Your search keyword '"Photoperiod"' showing total 5,261 results

1. Photoperiodism, testosterone and adult neurogenesis in canaries (Serinus canaria).

Author

Balthazart, Jacques

Subjects

*SEXUAL cycle, *CANARIES, *NATIVE species, *NEUROGENESIS, *PHOTOPERIODISM

Abstract

Domestic strains of canaries (Serinus canaria) variably respond to photoperiod changes and apparently stay in breeding state for extended periods. Fife Fancy canaries are supposed to be similar to the native species living at 27–39° north where photoperiod significantly changes across the year. Our birds showed reproductive cycles when exposed to light regimes mimicking the annual cycle of photoperiod. However after 6 months in short days (SD: 8L:16D), males developed large testes, as observed by X‐ray tomography, and intense singing. Switching to long days (LD: 16L:8D) did not further increase song rate nor testes size but increased song duration, number of syllables per song, and trill occurrence frequency. No sign of regression was observed after 12 weeks in LD but return to SD produced a rapid decrease in testes size and singing activity below values in birds maintained throughout in SD. Fife Fancy thus does not seem to develop absolute but only relative refractoriness. The relatively high singing activity expressed by SD‐photosensitive males does not seem to depend on high testosterone (T) concentrations. Singing did not correlate with plasma testosterone (T). Treatment with ATD + Flutamide only marginally decreased song rate and did not affect song quality nor song control nuclei volume. These birds are either supersensitive to low T levels or their reproductive physiology is activated by other mechanisms. Neurogenesis is increased by T and by LD but the function of new neurons incorporated in HVC is poorly understood. We developed a procedure based on X‐ray focal irradiation to deplete neural progenitors adjacent to HVC and study the functional consequences. The decrease in neurogenesis increased the variability of T‐induced songs in females and decreased their bandwidth. Neurogenesis in HVC thus plays a role in song production and X‐ray focal irradiation represents an excellent tool to analyze adult neurogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Photoperiod Regulates Aerobic Methane Emissions by Altering Plant Growth and Physiological Processes.

Author

Qaderi, Mirwais M. and Burton, Kate

Subjects

PHOTOPERIODISM, PLANT growth, PLANT physiology, METHANE, PHOTOSYNTHESIS

Abstract

Previous studies have shown that light quality and quantity affect methane emissions from plants. However, the role of photoperiod in plant-derived methane has not been addressed. We studied the effects of two photoperiods—long-day (16 h light/8 h dark), and short-day (8 h light/16 h dark)—on growth and methane emissions of lettuce (a long-day plant), mung bean (a short-day plant), and tomato (a day-neutral plant) under a temperature regime of 22/18 °C. All species were grown under both light durations. First, seeds were germinated in Petri dishes for one week, then plants were transferred to pots and randomly assigned to one of the two experimental conditions. Under each condition, twelve plants were grown for 21 days; at that time, plant growth and physiological traits, including plant dry mass, growth index, photosynthesis, chlorophyll fluorescence, total chlorophyll, nitrogen balance index, flavonoids, and anthocyanin, were measured. Lettuce plants under the short-day photoperiod had the highest methane emissions. Long-day plants that were exposed to short-day conditions and short-day plants that were exposed to long-day conditions were stressed; day-neutral plants were also stressed under short days (p < 0.05). All three species had decreased total dry mass under short-day conditions, most likely because of decreased photosynthesis and increased transpiration and stomatal conductance. Methane emission was positively correlated with shoot/root mass ratio, nonphotochemical quenching and anthocyanin; but was negatively correlated with stem height, dry mass, photosynthesis, water-use efficiency, total chlorophyll, and flavonoids (p < 0.05). This study revealed that, besides light intensity and quality, light duration can also affect methane emissions from plants. [ABSTRACT FROM AUTHOR]

Published

2024

3. Molecular mechanism of flowering time regulation in Brassica rapa: similarities and differences with Arabidopsis.

Author

Na Li, Rui Yang, Shuxing Shen, and Jianjun Zhao

Subjects

*BOK choy, *FLOWERING time, *ARABIDOPSIS, *PHOTOPERIODISM, *PLANT reproduction

Abstract

Properly regulated flowering time is pivotal for successful plant reproduction. The floral transition from vegetative growth to reproductive growth is regulated by a complex gene regulatory network that integrates environmental signals and internal conditions to ensure that flowering takes place under favorable conditions. Brassica rapa is a diploid Cruciferae species that includes several varieties that are cultivated as vegetable or oil crops. Flowering time is one of the most important agricultural traits of B. rapa crops because of its influence on yield and quality. The transition to flowering in B. rapa is regulated by several environmental and developmental cues, which are perceived by several signaling pathways, including the vernalization pathway, the autonomous pathway, the circadian clock, the thermosensory pathway, and gibberellin (GA) signaling. These signals are integrated to control the expression of floral integrators BrFTs and BrSOC1s to regulate flowering. In this review, we summarized current research advances on the molecular mechanisms that govern flowering time regulation in B. rapa and compare this to what is known in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2024

4. Supplementary Light on the Development of Lettuce and Cauliflower Seedlings.

Author

Rizzon, Adilson Antonio, Silvestre, Wendel Paulo, Vicenço, Camila Bonatto, Rota, Luciana Duarte, and Pauletti, Gabriel Fernandes

Subjects

*LETTUCE, *CAULIFLOWER, *NUTRITION, *SOLAR radiation, *PHOTOPERIODISM

Abstract

The production of seedlings is one of the main activities for implementing agricultural crops. Many factors are involved in producing quality seedlings, including nutrition, health, genetics, and climatic factors such as temperature, humidity, and light. To evaluate the effect of light supplementation, a study was conducted using supplementary artificial light to produce lettuce and cauliflower seedlings. Sowing was carried out in styrofoam trays under a floating irrigation system. Part of the experiment containing the two species, received treatment with LED light for an additional 4 h per day, in addition to solar radiation (10 h∙day−1). The remaining seedlings received only solar radiation (without supplementation). After 37 days, the seedlings' biometric (leaf area, root length, aerial dry mass, and root dry mass) and biochemical parameters (phenolic compounds, flavonoids, chlorophyll a/b, and total chlorophyll) were analyzed. The data showed that the complementary light enhanced the performance in all the biometric parameters evaluated in the experiment for lettuce and cauliflower. The biochemical parameters in lettuce were also higher in seedlings with light supplementation. For cauliflower, supplementary light did not differ from the natural photoperiod for biochemical parameters except for a reduction in the levels of total phenolic compounds. Considering the enhanced biometric and biochemical parameters and greater dry weight and leaf area of the seedlings grown with supplemental light, using such a tool can optimize seedling development, possibly reducing production time in the nursery and providing greater productivity. [ABSTRACT FROM AUTHOR]

Published

2024

5. Flowering-time regulation by the circadian clock: From Arabidopsis to crops.

Author

Mingkang Yang, Wenjie Lin, Yarou Xu, Biyu Xie, Baiyin Yu, Liang Chen, and Wei Huang

Subjects

*ARABIDOPSIS, *FLOWERING of plants, *PLANT growth, *PHOTOPERIODISM, *GENETIC mutation

Abstract

Precise timing of flowering in plants is critical for their growth and reproductive processes. One factor controlling flowering time is the cycle of light and darkness within a day, known as the photoperiod. Plants are classified into long-day, short-day, and day-neutral plants based on light requirements for floral initiation. Although the molecular mechanisms that govern this differentiation remain incompletely understood, studies have consistently shown that the circadian clock plays a central role in regulating photoperiod response across diverse plant species. However, there is a scarcity of reviews describing the regulatory network linking the circadian clock with photoperiodic flowering. This review summarizes that regulatory network, focusing on the distinct roles of clock genes in long-day and short-day plants. We also discuss the strategies of clock gene mutations contributing to geographic variation in longday and short-day crops. [ABSTRACT FROM AUTHOR]

Published

2024

6. Use of exogenous melatonin in Ouled Djellal ewes and rams during non-breeding season.

Author

Adnane, M. and Miroud, K.

Subjects

SHEEP breeds, MELATONIN, PHOTOPERIODISM, ANIMAL herds, EWES, RAMS

Abstract

Copyright of Veterinarska Stanica is the property of Croatian Veterinary Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

7. Regulation of soybean stem growth habit: A ten-year progress report.

Author

Shang-Shang Xiong, Dan-Dan Guo, Zhao Wan, Le Quan, Wen-Tian Lu, Yongguo Xue, Baohui Liu, and Hong Zhai

Subjects

*SOYBEAN yield, *PLANT growth, *ARABIDOPSIS thaliana, *PHOTOPERIODISM, *PHOTORECEPTORS

Abstract

Stem growth habit dictates plant architecture and influences flowering and podding (seed setting), making it an essential morphological and breeding agronomic trait of soybean (Glycine max). Stem growth habit in soybean is affected by photoperiod and environment and is determined by genetic variation at major genes. Classical genetic analysis identified two critical loci, designated Determinacy 1 (Dt1) and Determinacy 2 (Dt2). Dt1 is an ortholog of Arabidopsis thaliana TERMINAL FLOWER1 (TFL1) and specifies an indeterminate stem growth habit, whereas Dt2 specifies a semi-determinate growth habit. MADS-box proteins, including Dt2, SUPPRESSOR OF OVEREXPRESSION OF CO1 (GmSOC1) and MADS-box genes downregulated by E1 (GmMDE), repress Dt1 expression. Photoreceptors encoded by the E3 and E4 loci regulate the expression of soybean FLOWERING LOCUS T (GmFT) orthologs via circadian clock genes and E1, and GmFTs compete with Dt1 to regulate stem growth habit. Study of the molecular mechanism underlying the regulation of stem growth habit in soybean has focused on the repression of Dt1 expression. Here we provide an overview of progress made in elucidating the genetic and molecular bases of stem growth habit in soybean, with emphasis on the molecular components responsible for integrating photoperiodic flowering and stem growth habit. [ABSTRACT FROM AUTHOR]

Published

2023

8. Does day length matter for nutrient responsiveness?

Author

Siqueira, João Antonio, Zsögön, Agustin, Fernie, Alisdair R., Nunes-Nesi, Adriano, and Araújo, Wagner L.

Subjects

*CIRCADIAN rhythms, *HEAVY metals, *ABIOTIC environment, *GREEN Revolution, *PHOTOPERIODISM, *NUTRIENT uptake, *CADMIUM

Abstract

Although day length is a constant factor and is practically immutable over history, it modulates pathways related to plant growth and development. Proteins associated with day length (such as HY5 and PHY) affect the activity of nutrient transporters, whereas deficiencies in functional copies of these proteins generate an elevated demand for nutrients. A regulatory loop between nutrients and the circadian clock supports the significance of nutrients in monitoring spatiotemporal variation and nutrient use efficiency in plants. A better understanding of the pathways related to photoperiodism and the circadian clock relies on deciphering the molecular bases of these pathways in wild and crop species, emphasising nutrient and toxic metal responsiveness. Multidisciplinary projects are required to understand the molecular basis of the phenotypic traits involved in the interactions between photoperiodism and the circadian clock in biotic and abiotic environments. For over 2500 years, considerable agronomic interest has been paid to soil fertility. Both crop domestication and the Green Revolution shifted photoperiodism and the circadian clock in cultivated species, although this contributed to an increase in the demand for chemical fertilisers. Thus, the uptake of nutrients depends on light signalling, whereas diel growth and circadian rhythms are affected by nutrient levels. Here, we argue that day length and circadian rhythms may be central regulators of the uptake and usage of nutrients, also modulating responses to toxic elements (e.g., aluminium and cadmium). Thus, we suggest that knowledge in this area might assist in developing next-generation crops with improved uptake and use efficiency of nutrients. [ABSTRACT FROM AUTHOR]

Published

2023

9. Reproductive Development of Japanese Quail (Coturnix coturnix japonica) in Males and Females Subjected to Leptin Injections.

