Litcius/Paper detail

Salinization, warming, and loss of water clarity inhibit vertical mixing of small urban ponds

Charlie J. G. Loewen, Donald A. Jackson

2023Limnology and Oceanography Letters10 citationsDOIOpen Access PDF

Abstract

Abstract Urbanization drives multiple environmental changes that influence critical ecosystem processes. Factors such as salinization by deicing road salts, reduced water clarity (and greater light attenuation) from eutrophication and sediment loading, and warming constrain not only the biodiversity of ponds, but also their physical mixing (with consequences for oxygen availability and the provision of ecosystem services). Leveraging an extensive urban gradient in the Greater Toronto Area, we collected summertime depth profiles from 50 stormwater retention ponds to investigate their vertical stratification. We found that water columns were generally stratified but contrary to expectations, we found relatively minor roles of basin area and depth. Instead, we discovered an overwhelming effect of salinity along with significant impacts of temperature and water clarity on water density gradients. Findings extend our fundamental understanding of mixing regimes in small, shallow waterbodies and indicate increasing risks to pond functioning in a warmer and saltier future.

Topics & Concepts

Environmental scienceEutrophicationUrbanizationSalinityStratification (seeds)Hydrology (agriculture)CLARITYEcosystemGlobal warmingWater columnClimate changeEcologyOceanographyGeologyNutrientGeotechnical engineeringDormancyBiologyChemistryBotanyGerminationSeed dormancyBiochemistryUrban Stormwater Management SolutionsCoastal wetland ecosystem dynamicsHydrology and Sediment Transport Processes