Your search keyword '"PHOTOPERIODISM"' showing total 25,477 results

101. Differential temperature effects on photoperiodism in female voles: A possible explanation for declines in vole populations.

Author

van Rosmalen, Laura, Riedstra, Bernd, Beemster, Nico, Dijkstra, Cor, and Hut, Roelof A.

Subjects

*VOLES, *TEMPERATURE effect, *PHOTOPERIODISM, *GENITALIA, *TEMPERATURE control

Abstract

Many mammalian species use photoperiod as a predictive cue to time seasonal reproduction. In addition, metabolic effects on the reproductive axis may also influence seasonal timing, especially in female small, short‐lived mammals. To get a better understanding of how annual cycling environmental cues impact reproductive function and plasticity in small, short‐lived herbivores with different geographic origins, we investigated the mechanisms underlying integration of temperature in the photoperiodic‐axis regulating female reproduction in a Northern vole species (tundra vole, Microtus oeconomus) and in a Southern vole species (common vole, Microtus arvalis). We show that photoperiod and temperature interact to determine appropriate physiological responses; there is species‐dependent annual variation in the sensitivity to temperature for reproductive organ development. In common voles, temperature can overrule photoperiodical spring‐programmed responses, with reproductive organ mass being higher at 10°C than at 21°C, whereas in autumn they are less sensitive to temperature. These findings are in line with our census data, showing an earlier onset of spring reproduction in cold springs, while reproductive offset in autumn is synchronized to photoperiod. The reproductive organs of tundra voles were relatively insensitive to temperature, whereas hypothalamic gene expression was generally upregulated at 10°C. Thus, both vole species use photoperiod, whereas only common voles use temperature as a cue to control spring reproduction, which indicates species‐specific reproductive strategies. Due to global warming, spring reproduction in common voles will be delayed, perhaps resulting in shorter breeding seasons and thus declining populations, as observed throughout Europe. [ABSTRACT FROM AUTHOR]

Published

2022

102. Flying over Eurasia: Geographic Variation of Photoperiodic Control of Nymphal Development and Adult Diapause Induction in Native and Invasive Populations of the Brown Marmorated Stink Bug, Halyomorpha halys (Hemiptera: Heteroptera: Pentatomidae).

Author

Musolin, Dmitry L., Dolgovskaya, Margarita Yu., Zakharchenko, Vilena Ye., Karpun, Natalia N., Haye, Tim, Saulich, Aida Kh., and Reznik, Sergey Ya.

Subjects

*STINKBUGS, *BROWN marmorated stink bug, *WINTER, *DIAPAUSE, *HEMIPTERA, *ADULT development, *INTRODUCED insects

Abstract

Simple Summary: The brown marmorated stink bug is an invasive true bug that originates in eastern Asia and is considered now one of the most harmful invasive insect pests in North America and Europe. Similar to the many species that produce more than one generation per year, this bug responds to day length: under short-day conditions (which predict the approaching of autumn), adults form a special overwintering (diapause) physiological state, whereas, under long-day conditions (typical for summer), they reproduce. Critical day length is the condition that induces diapause in 50% of adults. This critical day length is usually strongly correlated with the latitude of the population origin. In this study, we compared the critical day lengths of one native (Andong, South Korea) and three invasive (Torino, Italy; Basel, Switzerland; and Sochi, Russia) populations. The critical day lengths of both sexes fell between 14.5 and 15.0 h in the Korean population, and between 15.0 and 15.5 h in the three European populations. The results demonstrate that microevolution was possibly 'too slow to keep up' with the rapid spread of the invader across Eurasia. It is expected that in the near future, the critical day length of invasive H. halys populations will gradually change to adapt better to the local conditions. Facultative winter adult diapause in Halyomorpha halys is regulated by a long-day photoperiodic response. Day length also influences nymphal development, which slows down at the critical (near-threshold) day lengths. We compared the photoperiodic responses of one native (Andong, South Korea) and three invasive (Torino, Italy; Basel, Switzerland; and Sochi, Russia) populations in a laboratory common-garden experiment. Nymphs developed and emerging adults were reared at 24 °C in a range of photoperiods with day lengths of 14.0, 14.5, 15.0, 15.5, and 16.0 h. The critical day lengths of the photoperiodic responses of both sexes fell between 14.5 and 15.0 h in the native Korean population and between 15.0 and 15.5 h in three invasive European populations. The differences between the three invasive populations were not significant, despite their distant origins. Moreover, the difference between the Korean and European populations was much smaller than was expected. The microevolution was possibly 'too slow to keep up' with the rapid spread of the invader across Eurasia. It is expected that soon the critical day length of the invasive H. halys populations will gradually change to adapt better to local conditions. At present, the critical day length for diapause induction of 15 h 15 min can be used to model the phenology, further spread, and response to climate change for all European populations of the pest. [ABSTRACT FROM AUTHOR]

Published

2022

103. Integrated analysis of lncRNAs and mRNAs by RNA-Seq in secondary hair follicle development and cycling (anagen, catagen and telogen) of Jiangnan cashmere goat (Capra hircus).

