Growth and photosynthetic responses of field‐grown sweetgum ( Liquidambar styraciflua ; Hamamelidaceae) seedlings to UV‐B radiation

Very few studies have evaluated the effects of UV‐B radiation on trees. especially deciduous species. In this study we evaluate the effects of supplemental UV‐B radiation on the growth and photosynthetic capacity of sweetgum ( Liquidambar styraciflua L.). Sweetgum seedlings were grown for 2 years in the field under either ambient or supplemental UV‐B radiation. Artificial UV‐B radiation was supplied by fluorescent lamps at a maximum daily supplementation of either 3.1 or 5.0 kJ of biologically effective UV‐B radiation. Over the 2‐year period, supplemental UV‐B radiation had little effect on total plant biomass or photosynthetic capacity. However, subtle changes in leaf physiology, carbon allocation, and growth were observed. Supplemental UV‐B radiation reduced photosynthetic capacity only during the first year, while leaf area and biomass were reduced in the second year. Alterations in carbon allocation included an increase in branch number and root to shoot ratio. While these data do not indicate that the productivity of sweetgum would likely be compromised by an increase in solar UV‐B radiation, they do suggest that the UV‐B portion of the solar spectrum contributes to the regulation of sweetgum growth and development. Therefore the possibility of significant consequences to sweetgum due to possible increases in UV‐B radiation cannot be ruled out.