Decomposition of tree leaf litter on pavement: implications for urban water quality

Leaf litter may be an important source of nutrients to stormwater and ultimately contribute to eutrophication of surface waters associated with urbanization. Thus, understanding decomposition and nutrient release from leaf litter that falls on impervious surfaces is important for stormwater manageme...

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Veröffentlicht in:	Urban ecosystems 2014-06, Vol.17 (2), p.369-385
Hauptverfasser:	Hobbie, Sarah E, Baker, Lawrence A, Buyarski, Christopher, Nidzgorski, Daniel, Finlay, Jacques C
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Asphalt pavements Biomedical and Life Sciences Carbon Decomposition Ecology Environmental Management Eutrophication forests Leaching Leaf litter Leaves Life Sciences Nature Conservation Nutrient release Nutrients Phosphorus plant litter Plant species Storm drains Stormwater Stormwater management streams street trees Studies Surface water Trees Urban areas Urban Ecology Urban environments Urbanization Water quality
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creator	Hobbie, Sarah E Baker, Lawrence A Buyarski, Christopher Nidzgorski, Daniel Finlay, Jacques C
description	Leaf litter may be an important source of nutrients to stormwater and ultimately contribute to eutrophication of surface waters associated with urbanization. Thus, understanding decomposition and nutrient release from leaf litter that falls on impervious surfaces is important for stormwater management. However, few studies have examined leaf litter decomposition in the unique urban environment of the street gutter. We compared decomposition of leaf litter of five street tree species in a parking lot gutter in St. Paul, Minnesota, USA. In contrast to our expectations, comparisons with past studies revealed that litter decomposed more rapidly in the gutter than in nearby natural areas. And decomposition rates were as rapid as those measured in other urban settings (forests and streams), with most species losing 80 % of their initial mass after 1 year. Litter of most species had retained more than half of its initial N and P after 1 year. However, in contrast to N, litter P dynamics largely were uncoupled from litter mass dynamics, with litter P increasing and decreasing unpredictably over the year. Short-term (24 h) laboratory studies revealed that litter had the potential to lose a high fraction of its initial P, with high variation among species (from 27 to 88 %), and a smaller fraction of its initial N (
doi_str_mv	10.1007/s11252-013-0329-9
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Thus, understanding decomposition and nutrient release from leaf litter that falls on impervious surfaces is important for stormwater management. However, few studies have examined leaf litter decomposition in the unique urban environment of the street gutter. We compared decomposition of leaf litter of five street tree species in a parking lot gutter in St. Paul, Minnesota, USA. In contrast to our expectations, comparisons with past studies revealed that litter decomposed more rapidly in the gutter than in nearby natural areas. And decomposition rates were as rapid as those measured in other urban settings (forests and streams), with most species losing 80 % of their initial mass after 1 year. Litter of most species had retained more than half of its initial N and P after 1 year. However, in contrast to N, litter P dynamics largely were uncoupled from litter mass dynamics, with litter P increasing and decreasing unpredictably over the year. 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Our results suggest that careful selection of street tree species and timely removal of litterfall have significant potential to reduce nutrient fluxes from streets to storm drains, particularly for P.</description><subject>Analysis</subject><subject>Asphalt pavements</subject><subject>Biomedical and Life Sciences</subject><subject>Carbon</subject><subject>Decomposition</subject><subject>Ecology</subject><subject>Environmental Management</subject><subject>Eutrophication</subject><subject>forests</subject><subject>Leaching</subject><subject>Leaf litter</subject><subject>Leaves</subject><subject>Life Sciences</subject><subject>Nature Conservation</subject><subject>Nutrient release</subject><subject>Nutrients</subject><subject>Phosphorus</subject><subject>plant litter</subject><subject>Plant species</subject><subject>Storm drains</subject><subject>Stormwater</subject><subject>Stormwater management</subject><subject>streams</subject><subject>street 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Thus, understanding decomposition and nutrient release from leaf litter that falls on impervious surfaces is important for stormwater management. However, few studies have examined leaf litter decomposition in the unique urban environment of the street gutter. We compared decomposition of leaf litter of five street tree species in a parking lot gutter in St. Paul, Minnesota, USA. In contrast to our expectations, comparisons with past studies revealed that litter decomposed more rapidly in the gutter than in nearby natural areas. And decomposition rates were as rapid as those measured in other urban settings (forests and streams), with most species losing 80 % of their initial mass after 1 year. Litter of most species had retained more than half of its initial N and P after 1 year. However, in contrast to N, litter P dynamics largely were uncoupled from litter mass dynamics, with litter P increasing and decreasing unpredictably over the year. Short-term (24 h) laboratory studies revealed that litter had the potential to lose a high fraction of its initial P, with high variation among species (from 27 to 88 %), and a smaller fraction of its initial N (<10 %) via leaching. Thus, street tree species may differ in their potential contributions to nutrients that are released during decomposition. Our results suggest that careful selection of street tree species and timely removal of litterfall have significant potential to reduce nutrient fluxes from streets to storm drains, particularly for P.</abstract><cop>Boston</cop><pub>Springer-Verlag</pub><doi>10.1007/s11252-013-0329-9</doi><tpages>17</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analysis Asphalt pavements Biomedical and Life Sciences Carbon Decomposition Ecology Environmental Management Eutrophication forests Leaching Leaf litter Leaves Life Sciences Nature Conservation Nutrient release Nutrients Phosphorus plant litter Plant species Storm drains Stormwater Stormwater management streams street trees Studies Surface water Trees Urban areas Urban Ecology Urban environments Urbanization Water quality
title	Decomposition of tree leaf litter on pavement: implications for urban water quality
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