Potting soil

Potting soil or growing media, also known as potting mix or potting compost (UK), is a substrate used to grow plants in containers. The first recorded use of the term is from an 1861 issue of the American Agriculturist.[1] Despite its name, little or no soil is usually used in potting soil.

A flowerpot filled with potting soil

Materials

Materials used for growing mediums include: peat, coconut coir, wood products like bark and wood fiber, perlite, stone wool, soils/tufts, and recycled paper and cardboard.[2] Other materials used include rice hulls, sand, vermiculite, and calcined clays.[3]

Properties

Typical potting mixes include one or more materials which retain moisture, one or more materials which aid in aeration and drainage, and fertilizer. Moisture-retaining materials and aerating materials can be combined in any ratio, depending on the particular needs of the plant. Soils are minimally used as growing media because they compact and lose pore space after repeated watering and can be too heavy for growing potted plants.[4] Mediums used for growing plants in pots typically are a mix of organic and inorganic ingredients.[5]

Good growing mediums have a number of properties including moisture and nutrient retention capacity, quick water infiltration, pore space for aeration (plants roots need oxygen), drainage for excess water, decompose slowly, and provide support for the plants growing in them.[5] They also have an optimal range of pH, cation exchange properties, and lack substance that are toxic to plants [5] These are also dependent on the type of plant grown since there is wide variation in moisture and nutrient needs among different plants.

Moisture retention

This part is usually made up of peat (usually with limestone to reduce acidity)[6] or coconut coir. It serves to absorb water and nutrients. Tree bark, mainly of pine, may also be used.

The use of peat is controversial since the harvesting of peat moss from peatlands (which includes unique habitats such as bogs and fens) degrades these peatlands. Peatlands are home to a diverse range of plant and animal species. Peat also has a very slow accumulation rate, as little as 1mm per year, so they take a long time to regenerate. Peatlands are also carbon sinks, constituting 3% of the world's surface but storing up to 30% of the carbon sequestered in the soil.[7] The removal of the layer of CO2 absorbing plants releases CO2 into the atmosphere, contributing to climate change.[8][9]

As such, alternatives such as coconut coir are promoted by some organisations.[10][11]

Drainage

Sand and grit may be used for drainage and aeration. Perlite and vermiculite improve both aeration and water retention.

Nutrients and chemistry

All plants need essential plant nutrients to grow, so it is important to make sure there is a sufficient amount in the potting soil.[12] Some nutrients may be already present in the bulking ingredients.[13] Peat contains 1% nitrogen that is almost never released. Limestone (for raising pH) contains mostly calcium (calcite), but can also contain magnesium (dolomitic). The latter is preferred as it supplies both elements. A typical proportion of limestone to peat is 8.5 pounds per cubic yard (5.0 kg/m3).[13] Coir contains a high amount of electrolytes (salts). In fact, untreated coir contains too much sodium and potassium for plant growth, so it is washed and then buffered (partially replacing salts with other minerals, usually calcium and magnesium) to produce the growth medium. Vermiculite contains some calcium and magnesium, but more importantly it helps retain water and nutrients in the porous structure.

Nutrients not supplied by the bulk will need to be supplied by the fertilizer. In conventional mixes they may be slow-release formulae of synthetic fertilizers, while organic mixes will use organic source such as compost (e.g. leaf mold, bark compost or recycled mushroom compost). Overuse of fertilizers will, as with in normal soils, risk damaging the plant.[13] For compost, the maximum recommended amount is 1 part compost to 1 part bulking material.[14]

A soil test may be done to analyze the chemistry of a potting mix, despite the mix not necessarily being made of soil. As an approximation for indoor home planting, the mix is generally treated as greenhouse growth medium. The main method is a saturated media extract (SME), which tests the chemical contents of a water extract of the mix.[13][15]

Reference levels for potting mix by the SME method[13][lower-alpha 1]
AnalysisAcceptable, minOptimum, minOptimum, maxAcceptable, max
Soluble salt, mS/cm[lower-alpha 2] 0.752.03.55.0
Nitrate-N, ppm[lower-alpha 3] 40100200299
Phosphorus, ppm 36918
Calcium, ppm 80200
Magnesium, ppm 3070

Different mixes for different uses

The growth medium should be adapted to each plant's (and growth stage's) preference for aeration, drainage, nutrition, and pH.[14]

For seed starting, a "germination mix" is typically light-weight and suitable for starting small-seeded plants. A "seed starting" mix is suitable for larger seeded crops.[17] Following early growth, most plants prefer a potting mix that is more well-draining.

