Sustainable landscaping

Last updated

Sustainable landscaping is a modern type of gardening or landscaping that takes the environmental issue of sustainability into account. According to Loehrlein in 2009 this includes design, construction and management of residential and commercial gardens and incorporates organic lawn management and organic gardening techniques. [1]

Contents

Definition

A sustainable garden is designed to be both attractive and in balance with the local climate and environment and it should require minimal resource inputs. Thus, the design must be “functional, cost-efficient, visually pleasing, environmentally friendly and maintainable". [2] As part of sustainable development, it pays close attention to preserving limited resources, reducing waste, and preventing air, water and soil pollution. Compost, fertilization, integrated pest management, using the right plant in the right place, appropriate use of turf and xeriscaping (water-wise gardening) are all components of sustainable landscaping.

Benefits

Sustainability can help urban commercial landscaping companies save money. [3] In California, gardens often do not outweigh the cost of inputs like water and labor. However, using appropriately selected and properly sited plants may help to ensure that maintenance costs are lower because of reduced inputs.

Issues

Sustainability issues for landscaping include:

Non-sustainable practices include:

Solutions

Some of the solutions are:

Proper design

One step to garden design is to do a "sustainability audit". This is similar to a landscape site analysis that is typically performed by landscape designers at the beginning of the design process. Factors such as lot size, house size, local covenants and budgets should be considered. The steps to design include a base plan, site inventory and analysis, construction documents, implementation and maintenance. [2] Of great importance is considerations related to the growing conditions of the site. These include orientation to the sun, soil type, wind flow, slopes, shade and climate, the goal of reducing irrigation and use of toxic substances, and requires proper plant selection for the specific site.

Sustainable landscaping is not only important because it saves money, it also limits the human impact on the surrounding ecosystem. However, planting species not native to the landscape may introduce invasive plant species as well as new wildlife that was not in the ecosystem before. Altering the ecosystem is a major problem and meeting with an expert with experience with the wildlife and agriculture in the area will help avoid this. [26]

Irrigation

Mulch may be used to reduce water loss due to evaporation, reduce weeds, minimize erosion, dust and mud problems. Mulch can also add nutrients to the soil when it decomposes. However, mulch is most often used for weed suppression. Overuse of mulch can result in harm to the selected plantings. Care must be taken in the source of the mulch, for instance, black walnut trees result in a toxic mulch product. Grasscycling turf areas (using mulching mowers that leave grass clippings on the lawn) will also decrease the amount of fertilizer needed, reduce landfill waste and reduce costs of disposal. [27]

A common recommendation is to add 2-4 inches of mulch in flower beds and under trees away from the trunk. Mulch should be applied under trees to the dripline (extension of the branches) in lieu of flowers, hostas, turf or other plants that are often planted there. This practice of planting under trees is detrimental to tree roots, especially when such plants are irrigated to an excessive level that harms the tree. One must be careful not to apply mulch to the bark of the tree. It can result in smothering, mould and insect depredation.

The practice of xeriscaping or water-wise gardening suggests that placing plants with similar water demands together will save time and low-water or drought-tolerant plants would be a smart initial consideration.

A homeowner may consider consulting an accredited irrigation technician/auditor and obtain a water audit of current systems. Drip or sub-surface irrigation may be useful. Using evapotranspiration controllers, soil sensors and refined control panels will reduce water loss. Irrigation heads may need readjustment to avoid sprinkling on sidewalks or streets. Business owners may consider developing watering schedules based on historical or actual weather data and soil probes to monitor soil moisture prior to watering. [2]

An example of sustainable irrigation (Drip Irrigation) Tuyau d'irrigation par Urine - Irrigation pipe for Urine (9947974506).jpg
An example of sustainable irrigation (Drip Irrigation)

Building materials

When deciding what kind of building materials to put on a site it is important to recycle as often as possible, such as for example by reusing old bricks.

It is also important to be careful about what materials you use, especially if you plan to grow food crops. Old telephone poles and railroad ties have usually been treated with a toxic substance called creosote that can leach into the soils.