Author

Wu, Cuiling, Qin, Chongkai, Fu, Xuefeng, Huang, Xixia, and Tian, Kechuan

Subjects

*HAIR follicles, *GOATS, *LINCRNA, *RNA sequencing, *CASHMERE, *GENE expression, *BIOPOLYMERS

Abstract

Background: Among the world's finest natural fiber composites is derived from the secondary hair follicles (SHFs) of cashmere goats yield one of the world's best natural fibres. Their development and cycling are characterized by photoperiodism with diverse, well-orchestrated stimulatory and inhibitory signals. Long non-coding RNA (lncRNAs) and mRNAs play important roles in hair follicle (HF) development. However, not many studies have explored their specific functions in cashmere development and cycling. This study detected mRNAs and lncRNAs with their candidate genes and related pathways in SHF development and cycling of cashmere goat. We utilized RNA sequencing (RNA-Seq) and bioinformatics analysis on lncRNA and mRNA expressions in goat hair follicles to discover candidate genes and metabolic pathways that could affect development and cycling (anagen, catagen, and telogen). Results: We identified 228 differentially expressed (DE) mRNAs and 256 DE lncRNA. For mRNAs, catagen and anagen had 16 upregulated and 35 downregulated DEGs, catagen and telogen had 18 upregulated and 9 downregulated DEGs and telogen and anagen had 52 upregulated and 98 downregulated DEGs. LncRNA witnessed 22 upregulated and 39 downregulated DEGs for catagen and anagen, 36 upregulated and 29 downregulated DEGs for catagen and telogen as well as 66 upregulated and 97 downregulated DEGs for telogen and anagen. Several key genes, including MSTRG.5451.2, MSTRG.45465.3, MSTRG.11609.2, CHST1, SH3BP4, CDKN1A, GAREM1, GSK-3β, DEFB103A KRTAP9–2, YAP1, S100A7A, FA2H, LOC102190037, LOC102179090, LOC102173866, KRT2, KRT39, FAM167A, FAT4 and EGFL6 were shown to be potentially important in hair follicle development and cycling. They were related to, WNT/β-catenin, mTORC1, ERK/MAPK, Hedgehog, TGFβ, NFkB/p38MAPK, caspase-1, and interleukin (IL)-1a signaling pathways. Conclusion: This work adds to existing understanding of the regulation of HF development and cycling in cashmere goats via lncRNAs and mRNAs. It also serves as theoretical foundation for future SHF research in cashmere goats. [ABSTRACT FROM AUTHOR]

Published

2022

104. Photoperiod-Dependent Expression of MicroRNA in Drosophila.

Author

Pegoraro, Mirko, Fishman, Bettina, Zonato, Valeria, Zouganelis, Georgios, Francis, Amanda, Kyriacou, Charalambos P., and Tauber, Eran

Subjects

*DROSOPHILA, *MICRORNA, *DROSOPHILA melanogaster, *RNA regulation, *TRANSCRIPTOMES, *DROSOPHILIDAE

Abstract

Like many other insects in temperate regions, Drosophila melanogaster exploits the photoperiod shortening that occurs during the autumn as an important cue to trigger a seasonal response. Flies survive the winter by entering a state of reproductive arrest (diapause), which drives the relocation of resources from reproduction to survival. Here, we profiled the expression of microRNA (miRNA) in long and short photoperiods and identified seven differentially expressed miRNAs (dme-mir-2b, dme-mir-11, dme-mir-34, dme-mir-274, dme-mir-184, dme-mir-184*, and dme-mir-285). Misexpression of dme-mir-2b, dme-mir-184, and dme-mir-274 in pigment-dispersing, factor-expressing neurons largely disrupted the normal photoperiodic response, suggesting that these miRNAs play functional roles in photoperiodic timing. We also analyzed the targets of photoperiodic miRNA by both computational predication and by Argonaute-1-mediated immunoprecipitation of long- and short-day RNA samples. Together with global transcriptome profiling, our results expand existing data on other Drosophila species, identifying genes and pathways that are differentially regulated in different photoperiods and reproductive status. Our data suggest that post-transcriptional regulation by miRNA is an important facet of photoperiodic timing. [ABSTRACT FROM AUTHOR]

Published

2022

105. Functional characterization of genes with daily expression patterns in common wheat.

Author

Kiseleva, Antonina A., Bragina, Mariya K., Muterko, Aleksandr F., and Salina, Elena A.

