The effects of semi-lunar spring and neap tidal change on nutrients cycling in the intertidal sediments of the Yangtze estuary |
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Authors: | L. J. Hou M. Liu S. Y. Xu D. N. Ou J. J. Lu J. Yu S. B. Cheng Y. Yang |
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Affiliation: | (1) State Key Laboratory of Estuarine and Coastal Research, East China Normal University, Shanghai, 200062, Peoples Republic of China;(2) Department of Geography, Key Laboratory of Geographical information Science of the Ministry of Education, East China Normal University, Shanghai, 200062, Peoples Republic of China;(3) Institute of Geoscience, Johannes Gutenberg-University Mainz, Becherweg, 55099, Germany |
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Abstract: | During a semi-lunar tidal cycle from full moon till new moon, tide is characterized by the periodic change in spring and neap tide. Under the in situ conditions of light and temperature, the influence of a semi-lunar spring and neap tidal cycle on nutrient cycling in intertidal flat of the Yangtze estuary was simulated in the laboratory in July 2002. Lab experiments showed that NH4+ and PO43– were always released into overlying waters, while NO3– was directed into sediments in the permanently waterlogged systems, suggesting that the long-term waterlogged sediment acts as a significant source for NH4+ and PO43–, and a sink for NO3– in water columns. In contrast, reflooding of intertidal sediments after long-term desiccation promoted the considerable effluxes of NH4+, NO3– and PO43– into overlying waters, reflecting that the long-term exposed sediment is an important source for nutrients in overlying waters. In addition, the semi-lunar tidal cycle led to the intricate depth distribution patterns of nutrients in intertidal sediments. During long-term exposure, NH4+ in sediments was quickly transformed into NO2– and NO3–, while organic P pool might be converted to slightly adsorbed and iron-bound P. Therefore, it is considered that the semi-lunar tidal circulation has the significant influence on the biogeochemical cycle of nutrients in intertidal systems. |
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Keywords: | Semi-lunar tidal cycle Nutrient Intertidal flat Yangtze estuary China |
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