Trace metals distribution in huanghe (Yellow River) estuarine sediments
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2020, Marine Pollution BulletinNutrient burial and environmental changes in the Yangtze Delta in response to recent river basin human activities
2019, Environmental PollutionImpact of water-sediment regulation on the transport of heavy metals from the Yellow River to the sea in 2015
2019, Science of the Total EnvironmentCitation Excerpt :Sediment scoured from the lower reaches riverbed and discharged from the reservoirs in the middle reaches were major sources of pollution. Many studies have reported the content and transport characteristics of trace metals in SPM of the Yellow River under natural conditions (Zhang et al., 1988; Huang et al., 1992; Zhang et al., 1994; Liu et al., 2003; Wang et al., 2003; Qiao et al., 2007). However, the transport patterns and fluxes of heavy metals from the Yellow River to the sea during the WSRS and its phase changes are poorly understood.
Environmental significance and geochemical speciation of trace elements in Lower Baram River sediments
2019, ChemosphereCitation Excerpt :The relative predominance of Mn in the exchangeable fraction is attributed to the fact that this element is being reduced in river sediments (Martínez-Santos et al., 2015). The distribution of Fe in exchangeable fraction was less than 1%, which is geochemically insignificant as observed by Zhang et al. (1988) and Sundaray et al. (2011). Fraction 2 represents the elements associated with the lattice of carbonates, a loosely bound phase subject to change in environmental conditions, such as a change in pH. Carbonate can be an important adsorbent for many metals in aquatic systems where organic matter and Fe–Mn oxides are less abundant (Stone and Droppo, 1996).