Leachable phosphorus from senesced green ash and Norway mapleleaves in urban watersheds

Science of the Total Environment
By: , and 



In urban watersheds, street tree leaf litter is a critical biogenic source of phosphorus (P) in stormwater runoff. Stormwater extracts P from leaf litter and transports it, through the storm sewer network, to a receiving waterbody potentially causing downstream eutrophication. The goal of this study is to understand P leaching dynamics of two prevalent tree species (Norway maple (Acer platanoides) and green ash (Fraxinus pennsylvanica)) in three urban residential watersheds in Madison, Wisconsin, USA. Leaf litter was collected from the three basins during Fall 2017 and 2018. Laboratory experiments showed an initial rapid total dissolved phosphorus (TDP) release that gradually plateaued over a 48-hour period. The total TDP released from Norway maple (2.10 mg g−1 ) was greater than from green ash (1.60 mg g−1 ).Within the same species, increased fragmentation of leaves led to more rapid initial TDP release, but not greater total TDP release. Increased aging of senescent leaves decreased total TDP release. Incubation temperature and volume of water in contact with leaves may not be critical factors affecting TDP leaching dynamics. Predictive equations were derived to characterize time-variable TDP release of both Norway maple and green ash leaves. Potential TDP release from leaf litter estimated using these equations was compared with field-measured end-of-pipe TDP loads in one of the study watersheds. Our results indicate that preventing leaf litter from accumulating in streets is an important stormwater quality control measure.
Publication type Article
Publication Subtype Journal Article
Title Leachable phosphorus from senesced green ash and Norway mapleleaves in urban watersheds
Series title Science of the Total Environment
DOI 10.1016/j.scitotenv.2020.140662
Volume 743
Year Published 2020
Language English
Publisher Elsevier
Contributing office(s) Wisconsin Water Science Center, Upper Midwest Water Science Center
Description 140662, 10 p.
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