Global ETD Search

31	The in vitro propagation of Sparaxis sp. and other related genera Lundie, Vanessa 06 September 2012 (has links) M.Sc. / The family lridaceae includes genera such as Sparaxis, Freesia and Babiana which are popular flowering plants. The purpose of this study was the propagation in tissue culture of Sparaxis plants. After the applicable techniques have been formulated, the aim was to test the efficiency of the techniques on the other genera. The techniques can then be extended to endangered genera. Apical meristems as well as axillary meristems were dissected aseptically and grown on the medium of Heinz and Mee (1969). It is difficult to acquire aseptic explant material of Sparaxis because of the net-like fibres surrounding the corm. Growth of aseptic meristem explants occurred within a week under 16h light and 25 ± 1 °C. Proliferation of meristems occurred and gave rise to more than one plant from the same explant. The study was extended to seeds as an explant source, as well as the influences of various factors such as pH, carbon source and gelling agents, on the growth and proliferation of the plants. Rooting of the plants was investigated and hardening done for transfer of the plants to the greenhouse. Iridaceae Plant micropropagation Fertilization of plants Plant cell culture
32	Otimização do crescimento e desenvolvimento de teca (Tectona grandis Linn f.) in vitro / Optimization of teak (Tectona grandis Linn f.) growth and development in vitro Nery, Felipe Uassurê 11 November 2011 (has links) O crescente aumento no uso da micropropagação de teca como forma de produção de clones com qualidades genotípicas e fenotípicas selecionadas a partir de árvores de elite, determinou a importância desse método, pois origina plantações com maior qualidade e uniformidade, agregando maior valor ao preço da madeira no mercado. O uso de sementes para a obtenção de mudas é uma técnica menos onerosa, porém resulta em plantas com tamanhos desiguais e não há um padrão na qualidade da madeira, essa técnica depende também da época de produção de sementes e, portanto é restrita a um período do ano. A micropropagação permite a clonagem em larga escala das árvores de elite em tempo e espaço reduzidos, podendo ser realizada em qualquer época do ano, além disso, permite a formação de mudas totalmente livres de pragas e patógenos. Faz-se necessário, maiores estudos com meio de cultura para Tectona grandis, pois os materiais relacionados a esse assunto são escassos. Para que a técnica do cultivo in vitro da teca seja incrementada, objetivou-se nesse experimento, otimizar o crescimento dos explantes de três clones diferentes, testando a eficiência de 6 meios de cultura com diferentes formulações nutricionais e constatar qual deles apresenta a melhor resposta para cada clone. O estudo contou com 6 tratamentos (MS, Básico, M1, M2, M3 e M4), durante oito épocas de avaliação (0, 7, 14, 21, 28, 35, 42 e 49 dias), para três clones de Tectona grandis (61, 62 e 68), com três repetições por tratamento/clone, utilizando o delineamento experimental inteiramente casualizado. A avaliação do crescimento foi feita por meio do peso de matéria fresca (PMF), matéria seca (PMS) e a taxa de crescimento relativo (TCR) proporcionado pelos meios. O PMF foi usado para obtenção do PMS e cálculo da TCR. Baseado nos valores do PMS obtidos, para o clone 61, constatou-se a formulação do meio Básico (PMS = 0,38 g), como a mais eficiente. Para o clone 62, o meio mais responsivo foi M4 (PMS = 0,47 g) e no clone 68, destacou-se o meio M3 (PMS = 0,71 g). Quanto a TCR, não foi encontrada diferença estatística significativa para nenhum dos 6 meios de cultura levando-se em conta os três clones. / The increasing use of teak micropropagation as a way of producing clones with genotypic and phenotypic qualities selected from elite trees, established the importance of this method, it leads to higher crop quality and consistency, adding more value to the price of wood business. The use of seeds to obtain seedlings has a less cost, but it results in plants with unequal sizes and wood quality without a pattern. This technique also depends on the time of seed production and therefore is restricted to a year period. Micropropagation allows cloning elite trees in large-scale and reduced time and space. It can be performed at any time of year, in addition, allows the formation of plants totally free of pests and pathogens. It is necessary more studies with culture medium for Tectona grandis, because the materials related to this subject are scarce. To increase the technique of teak in vitro cultivation, this experiment aimed to optimize the growth and development of explants from three different clones, testing the effectiveness of six culture media with different nutritional formulations and find which one offers the best answer to each clone. The study included six treatments (MS, Basic, M1, M2, M3 and M4) for eight periods (0, 7, 14, 21, 28, 35, 42 and 49 days) for three clones of Tectona grandis (61, 62 and 68) with three replicates per treatment/clone, in a randomized experimental design. The growth assessment was performed by the fresh matter weight (FMW), dry matter weight (DMW) and relative growth rate (RGR) provided by the media. The FMW was used to obtain the DMW and to calculate RGR. Based on DMW values obtained for clone 61, was found that the formulation of Basic medium (DMW = 0.38 g) was the most efficient. For clone 62, the most responsive medium was M4 (DMW = 0.47 g) and to clone 68, M3 (DMW = 0.71 g) was the highlighted medium. As the RGR, it was found no statistically significant difference for any of the six culture media taking into account the three clones. Clonagem Cloning Cultura de tecidos Micropropagação vegetal Organogênese vegetal Plant micropropagation Plant organogenesis Teak Teca Tissue culture