Abstract

Key message: Our findings suggest most wheat biological processes are under the control of the daily expressed genes. Plant circadian rhythms represent daily changes in the activity of various processes, which are based on changes in the levels of gene expression and protein synthesis. In wheat, some key components of plant circadian clock have been identified, but there is little data on the daily expression and interactions of these genes. To study the common wheat daily transcriptome, RNA sequencing was performed. Using these data, genes expressed in daily pattern and the metabolic pathways controlled by them were identified: responses to stimuli and nutrients, transport, photoperiodism, photomorphogenesis, synthesis and degradation of different metabolites, and regulation of the processes of RNA synthesis. It was shown that a significant part of the transcriptome can vary greatly daily. Five expression patterns were identified. They were characterized by peaks at different time points and described the genes underlying these patterns. The analysis of the enrichment of gene ontology terms with various patterns allowed us to describe the main metabolic pathways in each group. Wheat homologs of the genes related to circadian clock in Arabidopsis were identified. Most of them were represented by three homoeologous genes expressed uniformly. Comparison of their expression patterns demonstrated a shift in the expression peaks for some core and accessory genes; the majority of wheat circadian genes were expressed in accordance with Arabidopsis homologs. This may indicate a similar functional role of these genes in wheat. [ABSTRACT FROM AUTHOR]

Published

2022

106. Mapping and quantification of cryptochrome expression in the brain of the pea aphid Acyrthosiphon pisum.

Author

Barberà, Miquel, Collantes‐Alegre, Jorge Mariano, and Martínez‐Torres, David

Subjects

*PEA aphid, *CRYPTOCHROMES, *CLOCK genes, *MOLECULAR clock, *PHOTORECEPTORS, *SUPRACHIASMATIC nucleus, *APHIDS, *CIRCADIAN rhythms

Abstract

Aphids are paradigmatic photoperiodic animals often used to study the role of the circadian clock in the seasonal response. Previously, we described some elements of the circadian clock core (genes period and timeless) and output (melatonin, AANATs and PTTH) that could have a role in the regulation of the aphid seasonal response. More recently, we identified two opsins (C‐ops and SWO4) as candidate input photoperiodic receptors. In the present report, we focus on the study of cryptochromes (cry) as photoreceptors of the circadian clock and discuss their involvement in the seasonal response. We analyse the expression of cry1 and cry2 genes in a circadian and seasonal context, and map their expression sites in the brain. We observe a robust rhythmic expression of cry2 peaking at dusk in phase with core clock genes period and timeless, while cry1 shows a weaker rhythm. Changes in cry1 and cry2 expression correlate with activation of the seasonal response, suggesting a possible link. Finally, we map the expression of cry1 and cry2 genes to clock neurons in the pars lateralis, a region essential for the photoperiodic response. Our results support a role for cry as elements of the aphid circadian clock and suggest a role in photoreception for cry1 and in clock repression for cry2. [ABSTRACT FROM AUTHOR]

Published

2022

107. Combining photoperiod and thermal responses to predict phenological mismatch for introduced insects.

Author

Grevstad, Fritzi S., Wepprich, Tyson, Barker, Brittany, Coop, Leonard B., Shaw, Richard, and Bourchier, Robert S.

Subjects

INTRODUCED insects, PLANT phenology, BIOLOGICAL weed control, DIAPAUSE, BIOLOGICAL pest control agents, WILDLIFE conservation, AGRICULTURAL pests, GROWING season

Abstract

A wide variety of organisms use the regular seasonal changes in photoperiod as a cue to align their life cycles with favorable conditions. Yet the phenological consequences of photoperiodism for organisms exposed to new climates are often overlooked. We present a conceptual approach and phenology model that maps voltinism (generations per year) and the degree of phenological mismatch that can arise when organisms with a short‐day diapause response are introduced to new regions or are otherwise exposed to new climates. Our degree‐day‐based model combines continent‐wide spatialized daily climate data, calculated date‐specific and latitude‐specific day lengths, and experimentally determined developmental responses to both photoperiod and temperature. Using the case of the knotweed psyllid Aphalara itadori, a new biological control agent being introduced from Japan to North America and Europe to control an invasive weed, we show how incorporating a short‐day diapause response will result in geographic patterns of attempted voltinism that are strikingly different from the potential number of generations based on degree‐days alone. The difference between the attempted and potential generations represents a quantitative measure of phenological mismatch between diapause timing and the end of the growing season. We conclude that insects moved from lower to higher latitudes (or to cooler climates) will tend to diapause too late, potentially resulting in high mortality from inclement weather, and those moved from higher to lower latitude (to warmer climates) may be prone to diapausing too early, therefore not fully exploiting the growing season and/or suffering from insufficient reserves for the longer duration in diapause. Mapped output reveals a central region with good phenology match that shifts north or south depending on the geographic source of the insect and its corresponding critical photoperiod for diapause. These results have direct relevance for efforts to establish populations of classical biocontrol agents. More generally, our approach and model could be applied to a wide variety of photoperiod‐ and temperature‐sensitive organisms that are exposed to changes in climate, including resident and invasive agricultural pests and species of conservation concern. [ABSTRACT FROM AUTHOR]

