Difference between revisions of "Absorbent landscapes"
Jenny Hill (talk | contribs) m |
|||
| (16 intermediate revisions by 4 users not shown) | |||
| Line 1: | Line 1: | ||
| − | + | [[File:TopsoilDepthQuality pic.jpg|900px|thumb|A residential property and law where soi lamednment best practices have been employed and compost added. The microbiome is strong and helps reduce overall municipal water usage and helps to reduce stormwater runoff during heavier precipitation events (Soils for Salmon, 1999)<ref>Soils for Salmon. 1999.The Relationship Between Soil and Water How Soil Amendments and Compost Can Aid in Salmon Recovery, Fall 1999. Accessed 20 August 2025, https://static1.squarespace.com/static/5cd058c1ebfc7f569cc15d58/t/5e5eae6a6d276025a03de4c6/1583263340940/RelationshipBetweenSoilandWater10-14-99.pdf</ref>.]] | |
| − | + | {{TOClimit|3}} | |
| − | {{ | ||
| − | ==Materials== | + | ==Overview== |
| + | Landscape alternatives capture rainfall in leafy green foliage, with the intention of increasing [[infiltration]], filtration, and [[evapotranspiration]] of rainfall and runoff. Well-designed landscape alternatives require little maintenance and less irrigation after establishment than [[turf]]. | ||
| + | |||
| + | Healthy, uncompacted soil provides important stormwater management functions including infiltration and temporary storage of runoff, filtration of suspended sediments, adsorption and biological decomposition of pollutants and moderation of peak stream flows and temperatures. Healthy soils also support vigorous [[plants|plant]] growth that intercepts rainfall, returning much of it to the atmosphere through evaporation and transpiration. Standard construction practices involve removing and stockpiling topsoil during clearing and grading, compacting subsoil and replacing a shallow layer of the stockpiled site topsoil, typically 10 to 15 cm deep, on top of the compacted subsoil at the end of [[construction]]. This typically produces a poor quality growing environment that requires excessive irrigation and fertilizer applications to establish plantings, raising the potential for these pervious areas to be a source of contaminated runoff during storm events. | ||
| + | |||
| + | A simple, inexpensive lot level stormwater management practice is the application of a deeper than standard layer of high quality topsoil in pervious landscaped areas, especially those that will receive roof runoff from downspouts. This practice is of particular interest because at the end of construction work there is always a surplus of topsoil from clearing and grading that otherwise must be hauled away at a cost to the developer. The practice of adjusting grading of landscaped areas, scarifying the subsoil to reverse compaction, and applying a deeper layer of organic topsoil has the potential to reduce costs associated with having to haul it away. It also has the potential to absorb, infiltrate and evapotranspire a greater amount of stormwater than standard landscaping practices, thereby providing runoff reduction benefits. Amending poor quality topsoil or compacted subsoil with compost increases moisture and pollutant retention capacity and permeability, and reduces bulk density and erosivity. In addition, this practice also provides a better growing environment for grass, shrub and tree plantings, requiring less irrigation and fertilizer to become established than plantings in more shallow, unimproved topsoil overlying compacted subsoil. | ||
| + | |||
| + | Landscape alternatives allow homeowners to customize their property’s landscape to their liking. A guiding principle when designing landscape alternatives is “the right plant for the right place”. Using both native and non-native plants is acceptable as long as the non-native plants are not invasive and do not require frequent watering. Various landscape alternatives are available, including: | ||
| + | |||
| + | ==Xeriscaping== | ||
| + | Xeriscaping refers to landscaping, plantings and gardening practices that reduce or eliminate the need for watering by selecting plants based on their ability to survive with little water. Synonymous with water conservation, xeriscaping was originally promoted in areas with perennial water shortages. Additional benefits include reducing water bills, lowering maintenance requirements, and better plant survival rates and aesthetics during drought periods. Xeriscaping can be used on a lot-by-lot basis or in combination with larger residential LID programs. The Region of Peel’s [http://www.peelregion.ca/watersmartpeel/residents/fusion-landscaping/index.htm Fusion Landscaping® program] is an example of this. | ||
| + | |||
| + | ==Tree Clusters== | ||
| + | [[Trees| Tree]] clusters are another residential landscape alternative. Tree clusters improve water quality, generate organic soils, absorb greenhouse gases, and provide shade for homes. Tree clusters require larger lot sizes, preferably with no overhead wires. They can be planted as standalone features or as part of a larger residential LID landscape. | ||
| + | |||
| + | ==Topsoil== | ||
| + | STEP have a guide to amending and improving topsoil to improve the water retention capacity and promote healthy vegetation. I can be found [https://sustainabletechnologies.ca/home/urban-runoff-green-infrastructure/healthy-soils/preserving-and-restoring-healthy-soil-best-practices-for-urban-construction/ here] on our main website. | ||
| + | |||
| + | {{Clickable button|[https://sustainabletechnologies.ca/app/uploads/2017/08/Topsoil-and-Soil-Amendment-Calculator-v2.0.xltx Topsoil and Soil Amendment Calculator Spreadsheet Tool, V 2.0]}} | ||
| + | |||
| + | ===Materials=== | ||
*[[Topsoil]] | *[[Topsoil]] | ||
*[[Sand]] | *[[Sand]] | ||
*[[Compost]] | *[[Compost]] | ||
| + | *[[Organic matter]] | ||
==See also== | ==See also== | ||
| + | *[[Better site design]] | ||
| + | *[[Grading]] | ||
*[[Downspout disconnection]] | *[[Downspout disconnection]] | ||
| − | *[[ | + | *[[Vegetated filter strips]] |
| + | *[[Enhanced swales]] | ||
| + | |||
| + | [[category: Infiltration]] | ||
| + | [[Category: Residential]] | ||
| − | + | ==References== | |
Latest revision as of 14:17, 20 August 2025
Overview[edit]
Landscape alternatives capture rainfall in leafy green foliage, with the intention of increasing infiltration, filtration, and evapotranspiration of rainfall and runoff. Well-designed landscape alternatives require little maintenance and less irrigation after establishment than turf.
