Can pressure treated lumber be used for your raised garden beds?

Viance treated wood with Preserve CA for garden beds

While there is scientific consensus that treated wood can be used for garden and vegetable beds, the information below explains what chemicals are used in Viance ground contact treated wood for residential use and the results of numerous scientific studies.

The American Wood Protection Association (AWPA) specifies the use of treated lumber for horticultural purposes to be Ground Contact. In the AWPA Book of Standards, copper azole (CA) is a listed preservative for Ground Contact use in residential applications. CA is widely available under the brand name Preserve® from 84 Lumber and independent lumber dealers across North America.

CA preservatives contain copper, the primary fungicide and termiticide in Viance’s ground contact product. The fungicide prevents soil fungus from attacking the lumber and works to deter insects, including termites. Copper is also a common fungicide for food crops used by consumers for growing vegetables and is a disinfectant in swimming pool chemicals.

Of interest to the home gardener is whether any of the preservative components in treated wood used to construct a raised bed garden could render the food crop unsafe for consumption. The available evidence suggests no. 

New Research Study in Process – April 17, 2023, Update

Dr. Gerald Presley, Assistant Professor at Oregon State University, began a small-scale study in 2020 on metal leaching in treated wood garden boxes. After two growing seasons, eleven types of garden vegetables have been analyzed for copper content. These include arugula, basil, beets, carrots, kale, lettuce, parsnips, peas, radishes, tomatoes, and turnips. None of the vegetables grown in beds made with copper azole treated wood showed elevated copper levels compared to vegetables grown in beds constructed with untreated wood.

New Research Study in Process - February 24, 2022 Update

Dr. Gerald Presley, Assistant Professor at Oregon State University, began a small-scale study in 2020 on metal leaching in treated wood garden boxes. After one year, the data shows no difference in copper (Cu) content in vegetable matter harvested from treated or untreated boxes. Dr. Presley will plant each year, rotating crops, and monitor metals over a 4 to 5-year time period. The goal is to annually sample soil and crops to build a large, long-term dataset on many vegetables over the life of a garden box. Dr. Presley explains, “We still have a few more samples to process from year 1, but from what we see now there does not appear to be any measurable impact of treated wood garden boxes on metal levels in vegetables”. Annual Data from this study will be presented at the American Wood Protection Association meeting and published in the proceedings. Data will also be available to members of the Environmental Performance of Treated Wood Research Cooperative in annual reports.

Prior Research

John Harrison, President of JRH Toxicology, a consulting firm specializing in scientific advice to the industry and government, writes in 2017 that CA and ACQ have been carefully evaluated for safety and registered by the Health Canada Pest Management Regulatory Agency (PMRA) for use in residential construction applications. He stated in a bulletin titled, Treated Wood in Raised Bed Gardening, “Scientific evidence and data have shown that using pressure treated wood for raised bed or box gardening is safe to adults and children in terms of the plants grown and used in these containers.” He further explains, “All chemicals in consumer products have a toxicity and most are very low, so they are not a problem, especially those regulated by the federal government. This is also the case with currently registered wood preservatives that contain copper. In fact, small amounts of copper are necessary for human and plant life and termed “an essential trace element”.

Dr. Scott Leavengood, Associate Professor College of Forestry at Oregon State University and Director of the Oregon Wood Innovation Center authored an article for the OSU Extension Service, titled “Raised bed lumber, pressure treated safe?” In this article, Leavengood gives his opinion that the consensus among researchers is that the low levels of chemicals in preservative treated wood that leach out of the wood into the soil are likely to be taken up by the plants only in very small amounts. There has been no evidence to suggest that the level of the chemicals is significant enough to be of concern for human health.

In a 2014 study, wood research scientists Love, Gardner and Morrell at Oregon State University found that in growing radishes, carrots and potatoes in a copper azole treated Douglas-fir planter, the copper levels were not higher in roots or tubers of radishes, carrots or potatoes compared to beds constructed from untreated wood. They also state that when people are concerned about the migration of wood preservatives, they can use polyethylene (plastic) to line the inside of the planter. Their scientific results indicate that although plastic lining is “not entirely necessary”, it can be used if there are safety concerns. The use of a plastic barrier will also extend the life of the preserved wood and help keep the raised bed garden soil within the bed area. For proper drainage, the plastic material should not be used underneath the raised bed garden.

Safe practices for working with treated wood recommend treated wood not be used where it may come into direct or indirect contact with drinking water or a component of food, animal feed or beehives. The USDA prohibits treated lumber for soil contact use in their certified National Organic Program published in 2011. The updated draft dated September 5, 2018 states that CA and ACQ are not currently allowed because they are not included on the National List of allowed synthetic materials (7 CFR part 205, page 425).

Viance recommends for those who have concerns to line the interior walls only with heavy plastic sheeting. There have been no justified claims that today’s treated lumber causes any negative effects from leaching into the soil.

Sources 

Dr. Gerald Presley, Assistant Professor Oregon State University...

https://scholar.google.com/cit...;

https://plantcaretoday.com/pre...

https://www.finegardening.com/...

https://extension.oregonstate....

Love, Connie & Gardner, Benjamin & J. Morrell, Jeffrey, (2014) Metal accumulation in root crops grown in planters constructed from copper azole treated lumber European Journal of Wood and Wood Products. 72. 10.1007/s00107-014-0789-5.

https://extension.psu.edu/envi...

https://hgic.clemson.edu/facts...

https://www.woodpreservation.c......

https://www.ams.usda.gov/sites...

https://www.ams.usda.gov/rules...

Download updated article here.