Published

2022

108. The Model of Dynamics of Population Number of the Plankton Cyclop Mesocyclops leuckarti (Copepoda), Based on Photoperiodism

Author

Alekseev, Victor R., Fiks, Boris V., Jenderedjian, Karen G., Hakobyan, Susanna H., Dumont, Henri J., Series Editor, Alekseev, Victor R., editor, and Pinel-Alloul, Bernadette, editor

Published

2019

109. Photoperiod-Specific Expression of Eyes Absent 3 Splice Variant in the Pars Tuberalis of the Japanese Quail

Author

Nobuhiro Nakao, Kei Nakagawa, Asuna Sasaki, Arisa Yamaguchi, Nobumichi Tsushima, and Minoru Tanaka

Subjects

eya3, japanese quail, photoperiodism, splice variant, Animal culture, SF1-1100

Abstract

The molecular mechanism underlying photoperiodic response in seasonal breeding animals such as the Japanese quail, red jungle fowl, sheep, mouse, and hamster involves thyroid-stimulating hormone beta subunit (TSHβ) mRNA expression in the pars tuberalis stimulated by the extension in day length. Furthermore, this mechanism is regulated by eyes absent 3 (Eya3) in mammals. Even in birds, the expression of both TSHβ and EYA3 is induced in the pars tuberalis by the extension in day length; however, the relationship between the two genes is unknown. To clarify the function of EYA3 in quail photoperiodism, in the present study, we performed mRNA structure analysis of the Japanese quail EYA3 mRNA using reverse transcription-polymerase chain reaction (RT-PCR) and Southern blot analysis. The results revealed that there are four types of splice variants within regions of exons 7, 8, and 9 of quail EYA3 mRNA. Among the four splice variants of quail EYA3, the splice variant containing exon 7 was expressed in the pars tuberalis on the first long day, when quails were transferred from the short-day condition to the long-day condition. The results indicate that EYA3 splice variant containing exon 7 is involved in the photoperiodic response of the pars tuberalis in the Japanese quail.

Published

2021

110. Insect photoperiodism: Bünning's hypothesis, the history and development of an idea

Author

David SAUNDERS

Subjects

insects, photoperiodism, diapause, bünning's hypothesis, clock models, Zoology, QL1-991

Abstract

In insects, the photoperiodic system comprises a linked sequence of events from photoreception to final seasonally-appropriate phenotypes such as overwintering diapause. The first and last of these events are reasonably well known, but central phenomena such as those distinguishing short from long days (time measurement) and the nature, accumulation and transfer of this information through development, metamorphosis and sometimes across generations remains obscure. Bünning's intuitive suggestion that photoperiodic time measurement was a function of the circadian system, made eight decades ago, however, has provided a framework for numerous studies investigating these connections. This review examines the development of Bünning's hypothesis from its origin in plants to the physiology of diapause in insects. Despite considerable inter-species differences, a close and probably causal relationship between circadian rhythmicity and photoperiodism is indicated.

Published

2021

111. The Elusive 'Switch Process' in Bipolar Disorder and Photoperiodism: A Hypothesis Centering on NADPH Oxidase-Generated Reactive Oxygen Species Within the Bed Nucleus of the Stria Terminalis

Author

Martin N. Raitiere

Subjects

bipolar disorder, photoperiodism, seasonal affective disorder, bed nucleus of stria terminalis, NADPH oxidase, reactive oxygen species, Psychiatry, RC435-571

Abstract

One of the most striking and least understood aspects of mood disorders involves the “switch process” which drives the dramatic state changes characteristic of bipolar disorder. In this paper we explore the bipolar switch mechanism as deeply grounded in forms of seasonal switching (for example, from summer to winter phenotypes) displayed by many mammalian species. Thus we develop a new and unifying hypothesis that involves four specific claims, all converging to demonstrate a deeper affinity between the bipolar switch process and the light-sensitive (photoperiodic) nonhuman switch sequence than has been appreciated. First, we suggest that rapid eye movement (REM) sleep in both human and nonhuman plays a key role in probing for those seasonal changes in length of day that trigger the organism's characteristic involutional response (in certain animals, hibernation) to shorter days. Second, we claim that this general mammalian response requires the integrity of a neural circuit centering on the anterior bed nucleus of the stria terminalis. Third, we propose that a key molecular mediator of the switch process in both nonhumans and seasonal humans involves reactive oxygen species (ROS) of a particular provenance, namely those created by the enzyme NADPH oxidase (NOX). This position diverges from one currently prominent among students of bipolar disorder. In that tradition, the fact that patients afflicted with bipolar-spectrum disorders display indices of oxidative damage is marshaled to support the conclusion that ROS, escaping adventitiously from mitochondria, have a near-exclusive pathological role. Instead, we believe that ROS, originating instead in membrane-affiliated NOX enzymes upstream from mitochondria, take part in an eminently physiological signaling process at work to some degree in all mammals. Fourth and finally, we speculate that the diversion of ROS from that purposeful, genetically rooted seasonal switching task into the domain of human pathology represents a surprisingly recent phenomenon. It is one instigated mainly by anthropogenic modifications of the environment, especially “light pollution.”

