AI Article Synopsis
- Poison ivy, a major cause of dermatitis in the U.S., contains urushiol, which affects about 80% of humans exposed to it.
- A study at Duke University found that increased atmospheric CO2 enhances the growth and biomass of poison ivy more than many other woody plants.
- Elevated CO2 not only boosts poison ivy's abundance but also leads to a more allergenic form of urushiol, posing risks to both forest health and human safety in the future.
Article Abstract
Contact with poison ivy (Toxicodendron radicans) is one of the most widely reported ailments at poison centers in the United States, and this plant has been introduced throughout the world, where it occurs with other allergenic members of the cashew family (Anacardiaceae). Approximately 80% of humans develop dermatitis upon exposure to the carbon-based active compound, urushiol. It is not known how poison ivy might respond to increasing concentrations of atmospheric carbon dioxide (CO(2)), but previous work done in controlled growth chambers shows that other vines exhibit large growth enhancement from elevated CO(2). Rising CO(2) is potentially responsible for the increased vine abundance that is inhibiting forest regeneration and increasing tree mortality around the world. In this 6-year study at the Duke University Free-Air CO(2) Enrichment experiment, we show that elevated atmospheric CO(2) in an intact forest ecosystem increases photosynthesis, water use efficiency, growth, and population biomass of poison ivy. The CO(2) growth stimulation exceeds that of most other woody species. Furthermore, high-CO(2) plants produce a more allergenic form of urushiol. Our results indicate that Toxicodendron taxa will become more abundant and more "toxic" in the future, potentially affecting global forest dynamics and human health.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1474014 | PMC |
| http://dx.doi.org/10.1073/pnas.0602392103 | DOI Listing |
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