Author

GÜNDÜZ, Bülent

Subjects

JAPANESE quail, LEPTIN, ESTRADIOL, PHOTOPERIODISM, BODY weight

Abstract

The goal of this study was to determine when leptin was most effective as a hormone and to clarify the role of leptin in sexual development in Japanese quails (Coturn!x coturn!x japon!ca). In the initial study, we compared the effects of long and short photoperiods on the daily plasma leptin levels of adult males. Leptin levels were assessed in blood collected at 12:00, 16:00, 20:00, 00:00, 04:00, and 08:00 hours throughout the course of 24 hours. The second experiment investigated how different leptin dosages influenced the development of sexual maturity in juveniles. Six-dayold quails that had hatched from the eggs were divided into four groups (control, 0.1 µg, 1.0 µg, and 4.0 µg leptin) and given daily injections at daytime and nighttime under long photoperiod until puberty. Body weight, testosterone, and estradiol levels were determined. It was found that leptin had a distinct daily rhythm, with low levels throughout the day and higher levels at night. Leptin had a dose-dependent impact that accelerated pubertal development; this effect was particularly obvious in quails that received injections at night. The findings suggest that leptin may be important for sexual development and that the timing of leptin treatment has an impact on puberty. [ABSTRACT FROM AUTHOR]

Published

2023

10. Optimization of Photoperiod Treatment for Enhanced Biomass Production and Primary Metabolite Content in Euglena sp. Strain Isolated from Yogyakarta, Indonesia.

Author

Renaldy, Bartolomius, Aini Putri, Afifah Nur, Mujahidah, Uswatun, Yulyanita, Dita Aulia, Naser, Ahmad Saifun, Erfianti, Tia, Nurafifah, Istini, Kurnianto, Dedy, Suyono, Eko Agus, and Inaba, Yu

Subjects

*PHOTOPERIODISM, *BIOMASS production, *METABOLITES, *EUGLENA, *LIPIDS

Abstract

Cultivating microalgae as an alternative energy resource requires the optimization of the cultivation process. Euglena is a biofuel microalga with proteins, essential amino acids, vitamins C and E, lipids, beta carotene, and beta-1,3-glucan (paramylon). Light intensity and photoperiod are crucial factors in determining microalgae biomass production because of their relationship to maximum photosynthesis efficiency. As a result, optimising growth conditions in microalgae cultivation is critical for maximising productivity. This study looked at how different photoperiod treatments (12:12, 14:10, 16:8, 18:6, and 24:0 h) affected the growth, biomass, lipid, carbohydrates, and protein content of Euglena sp. cultures in a modified CM (Cramer-Myers) medium. The 18:6 photoperiod treatment produced the highest specific growth rate, biomass, lipid carbohydrate, and protein content, according to the study's findings. The biomass concentration was 0.4190.184 g/L, and the specific growth rate was 5.960.66 (OD680/OD680/hx10-3). The lipid concentration was 0.2030.078 g/L, the carbohydrate concentration was 378.061252.135 mg/mL, and the protein concentration was 371.142107.126 g/L. [ABSTRACT FROM AUTHOR]

Published

2023

11. Overexpression of Wheat TaELF3-1BL Delays Flowering in Arabidopsis.

Author

Junsheng Sun, Haozhen Zhang, Mingxia Zhang, Sishen Li, and Yanrong An

Subjects

GENE expression, WHEAT, ARABIDOPSIS, CIRCADIAN rhythms, PHOTOPERIODISM

Abstract

EARLY FLOWERING 3 (ELF3), a light zeitnehmer (time-taker) gene, regulates circadian rhythm and photoperiodic flowering in Arabidopsis, rice, and barley. The three orthologs of ELF3 (TaELF3-1AL, TaELF3-1BL, and TaELF3-1DL) have been identified in wheat too, and one gene, TaELF3-1DL, has been associated with heading date. However, the basic characteristics of these three genes and the roles of the other two genes, TaELF3-1BL and, TaELF3-1AL, remain unknown. Therefore, the present study obtained the coding sequences of the three orthologs (TaELF3-1AL, TaELF3-1BL, and TaELF3-1DL) of ELF3 from bread wheat and characterized them and investigated the role of TaELF3-1BL in Arabidopsis. Protein sequence comparison revealed similarities among the three TaELF3 genes of wheat; however, they were different from the Arabidopsis ELF3. Real-time quantitative PCR revealed TaELF3 expression in all wheat tissues tested, with the highest expression in young spikes; the three genes showed rhythmic expression patterns also. Furthermore, the overexpression of the TaELF3-1BL gene in Arabidopsis delayed flowering, indicating their importance in flowering. Subsequent overexpression of TaELF3-1BL in the Arabidopsis ELF3 nonfunctional mutant (elf3 mutant) eliminated its early flowering phenotype, and slightly delayed flowering. The wild-type Arabidopsis overexpressing TaELF3-1BL demonstrated reduced expression levels of flowering-related genes, such as CONSTANS (AtCO), FLOWERING LOCUS T (AtFT), and GIGANTEA (AtGI). Thus, the study characterized the three TaELF3 genes and associated TaELF3-1BL with flowering in Arabidopsis, suggesting a role in regulating flowering in wheat too. These findings provide a basis for further research on TaELF3 functions in wheat. [ABSTRACT FROM AUTHOR]

Published

2023

12. VARIOUS APPROACHES TO INFLUENCE MELATONIN LEVEL IN SHEEP REPRODUCTION.

Author

KÁRPÁTI, Edina, FÜRLINGER, Dóra, PLESKÓ, Anikó Móczáné, GULYÁS, László, GÁSPÁRDY, András, and BECSKEI, Zsolt

Subjects

MELATONIN, ANTIOXIDANTS, PHOTOPERIODISM, PROTEIN hormones, HYPOTHALAMUS

Abstract

Copyright of Veterinarski Glasnik is the property of Veterinarski Glasnik and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

13. Physiological Performance of Mimosa pudica L. under Different Light Quality and Photoperiods.

Author

Kumar, Deepak, Singh, Hanwant, Bhatt, Upma, Sharma, Jyotshana, Sharma, Shubhangani, and Soni, Vineet

Subjects

*SENSITIVE plant, *PHOTONS, *PHOTOPERIODISM, *CHLOROPHYLL spectra, *PHOTOSYNTHESIS

Abstract

In the present study, we examined the light quality and photoperiod-dependent physiological performance of Mimosa pudica. Plants were grown in pots under white, blue, green and red-light compositions under 12 h per day (12/12 h) and 24 h per day (24/0 h) for 12 days. After 12 days, the physiological parameters' morphology, fresh weight, chlorophyll fluorescence and biochemical analyses, which include antioxidants, lipid peroxidation, pigment content and carbohydrate content were also measured. Necrosis was found in red, blue and green light and the plant was senesced at the end of the experiment. The blue 24-h light period showed the highest pigment and antioxidant content, whereas the lowest was observed in green light conditions. The OJIP curve was complete in white light, hence it was not completely formed in red, blue and green light. The phenomenological parameters also fluctuated in different light conditions. Photosynthesis ultimately results in starch content, which was highest in blue light and lowest in red light. Different monochromatic light qualities inhibited plant growth by reducing the activity of photosynthetic apparatus in plants. White light was more effective in driving photosynthesis and promoting the plant growth, while green and red light showed a suppressive effect on plants' growth. The 24 h photoperiod was also accompanied by various spectra to reduce the plants' growth. The results clearly indicate that the photoperiod and light spectrum must be considered before growing plants in a greenhouse. [ABSTRACT FROM AUTHOR]

Published

2022

14. Plasticity in Photoperiodism: Drosophila montana Females Have a Life-Long Ability to Switch From Reproduction to Diapause.

Author

Lankinen, Pekka, Kastally, Chedly, and Hoikkala, Anneli

Subjects

*DIAPAUSE, *INSECT adaptation, *PHOTOPERIODISM, *LIFE cycles (Biology), *DROSOPHILA, *INSECT reproduction

Abstract

Photoperiodic reproductive diapause is an essential part of female life cycle in several insect species living on high latitudes, where overwintering in reproductive stage involves high risks for survival and progeny production. The sensitive period (SP), during which photoperiodic cues can trigger the switch from direct development to diapause, can last from a few hours or days after emergence to the entire life span of females. Moreover, in some species, sexually mature females can enter post-reproductive diapause as a response to decreasing day length and/or temperature. We studied the duration of SP for diapause induction and the females' ability to enter post-reproductive diapause at short day lengths in Drosophila montana strains from different latitudes in Europe, North America, and Japan. Our study shows that the females of this species have a life-long SP and that they retain an ability to switch between reproduction and diapause as a response to back-and-forth changes in day length for at least 3 months. D. montana strains from different latitudes showed high variation in females' ability to enter post-reproductive diapause; females of the southern strains generally requiring longer time and/or lower temperature to enter this stage than those of the northern strains. Moreover, the proportion of females that switched to post-reproductive diapause in 3 weeks in short day conditions at 16 °C showed positive correlation with the critical day length (CDL) for diapause induction and the latitudinal and continental origin of the strains. Life-long SP increases females' flexibility to respond to short-term changes in environmental conditions and enables reproducing females to switch to post-reproductive diapause when the days get shorter and colder toward the autumn. This ability can play a major role in species phenology and should be taken into account in theoretical and empirical studies on insect adaptation to seasonal variation. [ABSTRACT FROM AUTHOR]

Published

2022

15. Changes in embryonic development, juvenile growth and physiological adaptation of the cuttlefish Sepia pharaonis in response to photoperiod manipulation.

Author

Jiang, Maowang, Chen, Huan, Zhou, Shuangnan, Han, Qingxi, Peng, Ruibing, and Jiang, Xiamin

Subjects

*EMBRYOLOGY, *CUTTLEFISH, *PHOTOPERIODISM, *MULTIPLE correspondence analysis (Statistics), *GLYCOGEN

Abstract

Photoperiod is a key environmental indicator for regulating embryonic development, individual growth and physiological processes in aquatic animals. In this study, differences in embryonic development and performance of newly hatched cuttlefish juvenile exposed to five different cycles of lightdark (L:D): constant light, 18L:6D, 12L:12D, 6L:18D cycles, and constant darkness were evaluated. Prolonged exposure to light induced an accelerated rate of embryonic development, particularly after the red-bead stage. Principal component analysis (PCA) revealed that red-bead stage, heartbeat, endoskeleton formation, pigment appear, and six increments of cuttlebone were the main factors contributing to the embryonic development. Meaning that the duration time of these five stages were significantly different when exposed to photoperiod regimes, which may determine the duration of the incubation period of the embryos. Long term light has also affected the incubation parameters with an increased rate in hatching and shortened the incubation and hatching periods in the 12–24-h day length range. However, constant light and darkness environment appeared to have a greater effect on the stress of embryonic development, mainly reflected in the yolk shed ratio and the inking rate in the egg capsule. Moreover, the increase in the day length has contributed to improve the growth and survival of juveniles in the 12–18-h day length range; however, juveniles exposed to constant light and darkness experienced worse results in terms of growth, tissue glycogen content, digestive enzymes of the digestive glands, and metabolic enzymes of the muscles. These finding suggest that prolonged light exposure accelerates the process of embryonic development, maximum feeding time is not necessarily a condition of optimal growth, and inappropriate light cycles can disturb the body's endogenous controls. Therefore, the optimal photoperiod for the embryos development and juvenile growth of Sepia pharaonis were 12 h and 12–18 h of day length, respectively. These results are useful for increasing the production of this species during embryo incubation and juveniles rearing in aquaculture practice. [ABSTRACT FROM AUTHOR]

Published

2022

16. L-GrassF: a functional-structural and phenological model of Lolium perenne integrating plant morphogenesis and reproductive development.

Author

Rouet, Simon, Durand, Jean-Louis, Leclercq, Denis, Bernicot, Marie-Hélène, Combes, Didier, Escobar-Gutiérrez, Abraham, and Barillot, Romain

Subjects

*LOLIUM perenne, *PLANT morphogenesis, *PLANT morphology, *PHOTOPERIODISM, *GRASSLANDS

Published

2022

17. Major niche transitions in Pooideae correlate with variation in photoperiodic flowering and evolution of CCT domain genes.

