MARINANGELI Pablo Alejandro
congresos y reuniones científicas
Water-Use Efficiency and Growth Capacity of Two Amaryllidaceae Species under Three Different Water Regimes
VIDAL, P; MARINANGELI PABLO; MEDRANO, H; GULIAS, J
Simposio; VII International Symposium on New Floricultural Crops; 2011
Internationa Society for Horticultural Science
Rhodophiala bifida and Habranthus tubispathus are two Amaryllidaceae species native to Argentina showing a potential interest for using as garden plants. Both species show a different distribution, since H. tubispathus is usually found in more xeric habitats than R. bifida. The objective of the present work was to study the growth capacity and the water use efficiency at leaf and plant level of R. bifida and H. tubispathus under different water regimes. Bulbs of both species were grown in pots under greenhouse conditions during spring and subjected to three different water regimes: field capacity, 60% of field capacity and 40% of field capacity. During the first ten days, all plants were grown under well watered conditions. Thereafter, water stress treatments were applied for a period of six weeks. Variations in plant water use efficiency (WUEp), biomass production and gas exchange parameters, including water use efficiency at leaf level (both A/g, intrinsic water use efficiency, and A/E, instantaneous water use efficiency), were analyzed. Both species showed similar biomass production regardless the water regime. By contrast, Rhodophiala presented a higher WUEp than Habranthus and both species showed a higher WUEp under water stress (up to 4 g dry matter l-1 in Rhodophiala and up to 2.7 g dry matter l-1 in Habranthus) than under field capacity (1.6 g dry matter l-1 in Rhodophiala and 1.0 g dry matter l-1 in Habranthus). Similar results were observed when WUE at leaf level was analyzed. The correlation between WUEp and A/g was positive and significant when both species were considered. By contrast, this correlation was not significant for each single species, suggesting the difficulties to estimate WUEp from gas exchange measurements.