Healthy, uncompacted soil provides important stormwater management functions including infiltration and temporary storage of runoff, filtration of suspended sediments, adsorption and biological decomposition of pollutants and moderation of peak stream flows and temperatures. Healthy soils also support vigorous plant growth that intercepts rainfall, returning much of it to the atmosphere through evaporation and transpiration. Standard construction practices involve removing and stockpiling topsoil during clearing and grading, compacting subsoil and replacing a shallow layer of the stockpiled site topsoil, typically 10 to 15 cm deep, on top of the compacted subsoil at the end of construction. This typically produces a poor quality growing environment that requires excessive irrigation and fertilizer applications to establish plantings, raising the potential for these pervious areas to be a source of contaminated runoff during storm events.
A simple, inexpensive lot level stormwater management practice is the application of a deeper than standard layer of high quality topsoil in pervious landscaped areas, especially those that will receive roof runoff from downspouts. This practice is of particular interest because at the end of construction work there is always a surplus of topsoil from clearing and grading that otherwise must be hauled away at a cost to the developer. The practice of adjusting grading of landscaped areas, scarifying the subsoil to reverse compaction, and applying a deeper layer of organic topsoil has the potential to reduce costs associated with having to haul it away. It also has the potential to absorb, infiltrate and evapotranspire a greater amount of stormwater than standard landscaping practices, thereby providing runoff reduction benefits. Amending poor quality topsoil or compacted subsoil with compost increases moisture and pollutant retention capacity and permeability, and reduces bulk density and erosivity. In addition, this practice also provides a better growing environment for grass, shrub and tree plantings, requiring less irrigation and fertilizer to become established than plantings in more shallow, unimproved topsoil overlying compacted subsoil.
Landscape alternatives allow homeowners to customize their property’s landscape to their liking. A guiding principle when designing landscape alternatives is “the right plant for the right place”. Using both native and non-native plants is acceptable as long as the non-native plants are not invasive and do not require frequent watering. Various landscape alternatives are available, including:
Xeriscaping[edit]
Xeriscaping refers to landscaping, plantings and gardening practices that reduce or eliminate the need for watering by selecting plants based on their ability to survive with little water. Synonymous with water conservation, xeriscaping was originally promoted in areas with perennial water shortages. Additional benefits include reducing water bills, lowering maintenance requirements, and better plant survival rates and aesthetics during drought periods. Xeriscaping can be used on a lot-by-lot basis or in combination with larger residential LID programs. The Region of Peel’s Fusion Landscaping® program is an example of this.
Tree Clusters[edit]
Tree clusters are another residential landscape alternative. Tree clusters improve water quality, generate organic soils, absorb greenhouse gases, and provide shade for homes. Tree clusters require larger lot sizes, preferably with no overhead wires. They can be planted as standalone features or as part of a larger residential LID landscape.
Topsoil[edit]
STEP have a guide to amending and improving topsoil to improve the water retention capacity and promote healthy vegetation. I can be found here on our main website.
Materials[edit]
See also[edit]
References[edit]
- ↑ Soils for Salmon. 1999.The Relationship Between Soil and Water How Soil Amendments and Compost Can Aid in Salmon Recovery, Fall 1999. Accessed 20 August 2025, https://static1.squarespace.com/static/5cd058c1ebfc7f569cc15d58/t/5e5eae6a6d276025a03de4c6/1583263340940/RelationshipBetweenSoilandWater10-14-99.pdf