Integration and test of a refrigerant-based cold-gas propulsion system for small satellites

Pahl, Ryan Alan,

January 2010

Thesis (M.S.)--Missouri University of Science and Technology, 2010. / Vita. The entire thesis text is included in file. Title from title screen of thesis/dissertation PDF file (viewed April 21, 2010) Includes bibliographical references (p. 146-149).

Cyprus conflict : continuing challenge and prospects for resolution in the post-Cold War era /

Sözen, Ahmet,

January 1999

Thesis (Ph. D.)--University of Missouri-Columbia, 1999. / Typescript. Vita. Includes bibliographical references (leaves 260-265). Also available on the Internet.

Cold War. Cyprus Cyprus Cyprus

Development of a freon cooled cryoprobe and an analysis of the associated temperature fields

Teeter, Charles Leo,

January 1970

Thesis (Ph. D.)--University of Wisconsin--Madison, 1970. / Typescript. Vita. Description based on print version record. Includes bibliographical references.

Genomic Analysis of the Cold Acclimation Response in Solanum Species

Beers, Lee Allen

January 2009

No description available.

Solanum -- Effect of cold on

Solanum -- Physiology

The molecular basis of the acclimatization of plants to chilling temperatures

Wilson, John

January 1974

Leaves of tropical and sub-tropical species are rapidly chill-injured when exposed to temperatures in the 0 to 10°C range. In contrast, leaves of temperate and arctic alpine species can withstand these temperatures without damage. Chill-sensitive leaves can be divided into two categories based on their susceptibility to chilling-injury:- 1) Extremely chill-sensitive species which are rapidly damaged on exposure to temperatures between 12 to 15°C (e. g. Episcia reptans) and which cannot be readily hardened against chilling-injury. Maintaining 100 per cent relative humidity during chilling at 5°C does not prevent injury to these species, although the speed at which injury occurs is reduced. 2) Chill-sensitive species which are damaged in the 0 to 10°C range (e. g. Phaseolus vulgaris) and which can be readily hardened against chilling-injury at 5°C, 85 per cent RH, by 4 days growth at 12°C, 95 per cent RH, before chilling. Maintaining 100 per cent RH during t chilling at 5°C prevents injury to these species. It is considered that the primary response in chilling-injury is a temperature induced phase transition in the lipids of the cellular membranes from a liquid-crystalline to a solid gel state. The temperature at which the phase change occurs appears to be determined mainly by the degree of unsaturation of the fatty-acids associated with the phospholipids. The chill-sensitivity of leaves grown at 25&°C was related to a low percentage of linoleic and linolenic acid associated with each phospholipid. The degree of unsaturation of the glycolipids could not be related to, the chill-sensitivity of the species. Hardening the chill-sensitive species Phaseolus vulgaris and Gossypium hirsutum against chilling-injury at 5°C, 85 per cent RH, resulted in increases of up to 12 per cent in the percentage of linoleic acid associated with all the leaf phospholipids. The degree of unsaturation of the glycolipids did not change during hardening. The increases in unsaturation of the phospholipids were shown to be positively related to the increased tolerance of the plants to chilling by the fact that similar increases did not occur during the growth of chill-resistant Hordeum vulgare at 12°C and the ineffective attempts at hardening chill-sensitive Episcia reptans over 4 days at 15°C, the lowest temperature this species can withstand without injury. Chilling-injury in Phaseolus vulgaris could be prevented by enclosing the plants in polythene bags at 5°C, thus maintaining 100 per cent RH. However, leaves of this species transferred from 25°C to 5°C. 100 per cent RH and 12°C, 100 per cent RH for 4 days did not harden against subsequent chilling-injury at 5°C 85 per cent RH. In agreement with this finding no increase in unsaturation of the phospholipids was detected over 4 days growth at 5°C 100 per cent RH, and 12°C 100 per cent RH. It is suggested that plants grown at 5 and 12°C 100 per cent RH, by enclosure in polythene bags do not harden against subsequent chilling- injury at 5°C 85 per cent RH, because the carbon dioxide concentration within the bag is rapidly lowered by photosynthetic fixation. This results in the cessation of photosynthesis and a reduced supply of the cofactors oxygen and NADPH available for desaturase activity, thereby preventing an increase in the degree of unsaturation of the phospholipids. An increase in leaf age at 25°C was shown to increase the susceptibility of chill-sensitive plants to chilling-injury. This increase in susceptibility of older leaves to damage was related to a decrease in the degree of unsaturation and weight of phospholipids with increase in physiological age at 25°C. In conclusion, the results reported in this investigation provide evidence that hardening chill-sensitive leaves prevents chilling-injury by increasing the degree of unsaturation of the membrane phospholipids thereby lowering the transition temperature of the lipid layer of the cellular membranes. This phase change does not occur on chilling chill-resistant plants but may occur at sub-zero temperatures and increase their susceptibility to freezing-injury.