33	Métodos para resgate, conservação e multiplação em larga escala de matrizes de Eucalyptus benthamii Maiden & Cambage / Methods for rescue, conservation and multiplication of matrices Eucalyptus benthamii Maiden & Cambege Baccarin, Francisco José Benedini 28 June 2012 (has links) O E. benthamii apresenta grande aptidão de cultivo no Brasil, principalmente em regiões de clima frio e com geadas frequentes, isso se deve a sua origem a oeste de Sydney na Austrália, onde as temperaturas são muito baixas, com ocorrência de geadas. Levando-se em conta o seu ótimo desempenho silvicultural, genótipos selecionados certamente representam uma excelente alternativa para plantios futuros. A clonagem de genótipos superiores é realizada através da propagação vegetativa de árvores adultas, e requer material fisiologicamente juvenil ou rejuvenescido. Técnicas especiais são necessárias para reverter árvores adultas a juvenilidade e resgatar condições favoráveis para promover o enraizamento e crescimento. Dentre as técnicas de propagação utilizadas para o resgate de plantas adultas destacam-se o corte raso (decepa), anelamento, estaquia, miniestaquia, enxertia e micropropagação. No caso específico dos eucaliptos para obtenção de brotações, o método de resgate mais utilizado pelas empresas florestais é o corte raso da árvore ou anelamento, técnicas que proporcionam uma alta taxa de enraizamento de estacas, devido à eficiente reversão a juvenilidade. Porém, quando existe a necessidade de preservação do indivíduo, justifica-se o uso de técnicas não destrutivas, evitando dessa forma a morte da árvore matriz. O Presente trabalho objetivou após a seleção in loco de fenótipos com características silviculturais superiores, resgatar (através de técnicas não destrutivas), conservar e multiplicar matrizes adultas de E. benthamii, avaliando-se qual(is) técnica(s) apresenta(m) melhor(es) resultado(s) para a clonagem das mesmas. Para tanto, utilizou-se brotações dos primeiros galhos da copa, brotações epicórmicas (megaestaca), brotações que surgiram provenientes do anelamento e brotações oriundas da poda dos galhos da copa, as quais foram submetidas às técnicas de estaquia, enxertia e micropropagação para cada tipo de broto. Apesar de ter ocorrido variação da porcentagem entre os clones, a megaestaca mostrou ser a melhor alternativa para o estabelecimento in vitro de plantas adultas de E. benthamii, sendo recomendada sua utilização para o resgate de material genético adulto, estabelecido em condições de campo. Todas as matrizes de E. benthamii foram resgatadas com sucesso, e no intuito de formar um banco de germoplasma, um minijardim clonal foi instalado com as mudas que apresentaram melhor qualidade, que poderá ser utilizado para futuros testes e formação de mudas. / The E. benthamii presents a great aptitude for cultivation in Brazil, especially in cold climates and with frequent frosts, this is due to your west of Sydney origin in Australia, where temperatures are very low, with frosts. Taking into account their optimal silvicultural performance, selected genotypes will certainly represent an excellent alternative for future plantings. The cloning of superior genotypes is accomplished by vegetative propagation of mature trees, and requires physiologically juvenile or rejuvenated material. Special techniques are necessary to reverse the juvenile and adult trees recover favorable conditions to promote rooting and growth. Among the propagation techniques used for the rescue of mature plants stand out clear-cutting (coppicing), annealing, cutting, minicutting, grafting and micropropagation. In the specific case of eucalyptus to obtain propagules, the most rescue method used for the forestry companies are clearcutting or annealing, techniques that provide a high rate of rooting, due to efficient reversion to juvenility. However, when there is a need to protect the individual, justifies the use of non-destructive techniques, thus avoiding the death of the tree array. The present study aimed to spot after the selection of phenotypes with characteristics superior silvicultural, rescue (through non-destructive techniques) to retain and multiply matrices adult the E. benthamii, evaluating which technique that present the best result for the cloning of the same. So we used to shoot the first cup of twigs, shoots, epicormic shoots that emerged from the annealing and shoots arising from the pruning of the branches of the crown, which were submitted to the techniques of cutting, grafting and micropropagation for each type of bud. Considering the percentage variation between the clones, the epicormic shoots showed to be the best alternative for the in vitro establishment to the E. benthamii adult plants, being recomended its utilization to the adult genetic material rescue, All the tested E. benthamii plants were rescued with sucess, and in the aim to stablish germoplasm bank, a clonal mini garden was instaled with the plantlets that present the best quality. Clonagem Cloning Cutting Enxertia Estaquia Eucalipto Eucalyptus Genótipos Genotype Grafting Micropropagação vegetal Plant micropropagation.
