Land Use and Land Cover Control on the Spatial Variation of Dissolved Organic Matter across 41 Lakes in Mississippi, USA

Sankar, M. S., Dash, P., Lu, Y., Mercer, A., Turnage, G., Shoemaker, C. M., Chen, S., & Moorhead, R. J. (2020). Land Use and Land Cover Control on the Spatial Variation of Dissolved Organic Matter across 41 Lakes in Mississippi, USA. Hydrobiologia. Springer. NA(NA), 1–18. DOI:10.1007/s10750-019-04174-0.

Abstract

While dissolved organic matter (DOM) is an important indicator of water quality, land use and land cover (LULC) of watersheds define the source, quality, and quantity of DOM delivered to a waterbody. This study examined the influence of various LULC classes in the spatial distribution of DOM in 41 lakes across the state of Mississippi. To scale the influence of LULC classes on DOM distribution, we have classified 41 lakes into five clusters based on DOM compositions determined by parallel factor analysis. Four major DOM compositions including terrestrial humic-like (C1), microbial humic-like (C2), soil-derived humic-like (C3), and tryptophan-like or tyrosine like (C4) components were identified. Higher amounts of terrestrial humic-like and soil-derived humic-like DOM compositions were observed in lakes within watersheds dominated by forested, barren, wetlands, or agricultural areas with exposed unconsolidated soil. Higher amounts of microbial humic-like composition were observed in lakes surrounded by hay/pasture, rangeland, and urbanized areas. Additionally, protein-like DOM and ammonia were more enriched in larger lakes, indicating the influences of photochemical reactions. High amounts of forested areas and higher concentrations of terrestrial humic-like DOM composition were identified in all lakes suggesting forested areas in the watershed as the principal source of DOM in Mississippi lakes.