Author

Fjellheim, Siri, Young, Darshan A, Paliocha, Martin, Johnsen, Sylvia Sagen, Schubert, Marian, and Preston, Jill C

Subjects

*TROPICAL plants, *GENES, *CIS-regulatory elements (Genetics), *GENE targeting, *PHOTOPERIODISM

Abstract

The external cues that trigger timely flowering vary greatly across tropical and temperate plant taxa, the latter relying on predictable seasonal fluctuations in temperature and photoperiod. In the grass family (Poaceae) for example, species of the subfamily Pooideae have become specialists of the northern temperate hemisphere, generating the hypothesis that their progenitor evolved a flowering response to long days from a short-day or day-neutral ancestor. Sampling across the Pooideae, we found support for this hypothesis, and identified several secondary shifts to day-neutral flowering and one to short-day flowering in a tropical highland clade. To explain the proximate mechanisms for the secondary transition back to short-day-regulated flowering, we investigated the expression of CCT domain genes, some of which are known to repress flowering in cereal grasses under specific photoperiods. We found a shift in CONSTANS 1 and CONSTANS 9 expression that coincides with the derived short-day photoperiodism of our exemplar species Nassella pubiflora. This sets up the testable hypothesis that trans - or cis -regulatory elements of these CCT domain genes were the targets of selection for major niche shifts in Pooideae grasses. [ABSTRACT FROM AUTHOR]

Published

2022

18. Understanding maturity : insights into the mechanisms underpinning maturity in gadoids

Author

Doyle, Alice, Davie, Andrew, and Wright, Peter

Subjects

597.5, Gadoid, cod, maturity, Eya3, photoperiod, photoneuroendocrine, BPG, Atlantic cod, Gadiformes, Photoperiodism

Abstract

Marked shifts in the life history traits of fish have been reported in many exploited fish stocks, with a particular trend towards decreasing size and age at maturity. Though other environmental and behavioural factors have been implicated, the key driver of these changes links to fishing pressure, through both the direct selective effects of fishing itself, and indirectly through the manipulation of important biological and environmental factors. Although reproduction itself has been well described in teleosts, the mechanisms of environmental and endogenous entrainment of maturation remain unclear and it was the principal aim of this thesis to improve current understanding of these systems in gadoids. Photoperiod has been identified as the strongest environmental cue for entraining seasonal behaviours, including seasonal reproduction. Over the last decade, several of the key drivers involved in the photoneuroendocrine cascade have been elucidated in mammals and birds, with the Eya3 pathway merging as an important mechanism for entraining maturation. However, little is yet known of their influence on maturation in fish. In the first study, the photoperiodic regulation of the Eya3-Tshβ-Dio2 cascade was analysed in Atlantic cod exposed to either continuous light (reproductive inhibition) or simulated natural photoperiod (reproductive stimulation) from July to December. Monthly expression was measured through QPCR, demonstrating a strong activation of pituitary Eya3 under declining photoperiod. As this coincided with the onset of secondary gametogenesis, these results suggest that Eya3 may play a stimulatory role in the photoneuroendocrine cascade of Atlantic cod. Although photoperiod represents the most reliable and noise free proximate signal to entrain the reproductive process, it is clear that a minimum growth and energetic state must be reached for maturation to progress. This directed the second line of study – a series of diet restriction trials on haddock and cod designed to investigate the influence of naturally occurring lipid levels in the diet on growth and reproduction, define the “critical window” in which fish assess their energetic state and how this is analysed before commencing secondary gametogenesis, and to assess whether Eya3 is regulated by the growth axis in cod. The results of these experiments indicate that overall size around the autumn equinox is the most accurate indicator of maturation commitment in cod. Additionally, Eya3 expression was elevated in maturing fish indicating a role for this marker in linking the energetic signal with entrainment of the reproductive axis. Finally, an analysis of the physiological and genetic stock structure of cod from the North Sea IVa stock region and westward into VIa was performed. The results of this analysis support previous genetic studies, indicating further fine-scale structuring of these stocks, reflective of the structure indicate by the differences in maturation strategies of the component populations. The results identified both environmental and harvest related pressures which may be driving the current stock structure. The results of these studies greatly improves our understanding of the key drivers and mechanisms regulating maturation in cod, highlighting new avenues for future research.

Published

2016

19. The Effect of Artificial Lighting of Cowsheds on the Milk Productivity of Cows Under the Conditions of Tethered Housing.

Author

Nosevych, Dmytro, Kostenko, Vasyl, Kulish, Maryna, and Subot, Inna

Subjects

*LIGHTING, *DAIRY cattle, *MILK yield, *PHYSIOLOGICAL effects of light, *ANIMAL housing, *PHOTOPERIODISM

Abstract

The relevance of this study is conditioned upon the need to establish the possibility of using artificial lighting to increase the productivity of cows with tethered maintenance. This paper is aimed at identifying the effect of adjustable lighting of the feed table with LED lamps on the dairy productivity of cows. The cowshed lighting was provided by the SmartAC (LRC) automatic control system. The research method was to analyse the dynamics of cow milk yield under controlled photoperiod conditions and the level of illumination of the room. Two groups of cows were formed: experimental cows were kept in an experimental cowshed with natural illumination of the feed table of 101±20.2 lx and artificial illumination of 202±19.9 lx, the control group was kept in a typical 2-row room for 100 heads, in which natural illumination feed table was 139±22.8 lx, artificial – 26±3.2 lx. The duration of the photoperiod was 16 hours, and the ratio between natural and artificial lighting depended on the astronomical length of the day. Milk productivity of cows was assessed according to the method of control milking. Milk yields were recorded one month before the installation of the experimental lighting system (in February) and for the next four months (from March to June). Before the installation of the experimental lighting system, the difference in milk yield of cows was not statistically significant. In the future, despite fluctuations in the amount of milk yield caused by feeding, the experimental group of cows exceeded the control group in terms of milk productivity. The advantage of the cows of the experimental group in terms of daily milk yield was from 2.3 kg in March to 5.8 kg (p<0.01) in May. During the period of maximum daylight hours (June), the effect of artificial lighting on the dairy productivity of cows was insignificant. It was noted that the increase in the preference of experimental cows for milk yield occurs over several months, and the positive impact of improved lighting of the feed bunk increases along with an increase in milk productivity on the farm. That is, the higher the feeding level, the greater the effect of lighting control. The obtained results were confirmed after the analysis of the productivity of analogue cows by age and lactation phase, selected from the experimental and control groups. The results of the study are of practical value for the improvement of lighting in cowsheds with tethered housing. [ABSTRACT FROM AUTHOR]

Published

2022

20. Effects of photoperiod and exogenous iron on photosynthetic characteristics, fruit quality and mineral elements of tomato.

Author

ZHANG Yi, LIANG Yi, HAN Jing, GUO Shuxun, SHI Yu, and HOU Leiping

Subjects

FRUIT quality, TOMATOES, PHOTOSYNTHESIS, PHOTOPERIODISM, CHLOROPHYLL

Abstract

[Objective] This study explored the effects of different concentrations of exogenous iron (EDTA-Fe, Fe) on photosynthetic characteristics, fruit quality and mineral elements of tomato under different photoperiod conditions to provide basis for the improvement of tomato nutritional quality based on coordinated regulation of photoperiod and Fe nutrient. [Method] In this experiment, strawberry tomato was planted under two photoperiods (12 h/12 h and 16 h/8 h) to study the effects of photoperiods and exogenous Fe fertilizer (0 (CK), 100, 150 and 200 µmol/L) on photosynthetic characteristics, fruit quality and mineral elements contents of tomato. [Result] Under different photoperiods, with the increase of exogenous Fe concentration, contents of tomato leaf chlorophyll a and chlorophyll b, carotenoids and chlorophyll (a+b) as well as net photosynthetic rate increased to peaks at 150 µmol/L before decreases. Compared with CK, stomatal conductance, intercellular CO2 concentration and transpiration rate of tomato leaves treated with Fe fertilizers were significantly increased. Contents of soluble sugar, Vc, free amino acid, soluble protein and lycopene in tomato fruits increased firstly and then decreased with the increase of exogenous Fe concentration, and high values were obtained when Fe concentration was 100 -150 µmol/L. The titratable acid content showed a trend of decreasing first followed by increasing. Compared with the same treatment under 12 h/12 h photoperiod, contents of chlorophyll a, chlorophyll b, carotenoids, chlorophyll (a + b) and net photosynthetic rate as well as contents of soluble sugar, free amino acids, soluble protein and lycopene in tomato fruits were increased differently under 16 h/8 h photoperiod. There were significant differences in contents of K, Ca, Mg, Zn, Fe and Mn in tomato fruits at mature stage under the two photoperiods. [Conclusion] Exogenous Fe could effectively promote photosynthesis and fruit quality of tomato under different photoperiods,and spraying 100 - 150 µmol/L Fe fertilizer on leaf surface under 16 h/8 h photoperiod was the best. [ABSTRACT FROM AUTHOR]

Published

2022

21. A Comparative Study of Circadian Rhythmicity and Photoperiodism in Closely Related Species of Blow Flies: External Coincidence, Maternal Induction, and Diapause at Northern Latitudes.

Author

Saunders, David

Subjects

*DIAPAUSE, *PHOTOPERIODISM, *CLOCK genes, *COINCIDENCE, *LIMIT cycles, *LATITUDE, *ADULTS, *SPECIES

Abstract

This review compares adult locomotor activity rhythms and photoperiodic induction of diapause in 3 common species of blow fly, Calliphora vicina, Lucilia sericata, and Protophormia terraenovae. Activity rhythms were broadly similar in all 3 species, although P. terraenovae is much less sensitive to constant light inducing arrhythmicity. Photoperiodic induction of diapause, on the other hand, varies more widely between species. C. vicina and L. sericata overwinter in a larval diapause induced by autumnal short days (long nights) acting both maternally and directly upon the larvae. P. terraenovae, on the other hand, shows an adult (reproductive) diapause induced by short daylength and low temperature experienced by the larvae. In the Nanda-Hamner protocol, C. vicina shows 3 clear peaks of high diapause incidence in cycle lengths close to 24, 48, and 72 h, without dampening and therefore suggesting a photoperiodic mechanism based on a self-sustained circadian oscillator acting in a clock of the external coincidence type. Entrainment of the locomotor activity rhythm to extended Nanda-Hamner photocycles, as well as to LD cycles close to the limits of the primary range of entrainment, demonstrates that overt circadian rhythmicity may act as 'hands' of the otherwise covert photoperiodic system, as suggested by Bünning, nearly 8 decades ago. In 24 h LD cycles, both locomotor activity rhythms and the photoperiodic oscillator are set to constant phase (CT 12) at light-off, so that the photoperiodic clock measures changes in nightlength by the coincidence (or not) of dawn light with a 'photoinducible phase' late in the subjective night (at about CT 21.5 h) as photoperiod changes with the seasons. Apparent differences between quantitative and qualitative photoperiodic responses are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

22. Effects of Temperature and Photoperiod on the Flower Potential in Everbearing Strawberry as Evaluated by Meristem Dissection.

Author

Samad, Samia, Butare, Denis, Marttila, Salla, Sønsteby, Anita, and Khalil, Sammar

Subjects

EFFECT of temperature on plants, PHOTOPERIODISM, STRAWBERRY varieties, MERISTEMS, FLOWERING of plants

Abstract

The growing interest in using everbearing (EB) strawberry cultivars to extend the cultivation period has faced some challenges. These include poor runner production due to its perpetual flowering nature; irregular flowering behavior and extended periods of high temperature have caused floral inhibition and reduced yield. As flowering is an interplay between temperature and photoperiod, it is important to investigate the effects of this interaction on the cultivation. Therefore, this study used meristem dissection as a tool to study the effect of temperature and photoperiod on meristem development. Tray plants of two EB strawberry cultivars ‘Florentina’ and ‘Favori’ were grown at 20 °C, 25 °C, and 30 °C under short day (SD) conditions, and subsequently at 20 °C under long day (LD) conditions. The meristem development was analysed every 6 weeks for a 15-week period in SD and for 14 weeks in LD conditions using meristem dissection. The plants showed similar flowering patterns to previously studied everbearing cultivars, which was qualitative LD plants at high temperatures and quantitative LD plants at lower temperatures. Our results show that meristem dissection can be used to determine the temperature and photoperiodic effect on meristem development, and for the occurrence of cropping peaks, and can therefore be used to decide the environmental input and to evaluate yield potential. [ABSTRACT FROM AUTHOR]

Published

2021

23. Telling the Seasons Underground: The Circadian Clock and Ambient Temperature Shape Light Exposure and Photoperiodism in a Subterranean Rodent.

Author

Flôres, Danilo E. F. L., Jannetti, Milene G., Improta, Giovane C., Tachinardi, Patricia, Valentinuzzi, Veronica S., and Oda, Gisele A.

