Photodegradation kinetics of curcumin in ethanol solution and encapsulated in alginate-pectin hydrogel

Gielink, Celene

January 2020

No description available.

Engineering

curcumin

hydrogel

light exposure

encapsulation

kinetics

Diurnal rhythms of urine volume and electrolyte excretion in healthy young men under differing intensities of daytime light exposure / 健康若年男性の異なる日中の光曝露での尿および尿中電解質の排泄日内リズム

Nakamoto, Isuzu

23 March 2022

京都大学 / 新制・課程博士 / 博士(人間健康科学) / 甲第23824号 / 人健博第95号 / 新制||人健||7(附属図書館) / 京都大学大学院医学研究科人間健康科学系専攻 / (主査)教授 十一 元三, 教授 林 悠, 教授 小林 恭 / 学位規則第4条第1項該当 / Doctor of Human Health Sciences / Kyoto University / DFAM

circadian rhythm

light exposure

human

urine excretion

498

Assessing the photoreactivity of peatland derived carbon in aquatic systems

Pickard, Amy Elizabeth

January 2017

Northern peatlands are a globally important soil carbon (C) store, and aquatic systems draining peatland catchments receive a high loading of dissolved and particulate forms of C from the surrounding terrestrial environment. Once incorporated into the aquatic environment, internal processes occur to modify the C pool. Of these, photo-processing preferentially targets terrestrially derived C and therefore might have a significant effect on the C budget of peatland draining aquatic systems. The overarching aim of this study was to investigate photochemical processing of C in Scottish peatland draining aquatic systems in order to determine the importance of this pathway in aquatic biogeochemical cycles. For initial laboratory experiments, water samples from a peatland headwater stream (Auchencorth Moss, SE Scotland) were collected. Laboratory based irradiation experiments were conducted at a range of temperatures, and different filtration treatments, including unfiltered samples, were employed to understand the fraction of C most susceptible to photo-processing. UV irradiation and temperature had a significant effect on DOC and gas headspace concentrations, with Q10 values of ~1.42 and ~1.65 derived for CO2 and CO photoproduction in unfiltered samples, respectively. However, filtration treatment did not induce significant changes in gaseous C production between light and dark samples, indicating that the experimental conditions favoured breakdown of DOC rather than POC to CO2 and CO. In all light treatments a small but significant increase in CH4 concentration was detected. These data were compared to results from experiments conducted in ambient light and temperature conditions. DOC normalised CO2 photoproduction was an order of magnitude lower than in laboratory conditions, although relative abundances of C species within overall budgets were similar and these experiments demonstrated that ambient exposure is sufficient to generate photo-processing of aquatic peatland C. Overall these data show that peatland C, particularly the < 0.2 μm fraction, is highly photoreactive and that this process is temperature sensitive. Further laboratory irradiation experiments were conducted on filtered water samples collected over a 13-month period from two contrasting aquatic systems. The first was the headwater stream draining Auchencorth Moss peatland with high DOC concentrations. The second was a low DOC reservoir (Loch Katrine, C Scotland) situated in a catchment with a high percentage peat cover. Samples were collected monthly from May 2014 to May 2015 and from the stream system during two rainfall events. Significant variation was seen in the photochemical reactivity of DOC between the two systems, with total irradiation induced change typically two orders of magnitude greater and DOC normalised CO2 production a factor of two higher in the headwater stream samples. This is attributed to longer water residence times in the reservoir rendering a higher proportion of the DOC recalcitrant to photo-processing. Overall the magnitude of photo-induced C losses was significantly positively correlated with DOC concentration in the headwater stream, which varied seasonally with highest concentrations detected in late autumn and winter. Rainfall events were identified as important in replenishing the stream system with photoreactive material, with lignin phenol data indicating mobilisation of fresh DOC from woody vegetation in the upper catchment during a winter rainfall event. Whilst these data clearly demonstrate that peatland catchments generate significant volumes of photoreactive DOC, the degree to which it is processed in the aquatic environment is unclear. Field investigations were undertaken to address this uncertainty. In-situ experiments with unfiltered water samples in light and dark conditions were conducted in two contrasting open water peatland pool systems. At the high DOC site (Red Moss of Balerno, SE Scotland), DOC concentrations in surface light exposed samples decreased by 18% compared to dark controls over 9 days and light treatments were enriched in CO2 and CH4. Photochemical processing was evident in δ13C-DOC and δ13C-DIC signatures of light exposed samples, which were enriched and depleted, respectively, relative to dark controls (+0.23 ‰ and -0.38 ‰) after 9 days of surface exposure. At the low DOC site (Cross Lochs, Forsinard, N Scotland) net production of DOC occurred in both light and dark samples over the experiment duration, in part due to POC breakdown. δ13C-DIC signatures indicated photolysis had occurred in light exposed samples (-1.98 ‰), whilst δ13C-DOC data suggest an absence of photo-processing, as the signatures in both treatments were similar. Accounting for light attenuation through the water column, 46 ± 4.9 and 8.7 ± 0.5 g C-CO2 eq m−2 yr−1 was processed by photochemical and microbial activity in peatland pools within the catchments at the high and low DOC sites, respectively. At both sites, light driven processing was responsible for a considerable percentage (34 and 51%) of gaseous C production when compared to equivalent estimates of microbial C processing and thus should be considered a key driver of peatland pool biogeochemical cycles. It is clear from this study that temperature, seasonal cycles, rainfall events and water residence time provide strong controls on the photoreactivity of aquatic C in Scottish peatland systems. The photo-processing pathway has the potential to alter the C balance of peatland catchments with a high percentage coverage of aquatic systems. Under climate change scenarios where light, temperature and rainfall conditions are expected to change, this process may become increasingly important in aquatic C cycling, particularly if the upward trend in DOC concentrations in northern aquatic systems continues.