Published

2022

112. Spectres of Clock Evolution: Past, Present, and Yet to Come.

Author

Jabbur, Maria Luísa and Johnson, Carl Hirschie

Subjects

CLIMATE change, CYANOBACTERIA, LITERATURE reviews, CIRCADIAN rhythms

Abstract

Circadian clocks are phylogenetically widespread biological oscillators that allow organisms to entrain to environmental cycles and use their steady-state phase relationship to anticipate predictable daily phenomena – such as the light-dark transitions of a day – and prepare accordingly. Present from cyanobacteria to mammals, circadian clocks are evolutionarily ancient and are thought to increase the fitness of the organisms that possess them by allowing for better resource usage and/or proper internal temporal order. Here, we review literature with respect to the ecology and evolution of circadian clocks, with a special focus on cyanobacteria as model organisms. We first discuss what can be inferred about future clock evolution in response to climate change, based on data from latitudinal clines and domestication. We then address our current understanding of the role that circadian clocks might be contributing to the adaptive fitness of cyanobacteria at the present time. Lastly, we discuss what is currently known about the oldest known circadian clock, and the early Earth conditions that could have led to its evolution. [ABSTRACT FROM AUTHOR]

Published

2022

113. Circadian clock outputs regulating insect photoperiodism: A potential role for glutamate transporter.

Author

Des Marteaux, Lauren, Xi, Jili, Mano, Genyu, and Goto, Shin G.

Subjects

*GLUTAMATE transporters, *PHOTOPERIODISM, *NEUROPEPTIDES, *INSECTS, *CLOCK genes, *BIOLOGICAL rhythms, *CIRCADIAN rhythms

Abstract

Many temperate ectotherms survive winter by entering diapause – a state of developmental (or reproductive) suppression or arrest – in response to short autumnal day lengths. Day lengths are assessed by the circadian clock, the biological time-keeping system that governs biological rhythms with a period of approximately 24 h. However, clock output molecules controlling this photoperiodic response are largely unknown for many insects. To identify these molecules in Hemiptera, we performed RNAi knockdowns of several candidate genes in the bean bug Riptortus pedestris to determine whether their silencing affects photoperiodic regulation of ovarian development (reproductive diapause). Knockdown of diuretic hormone 31, short neuropeptide F, neuropeptide F, ion transport peptide, neuropeptide-like precursor 1, and choline acetyltransferase had no effect on ovarian development and were therefore ruled out as regulators of the photoperiodic response. However, knockdown of vesicular glutamate transporter promoted ovarian development under diapause-inducing short days, and this is the first report of the functional involvement of glutamate signalling in insect photoperiodism. Improved knockdown of this transporter (or receptor) and RNAi of other genes involved in glutamate signal transduction is required to verify its role as an output of the circadian clock. • Insects anticipate seasonal change via photoperiod using the circadian clock. • Clock output signals regulating insect photoperiodism are mostly unknown. • We screened seven candidate clock output genes by determining if their knockdown affects insect photoperiodism. • Knockdown of vesicular glutamate transporter disrupted photoperiodic response. • Glutamate signalling may play an important role in insect photoperiodism. [ABSTRACT FROM AUTHOR]

Published

2022

114. 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

115. EFFECT OF CASTRATION ON PHOTO PERIODICALLY INDUCED FOOD INTAKE AND FATTENING IN RED HEADED BUNTING (EMBERIZA BRUNICEPS).

