Effects of deep tillage and municipal green waste compost amendments on soil properties and tree growth in compacted urban soils

Effects of deep tillage and municipal green waste compost amendments on soil properties and tree growth in compacted urban soils

Large trees are often seen as a means of offsetting negative consequences of growing urban densification. To increase the tree canopy cover of dense urban landscapes, developers, planners and urban tree managers are often forced to plant into damaged and compacted sites. Compacted urban soils can hi...

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Bibliographic Details
Published in:Journal of environmental management Vol. 227; pp. 365 - 374
Main Authors: Somerville, Peter D., May, Peter B., Livesley, Stephen J.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-12-2018
Subjects:
Compacted urban soil
Corymbia maculata
Municipal green waste compost
Organic matter
Tillage
Tree establishment
Municipal green waste compost
Organic matter
Tree establishment
Tillage
Compacted urban soil
Corymbia maculata
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Summary:Large trees are often seen as a means of offsetting negative consequences of growing urban densification. To increase the tree canopy cover of dense urban landscapes, developers, planners and urban tree managers are often forced to plant into damaged and compacted sites. Compacted urban soils can hinder the establishment and growth of deep rooted, woody plants by: 1) impeding root exploration and development which is critical for water and nutrient acquisition; 2) reducing infiltration of water into the soil and the availability of water to plants; and 3) reducing gas exchange and the balance between anaerobic and aerobic conditions. At three sites in Melbourne, Australia with compacted and damaged soils, we established four soil remediation treatments: 1 & 2) tillage to 0.25 m with and without 50% (v/v) municipal green waste compost (MGWC) additions, and 3 & 4) tillage to 0.5 m with and without 50% MGWC addition, plus a non-remediated control. Each treatment was replicated (n = 3), and one Corymbia maculata (spotted gum) tree was planted into the centre of each 2 × 2 m treatment plot (n = 15), at all three sites (n = 45). Bulk density and field-saturated hydraulic conductivity were improved by tillage, at least in the short-term. The use of MGWC may maintain these changes for longer. Depending on site soil conditions tree growth may be improved by tillage alone. At one site, we found that additions of MGWC lead to nitrogen immobilisation due to site soil conditions. At another site, deep tillage (with or without MGWC) led to significantly improved tree growth. Compacted and degraded urban soils may be improved through simple tillage and/or organic amendment strategies for the successful establishment of deep rooted woody plants. However, site soil conditions will dictate whether the addition of MGWC is beneficial or not, as one site showed no positive response to any tillage or MGWC. This research has examined a technique that can be used by landscape managers to improve soil physical characteristics and, in certain circumstances, can improve deep-rooted woody plant establishment and growth in challenging compacted urban soil conditions. •Deep tillage temporarily improves physical properties of compacted urban soils.•Tillage with added municipal green waste compost led to long-term soil property benefits.•Incorporating large amounts of municipal green waste compost at depth did not result in anoxic conditions.•Adding large amounts of municipal green waste compost can lead to temporary nitrogen immobilisation.•Tree growth responses to tillage and municipal green waste compost vary with site-specific conditions.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2018.09.004