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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Light and Temperature Entrainment of a Locomotor Rhythm in Honeybees

MOORE, DARRELL, RANKIN, MARY ANN 01 January 1993 (has links)
Abstract. The circadian locomotor (walking) rhythms of forager honeybees (Apis mellifera ligustica L.) were entrained to eight different 24 h light‐dark cycles. The phases of activity onset, peak activity, and offset were correlated with the lights‐off transition, suggesting lights‐off as the primary zeitgeber for the rhythm. Further support for this hypothesis was provided by LD 1:23 experiments, in which entrainment occurred when the light pulse was situated at the end, but not at the beginning, of the subjective photophase. Steady‐state entrainment of the locomotor rhythm was achieved with square‐wave temperature cycles of 10oC amplitude under constant dark: most of the activity occurred within the early thermophase. Smaller amplitude temperature cycles yielded relative coordination of the rhythm. Interactions of temperature and light‐dark cycles resulted in entrainment patterns different from those elicited in response to either cycle alone or those formed by a simple combination of the two separate responses. Furthermore, temperature cycles having amplitudes insufficient for entrainment of the rhythm nevertheless modified the pattern of entrainment to light ‐ dark cycles, suggesting a synergism of light and temperature effects on the underlying circadian clock system.
2

Influence du statut azoté et du cycle lumineux diurne ur le métabolisme lipidique d'Isochrysis sp. (Haptophyceae) / Influence of nitrogen status and light / dark cycle on Isochrysis sp. (Haptophyceae) lipid metabolism

Lacour, Thomas 07 October 2010 (has links)
Cette thèse présente différents cas d'acclimatation d'une espèce de phytoplancton (Isochrysis sp.) à des modifications de son environnement physico-chimique avec une attention particulière portée sur la composante lipidique de la réponse aux changements. Dans ce contexte nous avons étudié les lipides à la fois comme des produits (triacylglycerol) et des acteurs (glycolipides) de la photosynthèse. Tout d'abord, nous avons étudié l’influence de plusieurs types de limitation par l'azote sur la teneur en lipides neutres des algues. Nous avons montré que la relation entre la disponibilité de l’azote et la teneur en lipide n'était pas monotone et qu'elle présentait un caractère hystérétique. Les cellules d’Isochrysis sp. n’accumulent des lipides neutres que transitoirement lors du passage d'une croissance forte vers une croissance faible. Nous nous sommes ensuite intéressé aux relations qui existent entre le cycle nycthéméral et l'accumulation de réserves énergétiques sous forme de lipides et de sucres. Les réserves sont accumulées pendant le jour en disproportion du reste du carbone et consommées pendant la nuit pour alimenter la division cellulaire et la croissance nocturne. La carence en azote dans ces conditions nycthémérales ne provoque pas d’accumulations significatives de lipides. Les variations diurnes de la teneur en lipides neutres sont plus importantes que les variations obtenues en carence. A travers ces différentes expériences nous avons pu mettre en évidences les relations qui existaient entre l'environnement, la croissance, et l'accumulation de réserves. La compréhension de ces mécanismes a permis de déterminer les conditions environnementales qui favorisent la production d’huile en vue d’une utilisation biocarburant. Nous avons aussi étudié l'influence des conditions de croissance sur la composition des glycolipides des membranes des chloroplastes. Les résultats montrent que les changements de la teneur en MGDG, DGDG et SQDG et de l’insaturation des acides gras de ces lipides accompagnent les modifications d’activité photosynthétique des cellules en limitation azotée et en cycle Jour/Nuit. / This thesis presents various cases of acclimation of a phytoplankton species (Isochrysis sp.) to changes in growth conditions, with special emphasis on the lipid response to those changes. In this context we have studied lipids as both products (triacylglycerol) and actors (glycolipids) of photosynthesis. First, we studied the influence of several types of nitrogen limitation on the neutral lipid content of algae. We showed that the relationship between nitrogen availability and lipid content was not monotonous and presented a hysteretic behaviour. Isochrysis sp. cells accumulated neutral lipids only transiently during the transition from high growth to low growth. We were also interested in the relationship between the circadian cycle and the accumulation of energy reserves as fats and sugars. Reserves were accumulated during the day and consumed during the night to provide energy for cell growth and division. Nitrogen deficiency under alternative light did not lead to significant accumulations of neutral lipids. Through these experiences we could understand the relationship between environment, growth, and accumulation of reserves. These results allowed us to identify the environmental conditions that enhance oil production for biofuel use. We also studied the influence of growth conditions on the composition of glycolipids that comprises chloroplast membranes. Changes in MGDG, DGDG and SQDG contents and in their fatty acids unsaturation were linked to changes in photosynthetic characteristics when growth conditions are modified (L/D cycle, N-limitation). Glycolipids are likely to be important actors of photosynthetic acclimation to environmental changes.

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