34	In-vitro propagation of Mmupudu (Mimusops zeyheri) fruit tree Maila, Yvonne Mmatshelo January 2001 (has links) Thesis (M. Sc. (Agricultural Science)) -- University of Limpopo, 2001 / Refer to document Mmupudu fruit tree Plant micropropagation Plant tissue culture Crop improvement Corn -- Micropropagation
35	In vitro conservation of endangered Dierama species. Madubanya, Lebogang Angelo. 27 November 2013 (has links) No abstract available. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2004. Dierama--KwaZulu-Natal. Iridaceae. Plant micropropagation. Endangered plants--KwaZulu-Natal. Plant conservation--KwaZulu-Natal. Theses--Botany.
36	Micropropagation and acclimatization of Aloe polyphylla and Platycerium bifurcatum. Chukwujekwu, Jude Chinedu. 11 December 2013 (has links) Shoot cultures of Aloe polyphylla were initiated from young shoot explants of in vitro grown plants. The basal medium was MS medium (MURASHIGE and SKOOG, 1962), supplemented with 100 mgl ¯¹ myo-inositol, and 30 gl ¯¹ sucrose. Agar (0.8 %) was used as the gelling agent. Different cytokinins, singly or in combination with auxins (IBA and NAA), were tested for shoot proliferation activity. All the cytokinins tested (kinetin, zeatin, iP, and BA) gave a good shoot proliferation response. The optimal concentrations for shoot proliferation of each of the cytokinins tested were: zeatin (0.5 mgl ¯¹), kinetin (1.5 mgl ¯¹), iP (1.0 mg ¯¹) and BA (1.5 mgl ¯¹). In combination with auxins, the optimal combinations were kinetin/NAA (2.0/0.1 mgl ¯¹), kinetin/lBA (1.5/1.0 mgl ¯¹), zeatin/lBA (1.0/0.5 mgl ¯¹), zeatin/NAA (1.0/1.0 mgl ¯¹), BA/IBA (1.0/1.0 mgl ¯¹), BA/NAA (1.5/0.1 mgl ¯¹). Although it gave the highest number of shoots per explant, BA was responsible for hyperhydricity. Temperature and sucrose also influenced shoot proliferation. The optimal temperature was 25°C, while 30 gl ¯¹ was the optimal concentration of sucrose for shoot proliferation. Plants rooted well in plant growth regulator-free MS medium. Amongst the potting mixtures tested, soil: sand: vermiculite (1:1:1 v/v) was the best with 98 % plantlet survival. In the second part of this project, Platycerium bifurcatum cultures were established using leaf explants. The basal medium was MS medium (MURASHIGE and SKOOG, 1962), supplemented with 100 mgl ¯¹ myo-inositol and 30 g l ¯¹ sucrose. For bud initiation, 1.0 mgl ¯¹ BA was used, while 0.8 % agar was used as the gelling agent. Three different strengths of MS medium (full, half, and one-quarter strength) without plant growth regulators were tested for further bud growth and development. Half-strength MS proved to be the best for further bud growth and development. Rooting was best achieved in one-quarter strength MS medium without plant growth regulators. In vitro grown plantlets were successfully acclimatized using peat as the potting medium. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2001. Plant micropropagation. Plant tissue culture. Aloe polyphylla--Micropropagation. Theses--Botany.
