4.7 Article

An increase in the slope of the concentration-discharge relation for total organic carbon in major rivers in New England, 1973 to 2019

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 778, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2021.146149

Keywords

Concentration-discharge relation; Weighted regressions on time, discharge, and season model (WRTDS); Carbon sources in rivers; Long-term water quality time series; Land cover change; Seasonal variation in water quality

Funding

  1. U.S. Geological Survey Land Change Science Program

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The study investigated the changes in total organic carbon (TOC) concentrations and the C-Q relation in 8 rivers in New England, USA from 1973 to 2019. The results showed a decline in TOC concentrations in all rivers and an increase in the C-Q slope in most seasons between the two periods. This increase is likely related to changes in TOC sources, such as waste water inputs, urban runoff, and production through photosynthesis in aquatic systems.
The mobilization and transport of organic carbon (OC) in rivers and delivery to the near-coastal ocean are important processes in the carbon cycle that are affected by both climate and anthropogenic activities. Riverine OC transport can affect carbon sequestration, contaminant transport, ocean acidification, the formation of toxic disinfection by-products, ocean temperature and phytoplankton productivity. There have been many studies reporting temporal trends in OC concentrations in comparatively small streams with minimal anthropogenic influences but there have been fewer studies on larger rivers and fewer still that have investigated changes in OC concentration-discharge (C-Q) relations. This study examined changes in C-Q relations for total organic carbon (TOC) from 1973 to 2019 in 8 rivers in New England, USA. TOC concentrations declined in all rivers, and in most rivers, and in most seasons, the slope of the C-Q relation increased between 1973 to 1995 and 1996 to 2019. The increase in C-Q slope between periods may be related to changes in the magnitude of TOC sources. The most likely sources to have changed are waste water inputs, urban runoff, production through photosynthesis in aquatic systems, and runoff from agricultural and forestry practices. Changes in wetland abundance and changes in sulfate concentrations can be ruled out as drivers of the observed changes in C-Q. (C) 2021 Elsevier B.V. All rights reserved.

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