Subjects

PHOTOPERIODISM, SEASONS, TUNNELS, EXTREME environments, RODENTS

Abstract

Living organisms anticipate the seasons by tracking the proportion of light and darkness hours within a day—photoperiod. The limits of photoperiod measurement can be investigated in the subterranean rodents tuco-tucos (Ctenomys aff. knighti), which inhabit dark underground tunnels. Their exposure to light is sporadic and, remarkably, results from their own behavior of surface emergence. Thus, we investigated the endogenous and exogenous regulation of this behavior and its consequences to photoperiod measurement. In the field, animals carrying biologgers displayed seasonal patterns of daily surface emergence, exogenously modulated by temperature. In the laboratory, experiments with constant lighting conditions revealed the endogenous regulation of seasonal activity by the circadian clock, which has a multi-oscillatory structure. Finally, mathematical modeling corroborated that tuco-tuco's light exposure across the seasons is sufficient for photoperiod encoding. Together, our results elucidate the interrelationship between the circadian clock and temperature in shaping seasonal light exposure patterns that convey photoperiod information in an extreme photic environment. [ABSTRACT FROM AUTHOR]

Published

2021

24. Root Architecture, Growth and Photon Yield of Cucumber Seedlings as Influenced by Daily Light Integral at Different Stages in the Closed Transplant Production System.

Author

Yifei Wang, Yangyang Chu, Ze Wan, Geng Zhang, Lei Liu, and Zhengnan Yan

Subjects

SEEDLINGS, CUCUMBER growing, LIGHT emitting diodes, PHOTOPERIODISM, ROOT growth

Abstract

Optimizing light conditions for vegetable seedling production in a closed transplant production system is critical for plant growth and seedling production. Additionally, energy use efficiency should be considered by growers when managing the light environment. In the present study, cucumber seedlings (Cucumis sativus L. cv. Tianjiao No. 5) were grown under six different daily light integrals (DLIs) at 8.64, 11.52, 14.40, 17.28, 23.04, and 28.80 mol m−2 d −1 created by two levels of photosynthetic photon flux density (PPFD) of 200 and 400 µmol m−2 s −1 combined with photoperiod of 12, 16 and 20 h d−1 provided by white light-emitting diodes (LEDs) in a closed transplant production system for 21 days. Results indicated that quadratic functions were observed between fresh and dry weights of cucumber seedlings and DLI at 6, 11, 16, and 21 days after sowing. Generally, higher DLI resulted in longer root length, bigger root volume and root surface area accompanied with shorter plant height and hypocotyl length; however, no significant differences were observed in root length, root volume, and root surface area as DLI increased from 14.40 to 28.80 mol m−2 d −1 . Photon yield based on fresh and dry weights decreased with increasing DLI. In conclusion, increased DLI resulted in compact and vigorous morphology but reduced photon yield of cucumber seedlings produced in a closed transplant production system. In terms of plant growth and energy use efficiency, DLI at 14.40–23.04 mol m−2 d −1 was suggested for cucumber seedling production in the closed production system. Additionally, different control strategies should be applied at different growth stages of cucumber seedlings. [ABSTRACT FROM AUTHOR]

Published

2021

25. PHOTOPERIODISM, AN IMPORTANT ELEMENT FOR THE GROWTH AND FLOWERING OF CHRYSANTHEMUMS.

Author

GRIGORAȘ, Claudia-Daniela and TOMA, Florin

Subjects

CHRYSANTHEMUMS, FLOWERING time, PHOTOPERIODISM, FLOWERS, CUT flowers, GROUND cover plants

Abstract

The durations of the light phase and that of the dark phase (photoperiod) varies with the season, so their succession as well as their development time influences the plant response. Therefore, physiological parameters such as: height of main stems, number of leaves after planting, leaf area (cm2), time to flowering, flowering time and the number of flowers, and diameter of buds and flowers (mm), may be studied in order to optimize the cut flower production for chrysanthemums grown in protected areas. Depending on the necessary environmental conditions, the floral induction and flowering of Chrysanthemum morifolium may be adjusted using camouflage (artificially shortening the length of the day by covering the plants). The purpose of this paper is to review the evolution of research on the behaviour of chrysanthemum plants exposed to a certain photoperiod. [ABSTRACT FROM AUTHOR]

Published

2021

26. Gerald Lincoln: A man for all seasons.

Author

Ebling, Francis J. P., Fletcher, John, Hazlerigg, David G., and Loudon, Andrew S. I.

Subjects

*CHRONOBIOLOGY, *SEASONS, *PHOTOPERIODISM, *NEUROENDOCRINOLOGY, *NATURALISTS

Abstract

Gerald Anthony Lincoln died after a short illness on 15 July 2020 at the age of 75 years. Gerald was Emeritus Professor of Biological Timing at Edinburgh University and a Fellow of the Royal Society of Edinburgh. He was an outstanding scientist and naturalist who was a seminal figure in developing our understanding of the neuroendocrine mechanisms underlying seasonal rhythmicity. This review considers his life and some of his major scientific contributions to our understanding of seasonality, photoperiodism and circannual rhythmicity. It is based on a presentation at the online 2nd annual seasonality symposium (2 October 2020) that was supported financially by the Journal of Neuroendocrinology. [ABSTRACT FROM AUTHOR]

Published

2021

27. Light, Sleep and Performance in Diurnal Birds.

Author

Aulsebrook, Anne E., Johnsson, Robin D., and Lesku, John A.

Subjects

*SLEEP-wake cycle, *ELECTROENCEPHALOGRAPHY, *CIRCADIAN rhythms, *PHOTOPERIODISM, *COGNITIVE ability

Abstract

Sleep has a multitude of benefits and is generally considered necessary for optimal performance. Disruption of sleep by extended photoperiods, moonlight and artificial light could therefore impair performance in humans and non-human animals alike. Here, we review the evidence for effects of light on sleep and subsequent performance in birds. There is accumulating evidence that exposure to natural and artificial sources of light regulates and suppresses sleep in diurnal birds. Sleep also benefits avian cognitive performance, including during early development. Nevertheless, multiple studies suggest that light can prolong wakefulness in birds without impairing performance. Although there is still limited research on this topic, these results raise intriguing questions about the adaptive value of sleep. Further research into the links between light, sleep and performance, including the underlying mechanisms and consequences for fitness, could shed new light on sleep evolution and urban ecology. [ABSTRACT FROM AUTHOR]

Published

2021

28. Understanding photothermal interactions will help expand production range and increase genetic diversity of lentil (Lens culinaris Medik.).

Author

Wright, Derek M., Neupane, Sandesh, Heidecker, Taryn, Haile, Teketel A., Chan, Crystal, Coyne, Clarice J., McGee, Rebecca J., Udupa, Sripada, Henkrar, Fatima, Barilli, Eleonora, Rubiales, Diego, Gioia, Tania, Logozzo, Giuseppina, Marzario, Stefania, Mehra, Reena, Sarker, Ashutosh, Dhakal, Rajeev, Anwar, Babul, Sarkar, Debashish, and Vandenberg, Albert

Subjects

*LENTILS, *PHOTOPERIODISM, *CLIMATE change, *GENOTYPES, *PHENOLOGY

Abstract

Societal Impact Statement: Lentil is a staple in many diets around the world and growing in popularity as a quick‐cooking, nutritious, plant‐based source of protein in the human diet. Lentil varieties are usually grown close to where they were bred. Future climate change scenarios will result in increased temperatures and shifts in lentil crop production areas, necessitating expanded breeding efforts. We show how we can use a daylength and temperature model to identify varieties most likely to succeed in these new environments, expand genetic diversity, and give plant breeders additional knowledge and tools to help mitigate these changes for lentil producers. Summary Lentil (Lens culinaris Medik.) is cultivated under a wide range of environmental conditions, which has led to diverse phenological adaptations and resulted in a decrease in genetic variability within breeding programs due to reluctance in using genotypes from other environments.We phenotyped 324 genotypes across nine locations over three years to assess their phenological response to the environment of major lentil production regions and to predict days from sowing to flowering (DTF) using a photothermal model.DTF was highly influenced by the environment and is sufficient to explain adaptation. We were able to predict DTF reliably in most environments using a simple photothermal model, however, in certain site‐years, results suggest there may be additional environmental factors at play. Hierarchical clustering of principal components revealed the presence of eight groups based on the responses of DTF to contrasting environments. These groups are associated with the coefficients of the photothermal model and revealed differences in temperature and photoperiod sensitivity.Future climate change scenarios will result in increased temperature and/or shifts in production areas. The ability to use the photothermal model to identify genotypes most likely to succeed in these new environments has important social impacts with respect to traditional cropping systems. [ABSTRACT FROM AUTHOR]

Published

2021

29. Photoperiod regulation of molecular clocks and seasonal physiology in the Atlantic salmon (Salmo salar)

Author

McStay, Elsbeth, Migaud, Herve, and Davie, Andrew

Subjects

571.7, Photoperiod, Clocks, Seasonal, Circadian, Atlantic salmon, Photoperiodism

Abstract

Recent years have seen considerable advances in the study of biological rhythms and the underlying molecular mechanisms that drive the daily and seasonal physiology of vertebrates. Amongst teleosts the majority of work in this field has focused on the model species the zebrafish to characterise clock genes and the molecular feedback loop that underpins circadian rhythms and physiology. Daily profiles of clock gene expression in a wide variety of tissues and cell types are now relatively well described. However the zebrafish is a tropical species that does not display distinct seasonality and therefore may not be the species of choice to investigate the entrainment of circannual physiology. In contrast, Atlantic salmon is a highly seasonal teleost that displays considerable temporal organisation of most physiological processes. In salmonids photoperiod is widely known to synchronise physiology to the environmental conditions and as such photoperiod manipulation is routinely used by the salmon industry throughout the production cycle to control and manipulate spawning, smoltification and puberty. Previous studies in salmonid species have already identified a set of clock genes that are linked to these seasonal physiological processes. However, to date, the molecular mechanisms regulating daily and seasonal physiology are largely unknown despite the strong commercial relevance in the Atlantic salmon. In the Atlantic salmon, Davie et al (2009) was the first to report the photoperiod dependent circadian expression of clock genes (Clock, Bmal and Per2 and Cry2) in the brain of the Atlantic salmon. In the same investigation the expression of clock genes was reported in a wide variety of peripheral tissues, however 24h profiles of expression in peripheral tissues were not characterised. In order to examine further the role of seasonal photoperiod on the circadian expression of clock genes, the present work first aimed to characterise diel profiles of Clock, Per1 and Per 2 expression in the brain together with plasma melatonin levels in II Atlantic salmon acclimated to either long day (LD), short day (SD), 12L:12D (referred to as experiment 1 throughout) and SNP (referred to as experiment 2 throughout). Photoperiod dependent clocks were also investigated in peripheral tissues, namely in the fin and liver. Results showed circadian profiles of melatonin under all photoperiods. In experiment 1 both Clock and Per2 displayed significant circadian expression in fish exposed to LD. This is in contrast to previous results where rhythmic clock gene expression was observed under SD. In addition, clock gene expression differed in response to experimental photoperiod in the liver, and diel rhythm differed to that of the brain. No rhythmic expression was observed in the fin. Levels of plasma melatonin exhibited a circadian rhythm peaking during the nocturnal phase as expected. However the amplitude of nocturnal melatonin was significantly elevated under LD (experiment 1) and the SNP long day photoperiod and 2010 autumnal equinox samples (experiment 2). Overall results from these experiments suggested that the control of clock gene expression would be photoperiod dependent in the brain and the liver however photoperiod history is also likely to influence clock gene expression. Interestingly, the gradual seasonal changes in photoperiod under SNP did not elicit similar profiles of clock gene expression as compared to experimental seasonal photoperiods and clock gene expression differed between experimental photoperiod and SNP treatments. In experiment 2 significant seasonal differences were also observed in the amplitude of individual clock gene expression. The mechanisms underlying this and potential impact on seasonal physiology are unknown. Developmental changes such as the smoltification process or abiotic factors such as temperature or salinity should be further investigated. In mammals previous work has focused on the molecular switch for photoperiod response and regulation of thyroid hormone bioactivity via deiodinase mediated conversion of T4 to the biologically active form T3. In mammals and birds expression of key seasonal molecular markers i.e. Tsh, Eya3 and Dio2, are up-regulated hours after exposure to the first LD and III persist under chronic LD conditions. In order to confirm the involvement of these genes in the seasonal photoperiodic response in salmon, a microarray study was first carried out. Results displayed transcriptome level differences in the seasonal expression of a wide variety of target genes including Eya3 and Dio1-3 in relation to LD and SD photoperiod suggesting that these genes may have a conserved role in salmon. qPCR validations of selected genes of interest were then performed (Dio1, Dio2 and Dio3, Eya3 and Tshover diel cycles in fish exposed to LD and SD photoperiod (autumn acclimated fish). In addition an unrelated qPCR study was undertaken in salmon parr acclimated to LD, 12L12D and SD photoperiod (spring acclimated fish)(Dio2, Eya3 and Tsh. Consistent with findings obtained in other vertebrate species, circadian expression of Dio2 was observed under LD. However expression of Eya3 and Tsh appeared to be dependent on photoperiod history prior to acclimation to the experimental photoperiods as already suggested for clock gene expression in this thesis. This is potentially a consequence of direct regulation by clock genes. To our knowledge, this is the first report on the expression of key molecular components that drive vertebrate seasonal rhythms in a salmonid species. The thesis then focused on another key component of the photoneuroendocrine axis in fish, the pineal organ. In the Atlantic salmon, as in other teleosts the photoreceptive pineal organ is considered by many to be essential to the generation, synchronisation and maintenance of circadian and seasonal rhythms. This would be primarily achieved via the action of melatonin although direct evidence is still lacking in fish. In salmonids the production of pineal melatonin is regulated directly by light and levels are continually elevated under constant darkness. In non salmonid teleosts the rhythmic high at night/ low during day melatonin levels persists endogenously under constant conditions and is hypothesised to be governed by light and intra- pineal clocks. The aims of the present in vitro and in vivo trials were to determine if circadian clocks and Aanat2 expression, the rate limiting enzyme for melatonin IV production, are present in salmon, test the ability of the pineal to independently re-entrain itself to a different photoperiod and establish whether the candidate clock genes and Aanat2 expression can be sustained under un-entrained conditions. Expression of clock genes was first studied in vitro with pineal organs exposed to either 12L:12D photoperiod, reversed 12D:12L photoperiod and 24D. Clock gene expression was also determined in vivo, in fish exposed to 12L:12D. Results were then contrasted with an in vitro (12L:12D) investigation in the European seabass, a species displaying endogenous melatonin synthesis. Results revealed no rhythmic clock gene (Clock, per1 and per2) expression in isolated salmon pineals in culture under any of the culture conditions. In the seabass, Clock and Per1 did not also display circadian expression in vitro. However rhythmic expression of Cry2 and Per1 was observed in vivo in the salmon pineal. This suggested some degree of extra-pineal regulation of clocks in the Atlantic salmon. In terms of Aanat2 no rhythmic expression was observed in the Atlantic salmon under any experimental conditions while rhythmic expression of Aanat2 mRNA was observed in seabass pineals. This is consistent with the hypothesis that in salmonids AANAT2 is regulated directly at the protein level by light while in other teleosts, such as seabass, AANAT2 is also regulated by clocks at a transcriptional level.