37	The effect of charcoal on tissue morphogenesis in vitro. Pan, Manjing. 17 December 2013 (has links) The effect of activated charcoal, autoclaving and culture media on sucrose hydrolysis in tissue culture media was investigated. Activated charcoal acidified an aqueous sucrose (5%) solution and culture media by about 1 to 2 units after autoclaving . Sucrose hydrolysis in tissue culture media and/or aqueous sucrose (5%) solutions containing activated charcoal (buffered to pH 5.8) was dependent on both the hydrogen ion concentration (pH) and autoclaving. After autoclaving, 70%, 56% and 53% sucrose hydrolysis were respectively recorded in a 5.0% sucrose solution, Murashige and Skoog (MS) and Gamborg B5 (B5) liquid media in the presence of 1.0% activated charcoal, added before autoclaving . In the absence of activated charcoal, autoclaving resulted in about 20% of the sucrose being hydrolysed The adsorption of 2, 4-dichlorophenoxyacetic acid (2,4-D) by activated charcoal from methanol and aqueous solutions was determinated using HPLC. The amount of the added 2,4-D decreased in both methanol and aqueous solutions in the presence of activated charcoal, compared with those in the absence of activated charcoal. In methanol and aqueous solutions, activated charcoal used at the level of 0.1% significantly reduced 2,4-D. About 68.4% and 60.9% respectively of the added 2,4-D was adsorbed by activated charcoal (1.0%) from these solutions. The changes of inorganic elements in MS-salt solutions, in the presence of activated charcoal, were analysed by SEM-EDX. The concentrations of magnesium (Mg), calcium (Ca), iron (Fe) and zinc (Zn) deceased in the presence of activated charcoal, while the concentrations of potassium (K), copper (Cu), manganese (Mn), phosphorus (P), and sulphur (S) increased in the MS salt solution in the presence of activated charcoal compared with no activated charcoal in the medium. This suggests that activated charcoal adsorbed calcium, magnesium, iron and zinc and released copper, manganese, phosphorus and sulphur. Rooting occurred when 7-day-old seedling hypocotyls of Daucus carota L. Cape Market were placed on MS medium supplemented with 2,4-D, and IAN/NAA in the presence of activated charcoal. Hypocotyls did not produce roots on the 2,4-D containing media in the absence of activated charcoal. The roots were produced polarly on the NAA/IAA-containing media in the presence of activated charcoal. No-polarity of root formation was observed on media supplemented with NAA/IAA without activated charcoal. Different responses of hypocotyls to a series of 2,4-D concentrations (0.5, 1.0, 3.05.0, 8.0, and 10.0 mg l ¯¹) were observed on media supplemented with 0.02, 0.1 and 0.5% activated charcoal. In the NAA/IAA containing media in the presence of activated charcoal, root number per hypocotyl decreased. Root number perhypocotyl, on the media supplemented with NAA and IAA, increased when hypocotyls were pre-cultured on MS medium supplemented with 2,4-D (1.0 mg l ¯¹) for 2-3 days. When hypocotyls were pre-cultured on a 2,4-D containing MS medium for 5 days, embryos emerged from the hypocotyls directly on the medium supplemented with 2,4-D in the presence of activated charcoal. Addition of activated charcoal to MS medium supplemented with 2,4-D resulted in somatic embryogenesis of Daucus carota. Somatic embryos were not formed on the medium in the absence of activated charcoal. In suspension culture, the incorporation of 0.01 to 1.0% concentrations of activated charcoal to the MS medium, irrespective of 2,4-D, increased the number of somatic embryos produced. The maximum number of somatic embryos were produced with 1.0% activated charcoal. Further development of embryos of Daucus carota occurred on the media in the presence of activated charcoal, and the embryos subsequently regenerated normal plantlets. Abnormal somatic embryos followed the addition of 3.0% activated charcoal to the medium. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 2000. Plant micropropagation. Plant cell culture. Daucus carota--Micropropagation. Plant growing media. Carbon, Activated. Theses--Botany.
