Yu Hagimori scite author profile

Yu Hagimori

2Publications

27Citation Statements Received

77Citation Statements Given

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Hiroshima University

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Tidal effects on the organic carbon mineralization rate under aerobic conditions in sediments of an intertidal estuary

Sasaki

Hagimori

Nakatsubo

et al. 2008

Ecological Research

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Laboratory experiments and field measurements were conducted to examine the effect of tide on the organic carbon mineralization rate in sediments under aerobic conditions of an intertidal estuary. Core samples of surface sediments were collected from an intertidal estuary of the Kurose River, Hiroshima, Japan. To mimic low and high tide in the intertidal estuary, organic carbon mineralization rates in the samples were measured in the laboratory under both air-exposed and submerged conditions. Mineralization rates under air-exposed conditions were two to five times higher than those under submerged conditions. Field measurements of the rate of CO 2 emission from the sediment surface revealed a rapid increase in the rate as the sea level fell during ebb tide. The estimated amount of daily organic carbon mineralization assuming a constantly submerged condition was 30% less than that estimated when considering the semi-diurnal fluctuation in sea level. These results indicate that tide has a marked impact on the organic carbon mineralization rate in sediments under aerobic conditions on an intertidal estuary, and tidal effects need to be considered when the amount of mineralized organic carbon is estimated.

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Annual sediment respiration in estuarine sandy intertidal flats in the Seto Inland Sea, Japan

et al. 2011

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To quantify organic matter mineralization at estuarine intertidal flats, we measured in situ sediment respiration rates using an infrared gas analyzer in estuarine sandy intertidal flats located in the northwestern Seto Inland Sea, Japan. In situ sediment respiration rates showed spatial and seasonal variations, and the mean of the rates is 38.8 mg CO 2 -C m -2 h -1 in summer. In situ sediment respiration rates changed significantly with sediment temperature at the study sites (r 2 = 0.70, p \ 0.05), although we did not detect any significant correlations between the rates and sediment characteristics. We prepared a model for estimating the annual sediment respiration based on the in situ sediment respiration rates and their temperature coefficient (Q 10 = 1.8). The annual sediment respiration was estimated to be 92 g CO 2 -C m -2 year -1 . The total amount of organic carbon mineralization for the entire estuarine intertidal flats through sediment respiration (43 t C year -1 ) is equivalent to approximately 25% of the annual organic carbon load supplied from the river basin of the estuary.

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Yu Hagimori

Tidal effects on the organic carbon mineralization rate under aerobic conditions in sediments of an intertidal estuary

Annual sediment respiration in estuarine sandy intertidal flats in the Seto Inland Sea, Japan

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