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加拿大湖泊沉积物磷成分的变异性

Variability of sedimentary phosphorus composition across Canadian lakes.

作者信息

de Toledo Mauro B, Baulch Helen M

机构信息

School of Environment and Sustainability, University of Saskatchewan, Saskatoon, SK, Canada; Global Institute for Water Security, University of Saskatchewan, 11 Innovation Blvd, Saskatoon, SK, S7N 3H5, Canada.

出版信息

Environ Res. 2023 Nov 1;236(Pt 1):116654. doi: 10.1016/j.envres.2023.116654. Epub 2023 Jul 22.

Abstract

Phosphorus (P) in lake sediments is stored within diverse forms, often associated with metals, minerals, and organic matter. Sediment P can be remobilized to the water column, but the environmental conditions influencing the P retention-release balance depend upon the sediment chemistry and forms of P present. Sequential fractionation approaches can be used to help understand forms of P present in the sediments, and their vulnerability to release. We assessed P composition in surficial sediments (as an assemblage of six P-fractions) and its relationship with watershed, and lake-specific explanatory variables from 236 lakes across Canada. Sediment P composition varied widely across the 12 sampled Canadian ecozones. The dominant P-fractions were the residual-P and the labile organic P, while the loosely bound P corresponded to the smallest proportion of sediment TP. Notable contrasts in sediment P composition were apparent across select regions - with the most significant differences between sediment P in lakes from the mid-West Canada region (Prairies and Boreal Plains ecozones) and both Eastern coastal (Atlantic Maritime and Atlantic Highlands) and Western coastal (Pacific Maritime) ecozones. The ecozone attributes most critical to sediment P speciation across Canadian lakes were related to soil types in the watershed (e.g., podzols, chernozems, and Luvisols) and the chemical composition of lake water and sediments, such as dissolved Ca in lake water, bulk sedimentary Ca, Al, and Fe, dissolved SO in lake water, lake pH, and salinity. Understanding predictors of the forms of P stored in surficial sediments helps advance our knowledge of in-lake P retention and remobilization processes across the millions of unstudied lakes and can help our understanding of controls on internal P loading.

摘要

湖泊沉积物中的磷(P)以多种形式存在,通常与金属、矿物质和有机物相关联。沉积物中的磷可以重新释放到水柱中,但影响磷保留 - 释放平衡的环境条件取决于沉积物的化学性质和磷的存在形式。连续分级分离方法可用于帮助了解沉积物中磷的存在形式及其释放的可能性。我们评估了加拿大236个湖泊表层沉积物中的磷组成(作为六种磷组分的组合)及其与流域以及湖泊特定解释变量的关系。在加拿大12个采样生态区中,沉积物磷组成差异很大。主要的磷组分是残余磷和不稳定有机磷,而松散结合磷在沉积物总磷中所占比例最小。在特定区域,沉积物磷组成存在明显差异——加拿大中西部地区(草原和北方平原生态区)湖泊的沉积物磷与东部沿海(大西洋海洋和大西洋高地)和西部沿海(太平洋海洋)生态区湖泊的沉积物磷之间差异最为显著。对加拿大湖泊沉积物磷形态最为关键的生态区属性与流域土壤类型(如灰化土、黑钙土和淋溶土)以及湖水和沉积物的化学成分有关,如湖水中溶解的钙、沉积物中的总钙、铝和铁、湖水中溶解的硫酸根、湖水pH值和盐度。了解表层沉积物中磷储存形式的预测因素有助于推进我们对数百万未研究湖泊中湖泊磷保留和再迁移过程的认识,并有助于我们理解对内部磷负荷的控制。

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