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Effects of long-term ambient ozone exposure on biomass and wood traits in poplar treated with ethylenediurea (EDU)

This is the longest continuous experiment where ethylenediurea (EDU) was used to protect plants from ozone (O3). Effects of long-term ambient O3 exposure (23 ppm h AOT40) on biomass of an O3 sensitive poplar clone (Oxford) were examined after six years from in-ground planting. Trees were irrigated with either water or 450 ppm EDU. Above (-51%) and below-ground biomass (-47%) was reduced by O3 although the effect was significant only for stem and coarse roots. Ambient O3 decreased diameter of the lower stem, and increased moisture content along the stem of not-protected plants (+16%). No other change in the physical wood structure was observed. A comparison with a previous assessment in the same experiment suggested that O3 effects on biomass partitioning to above-ground organs depend on the tree ontogenetic stage. The root/shoot ratios did not change, suggesting that previous short-term observations of reduced allocation to tree roots may be overestimated.
- University of Massachusetts System United States
- University of Massachusetts Amherst United States
- University of Massachusetts System United States
- Trees and Timber Institute Italy
- National Research Council Italy
Air Pollutants, Plant Stems, Phenylurea Compounds, Water, Plant Roots, Wood, Ozone, Populus, Biomass, Allocation; Biomass; Ethylenediurea; Ground-level ozone; Poplar; Root-to-shoot ratio; Stem shape; Wood traits
Air Pollutants, Plant Stems, Phenylurea Compounds, Water, Plant Roots, Wood, Ozone, Populus, Biomass, Allocation; Biomass; Ethylenediurea; Ground-level ozone; Poplar; Root-to-shoot ratio; Stem shape; Wood traits
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