QK756.W5 ; Plants—Effect of cold on

Responses and adaptations of root growth and metabolism to low temperature

Huxter, Terence John

January 1975

A comparative study of the carbohydrate metabolism of roots of pea (Pisum sativum var. meteor) and maize (Zea mays var kelvedon glory) seedlings was undertaken at low temperatures (2-14°C) with the aim of demonstrating differences between these species which may be associated with the differing growth capacities of their roots mot this temperature range. Pea roots displayed linear growth rates at all temperatures tested whereas maize roots ceased growth over five days at temperatures below 6°C At the respective temperatures which were minimal for root growth of the two species, roots behaved similarly with regards to soluble sugar content; firstly, total content was maintained in the roots at the initial level, and secondly, sucrose content was at its highest value and glucose content at its lowest. With rise in temperature sucrose content declined while glucose content increased. In maize roots kept at those temperatures where growth was not sustained this relationship broke down. Total sugar content of the roots was not maintained, glucose content was abnormally high and sucrose content very low. Similarly, respiration rate of maize roots at 2°C was abnormally low. When seedings were grown with roots bathed in an external solution of glucose at 2°C (or of glucose or of sucrose at 6°C the disturbances to sugar metabolism and respiration rate of maize roots were partially alleviated and this was associated with a greater amount of growth made by the roots. Examination of the activity and Km of acid invertase extracted from the roots and partially purified, showed that the sucrose levels in roots of both species were inversely related to invertase activity. However in pea, but not in maize roots, Km values for invertase showed a lowering in value after growth of seedlings at 2°C compared with 20°C. Furthermore, in pea, after growth of seedlings at 14 or 2°C Km determined at 2°C was significantly lower than when determined at 14°C. These properties are of adaptive significance at low temperatures since they will act to maintain an appreciable reaction rate. Shifts in Km of a homeostatic nature with respect to temperature were not recorded for invertase from maize roots and in this species the failure to control invertase activity at low temperatures with consequent depletion of sucrose may be associated with the inability of this species to show sustained growth at 2°C. Examination of the Km of MDH likewise revealed a shift in Km value tending to buffer the effect of temperature on reaction rate for MDH from pea but not from maize roots.

QK756.H8 ; Plants—Effect of cold on

The root in winter

Smith, Lisa C.