38	The development of in vitro rooting systems for cold-tolerant Eucalyptus grandis x nitens clones and the assessment of the hydraulic efficiency of roots produced by in vitro vs. cutting propagation. Mokotedi, Mompe Edward Oscar. January 1999 (has links) Hybrid clones of the fast-growing Eucalyptus grandis and cold-tolerant E. nitens (GN clones) have been identified by the South African Forestry Industry as being highly suitable for plantations in cold-dry marginal areas. However, one of the main problems regarding their propagation is the difficulty in rooting of cuttings, both in vitro and ex vitro. The aims of this investigation, therefore, were (1) to develop widely applicable and efficient in vitro rooting system(s) for these commercially important clones, and (2) to assess some physiological characteristics of the roots produced. Adventitious shoots (15-20 mm in length) were obtained (l0 shoots/explant) from axillary buds on Murashige and Skoog's (MS) medium containing 0.01 mg.l-1 NAA, 0.01 mg.l-1 IBA and 0.2 g.l-1 FAP. The effect of various medium components, as well as modification of culture environment on in vitro rooting, were investigated. The highest rooting frequencies in clones GN121 (75%) and GN107 (65%) were achieved on l/4 MS with additional 0.22 g.l-1 CaCl2..2H2O and 0.18 g.1-1 MgS04.7H2O, 0.1 mg.l-1 IBA, 0.1 mg.l-1 biotin, 0.1 mg.l-1 calcium pantothenate, 15 g.1-1 sucrose and 4 g.l-1 Gelrite. Best culture conditions were an initial 72-hours dark incubation followed by a 16-hours day/8-hours night photoperiod at a PPFD of 37 µmol.m-2.s-1 and 23°C day/21°C night for seven days, after which the PPFD was increased to 66 µmol.m-2.s-1 at 27°C day/21°C night for 18 days. Towards the development of a more widely applicable in vitro rooting protocol for GN clones, the use of Agrobacterium rhizogenes strains was investigated. Production of transgenic roots was observed on carrot discs and shoots from seedlings of Eucalyptus grandis and E. nitens, but not on shoots of GN clones. Therefore, a method needs to be established for the successful transfer and integration of the Ri plasmid of Agrobacterium into the hybrid plant genome for induction of transgenic roots. The quality of roots produced in vitro and from cuttings was assessed by examination of root anatomy and hydraulic characteristics. Adventitious roots were prepared for measurement of hydraulic conductivity by detopping explants, then filtered, acidified distilled water was drawn through undisturbed potted root systems under partial vacuum, causing no damage to the roots. Initial studies showed that tissue culture-derived roots exhibited a higher specific root mass hydraulic conductivity than those derived from cuttings (6.46 x 10-6 vs. 3.06 X 10-6 g.kPa-1.s-1.g-1 dry root), probably due to root architecture. Curves relating vulnerability to water potential were constructed and both types of roots showed vulnerability to cavitation at high water potentials. Differences were also observed in staining reactions (safranin and fastgreen) which might suggest differences in presence and level of secondary metabolites in these roots at the juvenile stage. Applications of the developed protocols and future research strategies are discussed. / Thesis (M.Sc.)-University of Natal, Durban, 1999. Plant embyrology. Clonal forestry. Trees--Growth. Shoots (Botany) Plant micropropagation. Plant cell culture. Eucalyptus. Theses--Botany.
39	Some investigations of the responses of Quercus robur and Ekebergia capensis embryonic axes to dehydration and cryopreservation. Walker, Marieanne Julie. January 2000 (has links) Recalcitrant seeds are those that are shed at high water contents, are actively metabolic throughout development, when they are, and remain, desiccation-sensitive, and may also be chilling sensitive. These properties preclude their conventional storage. Because recalcitrant seeds lose viability rapidly (within a few days to several months depending on the species) the long-term storage of their germplasm is achievable only by cryopreservation [i.e. storage at very low temperatures, generally in or over, liquid nitrogen at -196°C or -150°C, respectively. Generally the seeds are far too large to be cryostored, thus explants - most conveniently, excised zygotic embryonic axes - are used. As the axes of recalcitrant seeds are highly hydrated, specific pre-treatments prior to freezing have to be applied in order to avoid lethal ice crystal formation. During the course of this study, cryopreservation protocols were developed for excised zygotic embryonic axes of two different species (Quercus robur L. and Ekebergia capensis Sparrm.). Surface-sterilisation regimes were tested for axes of both species, with the use of a 1% sodium hypochlorite solution containing a wetting agent, emerging as the best. For both species, the vigour and viability of axes, assessed by in vitro germination performance, was tested after the implementation of four different rates of desiccation (achieved by a laminar-airflow; silica-gel-; flash- and fast flash-drying). The most rapid dehydration rate (fast flash-drying) facilitated the best germination rates (vigour) for both Q. robur and E. capensis axes after 240 and 20 min, when water contents were reduced to 0.37 ±0.04 and 0.39 ±0.06 g g-1 (dmb), respectively. Consequently, fast flash-drying was used in combination with three different freezing rates (slow, intermediate and ultra-rapid cooling). While axis viability was lost after slow or intermediate cooling, good survival was obtained for each species after ultra-rapid cooling. In addition to the optimisation of culture conditions, desiccation and freezing rates, the efficacy of different thawing media (distilled water, mannitol, sucrose, full-strength MS medium supplemented with sucrose and a 1 µM calcium/1 mM magnesium solution) was also assessed. The only thawing medium that ensured normal seedling production was the Ca2+Mg2+ solution, in which electrolyte leakage was significantly curtailed. In addition to vigour and viability assessment the responses of the embryos to the various manipulations were monitored by light microscopy and/or transmission electron microscopy. The results of the various manipulations are discussed in terms of the stresses imposed on the excised axes, by each of the procedures. For axes of Q. robu, the outcome of the presently developed successful procedure and two unsuccessful protocols from the published literature are compared and contrasted. It is concluded that while in vitro germination media need to be assessed on a species basis, use of the mildest effective surface-sterilant, in conjunction with the most rapid means to achieve dehydration and cooling/freezing, are likely to underlie generally successful cryopreservation. Additionally, thawing parameters have emerged as being critically important. / Thesis (M.Sc.)-University of Natal, Durban, 2000. Plant cytogenetics. Plant micropropagation. Ekebergia capensis. Quercus robur. Theses--Botany.