Published

2012

30. Integrating oscillator-based circadian clocks with crop growth simulations.

Author

Lochocki, Edward B. and McGrath, Justin M.

Subjects

*CIRCADIAN rhythms, *CROP growth, *PHOTOPERIODISM, *SOYBEAN, *SIMULATION methods & models

Published

2021

31. Effects of nitrogen fertilization on growth and yield of diterpene glycosides in stevia (Stevia rebaudiana Bertoni).

Author

DEBARBA, RÔMULO JOÃO, DESCHAMPS, CÍCERO, KANIS, LUIZ ALBERTO, MOTERLE, DIEGO, and RAMPELOTTI, MARCIO

Subjects

STEVIA rebaudiana, DITERPENES, PLANT growth regulation, STEVIOSIDE, PHOTOPERIODISM

Abstract

Copyright of Revista Colombiana de Ciencias Hortícolas is the property of Revista Colombiana de Ciencias Horticolas and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

32. Photoperiod effects on circadian rhythms and puberty onset in African catfish Clarias gariepinus

Author

Al-Khamees, Sami A. and Migaud, Herve

Subjects

571.1, Photoperiod, Melatonin, Catfish, reproduction, Photoperiodism, Clarias gariepinus, Circadian rhythms

Abstract

Photoperiod manipulation is routinely used in the aquaculture industry with the aim to enhance growth by manipulating the timing of reproduction in several commercially important temperate fish species. However, there are clear gaps in our understanding of how photoperiod is perceived by the circadian axis and transmitted to the brain to alter reproduction. Furthermore, due to the wide range of environments inhabited by fish, it is unlikely that one single organization exists. It is therefore believed that comparative studies of temperate species “models” with tropical species such as the African catfish (Clarias gariepinus) that adapted to different environments characterized by weaker light signals can help in such an aim. A number of studies were therefore performed in this PhD project to expand our knowledge on circadian biology and environmental physiological effects in African catfish. The first aim was to characterize the circadian melatonin system in this species (chapter 3). Results clearly showed that the control of melatonin production by the pineal gland was very different in the African catfish as compared to temperate species such as salmon and trout. Indeed, melatonin production appeared to mainly depend on light stimuli perceived by the eyes as opposed to salmonids where light directly perceived by the pineal gland regulates its own melatonin production within photoreceptors. The main evidence was obtained in ophthalmectomised fish that were unable to synthesize and release melatonin into the blood circulation during the dark period. This was the first time that such a decentralized organisation, similar in a way to the mammalian system, was found in any teleost species. In vitro results also supported such findings as African catfish pineal glands in isolation were not able to normally produce melatonin at night as usually seen in all other fish species studied so far. This indirectly suggested that pineal gland photo-sensitivity might be different in this tropical species. Further studies were performed to better determine the amount of light that can be perceived by the African catfish pineal gland depending on light transmittance though the skull (where the pineal gland is located). Surprisingly, it appeared that catfish cranium act as a stronger light filter than in other species resulting in lower light irradiance of the pineal gland. This could explain, although it still needs to be further confirmed, why African catfish photic control of melatonin produced by the pineal would have evolved differently than in temperate species. The work then focused on better characterizing diel melatonin production and endogenous entrainment through exposure to continuous photic regimes (continuous light, LL or darkness, DD) (chapter 4). Daily melatonin profiles of fish exposed to 12L:12D photoperiod (routinely used in indoor systems) confirmed low melatonin production at day (<10 pg/ml) and increase at night (50 pg/ml) as reported in most vertebrate species studied to date. Interestingly, results also showed that melatonin production or suppression can anticipate the change from night to day with basal melatonin levels observed 45 mins prior to the switch on of the light. These observations clearly suggest the involvement of a clock-controlled system of melatonin secretion that is capable of anticipating the next photophase period. Furthermore, when constant light (LL) was applied, day/night melatonin rhythms were abolished as expected due to the constant photic inhibition of AANAT activity (e.g. one of the enzyme responsible for the conversion of serotonin into melatonin). However when fish were exposed to constant darkness (DD), a strong endogenous melatonin rhythm (maintained for at least 4 days and 18 days in catfish and Nile tilapia respectively) was found, demonstrating once again the presence of robust circadian oscillators in this species. The next aim of the doctoral project was then to investigate circadian behaviour of catfish through locomotor activity studies (Chapter 5). African catfish is again a very interesting “model” due to its reported nocturnal activity rhythmicity as compared to most other teleosts species. Locomotor activity is considered as a very useful tool to elucidate the mechanisms of circadian organization in both invertebrates and vertebrates circadian. Results first confirmed the nocturnal activity rhythms in the species. Furthermore, clear circadian endogenous rhythms were observed under constant light (LL) or darkness (DD) during several days before losing rhythmicity. Interestingly, the activity levels varied depending on the stocking density. Finally, the last aim of this project was to test the effects of a range of photoperiodic manipulations on growth performances, sexual development and reproductive performances in African catfish reared from eggs to puberty. Results did not show any differences at the early sages (up to 90 days post hatching) in growth performances nor mortality (high) between control 12L:12D and LL treatments. In contrast, during the juvenile-adult period (from 120 to 360 DPH), significant growth effects were observed, as previously reported in other catfish species, with fish under LL displaying lower growth rate, food consumption and feed conversion efficiency in comparison to most other treatments (12:12, LL, 6:6, 6:18, 12-LL and LL-12) especially 12l:12D. However, no major effects of the photoperiodic treatments were observed with all fish recruited into puberty and developing gonads although differences in the timing of gametogenesis could be observed, especially a delay (circa 2 months) in females exposed to short daylength (6L:18D and 6L:6D). As for egg quality, egg diameter was the only parameter to differ between treatments (slightly larger in egg batch from LL treated females). Overall, none of the photoperiodic regime suppressed maturation in African catfish as opposed to some temperate species. The work carried out during this PhD project clearly advanced our understanding of circadian rhythmicity, light perception and effects of photoperiod on physiology in a tropical species. Future studies are now required to further characterise the circadian system and link it to evolutionary trends within vertebrates.

Published

2009

33. Photic Entrainment and onset of puberty in Nile tilapia Oreochromis niloticus niloticus

Author

Martinez Chavez, Carlos Cristian, Migaud, Herve, and Penman, David J.

Subjects

597, Tilapia, Biological clocks, Melatonin, Kisspeptin, Puberty, Reproduction, Photoperiod, Growth, Circadian, Nile tilapia, Photoperiodism, Circadian rhythms

Abstract

Despite teleosts being the largest and most diverse group of vertebrates, fish models currently used to study photoperiodic effects on fish physiology have been limited to a few species, most of which are temperate seasonal breeders. The overall aim of this work was to expand our knowledge on circadian biology and environmental physiological effects in Nile tilapia (Oreochromis niloticus niloticus), a continuous breeding species of tropical-subtropical origin. The circadian light axis of Nile tilapia is described with regards to melatonin production. Circadian melatonin profiles of fish under 12L:12D photoperiods were observed to be low at day and high at night, suggesting melatonin to be an entraining signal as observed in all other vertebrates. When constant light (LL) was used, such day and night fluctuations where abolished. However when fish where exposed to constant darkness (DD) a strong robust endogenous melatonin rhythm was found, suggesting the presence of circadian oscillators in this species. Importantly, this endogenous rhythm was observed to be maintained for at least three weeks under darkness and proved to be circadian in nature. Moreover, although the melatonin system was able to produce day and night melatonin rhythms when exposed to a different (6L:6D) photocycle, the oscillator appeared to not be entrainable to such a short photo cycle when exposed to DD, as melatonin levels remained high. When comparing the circadian organization of different teleost species including Nile tilapia, preliminary studies showed at least three divergent circadian light organizations in teleosts. Nile tilapia was characterised by a pineal gland far less sensitive than in other fish species as demonstrated through in vitro studies. Furthermore, pineal melatonin production was clearly dependent on the light perceived by the eyes as ophthalmectomy resulted in basal plasma melatonin levels during the dark period. These findings are the first to be reported in a teleost and could be comparable to the circadian light organization of higher vertebrates such as mammals. The onset of puberty of Nile tilapia was studied with regards to the newly discovered Kiss1/GPR54 system. Such a system has recently been discovered in mammals and found to be the primary switch of the brain-pituitary-gonadal (BPG) axis. The results of this study not only suggest a link between the Kiss1/GPR54 system and the onset of III puberty in this tropical batch spawning teleost, that would be a highly conserved feature across vertebrates, but also that the transcriptional mechanisms regulating GPR54 expression could be directly or indirectly influenced by light. Finally, a study was conducted on the effects of different intensities of continuous light (LL) on the growth and sexual development of Nile tilapia up to first maturation. The results showed a significant growth response of fish in all LL treatments compared to control fish. Importantly, this confirmed that LL enhances growth in this species and suggests that it is the light regime more than the intensity which is having an effect. This work thus provides important basic knowledge of the light entrainment pathway and circadian melatonin rhythms in Nile tilapia. Of special importance is the discovery of a strong endogenous melatonin oscillator and a novel circadian organization in fish which would seem to be homologous to that observed in higher vertebrates. Moreover, this work provides evidence that the newly discovered Kiss1/GPR54 system has a similar role in fish as has been found in mammals and that such a system could be directly or indirectly regulated by light. If so, Nile tilapia and other fish species could become important models in the chronobiology and reproduction fields. Finally, this work not only increases our basic and applied knowledge of this species, but also broadens our understanding of the circadian light axis in teleosts and its mediatory effects on reproduction.

