Importance of Facilitative Urea Transporters in Anuran Osmoregulation

Rosendale, Andrew J.

16 August 2011

No description available.

Biology

Physiology

Zoology

Urea transporter (UT)

amphibian

osmotic regulation

species variation

freezing

dehydration

urea loading

seasonal

Smart Shoe for Remote Monitoring of Parkinson’s Patients

Das, Piyali

January 2015

No description available.

Computer Science

Embedded System

Freezing of gait

Gait repository

Parkinsons disease

Remote Monitoring

Wearable sensor system

UNDERSTANDING ICE AND WATER TRANSITIONS AT SOLID SURFACESFOR ANTI-ICING APPLICATION

Zhang, Yu

January 2016

No description available.

Polymer Chemistry

Polymers

Physical Chemistry

Evaluating Cultural Practices for Recovery from Cold Damage in Grapevines

Todaro, Thomas Mason

January 2016

No description available.

Horticulture

Grapevine

Cultural practices

Freezing tolerance

Carbohydrate

Anatomy

Training system

Pruning, LT50

Experimental Investigation of the Interactions of Hyperactive Antifreeze Proteins with Ice Crystals

Celik, Yeliz

16 April 2010

No description available.

Biophysics

Physics

Antifreeze proteins

Thermal Hysteresis

Freezing Hysteresis

Superheating

Melting Hysteresis

Microfluidics

Ice recrystallization

Characterization of Cold and Short Day Acclimation in Grape Genotypes of Contrasting Freezing Tolerance

Grant, Trudi NL

19 June 2012

No description available.

Agriculture

Anatomy and Physiology

Horticulture

Plant Biology

grape

Vitis

buds

cold acclimation

leaf

raffinose

freezing tolerance

dormancy

Experimental Study of Condensation and Freezing in a Supersonic Nozzle

Bhabhe, Ashutosh Shrikant

24 August 2012

No description available.

Chemical Engineering

Chemistry

Condensation

Nucleation

Condensation

Freezing

Supersonic nozzle

Argon

Nitrogen

Heavy water

Clathrate Hydrates

Experimental Study on the Mechanical Behaviors of PVA-ECC after Freeze-Thaw Cycles

Ge, W., Cai, C., Ji, X., Ashour, Ashraf, DaFu, C., Wang, B.

27 June 2017

yes / In order to study the mechanical behaviors of engineered cementitious composites (ECC) reinforced with various types of polyvinyl alcohol (PVA) fibers and different fiber volume fractions after the freeze-thaw cycles, the rapid freeze-thaw method was used to test the mass loss ratios, longitudinal relative dynamic elastic modulus, compressive strength and flexural strength. The results showed that specimens incurred more serious damage with the increasing of freeze-thaw cycles; however their performance would be improved by fiber type and dosage. Mass loss rate of JPA (specimen with 2% volume content of JP fiber) was lower than JPB (specimen with 1% volume content of JP fiber). Furthermore, the mass loss rate of JPB was lower than that of CPB (specimen with 1% volume content of CP fiber). The longitudinal relative dynamic elastic modulus of JPA was higher than that of JPB while the longitudinal relative dynamic elastic modulus of JPB was higher than that of CPB. In addition, the compressive strength and flexural strength decreased with the increasing of freeze-thaw cycles. Mechanical behaviors of specimens with fiber exhibited better strength than specimens without fiber. Based on the SL 211-2006 code for the design of hydraulic structures against ice and freezing action, JPA and JPB specimens are adequate for use in severe cold regions, while specimen CPA and CPB can be used in cold regions, specimen JPC only can be used in warm regions.

Generation of offspring from cryopreserved rabbit (Oryctolagus cuniculus) oocytes