Author

Chaudhary, Kalpana and Singh, Garima

Subjects

FOOD consumption, CASTRATION, FAT, GONADS, TESTOSTERONE

Abstract

Castration prior to photo stimulation does not have a marked influence on body fattening and food intake. However, it affects fattening once the stimulated gonads are removed. Food intake remains substantially uninfluenced. Testosterone therapy does not add to body fat or recovers the effects of castration. Instead, a reduced food intake is recorded in TP treated birds. Long term experiments are, however, recommended to ascertain further the nature of relationship among these three cycles and also to understand the role of steroids in seasonal responses of Red headed Buntings. [ABSTRACT FROM AUTHOR]

Published

2022

116. 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

117. Effect of photoperiod on the biomass and survivorship of juvenile scorpions Jaguajir rochae (Scorpiones, Buthidae).

Author

Rivaldo de Lima, José, Alexandre da Silva, Meykson, Duarte Martins, René, Bezerra Jorge, Roberta Jeane, and de Araújo Lira, André Felipe

Abstract

Photoperiod is an important environmental characteristic involved in the regulation of circadian physiological processes in living organisms. This experiment verified the effect of photoperiod on biomass gain and mortality in juvenile scorpions of the species Jaguajir rochae (Borelli, 1910). We maintained the juvenile scorpions under two different photoperiod conditions; group A under a light and dark cycle (LD) 12L:12D (n = 36), and group B (n = 35) was subjected to a total dark cycle 0L:24D. Each juvenile was fed cockroaches twice a week and weighed every 15 days until 120th day. We analyzed the relationship between body mass and time, as well as the mortality between groups. Our results showed that group B had a lower biomass gain than that did group A, and no difference in mortality between the two groups was found. Since the locomotory activity of scorpions is associated with a decrease in luminosity, we suggest that group B had a lower gain in biomass due to a higher locomotor activity, resulting in greater energy expenditure. Though our data showed high mortality across both groups, it was not attributed to the photoperiod but to the high mortality rate of the scorpions of this genus during their initial instars and to them being R-strategist organisms. Thus, this study is important for understanding the relationship between photoperiod and biomass gain in invertebrates, especially in scorpions. [ABSTRACT FROM AUTHOR]

Published

2022

118. Sound Wave Exposure as a Strategy for Improving the Tubular Photobioreactor for Cultivating Synechococcus HS-9 as Biofuel Feedstock under Different Photoperiods

Author

Yosua Adi Santoso, Rubiantin Mesha Nauli Tambunan, Santoso Soekirno, Nasruddin, and Nining Betawati Prihantini

Subjects

audible sound, biomass, photobioreactor, photoperiodism, synechococcus, Technology, Technology (General), T1-995

Abstract

This study aimed to evaluate the effect of sound wave exposure in different photoperiods on Synechococcus HS-9 cell density and lipid content using tubular photobioreactors (PBRs). In this study, nine PBRs were used: three PBRs were exposed to a sine wave of 279.9 Hz for three hours during the day (A), three PBRs were exposed to a sine wave of 279.9 Hz for three hours during the night (B), and three PBRs remained unexposed to any sound wave to serve as a control (K). All PBRs were studied for 18 days. The results showed that the highest average cell densities of Synechococcus HS-9 in PBR A, B, and K respectively were 8.883×105 cells/mL, 7.242×105 cells/mL, and 6.175×105 cells/mL. The highest lipid percentage, which was 17%, was observed in PBR A; the percentage in PBR B was 16%, and in PBR K, 7%. However, Synechococcus HS-9 in PBR B showed a higher growth rate compared to PBR A and PBR K. Sound waves could have increased cell activity and metabolism which led to the increase in cell densities and lipid percentages in Synechococcus HS-9. The photoperiodic differences might have resulted in a lower photosynthetic rate and cell metabolism, but the sound wave could have helped promote the growth of Synechococcus HS-9 despite the lower photosynthetic rate.

Published

2020

119. Reproductive polyphenism and its advantages in aphids: Switching between sexual and asexual reproduction

Author

Shuo YAN, Wan-xing WANG, and Jie SHEN

Subjects

aphids, parthenogenesis, embryogenesis, gametogenesis, photoperiodism, Agriculture (General), S1-972

Abstract

Reproductive polyphenism, which allows one genotype to produce sexual and asexual morphs, is an extreme case of phenotypic plasticity and is commonly observed in aphids. Aphids are typical species that switch these reproductive modes, and the pathway orientation is triggered by the environmental conditions (mainly photoperiod and temperature). The typical annual life of aphids includes a succession of parthenogenetic generations during the spring and summer and a single sexual generation in autumn. In this review, we describe how the environmental cues orientate the reproductive mode of aphids from photoperiodic perception to endocrine regulation, and how juvenile hormones may act on the target cells (oocytes) to initiate the gametogenesis and embryogenesis in sexual and asexual reproduction. We also discuss the paradox of sex, especially the advantages of sexual reproduction in aphids. With the recent development of genomic resources in aphids, many potential genes involved in the reproductive polyphenism will enter the public's awareness. In particular, we describe a novel RNAi method in aphids, which may provide a molecular technique for determining the developmental fate and multiple reproductive strategies.