Published

2008

34. The Effect of Photoperiod on Growth, and Protein, Lipid and Chlorophyll Content in Scenedesmus Acutus.

Author

AGIRMAN KAYMAZ, Nur and CETIN, A. Kadri

Subjects

*PHOTOPERIODISM, *GREEN algae, *SCENEDESMUS acutus, *LIPIDS, *CHLOROPHYLL

Abstract

The effect of photoperiod on the growth, protein, lipid and pigment content in Scenedesmus acutus was examined on cultures exposed to 23 ± 1 °C for ten days at the light intensity of 55 µmol photon m-2s-1. Results showed that photoperiods had an effect on cell number, and protein and chlorophyll content. The growth, protein, lipid and chlorophyll levels in Scenedesmus acutus cultures reached maximum in different days and photoperiods. The number of cells of the continuously illuminated cultures was highest on day seven after inoculation. The total protein and total lipid content were highest on day eight under the light/dark photoperiod of 20/4 h while total chlorophyll content was highest on day ten under the light/dark photoperiod of 24:0 h. The cultures continuously illuminated for cell growth had the highest specific growth rate (µ=0.2304). Protein content had a specific growth rate of µ=0.0725 under the light/dark photoperiod of 20/4 h while total chlorophyll content had a specific growth rate of µ=0.0890 under the light/dark photoperiod of 12:12-h. [ABSTRACT FROM AUTHOR]

Published

2020

35. Seasonality and photoperiod influence in vitro production of buffalo embryos.

Author

Shahzad, Qaisar, Waqas, Muhammad, Pu, Liping, Wadood, Armughan Ahmed, Xie, Long, Husna, Asma Ul, Yang, Kailin, Wang, Jingyuan, Xu, Huiyan, Lu, Kehuan, and Lu, Yangqing

Subjects

*OVUM, *EMBRYOS, *HEAT shock proteins, *CATTLE fertility, *PHOTOPERIODISM

Abstract

Buffalo is considered short‐day breeder in tropical and subtropical part of the world and seasonality and photoperiodism impart major influence on its fertility. However, its impact on in vitro embryo production (IVEP) remains elusive. Therefore, this study investigated the effect of seasonal variations and photoperiodism on morphological and molecular parameters of IVEP in buffalo. For this purpose, we conducted two different experiments on the oocytes obtained by aspirating follicles from abattoir derived ovaries. In Exp. I, retrospective analysis was performed for oocyte recovery, blastocyst and hatching rate, during four consecutive seasonal periods (i.e. January–March, April–June, July–September and October–December). In Exp. II, oocytes from peak breeding and non‐breeding seasons were subjected to 24 hr in vitro maturation and evaluated for polar body extrusion to assess maturation rate. Results showed that embryo development was markedly low during second quarter (April–June) and maximum during fourth quarter (October–December) of the year; referred as non‐breeding and breeding seasons, respectively. Comparative data analysis demonstrated that poor oocyte quality is major reason for lesser efficiency of embryo production during non‐breeding season than peak breeding season as suggested by poor oocyte recovery (2.31 ± 0.10 vs. 3.65 ± 0.27) and maturation rate (33.32 ± 2.1 vs. 63.15 ± 7.31). Subsequently, comparative gene expression analysis of blastocysts during peak breeding season significantly upregulated pluripotency gene (OCT‐4) and downregulated heat shock protein 90, as compared to non‐breeding season. Therefore, it could be divulged from the present study that seasonal variations and photoperiodism have profound effect on oocyte quality and subsequent embryo development. It is recommended to find suitable additives for in vitro maturation that could mitigate seasonal effects. [ABSTRACT FROM AUTHOR]

Published

2020

36. Insect photoperiodism: Seasonal development on a revolving planet.

Author

SAUNDERS, DAVID

Subjects

*PHOTOPERIODISM, *INSECTS, *DROSOPHILA melanogaster, *TIME measurements, *DIAPAUSE

Abstract

This review starts by comparing photoperiodic diapause with non-photoperiodic quiescence in four representative species, paying particular attention to overwintering in Drosophila melanogaster. In the second part it describes dormancy strategies of insects from the equator to the polar regions, addressing topics such as the role of the circadian system in photoperiodic time measurement, latitudinal clines in diapause-related traits, hourglass-like photoperiodic clocks based on dampening circadian oscillators, and the dormancy strategies of insects close to the equator or at high latitudes where seasonal changes in photoperiod are unreliable or absent. [ABSTRACT FROM AUTHOR]

Published

2020

37. Photoperiodic effects on the male gonads of the Namibian gerbil, Gerbilliscus cf. leucogaster from central Namibia.

Author

Muteka, Sachariah P., Chimimba, Christian T., Bastos, Armanda D. S., and Bennett, Nigel C.

Subjects

*GERBILS, *SEMINIFEROUS tubules, *GONADS, *PHOTOPERIODISM, *RODENTS, *RAINFALL

Abstract

Photoperiodism has been shown to be an important synchronizer of seasonal reproduction in many rodent species in the wild; it is a reliable cue as in the southern hemisphere it coincides with the onset of rainfall and hence the availability of food resources for maximal reproductive success. The photoperiodic effect on the reproductive status of the Namibian gerbil, Gerbilliscus cf. leucogaster from central Namibia was investigated. Twenty adult males were exposed to a long-day length (16L:8D), while further 20 adult males were subjected to a short-day length (SD:8L:16D); all for a period of 3 months. Testicular mass per gram body mass, testicular volume and seminiferous tubule diameters were used to assess the effect of photoperiod on gonadal development. Body mass did not significantly differ between the two photoperiodic regimes. The testicular mass per gram of body mass was significantly heavier for the males maintained on a long photoperiod compared to those on a short photoperiod. Similarly, testicular volume and seminiferous tubule diameter were greater in males maintained on a long-day cycle compared to those on the short-day cycle. These findings suggest that G. cf. leucogaster is photoresponsive to day length changes. Photoperiodic changes in the semi-arid habitats can be used to herald the onset of reproduction as it often acts in concert with other proximate cues in desert rodents, but is a constant environmental cue that does not change from year to year, unlike rainfall patterns. [ABSTRACT FROM AUTHOR]

Published

2020

38. Identification and functional characterization of SOC1-like genes in Pyrus bretschneideri.

Author

Liu, Zhe, Wu, Xiaoping, Cheng, Mengyu, Xie, Zhihua, Xiong, Changlong, Zhang, Shaoling, Wu, Juyou, and Wang, Peng

Subjects

*PEARS, *PLANT genes, *FLOWERING time, *BUD development, *ARABIDOPSIS, *FLOWER development, *PHOTOPERIODISM

Abstract

Flowering is a prerequisite for pear fruit production. Therefore, the development of flower buds and the control of flowering time are important for pear trees. However, the molecular mechanism of pear flowering is unclear. SOC1, a member of MADS-box family, is known as a flowering signal integrator in Arabidopsis. We identified eight SOC1-like genes in Pyrus bretschneideri and analyzed their basic information and expression patterns. Some pear SOC1-like genes were regulated by photoperiod in leaves. Moreover, the expression patterns were diverse during the development of pear flower buds. Two members of the pear SOC1-like genes, PbSOC1d and PbSOC1g, could lead to early flowering phenotype when overexpressed in Arabidopsis. PbSOC1d and PbSOC1g were identified as activators of the floral meristem identity genes AtAP1 and AtLFY and promote flowering time. These results suggest that PbSOC1d and PbSOC1g are promoters of flowering time and may be involved in flower bud development in pear. • Eight SOC1-like homologous genes were identified in pear. • PbSOC1-like proteins could be divided to 3 subfamilies by C-terminal motifs. • PbSOC1-like genes shown diverse response to photoperiod and flower bud development. • Overexpression of PbSOC1d and PbSOC1g cause early flowering time in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2020

39. Effects of photoperiod manipulation on growth and reproduction in Atlantic cod (Gadus morhua L.)

Author

Davie, Andrew, McAndrew, Brendan J., Migaud, Herve, Porter, Mark J. R., and Bromage, Niall R.

Subjects

639.37633, Atlantic cod, Gadus morhua, puberty, sexual maturation, growth, photoperiod, Atlantic cod, Photoperiodism, Aquaculture Ph.D thesis

Abstract

Sexual maturation during commercial culture of Atlantic cod (Gadus morhua L.) represents a significant production bottleneck restricting the profitability of the industry. Such problems in other species have traditionally been addressed by artificial manipulation of photoperiod cycles, however little research exists in this field in cod. This thesis therefore investigates the interactions between artificial photoperiod manipulation, sexual maturation and somatic growth in this species. In the first experiment, populations of Atlantic cod (hatched, spring 1999) were maintained on either a simulated natural photoperiod (SNP) or continuous illumination (LL) from approximately 15 months post hatch (MPH) (July 2000) in an enclosed tank system. Growth performance was recorded monthly along with observations of reproductive activity over the subsequent 2 years (up to July 2002). At both 2 and 3 years of age the entire population raised under SNP matured and spawned, during which time mean weight reduced by 13% and 24% respectively. No spawning individuals were recorded at 2 years of age in the LL population and only 18% were observed to spawn at 3. However, observations of both changes in gonadal morphology (observed via ultrasound scanning) and a suppression in growth rate at 2 years of age in the LL population alluded to a maturation “dummy run” regulated by an endogenous clock. Despite this phenomenon, the LL treatment realised a 39% and 43% improvement in wet weight following 1 and 2 years of exposure to LL respectively. When the diel cycle of plasma melatonin was compared between the treatments in February 2001 (23MPH) the SNP population displayed an A-profile diel rhythm ranging between 20 and 50 pg/ml while the LL treatment did not display any rhythm. In the second experiment of this work, two populations of cod (hatched, spring 2001) were reared in commercial open cage systems, one of which experienced continuous additional artificial illumination between July 2002 (15MPH) and October 2003 (30MPH) provided by four, 400W submerged lighting units. Growth and maturation were assessed in both populations throughout. In March 2003 (24MPH) it was apparent that spawning individuals were present in both the SNP and LL populations though a significantly lower number of spawning individuals in the LL treatment suggested that the peak in spawning activity was delayed by about 1 to 2 months. With both populations apparently maturing at 2 years of age, there was no significant difference in weight between the populations at the end of the trial. In comparison to experiments I and IV of this work, these results would suggest that in comparison to salmonids for example, Atlantic cod appear to have a heightened sensitivity to light allowing individuals to differentiate the ambient photoperiod signal from the application of continuous artificial light. In the third experiment, 6 populations of approximately 20 tagged individuals (hatched spring 1999) were maintained, from December 2000 to July 2002, under either SNP, LL or one of four, out of season “square wave” photoperiod regimes (repeating cycles with a 12 month period, consisting of a 6 month window of LL followed by six months of short day lengths [SD, 7L:17D] which had been staggered to start over a six month period). Each individual was monitored monthly for maturation status. Out of season “square wave” photoperiods were demonstrated to successfully entrain maturation and hence significantly alter the spawning profiles in these populations. Application of LL from December 2000 failed to inhibit maturation in the spring of 2001 and, in fact, advanced the spawning season by 1 month while those that experienced SD from the same date showed significant extension of the subsequent spawning season. Interestingly, the males maintained on LL throughout the experiment matured both in the spring of 2001 and one year later in the spring of 2002 while females under the same treatment only matured and spawned in 2001. In the fourth experiment, a total of 830 tagged individuals were raised either under SNP or one of 7 photoperiod treatments, consisting of 5 groups transferred from SNP to LL at 3 monthly intervals between 6 and 18 MPH where they remained and a further two groups maintained on LL from 6 to 15MPH and 6 to 21 MPH respectively before being returned to SNP. Both the gonadic and somatic axes were monitored at the physiological and endocrinological level at three monthly intervals from 6 to 27 MPH. The results demonstrated that it is the falling autumnal photoperiod signal after the summer solstice, more specifically after October, that is responsible for recruiting individuals to enter the sexual maturation cycle. Furthermore, in all treatments where this signal was masked i.e. those which experienced LL starting at or prior to 15MPH, except for some restricted spermatogenic activity in the males testis observed at 27MPH, there was no significant reproductive activity and growth was improved by up to 60% at 27 MPH. While providing evidence for direct photic stimulation of somatic growth, the growth results were also correlated with the measurement of plasma IGF-I and demonstrated its potential as a tool to assess growth rates in the species. Plasma melatonin measured at 15MPH, as in experiment I, was suppressed in all populations which were under LL photoperiods. By identifying the photoperiod “window of opportunity” which recruits individuals into the sexual maturation cycle, this work was able to conclude that the application of LL from the summer solstice prior to maturation is the most efficient photoperiod strategy to be adopted by the aquaculture industry to realise maximum growth potential from their cultured stocks.