Sustainably harvested lumber is available, in which ecological, economic and social factors are integrated into the management of trees used for lumber. [28]

Planting selection

One important part of sustainable landscaping is plant selection. Most of what makes a landscape unsustainable is the amount of inputs required to grow a non-native plant on it. What this means is that a local plant, which has adapted to local climate conditions will require less work to flourish. Instead, drought-tolerant plants like succulents and cacti are better suited to survive.

Plants used as windbreaks can save up to 30% on heating costs in winter. They also help with shading a residence or commercial building in summer, create cool air through evapotranspiration and can cool hardscape areas such as driveways and sidewalks. [29]

Irrigation is an excellent end-use option in greywater recycling and rainwater harvesting systems, and a composting toilet can cover (at least) some of the nutrient requirements. [30] Not all fruit trees are suitable for greywater irrigation, as reclaimed greywater is typically of high pH and acidophile plants don't do well in alkaline environments.

Energy conservation may be achieved by placing broadleaf deciduous trees near the east, west and optionally north-facing walls of the house. Such selection provides shading in the summer while permitting large amounts of heat-carrying solar radiation to strike the house in the winter. The trees are to be placed as closely as possible to the house walls. As the efficiency of photovoltaic panels and passive solar heating is sensitive to shading, experts suggest the complete absence of trees near the south side.

Another choice would be that of a dense vegetative fence composed of evergreens (e.g. conifers) near that side from which cold continental winds blow and also that side from which the prevailing winds blow. Such a choice creates a winter windbreak that prevents low temperatures outside the house and reduces air infiltration towards the inside. Calculations show that placing the windbreak at a distance twice the height of the trees can reduce the wind velocity by 75%. [31]

The above vegetative arrangements come with two disadvantages. Firstly, they minimize air circulation in summer although in many climates heating is more important and costly than cooling, and, secondly, they may affect the efficiency of photovoltaic panels. However, it has been estimated that if both arrangements are applied properly, they can reduce the overall house energy usage by up to 22%. [31]

Sustainable lawns

An example of a sustainable lawn Cactus Garden 2-22-14e (12935576743).jpg
An example of a sustainable lawn

Lawns are often used as the center point of a landscape. While there are many different species of grass, only a limited amount are considered sustainable. Knowing the climate around the landscape is ideal for saving water and being sustainable. For example, in southern California having a grass lawn of tall fescue will typically need upwards of 1,365 cubic metres (360,500 US gal) of water. A lawn in the same place made up of mixed beds with various trees, shrubs, and ground cover will normally need 202 cubic metres (53,300 US gal) of water. [32] Having gravel, wood chips or bark, mulch, rubber mulch, artificial grass, patio, wood or composite deck, rock garden, or a succulent garden are all considered sustainable landscape techniques. Other species of plants other than grass that can take up a lawn are lantana, clover, creeping ivy, creeping thyme, oregano, rosemary hedges, silver pony foot, moneywort, chamomile, yarrow, creeping lily turf, ice plant, and stonecrop.[ citation needed ]

Maintenance

Pests

It is best to start with pest-free plant materials and supplies and close inspection of the plant upon purchase is recommended. Establishing diversity within the area of plant species will encourage populations of beneficial organisms (e.g. birds, insects), which feed on potential plant pests. Attracting a wide variety of organisms with a variety of host plants has shown to be effective in increasing pollinator presence in agriculture. [33] Because plant pests vary from plant to plant, assessing the problem correctly is half the battle. The owner must consider whether the plant can tolerate the damage caused by the pest. If not, then does the plant justify some sort of treatment? Physical barriers may help. [2] Landscape managers should make use of Integrated Pest Management to reduce the use of pesticides and herbicides.

Pruning

Proper pruning will increase air circulation and may decrease the likelihood of plant diseases. However, improper pruning is detrimental to shrubs and trees. [2]

Programs

There are several programs in place that are open to participation by various groups. For example, the Audubon Cooperative Sanctuary Program for golf courses, [34] the Audubon Green Neighborhoods Program, [35] and the National Wildlife Federation’s Backyard Habitat Program, [36] to name a few.