Jiménez Trigos, María Estrella

09 June 2014

The general aim of this thesis was to optimise the current methodologies of oocyte cryopreservation in order to obtain live offspring from cryopreserved rabbit oocytes. In chapter 1, meiotic spindle configuration, cortical granules (CGs) distribution and oocyte developmental competence were evaluated after cryopreservation with the current slow-freezing and vitrification procedures. The meiotic spindle organisation was dramatically impaired regardless of the method used. Nevertheless, altered CG distribution is more evident in vitrified oocytes than in slow-frozen ones and the developmental rate to blastocyst stage after parthenogenetic activation was only obtained using slow-freezing method. From this chapter it may be concluded that both methodologies equally affect oocyte structure. However, slow-freezing method seems to be the recommended option for this species as a consequence of the sensitivity to high levels of cryoprotectants in this species. The aim of the following two chapters was the optimisation of cryopreservation procedures using different strategies to modify the oocytes in order to make them more cryoresistant. In chapter 2, Taxol and Cytochalasin B were employed to stabilise the cytoskeleton system during vitrification. The effect of these two molecules on the meiotic spindle and chromosome configuration and development to blastocyst stage after parthenogenesis activation were also evaluated. There were no significant differences in the structural configuration between vitrified groups. Regarding cleavage and blastocyst developmental rate, no statistical differences were found between vitrified-non-treated and Taxol-treated oocytes, but no oocytes treated with Cytochalasin B reached this stage. Therefore, structural configuration and blastocyst development were not improved by this pre-treatment. Moreover, Cytochalasin B pre-treatment seems to cause a deleterious effect on developmental ability to blastocyst stage of these oocytes. In chapter 3, oocytes were incubated with cholesterol-loaded methyl-ß- cyclodextrin (CLC) to increase the membrane fluidity and stability and improve their developmental ability after parthenogenetic activation or intracytoplasmic sperm injection (ICSI). Cholesterol incorporation and its presence after cryopreservation were evaluated using confocal microscopy. Results showed that cholesterol was incorporated into the oocyte and remained, albeit in a lesser amount after cryopreservation procedures. However, no improvements on developmental competence were obtained after parthenogenetic activation or intracytoplasmic sperm injection. In the last three chapters of this thesis, the main objective was to develop a reliable technique which would allow us to obtain live offspring from cryopreserved oocytes. For that purpose, in vivo fertilisation using intraoviductal oocyte transfer assisted by laparoscopy was considered a good alternative to bypass the inadequacy of conventional in vitro fertilisation in rabbit. In chapter 4, two recipient models (ovariectomised or oviduct ligated immediately after transfer) were used to compare the ability of fresh oocytes to fertilise in vivo. This first work showed that embryo recovery rates in all transferred groups decreased significantly, but ligated oviduct recipients provided significantly higher results compared to ovariectomised ones. For that reason, in the second experiment the ligated oviduct recipient model was used to generate live births. Results obtained in this chapter suggested that it was possible to obtain offspring from cryopreserved oocytes using this technique, but this kind of animal models compromised the use of the reproductive tract in a high percentage of females. For that reason, chapter 5 was focused on the development of another type of animal model as an alternative. First, the ability of cyanoacrylate tissue adhesive to block the oviducts before the ovulation would take place was evaluated. Then, in vivo fertilisation ability of fresh transferred oocytes after blocking the oviduct with the adhesive was also assessed. Finally, slow frozen oocytes were transferred to generate live birth. Results showed that cyanoacrylate tissue adhesive was effective in blocking the oviduct, as no embryos were recovered in the blocked oviduct six days after artificial insemination (AI). Moreover, this method could fertilise fresh and also slowfrozen oocytes with a higher live birth rate than the previous recipient models. This study showed that successful production of live offspring using slow-frozen oocytes in combination with in vivo fertilisation was possible, which suggested that in vivo environment could help improve the results of oocyte cryopreservation. Thus, this method was employed in the last chapter of this thesis to generate live offspring from vitrified rabbit oocytes for the first time. Results obtained revealed that there were no differences in the rate of birth between vitrified and slow-frozen transferred oocytes. Nevertheless, based on the results with fresh oocytes, further experiments are still needed if the efficiency of cryopreservation procedures are to be improved. / Jiménez Trigos, ME. (2014). Generation of offspring from cryopreserved rabbit (Oryctolagus cuniculus) oocytes [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/37977

Cryopreservation

Vitrification

Slow-freezing

Oocytes

Rabbit

Offspring

In vivo fertilisation

Laparoscopy

PRODUCCION ANIMAL

Ice storms as a disturbance factor in Appalachian oak forests

Whitney, Helen E.

January 1982

Ice (glaze) storms are frequent natural disturbances in eastern deciduous forests. Two opposing hypotheses exist in the literature regarding the effect of glaze on forest succession. In the first view, succession is said to be accelerated as pioneer species sustain greater damage than equilibrium species. The resistant equilibrium species would then fill canopy gaps, shifting the stand to a more advanced stage. Alternatively, extensive canopy damage allows more light to reach the forest floor perhaps favoring the germination and establishment of pioneer seedlings. Survival of these individuals would return the community to an earlier successional stage, or maintain pioneer communities. This study examined the response of the reproduction and susceptibility of tree species (by damage and mortality) two growing seasons after an ice storm, across a moisture and successional gradient. Four stands were studied: <i>Liriodendron</i>, mesic and xeric <i>Pinus</i>, and <i>Quercus</i>. Damage for most species was consistent across stands, with larger trees generally sustaining greater damage than smaller trees or saplings. Mortality increased with increasing stem size and severity of damage for most species. However, while damage to <i>Liriodendron tulipifera</i> was very high, actual mortality was low due to its ability to sprout. Also, because seedling reproduction of pioneer species was stimulated in this stand, succession appeared to be retarded. Succession was accelerated in the mesic <i>Pinus</i> stand where mortality of canopy trees was high and where removal of the canopy stimulated growth and sprouting of understory equilibrium species. Succession of the stands on drier sites (e.g. <i>Quercus</i> and xeric <i>Pinus</i>) appeared unaffected as the composition of tree seedlings remained essentially unchanged after disturbance. Thus, the response of a community to ice damage depends on the interrelated variables of vegetation composition, successional status, and topographic position. / M. S.

LD5655.V855 1982.W487

Forest influences

Forest meteorology

Freezing precipitation

Oak -- Appalachian Region