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Role of light and temperature in the flowering of Watsonia species.Mtshali, Ntombizamatshali Prudence. January 2006 (has links)
The role of light and temperature on flowering of South African Watsonia species
were evaluated to assess the potential for this genus as a commercial flower crop.
Species were selected that represent different climatic regions of South Africa, with
the aim of understanding how ecologically distinct species perform under cultivation.
The four selected species were W. borbonica and W. tabularis (winter-rainfall area),
W. angusta (shared rainfall) and W. pillansii (summer-rainfall area).
In order to establish the optimum temperature required for flowering, plants were
exposed for 12 weeks to three temperature regimes (12/7 °C, 21/15 °C and 29/21 °C)
after attaining their first and/or second leaves. A temperature shift of 12/7 °C was
used to assess if the plants had a vemalisation requirement. Controls were
maintained under 25 % shade under natural conditions, with an average temperature
of 24/7 °C. An elevated temperature of 29/21 °C was detrimental to plant growth.
Moderate temperatures of 21/15 °C significantly (P<0.001) increased the height and
the number of leaves produced per plant relative to the 12/7 °C treatment. These
temperatures significantly (P<0.001) increased the total number of flowers produced
per plant compared to low temperatures. However, flowering percentage and quality
of flowers were reduced.
A low temperature regime of 12/7 °C was efficient in satisfying vernalisation
requirements and inducing flowering in four selected species. However, the total
number of leaves produced per plant was signifcantly reduced. The summer-rainfall
species, W pillansii, displayed a qualitative response to vernalisation, as no flowering
was observed in non-vernalised plants. Two winter-rainfall species, W borbonica and
W. tabularis, demonstrated a quantitative response to vernalisation. These species
flowered at non-vernalising temperatures. W angusta behaved like the winter-rainfall
species in terms of flowering. Overall, a vernalisaton treatment marginally reduced
days to flower while flowering percentage was increased compared to other
temperature regimes. However, there was no increase in the total number of flowers
produced per plant. Low temperatures were not only effective for flower induction, but
also for releasing corm dormancy, thus synchronising growth. Storing corms at either
4 or 10 QC resulted in 100 % sprouting within 4-6 weeks.
The role of daylength in flowering of Watsonia plants was established by subjecting
plants to long days (LO) of 16 h light and 8 h dark and to short days (SO) of 8 h light
and 16 h dark. The number of leaves and flowering were significantly (P<0.01)
promoted under the LO regime. However, there was strong temperature and
daylength interaction in terms of flowering potential, as at low temperatures flowering
was induced irrespective of daylength. In W. pillansii, flowering was obtained under
both regimes (LO and SO) applied at the second leaf stage. Flowering in W.
borbonica and W. tabularis was only observed under the LO regime at the second
leaf stage. In both species, flowering was also obtained in SD-treated plants,
provided treatment occurred after the formation of the third leaf. However, the total
number and quality of flowers were reduced.
To examine the effect of light intensity on flowering, plants at different developmental
stages (first and/or second or beyond the third leaf stage) were exposed to
photosynthetically active radiation (PAR) of 150 jJmol m-2s-1 or 39.5 jJmol m-2s-1 for 7
weeks. Exposure to low light intensity at either developmental stage compromised
leaf quality. No flowering was observed following low light intensity treatment during
the first to third leaf stages, even though plants were exposed to low temperature and
LO regimes, both of which promoted flowering. Observation of the shoot apical
meristem revealed that the second leaf stage was critical as the anatomical transition
to flowering occurred at this level. When beyond the third leaf stage, low light intensity
did not prevent flowering. However, the number of flowers produced per plant was
reduced compared to plants maintained at 150 jJmol m-2s-1. Thus, light intensity
played a role in both plant morphogenesis and flowering. LDs were effective in
promoting vegetative growth whereas high light intensity and low temperature
regimes played pivotal roles in flower induction. This makes them useful horticulture
tools to produce desirable Watsonia plants for commercialisation. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.
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The Effect of Light on Carotenoid Synthesis in Corynebacterium 7E1CEndicott, George R. 05 1900 (has links)
The effects of light, light "mimicking" chemicals, and protein synthesis inhibitors on the photo-induced carotenogenesis of Corynebacterium 7EIC were studied. Changes in the dosage of fluorescent light applied to dark grown cells showed a dose related carotenogenic response. Maintaining the same dosage but varying the wavelength of monochromatic light revealed that light with a wavelength of 280 to 450nm was responsible for photo-induction. It further showed a peak of photo-induction between the wavelengths of 370 and 430nm. The light "mimicking" chemicals antimycin A and p-Chloromercurybenzoate were shown to have no light "mimicking" effects. The transcriptional inhibitor of protein synthesis actinomycin D partially inhibited, and chloramphenicol a translational inhibitor, completely inhibited photo-induced carotenogenesis.
