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Atmospheric Dry and Wet Deposition of Total Phosphorus to the Great Lakes. | LitMetric

AI Article Synopsis

  • This study focuses on measuring total phosphorus (TP) levels deposited from the atmosphere to freshwater environments, especially the Great Lakes, which is crucial for understanding its environmental impact.
  • Researchers combined data from various sources to estimate dry and wet TP deposition, finding a seasonal trend with higher levels during warmer months and a geographic pattern showing increased deposition in southern regions.
  • The annual TP deposition estimates vary among the Great Lakes, with Lake Michigan experiencing the highest levels, while wet deposition is generally more dominant than dry deposition, highlighting discrepancies with previous global data estimates.

Article Abstract

Quantifying atmospheric loadings of total phosphorus (TP) to freshwater environments is essential to improve understanding of its fate and transport, and to mitigate the effects of excessive levels in freshwater ecosystems. To date, atmospheric deposition of TP in the U.S. is poorly characterized due to the lack of long-term deposition observations. Here, we integrate several historical datasets to develop an estimate of dry and wet deposition to the Great Lakes region. For dry deposition, we use TP concentrations in fine particulate matter (PM) samples from fourteen land-based IMPROVE sites (2013-2020) upwind of the Great Lakes to provide new fine particle phosphorus dry deposition estimates. For wet deposition, we use TP concentrations in wet-only precipitation samples collected at eleven land-based sites (2001-2009) in the Great Lakes region. For both wet and dry deposition, a seasonal cycle is evident with higher concentrations in warmer and wetter months when compared to colder months. Additionally, there is an increasing gradient from north to south in wet deposition, likely driven by both higher precipitation and increased emissions near southern sites. Despite different sampling time periods, these updated observations can provide further constraints on the TP loadings to each of the five Great Lakes. We estimate annual deposition of TP to Lakes Superior, Michigan, Huron, Erie and Ontario at 526, 702, 495, 212, and 185 MTA per year, which is lower than prior estimates for Lakes Superior, Erie and Ontario, comparable for Lake Huron, and about two times greater for Lake Michigan. When considering only the contribution of fine particulate PM to the dry deposition, wet deposition dominated over dry at all lakes except for Lake Huron. However, prior global estimates suggest greater contributions from larger particles (PM and PM), yet observations to validate these estimates over the Great Lakes are not available. Our findings indicate that dry deposition of a range of particle sizes are needed to constrain the total atmospheric deposition of TP over the Great Lakes.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10569237PMC
http://dx.doi.org/10.1016/j.atmosenv.2023.120049DOI Listing

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