Urban trees reduce nutrient leaching to groundwater

rebecca.killalea@canberra.edu.au on 02 Mar 2022
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Author(s)
Nidzgorski, D. A., & Hobbie, S. E.
Year
2016
Title
Urban trees reduce nutrient leaching to groundwater
Source
Ecological Applications
DOI
10.1002/15-0976
Volume
26
Issue
5
Pages
1566-1580
ISSN/ISBN
1051-0761,1939-5582
Abstract

Many urban waterways suffer from excess nitrogen (N) and phosphorus (P), feeding algal blooms, which cause lower water clarity and oxygen levels, bad odor and taste, and the loss of desirable species. Nutrient movement from land to water is likely to be influenced by urban vegetation, but there are few empirical studies addressing this. In this study, we examined whether or not urban trees can reduce nutrient leaching to groundwater, an important nutrient export pathway that has received less attention than stormwater. We characterized leaching beneath 33 trees of 14 species, and seven open turfgrass areas, across three city parks in Saint Paul, Minnesota, USA. We installed lysimeters at 60 cm depth to collect soil water approximately biweekly from July 2011 through October 2013, except during winter and drought periods, measured dissolved organic carbon (C), N, and P in soil water, and modeled water fluxes using the BROOK90 hydrologic model. We also measured soil nutrient pools (bulk C and N, KCl-extractable inorganic N, Brays-P), tree tissue nutrient concentrations (C, N, and P of green leaves, leaf litter, and roots), and canopy size parameters (leaf biomass, leaf area index) to explore correlations with nutrient leaching. Trees had similar or lower N leaching than turfgrass in 2012 but higher N leaching in 2013; trees reduced P leaching compared with turfgrass in both 2012 and 2013, with lower leaching under deciduous than evergreen trees. Scaling up our measurements to an urban subwatershed of the Mississippi River (~17 400 ha, containing ~1.5 million trees), we estimated that trees reduced P leaching to groundwater by 533 kg in 2012 (0.031 kg/ha or 3.1 kg/km2) and 1201 kg in 2013 (0.069 kg/ha or 6.9 kg/km2). Removing these same amounts of P using stormwater infrastructure would cost $2.2 million and $5.0 million per year (2012 and 2013 removal amounts, respectively).

Evidence

Cause Effect Response measure type Habitat Country Modified
Habitat (physical characteristics)
Urban trees in landscape compared with turfgrass
Sediment quality - nutrients (nitrogen)
The data from this study did not provide a clear answer on whether urban trees decrease nitrogen leaching compared with turfgrass. The difference varied between an increase and decrease across the time series.
Other Other United States 02-Mar-2022
Habitat (physical characteristics)
Urban trees in landscape compared with turfgrass
Sediment quality - nutrients (phosphorus) (Decrease)
Urban trees were found to have lower soil water phosphorus concentrations than open turfgrass areas. Deciduous trees had the lowest phosphorus concentrations, followed by evergreens and then turfgrass.
Other Other United States 02-Mar-2022