40	The development of protocols for the diagnosis and micropropagation of cold-tolerant Eucalyptus cultivars. Makwarela, Murunwa. January 1996 (has links) In South Africa, Eucalyptus trees are used for many processed wood products (e.g. paper) and in the mining industry. Priorities in Eucalyptus breeding programmes include selection of varieties that are fast growers, insect and disease resistant, have appropriate wood characteristics and can grow in a wide variety of environmental conditions. Cold-tolerant cultivars of E. saligna and of E. grandis have been bred and selected in Australia and South Africa, respectively for use in cold regions of Natal Midlands and North Eastern Cape. However, the production of large numbers of such cultivars for planting out in a commercial scale is being impaired by slow growth rate, low regeneration time and poor rooting ability of cuttings from these trees. Consequently, methods of in vitro propagation of cold-tolerant clones were investigated. Axillary buds were induced and subjected to a variety of multiplication, elongation and rooting media. The optimised protocol for the production of shoots from axillary buds was: bud induction medium comprising of MS supplemented with 20 grl sucrose and 10 grl agar for 1-2 weeks, multiplication medium comprising of MS supplemented with 0.1 mgrl biotin, 0.1 mgrl calcium pantothenate, 0.2 mgrl benzyladenine phosphate, 20 grl sucrose and 3.5 grl Gelrite for 4 weeks, elongation medium for 4-6 weeks comprising of MS medium supplemented with 0.1 mgrl biotin, 0.1 mgrl calcium pantothenate, 0.35 mgr' NAA, 0.1 mgr' kinetin, 0.1 mgrl IBA, 20 grl sucrose and 3.5 gr1 Gelrite. Production of plantlets via somatic embryogenesis was also investigated but hampered because of high rates of contamination as pieces of mature leaves were used as exp1ants. Ongoing breeding programmes are aimed at obtaining hybrids of Eucalyptus that are cold tolerant. The hybrid progeny then need to be screened for cold-tolerance. However, a major problem in the selection of cold-tolerant clones is that diagnosis can only be undertaken by assessing the field performance of the genotypes under various environmental conditions. In this regard, a protocol for 1D gel electrophoresis was developed for Eucalyptus species with the view to use it for the detection of cold-tolerant stress proteins. Leaf material from both non-cold tolerant and cold-tolerant clones was used. Well-resolved gels that focused on the comparison' between protein profiles of cold-susceptible and cold-tolerant clones before and after period of cold stress were obtained. The findings of this study showed that two polypeptides, one in the lower molecular region of 14.3-20.1kD and another of a higher molecular weight in the region of 116.4-170 kD were observed after cold acclimation. These changes in polypeptide profiles were observed in cold-tolerant E. grandis x nitens (GN1) and E. saligna (AS 184, AS 196 and TS 15) but not in a non-cold tolerant species E. grandis (TAG 731). These polypeptides may have an important role in the cellular adaptation to cold temperatures. It is suggested that this method may be used as a diagnostic tool for screening cold tolerance on Eucalyptus cultivars. / Thesis (M.Sc.)-University of Natal, Durban, 1996. Theses--Botany. Plant micropropagation. Plants--Effect of cold on. Clonal forestry. Trees--Growth.

Search results