Looking beyond leaves: variation in nutrient leaching potential of seasonal litterfall among different species within an urban forest

Urban litterfall that is deposited on impervious surface leaches nutrients into stormwater, contributing to downstream eutrophication. Previous studies have focused on the leaching potential of deciduous leaf litter, while other smaller-volume litterfall types—such as blossoms and fruit—may leach si...

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Bibliographic Details
Published in:Urban ecosystems 2022-08, Vol.25 (4), p.1097-1109
Main Authors: Hill, Sophie K., Hale, Rebecca L., Grinath, Joshua B., Folk, Brittany T., Nielson, Ryan, Reinhardt, Keith
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Carbon
Dissolved organic carbon
Dissolved organic phosphorus
Ecology
Environmental Management
Eutrophication
Forest communities
Fruits
Leachates
Leaching
Leaf litter
Leaves
Life Sciences
Litter fall
Nature Conservation
Nitrogen
Nutrient sources
Nutrients
Phosphorus
Plant species
Species
Stormwater
Urban areas
Urban Ecology
Urban forests
Variation
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Summary:Urban litterfall that is deposited on impervious surface leaches nutrients into stormwater, contributing to downstream eutrophication. Previous studies have focused on the leaching potential of deciduous leaf litter, while other smaller-volume litterfall types—such as blossoms and fruit—may leach significant amounts of nitrogen, phosphorus, and carbon. These additional litterfall types represent an unaccounted-for source of nutrients to urban stormwater. We explored variation in leaching potential of dissolved nutrients and organic carbon across litter types and species by collecting litterfall (blossoms, fruit, leaves) from ten common urban tree species. After 24 h of leaching, we measured total phosphorus (TP), total dissolved nitrogen (TDN), and dissolved organic carbon (DOC) contributions and compared differences across litter types and species. Litter basket estimates then allowed us to quantify annual litterfall inputs. We found that blossoms leached 3–20 times more TDN and 1.5–7 times more TP than leaves of the same species. Furthermore, considering litterfall mass, several species had greater springtime nutrient-leaching potential compared to fall due to high leaching potential in blossoms and lower potential in leaves. We found mixed effects of leaf crushing and leachate solution (stormwater, salinity) on leaching rates. This study highlights the need to consider all litterfall types as well as variation in urban forest communities and conditions when seeking to budget, control, and maintain for potential nutrient sources from the urban forest.
ISSN:1083-8155
1573-1642
DOI:10.1007/s11252-022-01217-8