Published

2020

120. (RETRACTED ARTICLE) Effect of artificial light on plant ecology and physiology: A review

Author

MAMTA BAJYA, TEJPAL BAJAYA, RAVNEET KAUR, SALEEM JAHANGIR DAR, and SURESH YADAV

Subjects

Artificial light, Artificial night light pollution, Diurnal cycles, Microenvironment, Photoperiodism, Photoreceptors, Agriculture

Abstract

Early in the 20th century, introduction of artificial light has caused a significant change in human developmental process, but use of artificial light in night has also produced negative effect on phonological, physiological and ecological responses which are sustained in the plants, animals and microorganism from millions of years. In these consequences, most of the plant processes under ANLP are affected intensely and cause compelling changes in plant life cycle from germination to maturity. However, severe effects were observed in the case of pollination, photoreceptor signalling, flowering and microhabitats of plants. Along with, drastic effects on ecology and environments, its relevance to human developmental processes cannot be avoided. Therefore, we need to equipoise between sustainable environment and steady human development processes. Further, selection of plant/crop species, which are more responsive to artificial night light pollution, can minimize the ecological consequences of night light pollution. Likewise, changing artificial nightscape with the implication of new Light emitting diodes lightening policies like Ujala, which are low cost, more durable, eco-friendly and less emitter of CO2, have potential to overcome the biodiversity threat, which arises due to the old artificial lightening technology, used from decades. Hence, adopting new advanced artificial lightening technology and understanding its impact on plant ecosystem will be a future challenge for plant biologists. However, drastic effects of artificial light during night time are enormous; therefore, the present topic is focused on the physiological and ecological consequences of artificial night light pollution on plant systems.

Published

2022

121. Effect of photoperiod on the biomass and survivorship of juvenile scorpions Jaguajir rochae (Scorpiones, Buthidae)

Author

José Rivaldo de Lima, Meykson Alexandre da Silva, René Duarte Martins, Roberta Jeane Bezerra Jorge, and André Felipe de Araújo Lira

Subjects

arthropods, Caatinga, physiology, photoperiodism, semiarid., Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

Photoperiod is an important environmental characteristic involved in the regulation of circadian physiological processes in living organisms. This experiment verified the effect of photoperiod on biomass gain and mortality in juvenile scorpions of the species Jaguajir rochae (Borelli, 1910). We maintained the juvenile scorpions under two different photoperiod conditions; group A under a light and dark cycle (LD) 12L:12D (n = 36), and group B (n = 35) was subjected to a total dark cycle 0L:24D. Each juvenile was fed cockroaches twice a week and weighed every 15 days until 120th day. We analyzed the relationship between body mass and time, as well as the mortality between groups. Our results showed that group B had a lower biomass gain than that did group A, and no difference in mortality between the two groups was found. Since the locomotory activity of scorpions is associated with a decrease in luminosity, we suggest that group B had a lower gain in biomass due to a higher locomotor activity, resulting in greater energy expenditure. Though our data showed high mortality across both groups, it was not attributed to the photoperiod but to the high mortality rate of the scorpions of this genus during their initial instars and to them being R-strategist organisms. Thus, this study is important for understanding the relationship between photoperiod and biomass gain in invertebrates, especially in scorpions

Published

2022

122. Long-Term Monitoring of Diel and Seasonal Rhythm of Dentex dentex at an Artificial Reef

Author

Marco Francescangeli, Valerio Sbragaglia, Joaquin del Rio Fernandez, Enric Trullols, Josefina Antonijuan, Immaculada Massana, Joana Prat, Marc Nogueras Cervera, Daniel Mihai Toma, and Jacopo Aguzzi

Subjects

day-night rhythms, photoperiodism, imaging, cabled observatories, visual predator, temporal niche, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Behavioral rhythms are a key aspect of species fitness, since optimize ecological activities of animals in response to a constantly changing environment. Cabled observatories enable researchers to collect long-term biological and environmental data in real-time, providing relevant information on coastal fishes’ ecological niches and their temporal regulation (i.e., phenology). In this framework, the platform OBSEA (an EMSO Testing-Site in the NW coastal Mediterranean) was used to monitor the 24-h and seasonal occurrence of an ecologically iconic (i.e., top-predator) coastal fish species, the common dentex (Dentex dentex). By coupling image acquisition with oceanographic and meteorological data collection at a high-frequency (30 min), we compiled 8-years’ time-series of fish counts, showing daytime peaks by waveform analysis. Peaks of occurrence followed the photophase limits as an indication of photoperiodic regulation of behavior. At the same time, we evidenced a seasonal trend of counts variations under the form of significant major and minor increases in August and May, respectively. A progressive multiannual trend of counts increase was also evidenced in agreement with the NW Mediterranean expansion of the species. In GLM and GAM modeling, counts not only showed significant correlation with solar irradiance but also with water temperature and wind speed, providing hints on the species reaction to projected climate change scenarios. Grouping behavior was reported mostly at daytime. Results were discussed assuming a possible link between count patterns and behavioral activity, which may influence video observations at different temporal scales.

