With the aim to identify cultivars characterized by high drought and temperature resistance and high water use efficiency a study was carried out on 1 accession (Jana) and 4 Sardinian ecotypes of Dactylis glomerata L. (Bolotana, Bonorva, Bonnanaro, Platamona). To evaluate the adaptative responses of different D. glomerata ecotypes, two trails were carried out in order to evaluate drought resistance under rain out shelter and controlled water supply, and to evaluate high temperature resistance in a greenhouse where high summer temperature (daily T Max > 50 °C) were monitored. On December 2010 seeds were sown into plateaux; at the beginning of March the plants were transplanted at the 5th leaf stage in 45 litres pots, utilized in the drought resistance trail, and in a container (25 x 0.8 m), utilized in the high temperature resistance trial. In drought resistance trail, two water regimes were applied: 1) Control, soil humidity was kept at the field capacity, 2) W1, pots water losses were reintegrated at 80%. Above ground plant biomass, net photosynthesis, transpiration rate, stomatal conductance, leaf Relative Water Content (RWC) were monitored throughout both trails.
Drought and high temperature resistance evaluation of Dactylis glomerata L.
Sulas L;
2012
Abstract
With the aim to identify cultivars characterized by high drought and temperature resistance and high water use efficiency a study was carried out on 1 accession (Jana) and 4 Sardinian ecotypes of Dactylis glomerata L. (Bolotana, Bonorva, Bonnanaro, Platamona). To evaluate the adaptative responses of different D. glomerata ecotypes, two trails were carried out in order to evaluate drought resistance under rain out shelter and controlled water supply, and to evaluate high temperature resistance in a greenhouse where high summer temperature (daily T Max > 50 °C) were monitored. On December 2010 seeds were sown into plateaux; at the beginning of March the plants were transplanted at the 5th leaf stage in 45 litres pots, utilized in the drought resistance trail, and in a container (25 x 0.8 m), utilized in the high temperature resistance trial. In drought resistance trail, two water regimes were applied: 1) Control, soil humidity was kept at the field capacity, 2) W1, pots water losses were reintegrated at 80%. Above ground plant biomass, net photosynthesis, transpiration rate, stomatal conductance, leaf Relative Water Content (RWC) were monitored throughout both trails.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.