Published

2005

40. The effects of photoperiod manipulation on growth and reproduction in rainbow trout (Oncorhynchus mykiss)

Author

Taylor, John Frank

Subjects

639.3757, photoperiod, growth, maturation, IGF-I, melatonin, Rainbow trout, Photoperiodism

Abstract

Photoperiod is an important signal involved in the timing and co-ordination of many processes such as growth and reproduction in salmonids. Both growth and reproduction appear to be controlled by endogenous rhythms, which under natural conditions, is entrained by the seasonal changes in daylength, that is accurately reflected by the diel pattern of melatonin. This thesis investigates the influence of photoperiod on growth and reproduction in rainbow trout (Oncorhynchus mykiss), and examines the effect on plasma insulin-like growth factor-I (IGF-I). These studies aim to further our scientific understanding of the endocrine mechanisms controlling growth and reproduction and transfer this knowledge to commercial trout farming practices. Studies at fry (<5g) and fingerling (>25g) stages investigated the effect of exposure to constant long-days (LD18:6) and constant light (LL) on growth performance. In all experiments, there was a significant growth enhancing effect following exposure to extended light regimes relative to those under ambient or constant short-day photoperiods. Growth enhancement appeared to be caused through direct photo-stimulation or a phaseshift in an underlying endogenous rhythm dependent on the timing of photoperiod application. Measurement of plasma IGF-I accurately reflected growth rate during juvenile development. Furthermore, a clear autumnal increase in IGF-I was observed that was apparently up-regulated by long-day photoperiods. Additionally, it was shown that melatonin implants significantly reduced growth rate below that of unimplanted controls irrespective of photoperiod, but did not reduce circulating IGF-I levels suggesting that elevated melatonin levels masked the perception of daylength but did not act directly on the somatotropic axis to control growth. As size or one of its correlates (growth rate, energy balance or nutritional status) is regarded as an important determinant of the ability to undergo puberty, the interaction of natural (SNP) and advancing (ADV: long-short day) photoperiods with growth, IGF-I and reproduction was investigated in virgin female broodstock. Under SNP 63% of the population attained maturity while only 29% spawned in the ADV regime. Under SNP both size and growth rate in late spring/early summer appeared to determine whether an individual may initiate maturation. Conversely, under ADV, condition factor appeared to be a better predictor. A complete seasonal relationship between plasma IGF-I, daylength and temperature was demonstrated for the first time in rainbow trout under natural conditions, and provides direct evidence for the relationship between maturation and IGF-I. IGF-I levels showed a negative correlation with testosterone as fish initiated maturation. Furthermore, IGF-I levels accurately reflected growth rate prior to the initiation of vitellogenesis, suggesting that IGF-I may provide an endocrine signal between the somatotropic and reproductive axes that nutritional status, growth rate and/or size is sufficient to initiate maturation. In addition, maturing individuals under both photoperiods typically expressed higher circulating IGF-I levels than those that remained immature and may reflect a greater opportunity for IGF-I to act on the pituitary to stimulate gonadotropin production. In this sense, the observation of elevated levels for 3 months under SNP compared to only 1 month under ADV may reflect a reduction in the window of opportunity to initiate maturation under advancing photoperiods and hence explain the reduction in fish spawning. Finally, using a commercially available ELISA kit provided evidence of a possible detection method for measurement of a leptin-like peptide as absolute levels differed significantly between mature and immature fish. This provides preliminary evidence for a possible involvement of a leptin-like peptide in rainbow trout reproduction and energy homeostasis. Given the above evidence of a growth enhancing effect of photoperiod in covered systems, the transfer of constant light (LL) regimes to uncovered commercial trout farming practices was also examined. The application of LL regimes during either fry grow-out in tanks using floating lights or ongrowing to harvest size during winter in cages using submersible lights was investigated. In all trials conducted, the exposure to LL in autumn significantly enhanced winter growth rate and feeding efficiency by up to 30% and 25% respectively relative to those maintained under ambient light. Furthermore, the effect of light intensity was clearly shown to be an important requirement in successfully applying photoperiod regimes onto the ambient photoperiod in order to enhance commercial production in "uncovered systems". These studies clearly indicate the importance of photoperiod in influencing growth and reproduction in rainbow trout. Furthermore, the use of plasma IGF-I as an indicator of growth provides a practical tool for studying growth-photoperiod-reproduction interactions in this species. However, further studies are necessary to further our understanding of the endocrine pathways governing physiological mechanisms, especially growth and reproduction. Overall, this work has provided important information to improve both scientific understanding and commercial development although it is clear that substantial research is still required.

Published

2004

41. Multi-locus genome-wide association studies reveal novel alleles for flowering time under vernalisation and extended photoperiod in a barley MAGIC population

Author

Tefera Tolera Angessa, Viet Hoang Dang, Chengdao Li, Camilla Beate Hill, Xiao-Qi Zhang, and Lee-Anne McFawn

Subjects

Genetic Markers, photoperiodism, Genetics, education.field_of_study, Photoperiod, Quantitative Trait Loci, Population, Magic (programming), food and beverages, Hordeum, Locus (genetics), Genome-wide association study, General Medicine, Biology, Flowering time, Plant Breeding, Phenotype, Allele, Edible Grain, education, Agronomy and Crop Science, Alleles, Genome-Wide Association Study, Biotechnology

Abstract

Key message Key genes controlling flowering and interactions of different photoperiod alleles with various environments were identified in a barley MAGIC population. A new candidate gene for vernalisation requirements was also detected. Abstract Optimal flowering time has a major impact on grain yield in crop species, including the globally important temperate cereal crop barley (Hordeum vulgare L.). Understanding the genetics of flowering is a key avenue to enhancing yield potential. Although bi-parental populations were used intensively to map genes controlling flowering, their lack of genetic diversity requires additional work to obtain desired gene combinations in the selected lines, especially when the two parental cultivars did not carry the genes. Multi-parent mapping populations, which use a combination of four or eight parental cultivars, have higher genetic and phenotypic diversity and can provide novel genetic combinations that cannot be achieved using bi-parental populations. This study uses a Multi-parent advanced generation intercross (MAGIC) population from four commercial barley cultivars to identify genes controlling flowering time in different environmental conditions. Genome-wide association studies (GWAS) were performed using 5,112 high-quality markers from Diversity Arrays Technology sequencing (DArT-seq), and Kompetitive allele-specific polymerase chain reaction (KASP) genetic markers were developed. Phenotypic data were collected from fifteen different field trials for three consecutive years. Planting was conducted at various sowing times, and plants were grown with/without additional vernalisation and extended photoperiod treatments. This study detected fourteen stable regions associated with flowering time across multiple environments. GWAS combined with pangenome data highlighted the role of CEN gene in flowering and enabled the prediction of different CEN alleles from parental lines. As the founder lines of the multi-parental population are elite germplasm, the favourable alleles identified in this study are directly relevant to breeding, increasing the efficiency of subsequent breeding strategies and offering better grain yield and adaptation to growing conditions.

Published

2022

42. The effect of timing of extended photoperiod on growth and maturity of brook trout (Salvelinus fontinalis).

Author

Lundova, Katsiaryna, Matousek, Jan, Prokesova, Marketa, Sebesta, Roman, Policar, Tomas, and Stejskal, Vlastimil

Subjects

*PHOTOPERIODISM, *BROOK trout, *FISH growth, *DEVELOPMENTAL biology, *GONAD development, *FISHES

Abstract

The influence of timing of extended photoperiods on growth and maturity of brook trout was investigated in a 112‐day experiment. The fish with mean initial weight of ~192 g were reared under four light regimes: one control group with natural ambient photoperiod and three groups exposed to an 18L:6D regime initiated at days 1, 23 or 46 of the growth trial. Light‐emitting diodes, with intensity of 250–1000 lux, depending on the distance from the light source, were used for extending light periods. There was a positive effect of prolonged day length on fish growth (p < 0.05), and a delay in gonad development and sexual maturity. Significantly higher numbers of sexually mature fish were found among controls groups, regardless of sex. Survival rate was not affected by light regime. This study demonstrated that the short‐term expansion of the photo period delayed maturation and increased the growth rate of brook trout. [ABSTRACT FROM AUTHOR]

Published

2019

43. Effect of photoperiod on ovarian morphology, reproductive hormone secretion, and hormone receptor mRNA expression in layer ducks during the pullet phase.

Author

Cui, Yao-ming, Wang, Jing, Hai-jun, Zhang, Feng, Jia, Wu, Shu-geng, and Qi, Guang-hai

Subjects

*GENE expression, *PHOTOPERIODISM, *GONADOTROPIN, *LUTEINIZING hormone, *MESSENGER RNA

Abstract

We evaluated the effect of photoperiod on ovarian morphology, reproductive hormone secretion, and hormone receptor mRNA expression in layer ducks during the pullet phase. A total of 480 71-d-old Jinding layer ducks were randomly divided into 5 groups that received 6L (hours of light):18D (hours of darkness), 8L:16D, 10L:14D, 12L:12D, or 14L:10D, respectively. Each group had 6 replicates with 16 birds each. The photoperiod feeding trial lasted 80 d until 150 d of age. The age at first egg (AFE), the total number, and weight of eggs increased linearly with increasing photoperiods (P < 0.05); lower values of AFE occurred with photoperiods ≥8 h, whereas a higher total number and weight of eggs occurred with photoperiods ≥10 h, compared with 6L:18D (P > 0.05). Oviduct weight, ovary percentage, and initial and bare stroma (weight and percentage) increased quadratically with increasing photoperiods (P < 0.05), and 10.24, 10.01, and 10.10 h were the optimal photoperiods for oviduct weight, bare stroma (follicles ≥2 mm in diameter removed) weight, and bare stroma percentage, respectively, as calculated from reliable regression equations (R2 ≥ 0.5791). Compared with 6L:18D, 10L:14D had a higher total large white follicle weight, small yellow follicle number, and weight (P < 0.05). In addition, higher serum levels of follicle-stimulating hormone, luteinizing hormone, and progesterone were observed with ≥10-h photoperiods (P < 0.05), as were levels of hormone receptor mRNA expression in ovarian follicles (P < 0.05), with the highest values for both measures at 10L:14D. In the hypothalamus, mRNA expression of gonadotropin-releasing hormone increased in ≥8-h photoperiods, with the highest value at 10L:14D. In contrast, gonadotropin-inhibitory hormone increased in photoperiods ≥12 h (P < 0.05). In conclusion, an appropriate photoperiod led to early sexual maturity and improved the development of reproductive organs and ovarian follicles through effects on reproductive hormones and their receptors; 10 to 10.24 h is an adequate photoperiod for layer ducks during the pullet phase. [ABSTRACT FROM AUTHOR]

Published

2019

44. Sequential Photoperiodic Programing of Serotonin Neurons, Signaling and Behaviors During Prenatal and Postnatal Development.

Author

Siemann, Justin K., Green, Noah H., Reddy, Nikhil, and McMahon, Douglas G.