The Sustainable Sites Initiative, began in 2005, provides a points-based certification for landscapes, similar to the LEED program for buildings operated by the Green Building Council. It has guidelines and performance benchmarks. [37]

See also

Related Research Articles

Energy-efficient landscaping is a type of landscaping designed for the purpose of conserving energy. There is a distinction between the embedded energy of materials and constructing the landscape, and the energy consumed by the maintenance and operations of a landscape.

<span class="mw-page-title-main">Permaculture</span> Approach to agriculture and land management

Permaculture is an approach to land management and settlement design that adopts arrangements observed in flourishing natural ecosystems. It includes a set of design principles derived using whole-systems thinking. It applies these principles in fields such as regenerative agriculture, town planning, rewilding, and community resilience. The term was coined in 1978 by Bill Mollison and David Holmgren, who formulated the concept in opposition to modern industrialized methods, instead adopting a more traditional or "natural" approach to agriculture.

The following outline is provided as an overview of and topical guide to sustainable agriculture:

<span class="mw-page-title-main">Greywater</span> Type of wastewater generated in households without toilet wastewater

Greywater refers to domestic wastewater generated in households or office buildings from streams without fecal contamination, i.e., all streams except for the wastewater from toilets. Sources of greywater include sinks, showers, baths, washing machines or dishwashers. As greywater contains fewer pathogens than blackwater, it is generally safer to handle and easier to treat and reuse onsite for toilet flushing, landscape or crop irrigation, and other non-potable uses. Greywater may still have some pathogen content from laundering soiled clothing or cleaning the anal area in the shower or bath.

Sustainable living describes a lifestyle that attempts to reduce the use of Earth's natural resources by an individual or society. Its practitioners often attempt to reduce their ecological footprint by altering their home designs and methods of transportation, energy consumption and diet. Its proponents aim to conduct their lives in ways that are consistent with sustainability, naturally balanced, and respectful of humanity's symbiotic relationship with the Earth's natural ecology. The practice and general philosophy of ecological living closely follows the overall principles of sustainable development.

<span class="mw-page-title-main">Outline of organic gardening and farming</span> Overview of and topical guide to organic gardening and farming

The following outline is provided as an overview of and topical guide to organic gardening and farming:

<span class="mw-page-title-main">Arboriculture</span> Management and study of trees and other woody plants

Arboriculture is the cultivation, management, and study of individual trees, shrubs, vines, and other perennial woody plants. The science of arboriculture studies how these plants grow and respond to cultural practices and to their environment. The practice of arboriculture includes cultural techniques such as selection, planting, training, fertilization, pest and pathogen control, pruning, shaping, and removal.

<span class="mw-page-title-main">Mulch</span> Layer of material applied to the surface of soil

A mulch is a layer of material applied to the surface of soil. Reasons for applying mulch include conservation of soil moisture, improving fertility and health of the soil, reducing weed growth, and enhancing the visual appeal of the area.

<span class="mw-page-title-main">Water conservation</span> Policies for sustainable development of water use

Water conservation includes all the policies, strategies and activities to sustainably manage the natural resource of fresh water, to protect the hydrosphere, and to meet the current and future human demand. Population, household size and growth and affluence all affect how much water is used.

<span class="mw-page-title-main">Organic horticulture</span> Organic cultivation of fruit, vegetables, flowers or ornamental plants

Organic horticulture is the science and art of growing fruits, vegetables, flowers, or ornamental plants by following the essential principles of organic agriculture in soil building and conservation, pest management, and heirloom variety preservation.

<span class="mw-page-title-main">Soil conservation</span> Preservation of soil nutrients

Soil conservation is the prevention of loss of the topmost layer of the soil from erosion or prevention of reduced fertility caused by over usage, acidification, salinization or other chemical soil contamination.

This is an alphabetical index of articles related to gardening.

An outdoor water-use restriction is a ban or other lesser restrictions put into effect that restricts the outdoor use of water supplies. Often called a watering ban or hosepipe ban, it can affect:

<span class="mw-page-title-main">Natural landscaping</span>

Natural landscaping, also called native gardening, is the use of native plants including trees, shrubs, groundcover, and grasses which are local to the geographic area of the garden.