Nokia LIT - Improving daylight habits : How can we improve our daylight habits?

Ingvaldson, Anton

January 2019

Many of us can relate to being tired and maybe even feel down during the winter months. Reports show that we spend more and more time indoors and with that, problems linked to low daylight exposure increases. The main recommendation from doctors is to try to spend more time outdoors to really get that dosage of the sun that one needs. Research also shows that people are not aware of the actual amount of time they spend either indoors or in their cars.  With this in mind, what could we do to create a healthier way of living?  In this project, I have chosen to explore how we can motivate and inspire people with a sensitivity to light to spend more time outdoors and help them stimulate their circadian rhythm. People that suffer from symptoms could in worst cases not even leave their bed making them unable to cope with their life. Using natural ways of changing habits could in most cases have a better effect than what heavy medication does.

Light Exposure

SAD

S.A.D

light sensitivity

seasonal affective disorder

Vinterdepression

ljuskänslighet

säsongsbetonad depression

höstmörker

Design

Design

Bright-light exposure during daytime sleeping affects nocturnal melatonin secretion after simulated night work / 模擬夜勤後の日中睡眠時の高照度光曝露は、その後の夜間のメラトニン分泌に影響を及ぼす)

Nagashima, Shunsuke

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(人間健康科学) / 甲第21036号 / 人健博第52号 / 新制||人健||4(附属図書館) / 京都大学大学院医学研究科人間健康科学系専攻 / (主査)教授 任 和子, 教授 三谷 章, 教授 村井 俊哉 / 学位規則第4条第1項該当 / Doctor of Human Health Sciences / Kyoto University / DFAM

daytime bright-light exposure

melatonin

simulated night work

daytime sleeping

498

Pós-efeitos da sincronização em campo e a fase de atividade do roedor subterrâneo tuco-tuco (Rodentia: Ctenomyidae) / Aftereffects of field entrainment and the activity phase of the subterranean rodent tuco-tuco (Rodentia: Ctenomyidae)

