B43H-0634
Phenoseasonal variability of subcanopy PAR and the effects of photointensity and photoperiod on the physiological ecology of Lindera benzoin

Thursday, 17 December 2015
Poster Hall (Moscone South)
Janice Elaine Hudson1, Delphis F Levia Jr1, Sean Hudson2, Harsh Bais1 and David R Legates2, (1)University of Delaware, Newark, DE, United States, (2)University of Delaware, Geography, Newark, DE, United States
Abstract:
This work represents a novel approach to measuring photosynthetic photon flux density (PPFD), and spatiotemporal light dynamics, by utilizing an instrument capable of providing a 15-second spatially-integrated one meter linear average of the PPFD, obtaining measurements at multiple locations and elevations in the subcanopy over a full year for all cloud conditions. Nearly 4,600 individual observations of photosynthetically active radiation (PAR, 400-700 nm) were made over the seven phenoseasons of a deciduous forest in the Piedmont Region, Maryland. Additionally, to quantify of the effect of various photointensities on the physiological ecology of Lindera benzoin L. Blume (northern spicebush) grown in the lab, health was determined by monitoring physical growth and biomass, and by UV-vis spectrophotometry analysis of leaf extract. Results show understory PAR is typically less than 40% of open PAR. Leafless subcanopy PAR values were almost 10 times higher than leafed season PAR, and sunflecks often three orders of magnitude higher than mean subcanopy PAR during the leafed season. Phenoseason is responsible for nearly three-quarters of the variation between plant canopy levels. Spicebush growth occurred at study locations receiving higher incidence of PAR (> 64th percentile). UV-vis spectrophotometry analysis showed significant differences in root to shoot ratios, biomass, initial stomatal conductance, chlorophyll a and b, and carotenoids. Spicebush under lab conditions significantly alter their biomass and individual pigments and pigment ratios in response to high intensity light conditions. Results suggest temporal light sequences in the field may be a very important factor in the functional ecology of northern spicebush.