<span class="mw-page-title-main">Xeriscaping</span> Water conserving landscaping method

Xeriscaping is the process of landscaping, or gardening, that reduces or eliminates the need for irrigation. It is promoted in regions that do not have accessible, plentiful, or reliable supplies of fresh water and has gained acceptance in other regions as access to irrigation water has become limited, though it is not limited to such climates. Xeriscaping may be an alternative to various types of traditional gardening.

<span class="mw-page-title-main">Sustainable gardening</span>

Sustainable gardening includes the more specific sustainable landscapes, sustainable landscape design, sustainable landscaping, sustainable landscape architecture, resulting in sustainable sites. It comprises a disparate group of horticultural interests that can share the aims and objectives associated with the international post-1980s sustainable development and sustainability programs developed to address that humans are now using natural biophysical resources faster than they can be replenished by nature.

The natural environment, commonly referred to simply as the environment, includes all living and non-living things occurring naturally on Earth.

The environmental impact of agriculture is the effect that different farming practices have on the ecosystems around them, and how those effects can be traced back to those practices. The environmental impact of agriculture varies widely based on practices employed by farmers and by the scale of practice. Farming communities that try to reduce environmental impacts through modifying their practices will adopt sustainable agriculture practices. The negative impact of agriculture is an old issue that remains a concern even as experts design innovative means to reduce destruction and enhance eco-efficiency. Though some pastoralism is environmentally positive, modern animal agriculture practices tend to be more environmentally destructive than agricultural practices focused on fruits, vegetables and other biomass. The emissions of ammonia from cattle waste continue to raise concerns over environmental pollution.

<span class="mw-page-title-main">Foodscaping</span> Ornamental landscaping with edible plants

Foodscaping is a modern term for the practice of integrating edible plants into ornamental landscapes. It is also referred to as edible landscaping and has been described as a crossbreed between landscaping and farming. As an ideology, foodscaping aims to show that edible plants are not only consumable but can also be appreciated for their aesthetic qualities. Foodscaping spaces are seen as multi-functional landscapes which are visually attractive and also provide edible returns. Foodscaping is a great way to provide fresh food in an affordable way.

<span class="mw-page-title-main">Climate-friendly gardening</span> Low greenhouse gases gardening

Climate-friendly gardening is a form of gardening that can reduce emissions of greenhouse gases from gardens and encourage the absorption of carbon dioxide by soils and plants in order to aid the reduction of global warming. To be a climate-friendly gardener means considering both what happens in a garden and the materials brought into it and the impact they have on land use and climate. It can also include garden features or activities in the garden that help to reduce greenhouse gas emissions elsewhere.

