fluctuations, which are mainly driven by flood pulses. [ABSTRACT FROM AUTHOR]

Published

2021