Subjects

PHOTOPERIODISM, SEROTONIN, NEURONS, CELLULAR signal transduction, NEURODEVELOPMENTAL treatment

Abstract

Early life stimuli during critical developmental time frames have been linked to increased risk for neurodevelopmental disorders later in life. The serotonergic system of the brain is implicated in mood disorders and is impacted by the duration of daylight, or photoperiod. Here we sought to investigate sensitive periods of prenatal and postnatal development for photoperiodic programming of DRN serotonin neurons, midbrain serotonin and metabolite levels along with affective behaviors in adolescence (P30) or adulthood (P50). To address these questions we restricted the interval of exposure to prenatal development (E0-P0) for Long summer-like photoperiods (LD 16:8), or Short winter-like photoperiods (LD 8:16) with postnatal development and maturation then occurring under the opposing photoperiod. Prenatal exposure alone to Long photoperiods was sufficient to fully program increased excitability of DRN serotonin neurons into adolescence and adulthood, similar to maintained exposure to Long photoperiods throughout development. Interestingly, Long photoperiod exposure can elevate serotonin and its' corresponding metabolite levels along with reducing affective behavior, which appear to have both pre and postnatal origins. Thus, exposure to Long photoperiods prenatally programs increased DRN serotonin neuronal excitability, but this step is insufficient to program serotonin signaling and affective behavior. Continuing influence of Long photoperiods during postnatal development then modulates serotonergic content and has protective effects for depressive-like behavior. Photoperiodic programing of serotonin function in mice appears to be a sequential process with programing of neuronal excitability as a first step occurring prenatally, while programing of circuit level serotonin signaling and behavior extends into the postnatal period. [ABSTRACT FROM AUTHOR]

Published

2019

45. Experimental and modeling evidence of carbon limitation of leaf appearance rate for spring and winter wheat.

Author

Baumont, Maeva, Parent, Boris, Manceau, Loïc, Brown, Hamish E, Driever, Steven M, Muller, Bertrand, and Martre, Pierre

Subjects

*WINTER wheat, *PLANT development, *CARBON dioxide, *PHOTOPERIODISM, *PHOTOSYNTHESIS, *CROP yields

Abstract

Accurate predictions of the timing of physiological stages and the development rate are crucial for predicting crop performance under field conditions. Plant development is controlled by the leaf appearance rate (LAR) and our understanding of how LAR responds to environmental factors is still limited. Here, we tested the hypothesis that carbon availability may account for the effects of irradiance, photoperiod, atmospheric CO2 concentration, and ontogeny on LAR. We conducted three experiments in growth chambers to quantify and disentangle these effects for both winter and spring wheat cultivars. Variations of LAR observed between environmental scenarios were well explained by the supply/demand ratio for carbon, quantified using the photothermal quotient. We therefore developed an ecophysiological model based on the photothermal quotient that accounts for the effects of temperature, irradiance, photoperiod, and ontogeny on LAR. Comparisons of observed leaf stages and LAR with simulations from our model, from a linear thermal-time model, and from a segmented linear thermal-time model corrected for sowing date showed that our model can simulate the observed changes in LAR in the field with the lowest error. Our findings demonstrate that a hypothesis-driven approach that incorporates more physiology in specific processes of crop models can increase their predictive power under variable environments. [ABSTRACT FROM AUTHOR]

Published

2019

46. The effect of salinity and photoperiod on thermal tolerance of Atlantic and coho salmon reared from smolt to adult in recirculating aquaculture systems.

Author

Hines, Chandler W., Fang, Yuanchang, Chan, Victor K.S., Stiller, Kevin T., Brauner, Colin J., and Richards, Jeffrey G.

Subjects

*RECIRCULATING electron accelerators, *AQUACULTURE, *PHOTOPERIODISM, *SALINITY, *THERMAL tolerance (Physiology)

Abstract

Abstract Land-based, closed containment salmon aquaculture involves rearing salmon from smolt to adult in recirculating aquaculture systems (RAS). Unlike in open-net pen aquaculture, rearing conditions can be specified in RAS in order to optimize growth and physiological stress tolerance. The environmental conditions that yield optimal stress tolerance in salmon are, however, unknown. To address this knowledge gap, we reared Atlantic (Salmo salar) and coho (Oncorhynchus kisutch) salmon in 7 separate RASs for 400 days post-smoltification under 2 photoperiods (24:0 or 12:12, light:dark) and 4 salinities (2.5, 5, 10 or 30 ppt.) and assessed the effects of these conditions on thermal tolerance. We found that over the first 120 days post-smoltification, rearing coho under a 24:0 photoperiod resulted in a ~2 °C lower critical thermal maxima (CT max) than in coho reared under a 12:12 photoperiod. This photoperiod effect did not persist at 200 and 400 days, which was coincident with an overall decrease in CTmax in coho. Finally, Atlantic salmon had a higher CT max (~28 °C) compared to coho (~26 °C) at 400 days post-smoltification. Overall, these findings are important for the future implications of RAS and for the aquaculture industry to help identify physiologically sensitive time stages. Highlights • In coho salmon, a 24:0 photoperiod significantly reduced CT max relative to a 12:12 photoperiod on days 60 and 120. • CT max decreased over time in coho salmon from approximately 29 °C at 60 days to 26 °C at 400 days post-smoltification. • Salinity had no effect on CTmax in coho or Atlantic salmon. • Atlantic salmon had a higher CT max (28 °C) than coho salmon (26 °C). • This information is important for the aquaculture industry when considering the conditions under which salmon are reared in RAS. [ABSTRACT FROM AUTHOR]

Published

2019

47. Effects of photoperiod on nutrient digestibility, hair follicle activity and cashmere quality in Inner Mongolia white cashmere goats.

Author

Chong Zhi Zhang, Hai Zhou Sun, Sheng Li Li, Dan Sang, Chun Hua Zhang, Lu Jin, Antonini, Marco, and Cun Fa Zhao

Subjects

*PHOTOPERIODISM, *DIGESTION, *ANIMAL nutrition, *HAIR follicles, *CASHMERE, *GOATS

Abstract

Objective: This study investigated the effects of photoperiod on nutrient digestibility, hair follicle (HF) activity and cashmere quality in Inner Mongolia white cashmere goats. Methods: Twenty-four female (non-pregnant) Inner Mongolia white cashmere goats aged 1 to 1.5 years old with similar live weights (mean, 20.36±2.63 kg) were randomly allocated into two groups: a natural daily photoperiod group (NDPP group:10 to 16 h light, n = 12) and a short daily photoperiod group (SDPP group: 7 h light:17 h dark, n = 12). All the goats were housed in individual pens and fed the same diets from May 15 to October 15, 2015. The digestibility of crude protein (CP), dry matter (DM), and neutral detergent fiber (NDF) were measured in different months, along with secondary hair follicle (SHF) activity, concentration of melatonin (MEL), and cashmere quality. Results: Although there was no significant difference in the live weights of goats between the SDPP and NDPP groups (p>0.05), the CP digestibility of goats in the SDPP group was significantly increased compared to the NDPP group in July, September, and October (p<0.05). For the DM and NDF digestibility of goats, a significant increase (p<0.05) was found during in September in the SDPP group. Furthermore, compared to the NDPP group, the SHF activity in July, the MEL concentration in July, and the cashmere fiber length and fiber weight in October were significantly increased in the SDPP group (p<0.05). Conclusion: The cashmere production of Inner Mongolia white cashmere goats was increased without obvious deleterious effects on the cashmere fibers in the SDPP group (metabolizable energy, 8.34 MJ/kg; CP, 11.16%; short daily photoperiod, 7 h light:17 h dark). [ABSTRACT FROM AUTHOR]

Published

2019

48. Expression of sugarcane genes associated with perception of photoperiod and floral induction reveals cycling over a 24-hour period.

Author

Glassop, Donna and Rae, Anne L.

Subjects

*SUGARCANE, *GENE expression, *PHOTOPERIODISM, *CIRCADIAN rhythms, *GIBBERELLINS, *PLANTS

Abstract

The genetic network resulting in the production of an inflorescence is complex, involving one or more pathways including the photoperiod, maturity, gibberellin and autonomous pathways, and induction and repression of genes along the pathways. Understanding the cyclic expression profile of genes involved with photoperiod perception and floral pathway induction in sugarcane, an intermediate–short day plant (ISD), is crucial for identifying key genes and understanding how the profile changes in response to floral induction signals under decreasing daylengths. Homologues of 21 genes, and some gene alleles, associated with photoperiod perception and the flower induction pathway were examined in sugarcane variety Q174 over a 24-h light-dark cycle. The strongest expression of these genes was seen in the immature spindle leaves and levels of expression generally decreased with increasing leaf age. Significant changes in gene expression levels during a 24-h cycle were observed for 16 of the 21 genes tested. We have now defined an important baseline for expression patterns over a 24-h cycle in non-inductive conditions in sugarcane. These results can be utilised to select the optimal time for detecting changes during floral induction, differences between varieties that are responsive/non-responsive to photoperiod induction, and to identify genes that may be manipulated to enhance or inhibit flowering. This is the first study to propose the gene pathway for floral induction in sugarcane. The expression pattern of 21 genes was examined over 24 h to identify cyclic patterns of expression. These profiles are important to determine when floral inductive conditions are perceived by sugarcane and why some varieties may not flower. [ABSTRACT FROM AUTHOR]

Published

2019

49. Chlorella vulgaris integrates photoperiod and chloroplast redox signals in response to growth at high light.

Author

Hollis, Lauren, Ivanov, Alexander G., and Hüner, Norman P. A.

Subjects

PHOTOPERIODISM, GREEN algae, PHENOTYPES, CHLORELLA vulgaris, ELECTRON transport

Abstract

Main conclusion: Photoacclimation to variable light and photoperiod regimes in C. vulgaris represents a complex interplay between "biogenic" phytochrome-mediated sensing and "operational" redox sensing signaling pathways.Chlorella vulgaris Beijerinck UTEX 265 exhibits a yellow-green phenotype when grown under high light (HL) in contrast to a dark green phenotype when grown at low light (LL). The redox state of the photosynthetic electron transport chain (PETC) as estimated by excitation pressure has been proposed to govern this phenotypic response. We hypothesized that if the redox state of the PETC was the sole regulator of the HL phenotype, C. vulgaris should photoacclimate in response to the steady-state excitation pressure during the light period regardless of the length of the photoperiod. As expected, LL-grown cells exhibited a dark green phenotype, low excitation pressure (1 − qP = 0.22 ± 0.02), high chlorophyll (Chl) content (375 ± 77 fg Chl/cell), low Chl a/b ratio (2.97 ± 0.18) as well as high photosynthetic efficiency and photosynthetic capacity regardless of the photoperiod. In contrast, C. vulgaris grown under continuous HL developed a yellow-green phenotype characterized by high excitation pressure (1 − qP = 0.68 ± 0.01), a relatively low Chl content (180 ± 53 fg Chl/cell), high Chl a/b ratio (6.36 ± 0.54) with concomitantly reduced light-harvesting polypeptide abundance, as well as low photosynthetic capacity and efficiency measured on a per cell basis. Although cells grown under HL and an 18 h photoperiod developed a typical yellow-green phenotype, cells grown at HL but a 12 h photoperiod exhibited a dark green phenotype comparable to LL-grown cells despite exhibiting growth under high excitation pressure (1 − qP = 0.80 ± 0.04). The apparent uncoupling of excitation pressure and phenotype in HL-grown cells and a 12 h photoperiod indicates that chloroplast redox status cannot be the sole regulator of photoacclimation in C. vulgaris. We conclude that photoacclimation in C. vulgaris to HL is dependent upon growth history and reflects a complex interaction of endogenous systems that sense changes in photoperiod as well as photosynthetic redox balance. [ABSTRACT FROM AUTHOR]

Published

2019

50. Effects of photoperiod on life‐history and thermal stress resistance traits across populations of Drosophila subobscura.

Author

Moghadam, Neda N., Kurbalija Novicic, Zorana, Pertoldi, Cino, Kristensen, Torsten N., and Bahrndorff, Simon

Subjects

*PHOTOPERIODISM, *LIFE history theory, *THERMAL stresses, *DROSOPHILA subobscura, *THERMAL resistance, *CLIMATE change

Abstract

Introduction: Organisms use environmental cues to match their phenotype with the future availability of resources and environmental conditions. Changes in the magnitude and frequency of environmental cues such as photoperiod and temperature along latitudes can be used by organisms to predict seasonal changes. While the role of temperature variation on the induction of plastic and seasonal responses is well established, the importance of photoperiod for predicting seasonal changes is less explored. Materials and methods: Here we studied changes in life‐history and thermal stress resistance traits in Drosophila subobscura in response to variation in photoperiod (6:18, 12:12 and 18:6 light:dark cycles) mimicking seasonal variations in day length. The populations of D. subobscura were collected from five locations along a latitudinal gradient (from North Africa and Europe). These populations were exposed to different photoperiods for two generations, whereafter egg‐to‐adult viability, productivity, dry body weight, thermal tolerance, and starvation resistance were assessed. Results: We found strong effects of photoperiod, origin of populations, and their interactions on life‐history and stress resistance traits. Thermal resistance varied between the populations and the effect of photoperiod depended on the trait and the method applied for the assessment of thermal resistance. Perspectives: Our results show a strong effect of the origin of population and photoperiod on a range of fitness‐related traits and provide evidence for local adaptation to environmental cues (photoperiod by population interaction). The findings emphasize an important and often neglected role of photoperiod in studies on thermal resistance and suggest that cues induced by photoperiod may provide some buffer enabling populations to cope with a more variable and unpredictable future climate. We investigate the importance of photoperiod in shaping the evolutionary and plastic responses to seasonal climates. The results show strong effects of photoperiod, origin of populations, and their interactions on life‐history and stress resistance traits. Thermal resistance varied between the populations and the effect of photoperiod depended on the trait and the method applied for the assessment of thermal resistance. [ABSTRACT FROM AUTHOR]

Published

2019