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The photoperiodic response of male broiler breeders.January 2010 (has links)
The expression of photorefractoriness, a feature of seasonal breeding in birds, is important in production species, where egg production and fertility are affected by the photoperiod. Years of selection in meat-type birds have reduced the potential reproductive function, and the environmental manipulation of such genotypes is essential to maximise productivity. While it is known that egg-type pullets no longer exhibit photorefractoriness, and that female broiler breeders do, there is not much information about the response of male broiler breeders to photoperiod. Such information is important when designing lighting programmes for breeding stock, and this study aimed to gain more insight into the male response to photoperiod. A series of experiments was designed in order to achieve this. In the first the response of male broiler breeders to rearing on constant photoperiods was measured, and in the second the effects of age at photostimulation on age at sexual maturity were assessed. The response to an increase in photoperiod during the production cycle was investigated in the third trial. Evidence of photorefractoriness in males was observed, but this was not the case in all birds, possibly due to high variation in some of the fertility traits measured. It seems possible that males do not respond to photoperiod to the same extent as females. Unexpected observations of a response in some birds to early photostimulation, and the high variation observed prompted another experiment in which the heritability of the response to early photostimulation was measured as a potentially revolutionary method of selection, whilst checking that this response is not negatively linked to broiler growth rates. Left and right testis weight data, collected in the above experiments, were analysed for asymmetry. There was no consistent response in testes asymmetry to photoperiod, or evidence that asymmetry in testis weights is as a result of the imposition of genetic or environmental stress. The strong correlation found between testes dimensions and weight suggests that predictions of testis weights could be made through ultrasonics or laparoscopy. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2010.
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Photic involvement in the reproductive physiology of female domestic fowl.Lewis, Peter David. January 2008 (has links)
No abstract available. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.
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The impact of shift, circadian typology, and bright light exposure on sleepiness, vigilance, and driving performance in Hong Kong taxi drivers. / Driver sleepinessJanuary 2005 (has links)
Lo Chi-yan. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2005. / Includes bibliographical references (leaves 42-51). / Abstract in English and Chinese; questionnaires in Chinese. / Abstract --- p.i / Acknowledgments --- p.iv / Table of Contents --- p.v / Chapter CHAPTER 1 --- Introduction --- p.1 / Why is empirical research on driver sleepiness important? --- p.2 / Prevalence of driver sleepiness --- p.2 / Driver sleepiness as a risk factor for traffic accidents --- p.3 / Why should taxi driver sleepiness be studied? --- p.6 / Variations in sleepiness and vigilance and driving performance within a shift and comparison between daytime and nighttime drivers --- p.8 / "The impact of circadian typology on sleep, sleepiness, vigilance and driving performance" --- p.11 / Bright light exposure --- p.14 / Overview of the present study --- p.18 / Chapter CHAPTER 2 --- Main study --- p.20 / Recruitment and Characteristics of Participants --- p.20 / Procedure --- p.20 / Instruments --- p.23 / Chapter CHAPTER 3 --- Results --- p.28 / Chapter CHAPTER 4 --- Discussion --- p.36 / References --- p.42 / Figures --- p.52 / Tables --- p.55 / Appendices --- p.62
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Molecular cloning of the soybean phototropinsRoy, Pallabi January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / The phototropin photoreceptors are important regulators of plant growth and development and can therefore affect the photosynthetic activity of plants. Phototropin1 and Phototropin2 are versatile protein kinases that become activated when exposed to blue light. Their photobiological actions are best understood in the model plant Arabidopsis thaliana, where they are known to trigger several responses to blue light, one of which is phototropism, the bending of plant organs towards light. Additionally, phot1 and phot2 drive stomatal opening, chloroplast arrangement in leaf cells, leaf expansion, and leaf orientation. The phot1-specific response is rapid inhibition of hypocotyl growth, leaf positioning and mRNA stability whereas phot2 mediates the chloroplast avoidance response to high light. These responses impact a plant’s ability to capture light for photosynthesis, therefore the phototropins play important roles in optimizing a plant’s photosynthetic activity.
Soybean (Glycine max) is a very important crop plant in Indiana known for its nutritional versatility and is also utilized for biodiesel production.In spite of soybean being a key crop, there is currently no information about the functionality of soybean phototropins.
Also, being a legume, soybean has many structural and functional features that are not present in Arabidopsis. Interestingly, PsPHOT1A (a photoreceptor from garden pea) was found to be a functional phototropin as it was able to complement the phot1 mutation in Arabidopsis. The roles of these proteins in soybean will be elucidated based on the hypothesis that soybean phototropins play essential roles in regulating photosynthetic activity as do the Arabidopsis phototropins.
To date, five soybean phototropins, 3 PHOT1s and 2 PHOT2s, are believed to exist. These GmPHOT protein coding regions were amplified by RT-PCR and cloned into pCR8/TOPO or pENTR-D/TOPO vectors via TOPO cloning to utilize Gateway cloning technology to create plant transformation constructs subsequently. The cloned GmPHOT cDNAs from each of the 5 GmPHOTs were sequenced and compared to the GmPHOT sequences from the Phytozome database to assess the accuracy of the gene models. The gene models of all the GmPHOTs were found to be accurate except that of GmPHOT1B-2. The high level of sequence identity between the GmPHOTs and AtPHOTs and the conservation of LOV domains and catalytic domains indicate structural resemblance between them. This suggests that soybean phototropins should encode active photoreceptors. The cloned protein coding regions from soybean were then recombined into a plant expression vector via Gateway technology,which were then used for transformation of Agrobacterium tumefaciens. These plant expression constructs will be utilized in the future to determine the functionality of soybean phototropins in Arabidopsis.
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