Abstract Detail

Nº613/1622 - Amphistomy increases leaf photosynthesis more in coastal than montane plants of Hawaiian ‘ilima (Sida fallax)
Format: ORAL
Authors
Genevieve Triplett1, Thomas N. Buckley2, Christopher D. Muir1,3
Affiliations
1 School of Life Sciences, University of Hawai‘i Manoa, Honolulu, HI, USA 2 Department of Plant Sciences, University of California, Davis, CA, USA 3 Department of Botany, University of Wisconsin, Madison, WI, USA
Abstract
The adaptive significance of stomata on both upper and lower leaf surfaces, called amphistomy, is unresolved. A widespread association between amphistomy and open, sunny habitats suggests the adaptive benefit of amphistomy may be greatest in these contexts, but this hypothesis has not been tested experimentally. Understanding why amphistomy evolves can inform its potential as a target for crop improvement and paleoenvironment reconstruction. We developed a new method to quantify amphistomy advantage, AA, as the log-ratio of photosynthesis in an amphistomatous leaf to that of the same leaf but with gas exchange blocked through the upper (adaxial) surface, which we term pseudohypostomy. We used humidity to modulate stomatal conductance and thus compare photosynthetic rates at the same total stomatal conductance. We estimated AA and related physiological and anatomical traits in 12 populations, six coastal (open, sunny) and six montane (closed, shaded), of the indigenous Hawaiian species ?ilima (Sida fallax). Coastal ?ilima leaves benefit 4.04 times more from amphistomy compared to their montane counterparts. Our evidence was equivocal with respect to two hypotheses that coastal leaves benefit more because 1) they are thicker and therefore have lower CO2 conductance through the internal airspace, and 2) that they benefit more because they have similar conductance on each surface, as opposed to most of the conductance being on the lower (abaxial) surface. This is the first direct experimental evidence that amphistomy per se increases photosynthesis, consistent with the hypothesis that parallel pathways through upper and lower mesophyll increase the supply of CO2 to chloroplasts. The prevalence of amphistomatous leaves in open, sunny habitats can partially be explained the increased benefit of amphistomy in sun leaves, but the mechanistic basis of this observation is an area for future research.