Low-temperature specific heat and thermal conductivity of glycerol

We have measured the thermal conductivity of glassy glycerol between 1.5 K and 100 K, as well as the specific heat of both glassy and crystalline phases of glycerol between 0.5 K and 25 K. We discuss both low-temperature properties of this typical molecular glass in terms of the soft-potential model. Our finding of an excellent agreement between its predictions and experimental data for these two independent measurements constitutes a robust proof of the capabilities of the soft-potential model to account for the low-temperature properties of glasses in a wide temperature range.Comment: 4 pages, 3 figures. To be published in Phys. Rev. B (2002

Acta Horticulturae

In citrus, the use of rootstocks promotes productivity, improves fruit quality and may confer resistance or tolerance to biotic and abiotic stress. ‘Rangpur’ lime (Citrus limonia, Osbeck) is one of the most tolerant rootstock to drought and is largely used by the Brazilian citrus industry. Previous studies have shown that, when grafted with a variety citrus doubled diploid (4x) ‘Rangpur’ lime rootstock is more tolerant to drought stress than the respective diploid (2x). In the present study, we characterized the water deficit tolerance in 2x and 4x ‘Rangpur’ lime seedlings. Water deficit was applied respectively for 21 days, followed by recovery irrigation. Physiological and biochemical parameters were measured periodically during the experiment and samples were collected for biochemical analysis. Doubled diploid seedlings were showed to be more water deficit tolerant than 2x. Water deficit caused a greater reduction in stomatal conductance in 2x compared to 4x. The 21st day of stress, leaf water potential in 2x was lower. Analyses of the activity of enzymes involved in detoxification process suggest that the better tolerance of 4x genotypes may be related to better scavenging of reactive oxygen species

PHYSIOLOGICAL RESPONSES OF DIPLOID AND DOUBLED DIPLOID 'RANGPUR' LIME UNDER WATER DEFICIT

In citrus, the use of rootstocks promotes productivity, improves fruit quality and may confer resistance or tolerance to biotic and abiotic stress. ‘Rangpur’ lime (Citrus limonia, Osbeck) is one of the most tolerant rootstock to drought and is largely used by the Brazilian citrus industry. Previous studies have shown that, when grafted with a variety citrus doubled diploid (4x) ‘Rangpur’ lime rootstock is more tolerant to drought stress than the respective diploid (2x). In the present study, we characterized the water deficit tolerance in 2x and 4x ‘Rangpur’ lime seedlings. Water deficit was applied respectively for 21 days, followed by recovery irrigation. Physiological and biochemical parameters were measured periodically during the experiment and samples were collected for biochemical analysis. Doubled diploid seedlings were showed to be more water deficit tolerant than 2x. Water deficit caused a greater reduction in stomatal conductance in 2x compared to 4x. The 21st day of stress, leaf water potential in 2x was lower. Analyses of the activity of enzymes involved in detoxification process suggest that the better tolerance of 4x genotypes may be related to better scavenging of reactive oxygen species

Slow dynamics about the glass transition as explored by muon spin relaxation spectroscopy

3 págs.; 2 figs. ; PACS number (s): 63.50.1x, 61.43.FsThe glass transition of a molecular glass former is monitored by means of measurements of the spin relaxation rates of implanted muons. The data measured under transverse fields upon heating the material from the glass phase are consistent with the onset of ergodicity-restoring motions some 22 K above the calorimetric glass transition. The results show that the technique can be fruitfully exploited to assess the presence of criticality within the supercooled liquid at microsecond scales. ©2003 American Physical SocietyWe acknowledge support from DGICYT (Spain) Grant No. PB98-C02-01.Peer Reviewe