Barbara Mizumo Tomotani

09 December 2011

Os tuco-tucos de Anillaco (Ctenomys cf. knighti) são roedores subterrâneos noturnos quando colocados em ciclo claro-escuro no laboratório. Com o interesse de se investigar o quanto um animal subterrâneo se expõe à luz, foi realizado um experimento de observação contínua em campo durante as horas claras do dia. Três indivíduos, um em cada estação, foram observados em uma arena semi-natural. Essas observações revelaram que os tuco-tucos não apenas saíam freqüentemente durante as horas claras do dia, como também apresentavam atividades robustas de forrageamento e remoção de terra de seus túneis. Uma vez que não se tinha conhecimento da atividade abaixo da terra ou durante à noite, foram examinados os pós-efeitos do arrastamento em campo para se investigar se o ritmo estaria sincronizado em campo e o quanto da atividade observada correspondia à atividade total do animal. Os pós-efeitos foram acessados pela transferência dos animais observados diretamente da arena para condições constantes. Surpreendentemente os animais exibiram uma atividade robusta concentrada na fase correspondente à noite ambiental sem transientes e sem traços da atividade diurna previamente observada em campo. Esse padrão foi observado em outros 10 animais trazidos dessa vez diretamente do campo e colocados em condições constantes. Além disso, não foram observadas diferenças na fase de atividade de animais com e sem acesso a rodas de atividade. Portando, nosso estudo com esses animais subterrâneos pode contribuir com elementos ecológicos nas discussões recentes sobre o significado da atividade diurna em animais que são noturnos segundo a fase do oscilador / South American subterranean rodents (Ctenomys cf. knighti), commonly known as tuco-tucos, display robust, nocturnal, wheel-running rhythms under a light-dark condition. To verify whether these subterranean and nocturnal animals ever expose themselves to light in the field, individual animals were continuously observed during light hours in a semi-natural enclosure that was constructed in their natural habitat. Observations during different seasons revealed that tuco-tucos not only emerged aboveground during daylight hours but also that their light exposure was due to robust diurnal activities of foraging and soil removal. Because of the lack of access to these animals´ subterranean and nocturnal activities in the field, the aftereffects of field entrainment were examined instead to verify the contribution of the previously observed diurnal behaviors to the total daily activity. This examination was achieved by transferring the observed animals from a field enclosure to constant laboratory conditions. Surprisingly, tuco-tucos exhibited robust activity concentrated in the phase corresponding to the external night without any trace of transients or of the diurnal activity that was observed in the enclosure. This pattern was also replicated when the aftereffects of the field entrainment of other animals trapped directly from the field were measured in the laboratory. Furthermore, no difference was detected in the activity measured with and without access to a running wheel. Our study of a wild subterranean species in its natural habitat can contribute novel ecological elements to the recently debated issue of the meaning of day-activity displayed by nocturnal rodents in the field

Arena semi-natural

Arrastamento

Ctenomys

Exposição à luz

Pós-efeito

Subterrâneo

Aftereffects

Ctenomys

Entrainment

Light-exposure

Semin-natural enclosure

Subterranean

Pós-efeitos da sincronização em campo e a fase de atividade do roedor subterrâneo tuco-tuco (Rodentia: Ctenomyidae) / Aftereffects of field entrainment and the activity phase of the subterranean rodent tuco-tuco (Rodentia: Ctenomyidae)

Tomotani, Barbara Mizumo

09 December 2011

Os tuco-tucos de Anillaco (Ctenomys cf. knighti) são roedores subterrâneos noturnos quando colocados em ciclo claro-escuro no laboratório. Com o interesse de se investigar o quanto um animal subterrâneo se expõe à luz, foi realizado um experimento de observação contínua em campo durante as horas claras do dia. Três indivíduos, um em cada estação, foram observados em uma arena semi-natural. Essas observações revelaram que os tuco-tucos não apenas saíam freqüentemente durante as horas claras do dia, como também apresentavam atividades robustas de forrageamento e remoção de terra de seus túneis. Uma vez que não se tinha conhecimento da atividade abaixo da terra ou durante à noite, foram examinados os pós-efeitos do arrastamento em campo para se investigar se o ritmo estaria sincronizado em campo e o quanto da atividade observada correspondia à atividade total do animal. Os pós-efeitos foram acessados pela transferência dos animais observados diretamente da arena para condições constantes. Surpreendentemente os animais exibiram uma atividade robusta concentrada na fase correspondente à noite ambiental sem transientes e sem traços da atividade diurna previamente observada em campo. Esse padrão foi observado em outros 10 animais trazidos dessa vez diretamente do campo e colocados em condições constantes. Além disso, não foram observadas diferenças na fase de atividade de animais com e sem acesso a rodas de atividade. Portando, nosso estudo com esses animais subterrâneos pode contribuir com elementos ecológicos nas discussões recentes sobre o significado da atividade diurna em animais que são noturnos segundo a fase do oscilador / South American subterranean rodents (Ctenomys cf. knighti), commonly known as tuco-tucos, display robust, nocturnal, wheel-running rhythms under a light-dark condition. To verify whether these subterranean and nocturnal animals ever expose themselves to light in the field, individual animals were continuously observed during light hours in a semi-natural enclosure that was constructed in their natural habitat. Observations during different seasons revealed that tuco-tucos not only emerged aboveground during daylight hours but also that their light exposure was due to robust diurnal activities of foraging and soil removal. Because of the lack of access to these animals´ subterranean and nocturnal activities in the field, the aftereffects of field entrainment were examined instead to verify the contribution of the previously observed diurnal behaviors to the total daily activity. This examination was achieved by transferring the observed animals from a field enclosure to constant laboratory conditions. Surprisingly, tuco-tucos exhibited robust activity concentrated in the phase corresponding to the external night without any trace of transients or of the diurnal activity that was observed in the enclosure. This pattern was also replicated when the aftereffects of the field entrainment of other animals trapped directly from the field were measured in the laboratory. Furthermore, no difference was detected in the activity measured with and without access to a running wheel. Our study of a wild subterranean species in its natural habitat can contribute novel ecological elements to the recently debated issue of the meaning of day-activity displayed by nocturnal rodents in the field

Aftereffects

Arena semi-natural

Arrastamento

Ctenomys

Ctenomys

Entrainment

Exposição à luz

Light-exposure

Pós-efeito

Semin-natural enclosure

Subterranean

Subterrâneo

The Effect of Refractive Error and Light Exposure on Red and Blue Light-Driven Pupil Responses

Orr, Danielle Jean

28 July 2017

No description available.