Cacti and succulents require sharp drainage, thus requiring a much larger percentage of perlite or sand.[18] Carnivorous plants, such as the Venus flytrap and the pitcher plant, prefer the nutrient-poor, acidic soils common to bogs and fens,[19] while water-based plants thrive in a heavier topsoil mix.[20]

Sterilization

Commercially available potting soil is sterilized, in order to avoid the spread of weeds and plant-borne diseases.[21]

As with garden soil, potting soil can attract insects. For example, the fungus gnat is often found around houseplants because it lays eggs in moist potting soil.[22]

Infections of Legionnaires' disease due to potting mix have been reported in Australia,[23] New Zealand,[24] the Netherlands,[25] the United States,[26] and Japan.[27]

See also

References

  1. UVM data from the 1980s. An extended and updated (~1995) version of this table may be found from UConn.[16] Significant variation in reference ranges is possible due to procedural differences, so it is recommended to use the test provider's values.
  2. May be also written mmhos/cm using the "mho" synonym of S (siemens).
  3. Generally written mg/L in newer sources.
  1. Oxford English Dictionary
  2. Jackson, Brian (November 2022). "Current and Future State of the Growing Media Industry". Greenhouse Grower (November, 2022): 20–24.
  3. "Growing Media - Ornamental Production Ornamental Production". aggie-horticulture.tamu.edu. Retrieved 2022-11-11.
  4. Pleasant, Barbara. "The Complete Houseplant Survival Guide." Pages 314. Storey Publishing. ISBN 1-58017-569-4
  5. Arteca, Richard N. (2014-02-14). Introduction to Horticultural Science. Cengage Learning. ISBN 978-1-305-17780-2.
  6. Nissen, Dante. "The Indoor Plant Bible." Page 21. Barron’s. ISBN 0-7641-5769-8
  7. "Serious about climate change? Get serious about peat". Washington Post. 2021-11-10. Retrieved 2022-07-26.
  8. Gardeners urged to stop using peat-based compost
  9. Peat moss: Good for plants but bad for the planet?
  10. Peat alternatives in the garden
  11. Alternatives to peat
  12. Leichty, Corey. "Does Potting Soil Need Fertilizer?". Do Not Disturb Gardening.
  13. "pottingmix". www.uvm.edu.
  14. What is Potting Soil?
  15. "Methods of Greenhouse Media Testing and How They Differ". Center for Agriculture, Food, and the Environment. 6 March 2015.
  16. Dawn Pettinelli, Extension Educator and Dr. Richard McAvoy. "Interpretation of SME Results for Greenhouse Media" (PDF). Soil Nutrient Analysis Laboratory, University of Connecticut.
  17. "Guidelines for Starting Seeds Indoors, from Johnny's Research Team". www.johnnyseeds.com. Retrieved 2021-01-19.
  18. Burne, Geoffrey. "Encyclopedia of Container Gardening." Page 22. Fog City Press. ISBN 978-1-877019-43-2
  19. "Dirty Buttons - Arts and Culture - Philly Weekly". philadelphiaweekly.com. Archived from the original on 2012-09-07.
  20. "Creating a water garden in a tub". The Christian Science Monitor.
  21. Carol Cloud Bailey. "Carol Cloud Bailey: Heat potting soil to prepare it for replanting". TCP. Archived from the original on 2016-05-30. Retrieved 2016-05-30.
  22. "How to minimize dents in carpet from furniture". azcentral.com.
  23. Speers DJ, Tribe AE (October 1994). "Legionella longbeachae pneumonia associated with potting mix". Med. J. Aust. 161 (8): 509. doi:10.5694/j.1326-5377.1994.tb127576.x. PMID 7935133. S2CID 28552691.
  24. Kingston M, Padwell A (March 1994). "Fatal legionellosis from gardening". N. Z. Med. J. 107 (974): 111. PMID 8127508.
  25. den Boer, JW; Yzerman, EP; Jansen, R; Bruin, JP; Verhoef, LP; Neve, G; van der Zwaluw, K (January 2007). "Legionnaires' disease and gardening". Clin. Microbiol. Infect. 13 (1): 88–91. doi:10.1111/j.1469-0691.2006.01562.x. PMID 17184293.
  26. "Legionnaires' disease associated with potting soil--California, Oregon, and Washington, May-June 2000". Can. Commun. Dis. Rep. 26 (22): 189–92. November 2000. PMID 11131692.
  27. "Legionnaires' Disease Associated with Potting Soil --- California, Oregon, and Washington, May--June 2000". Centers for Disease Control and Prevention.
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