(Created page with " Tree trenches and tree boxes are vegetated engineered landscape practices designed to filter or infiltrate stormwater runoff. They can be incorporated into a wide variety of...") |
m |
||
Line 1: | Line 1: | ||
+ | {{aler|This page is in development|alert-under-construction}} | ||
Tree trenches and tree boxes are vegetated engineered landscape practices designed to filter or infiltrate stormwater runoff. They can be incorporated into a wide variety of landscaped areas, including ultra-urban landscapes. Technically, tree boxes and tree trenches are bioretention practices, but their design, construction, maintenance, and benefits merit a separate discussion. Note that this page does not discuss urban forests and use of trees in natural landscape settings. These are discussed on a separate page. | Tree trenches and tree boxes are vegetated engineered landscape practices designed to filter or infiltrate stormwater runoff. They can be incorporated into a wide variety of landscaped areas, including ultra-urban landscapes. Technically, tree boxes and tree trenches are bioretention practices, but their design, construction, maintenance, and benefits merit a separate discussion. Note that this page does not discuss urban forests and use of trees in natural landscape settings. These are discussed on a separate page. |
Tree trenches and tree boxes are vegetated engineered landscape practices designed to filter or infiltrate stormwater runoff. They can be incorporated into a wide variety of landscaped areas, including ultra-urban landscapes. Technically, tree boxes and tree trenches are bioretention practices, but their design, construction, maintenance, and benefits merit a separate discussion. Note that this page does not discuss urban forests and use of trees in natural landscape settings. These are discussed on a separate page.
Benefit | Effectiveness | Notes |
---|---|---|
Water quality | Benefits are maximized for bioinfiltration. Biofiltration may export phosphorus if not designed properly. | |
Water quantity/supply | Bioinfiltration helps mimic natural hydrology. Some rate control benefit. | |
Energy savings | ||
Climate resiliency | Provides some rate control. Impacts on carbon sequestration are uncertain. | |
Air quality | ||
Habitat improvement | Use of perennial vegetation and certain media mixes promote invertebrate communities. | |
Community livability | Aesthetically pleasing and can be incorporated into a wide range of land use settings. | |
Health benefits | ||
Economic savings | Generally provide cost savings vs. conventional practices over the life of the practice. | |
Macroscale benefits | Individual practices are typically microscale, but multiple practices, when incorporated into a landscape design, provide macroscale benefits such as wildlife corridors. | |
Level of benefit: ◯ - none; ◔; - small; ◑ - moderate; ◕ - large; ● - very high |
Because of their diversity and use of vegetation, tree trench and tree box practices provide multiple green infrastructure benefits.
A tree ordinance is a tool to help protect and manage a community’s trees. It can be designed to regulate various aspects of tree planting, removal, and maintenance on public and private property within a municipality. For more general information on tree ordinances, link here: [2], [3], or [4].
An urban forest master plan provides a road map for managing trees and the tree canopy in an urban area. The master plan typically includes detailed information, recommendations, and resources needed to manage an urban forest. An important component of a good forest master plan is engaging citizens and other stakeholders in the value and care of the urban forest.
A master plan may contain some or all of the following elements.
Example master plans are found at the following links.