January 1994

Factors affecting the survival of over-wintering tree roots during waterlogging were investigated. Die-back of roots covered by high Winter water tables results in shallow rooted trees susceptible to wind-throw. Such is the scale of the problem in Britain, this research is considered to be of practical relevance. Sitka spruce (Picea sitchensis (Bong.) Carr.) and Lodgepole pine (Pinus contorta Douglas ex Loudon) were chosen, being the most predominant species planted and showing differing susceptibility to flooding. Sitka spruce is considered flood-intolerant (Crawford 1982) and Lodgepole pine highly-tolerant (Minore 1968). In both species, waterlogging the whole root system for 3 months severely reduced the carbohydrate content of the distal 15cm root, reflecting almost total depletion of starch reserve and varying degrees of glucose depletion. In Sitka spruce, depletion depended on the date of flood-initiation, being most severe after flooding from October when root respiration rate was higher, rather than November as the roots became dormant. Flooding injury was reflected in decreased tri-phenyl tetrazolium chloride reduction and loss of respiratory capacity. Greater loss of aerobic (as compared to anaerobic) respiration capacity after flooding suggested damage to the aerobic pathway, either directly through anoxia or indirectly due to depletion of sugars important in cell maintenance. Injury appeared to be greater when respiratory activity at flood-initiation was high. Aeration from stem lenticels ameliorated flood-injury and carbohydrate depletion in Lodgepole pine, although the roots appeared to have no metabolic adaptation to anoxia. Increased soil temperature during Winter flooding increased carbohydrate depletion in the distal root and reduced viability relative to seedlings flooded at ambient temperature. Carbohydrate depletion during cold storage and its effect on survival of soil waterlogging at out-planting was determined in Sitka spruce. Cold storage leads to increased root growth and slightly superior flood-tolerance when compared to nursery over-wintered seedlings, presumably due to the more dormant state of stored seedlings.

QK756.S6 ; Plants—Effect of cold on

Low temperature acclimatisation in the rowan, Sorbus aucuparia

Barclay, Alan M.

January 1979

No description available.

QK756.R7B2 ; Plants—Effect of cold on

Cold hardiness and overwintering survival of the grain aphid Sitobion avenae in Northern England

Knight, Jonathan David

January 1987

Laboratory maintained Sitobion avenae of all developmental stages had a mean inherent supercooling ability below -20°C. Acclimation alone, or in conjunction with starvation had no significant effect on supercooling. Surface moisture on the aphid cuticle during cooling resulted in a significant loss in supercooling. Repeat coolings to temperatures markedly above the mean supercooling point resulted in increasing levels of mortality. Field collected ~ avenae showed a seasonal variation in supercooling with a higher mean supercooling point in the winter than in the remainder of the year. Field populations showed a dramatic decline in December when environmental temperatures were well above mean and individual supercooling points. It was concluded that the aphids were dying before they froze and that the supercooling point was not a reliable indicator of the lower lethal temperature. The development and reproduction of s.avenae in the field over winter were directly and positively related to temperature whilst mortality increased with decreasing temperature. The development of a multi-channel micro-bead thermistor unit allowed the study of a previously unrecorded thermal event (exotherm) during the cooling of aphids. The cause of the exotherm is unknown and warrants further investigation. Laboratory experiments on ~ avenae and the lupin aphid, Macrosiphum albifrons revealed that the adults of the two species had lower lethal temperatures (LT50) of approximately -7.5°C and -7.0°C respectively. Nymphs of ~. ayenae were significantly more cold hardy than adults in terms of LT50 values. Acclimation prior to experimentation significantly improved the cold hardiness (LT50) of s.avenae. It is concluded that in the case of s.avenae and other aphids supercooling points are ecologically irrelevant if aphids are already dead before they freeze. An experimental protocol is suggested for future experiments on insect cold hardiness.

577

Grain aphid survival of cold

Die lokale en distorsionele knik van gedeeltelike verstyfde flense van koudgevormde lipkanaal kolomme vervaardig uit tipe 3CR12 vlekvrye staal

Slabbert, Johan

10 September 2012

M.Ing. / Die doel van hierdie verhandeling is om die basiese agtergrond in terme van die knikgedrag van vlekvrye staal to ondersoek wat sodoende 'n bydrae sal kan lewer tot die ontwikkeling van 'n meer volledige ontwerpspesifikasie vir die veilige en koste effektiewe strukturele aanwending van vlekvrye staal

Steel, Stainless - Cold working

Flanges