References

  1. Loehrlein, Marietta (26 September 2013). Sustainable Landscaping: Principles and Practices. CRC Press. ISBN   9781466593206. Editor note: info in Wikipedia taken in November 2009 from her now defunct personal website and a class she gave on her former university webspace
  2. 1 2 3 4 5 Colorado State University Extension. http://www.ext.colostate.edu/Pubs/Garden/07243.html. Viewed 11-15-09.
  3. Buiten, Tim (19 October 2020). "Commercial Landscape Management: How to Maximize Your ROI". Tim's Complete. Retrieved 28 October 2020.
  4. "Sustainable Landscapes and its Benefits – Debating Science" . Retrieved 2019-11-21.
  5. Rowe, B., J. Andersen, J. Lloyd, T. Mrozowski and K. Getter. The green roof research at Michigan State University. http://hrt.msu.edu/greenroof/ Viewed 7/30/2007.
  6. Robinette, G. O. and K. W. Sloan. 1984. Water conservation in landscape design and management. Van Nostrand Reinhold Co. NY. 258pp.
  7. PennState Center for Green Roof Research. http://web.me.com/rdberghage/Centerforgreenroof/Home.html. Viewed 9/23/09.
  8. Carver, S. 2008. Water-wise landscaping can improve conservation efforts. Landscape Mgmt. May/June Suppl Livescapes. P. 8.
  9. Eberle, W. M. and J. G. Thomas. 1981. Some water-saving ways. Kansas State Ext. 4pp.
  10. Krizner, K. 2008. Smart water solutions. Landscape Management May/June. p. 31-2
  11. White, J.D. 2008. When the well runs dry: managing water before it becomes a crisis. GrowerTalks. Aug. pp. 42-43.
  12. Campbell, C. S. and M. H. Ogden. Constructed wetlands in the sustainable landscape. 1999. Wiley & Sons. NY. 270pp.
  13. Melby, P. and T. Cathcart 2002. Regenerative design techniques : practical applications in landscape design. Wiley. New York. 410 p.
  14. Harker, D., G. Libby. Harker, K. Evans, S. Evans, M. 1999. Landscape Restoration Handbook, 2nd ed. Lewis Publishers. Boca Raton. 865pp.
  15. Fizzell, J. A. 1983. Landscape designers must put energy conservation in their plans. Amer. Nurseryman. 157:65-71.
  16. Pitt, D. G. J. Kissida and W. Gould. 1980. How to design a windbreak residential landscaping. Amer. Nurseryman. Vol. 152(10): 10-11.
  17. Interlocking Concrete Pavement Institute. Permeable interlocking concrete pavement: a comparison guide to porous asphalt and pervious concrete. http://www.icpi.org/myproject/PICP%20Comparison%20Brochure.pdf. Viewed June 2008.
  18. Kerkhoff, K. L. 2006. How to capitalize and reduce stormwater runoff in your landscapes. Grounds Maint. P. 70.
  19. Thompson,W. J., K. Sorvig and Farnsworth, C. D. 2000. "Sustainable Landscape Construction". Island Pr. Washington, D.C. 348p.
  20. EPA. 1998. Landscaping products containing recovered materials. USEPA Solid Waste and Emergency Response. 8pp.
  21. Bramwell, J. 2006. Power with a conscience. Amer. Nurseryman. 203(3):33-37.
  22. "Lawn Reform Coalition".
  23. "5 Water-Saving Ways to Replace Lawns During California's Drought". 2015-05-21. Archived from the original on May 24, 2015.
  24. "Outgrowing the Traditional Grass Lawn".
  25. "Meadows and Prairies: Wildlife-Friendly Alternatives to Lawn".
  26. "Benefits Of Sustainable Landscaping". elite-horticulture. Retrieved 2019-11-19.
  27. California Integrated Waste Management Board. http://www.ciwmb.ca.gov/Organics/landscaping/
  28. http://www.bearcreeklumber.com/products/intextboth/sustainable.html. Viewed 12-07-09.
  29. Farmstead Windbreaks: Planning. http://www.extension.iastate.edu/Publications/PM1716.pdf. Retrieved 12-12-09.
  30. Ghaly, Abdelkader (July 2021). "Greywater Sources, Characteristics, Utilization and Management Guidelines: a review". Research Article.
  31. 1 2 "Green from the ground up" by D. Johnston and S. Gibson
  32. Pittenger M.S, Dennis (2014). "KEEPING LANDSCAPES GREEN WITH LESS GREEN" (PDF).{{cite journal}}: Cite journal requires |journal= (help)
  33. Cole, Lorna J.; Brocklehurst, Sarah; Robertson, Duncan; Harrison, William; McCracken, David I. (December 2015). "Riparian buffer strips: Their role in the conservation of insect pollinators in intensive grassland systems". Agriculture, Ecosystems & Environment. 211: 207–220. doi:10.1016/j.agee.2015.06.012. ISSN   0167-8809.
  34. http://Audubon International. acspgolf.auduboninternational.org/. Viewed 9/23/09.
  35. Green Neighborhoods http://gn.auduboninternational.org/. Viewed 9/23/09
  36. Garden for Wildlife. http://www.nwf.org/gardenforwildlife/certify.cfm?campaignid=WH09KLBR. Viewed 9/23/09.
  37. The Sustainable Sites Initiative. http://www.sustainablesites.org/report/SSI_Guidelines_Draft_2008.pdf. Viewed 9/23/09.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.