Ophthalmology

myopia

ipRGC

dopamine

refractive error

pupil responses

light exposure

time outdoors

Non visual photoreception in humans : circadian consequences of spectral modulations of light / Photoréception non-visuelle chez l’Homme : effets de la modulation du spectre lumineux sur le système circadien

Najjar, Raymond

02 July 2012

Chez les mammifères dont l’Homme, les rythmes circadiens physiologiques et comportementaux sont régulés par l’horloge centrale, localisée dans les noyaux suprachiasmatiques de l’hypothalamus. Possédant une période endogène proche mais pas exactement de 24 heures, cette horloge est constamment synchronisée à la période terrestre par le cycle lumière-obscurité perçu au niveau de l’oeil. Cette synchronisation entraîne l’expression de rythmes appropriés (hormonaux, veille-sommeil, température corporelle, etc.). Les hypothèses de ma thèse sont : 1- une exposition chronique à un spectre lumineux appauvri en longueurs d’ondes courtes, causée par l’opacification du cristallin chez le sujet âgé ou par l’exposition chronique à des lumières artificielles blanches, est à l’origine d’une altération de la réponse du système circadien à la lumière ; 2- une exposition chronique à un spectre lumineux enrichi en longueurs d’ondes courtes chez le sujet jeune, améliore la synchronisation du système circadien, la vigilance, les performances cognitives et la qualité du sommeil. L’objectif de ma thèse est d‘évaluer ces hypothèses selon deux approches : 1. Une approche physiologique : chez le sujet âgé sain, le brunissement physiologique du cristallin oculaire conduit à une filtration des longueurs d’ondes courtes du spectre lumineux. Cette approche inclus la mise au point et la validation d’un système de mesure de transmittance du cristallin in vivo. Ce système est nécessaire pour quantifier la qualité spectrale de la lumière atteignant la rétine. 2. Une approche artificielle : chez des sujets jeunes exposés de manière chronique (63 jours) à des lumières ambiantes blanches ou enrichies en longueurs d’ondes courtes / Physiological and behavioral circadian rhythms in mammals and humans are under the control of a central clock located in the suprachiasmatic nuclei of the hypothalamus. This endogenous clock has a period close to but not exactly 24 hours and therefore needs to be constantly entrained to the 24-h period of the earth, by the light-dark cycle. Light is perceived through the eyes and implicates all the retina’s photoreceptors (rods, cones, melanopsin ganglion cells (ipRGCs)). A properly entrained circadian system leads to an appropriate rhythmic expression of many physiological functions (hormonal secretion, sleep/wake cycles, core body temperature …). My project’s hypotheses are: 1- a chronic exposure to blue deprived light, as occurring in the aged due to lens filtration or under standard indoor lighting, leads to a decreased nonvisual sensitivity to light.; 2- exposure to blue enriched white light in the young subjects enhances non-visual responses to light such as, entrainment of the circadian system, vigilance, mood, sleep quality and cognitive performance. The aim of my thesis is to evaluate these hypotheses using two approaches : 1. A physiological approach: In the aged subject, in whom the ocular crystalline lens specifically filters short wavelength lights, known to be crucial for circadian entrainment. This approach includes the development and clinical validation of a scotopic heterochromatic flicker photometry technique to assess lens transmittance in vivo. This technique is essential to evaluate individual light spectra reaching the retina. 2. An artificial approach: In young subjects chronically exposed (63 days in the Concordia base, Antarctica) solely to standard white or blue enriched white light

Système circadien

Vieillissement

Lumière

Densité du cristallin

Non-visuel

Psychophysique

Mélatonine

Mélanopsine

Circadian system

Aging

Light exposure

Lens density

Non-visual

Psychophysics

Melatonin

Melanopsin

571.77

The Effect of Refractive Error and Time Spent Outdoors on Red and Blue Light-Driven Pupil Responses

Morgan, Kelly M.

28 August 2019

No description available.

Optics

Ophthalmology

Health

Health Care

Health Sciences

Environmental Health

Myopia

ipRGC

outdoor light

light exposure

time spent outdoors

pupil responses

myopia control

myopia prevention