Published

2022

123. Spectres of Clock Evolution: Past, Present, and Yet to Come

Author

Maria Luísa Jabbur and Carl Hirschie Johnson

Subjects

evolution of circadian clocks, circadian rhythms, bacterial rhythms, evolution and climate change, photoperiodism, biological timekeeping, Physiology, QP1-981

Abstract

Circadian clocks are phylogenetically widespread biological oscillators that allow organisms to entrain to environmental cycles and use their steady-state phase relationship to anticipate predictable daily phenomena – such as the light-dark transitions of a day – and prepare accordingly. Present from cyanobacteria to mammals, circadian clocks are evolutionarily ancient and are thought to increase the fitness of the organisms that possess them by allowing for better resource usage and/or proper internal temporal order. Here, we review literature with respect to the ecology and evolution of circadian clocks, with a special focus on cyanobacteria as model organisms. We first discuss what can be inferred about future clock evolution in response to climate change, based on data from latitudinal clines and domestication. We then address our current understanding of the role that circadian clocks might be contributing to the adaptive fitness of cyanobacteria at the present time. Lastly, we discuss what is currently known about the oldest known circadian clock, and the early Earth conditions that could have led to its evolution.

Published

2022

124. The development of the Rook's (Corvus frugilegus) colony in the face of shifting spring phenology

Author

Adam Zbyryt, Karol Zub, and Cezary Mitrus

Subjects

Breeding colony, Climate change, Corvus frugilegus, Nest building, Photoperiodism, Predictable breeding, Zoology, QL1-991

Abstract

Many birds species breed in colonies. One of the species in the Corvidae family nesting in groups is the Rook (Corvus frugilegus). The construction of the nest is costly for birds and needs high energy expenditure. Therefore, birds should optimize the time of nest building in relation to environmental, especially weather, conditions. Furthermore, birds should adapt their breeding phenology, including the date of starting the construction of nests for climate change. We observed the dynamics of increasing numbers of nests in a colony of Rooks in relation to air temperature, wind, rainfall, snowfall and day-length (indirect indicator of photoperiodism). Observations were carried out during three breeding seasons (2015–2017) in a large rookery in a big city in north-eastern Poland. The increase in the number of nests was correlated only with day length and no effect of climatic factors on the number of nests in the colony was observed. Number of nests varied significantly between successive years of research. In the case of the Rook (predictable breeders), the photoperiod seems to be the most important factor influencing breeding behavior, especially nest construction. In the last three decades, increasing temperature and time of spring phases have advanced and have influenced changes in the phenology of the availability of food resources. Simultaneously, a rapid decline in the numbers of breeding pairs of the Rook in Poland has been observed, especially in the last three decades. Conservative attachment to the length of the day, which is the main factor responsible for the development of the breeding colony, makes the Rook appear to be a species with low plasticity in the face of rapid climate changes. Thus, we suggest that may indirectly influence the decrease in the breeding population of the Rook.

Published

2022

125. Circadian Clock Contributes to Modulate Salinity Stress-Responsive Antioxidative Mechanisms and Chloroplast Proteome in Spinacia oleracea

Author

Ajila Venkat, Dong-Won Bae, and Sowbiya Muneer

Subjects

ROS scavenging mechanism, circadian oscillator, thylakoid proteome, salt stress, photoperiodism, rhythmic hours, Agriculture (General), S1-972

Abstract

Extreme abiotic stresses such as drought, salinity, and temperature reduce crop productivity significantly and pose a serious threat to the area of land used for agriculture. Therefore, there is a pressing need to create crops that can thrive in these circumstances. It has been noted that plants can maintain defense mechanisms during any environmental changes and anticipate diurnal patterns correct to a circadian-based clock. Therefore, the main aim of this study was to investigate the role of circadian core oscillators in response to salinity stress in an important vegetable crop, spinach, and obtain evidence to better understand salinity stress adaptation for crop productivity. Therefore, the current study was carried out to examine the circadian clock-based (morning–evening loop) salinity stress defense mechanism in spinach (Spinacia oleracea), a leafy vegetable crop with significant economic importance and health benefits. In the presence of dawn and dusk, the circadian clock-based defense mechanism was observed using the genotypes “Delhi Green” and “Malav Jyoti.” A photoperiodic rhythm consists of 4-h intervals for 12 h (morning–evening loop) in spinach was demonstrated under the salinity stress treatments (20 mM and 50 mM). The clock-controlled a large fraction of growth parameters such as plant height, biomass, and root-shoot ratio under salinity stress. Conversely, salinity stress resulted in upregulation of antioxidative parameters such as superoxide dismutase, ascorbate peroxidase, catalase, and other stress markers such as thiobarbituric acid reactive substances, proline content, and localizations of H2O2 and O2−1 but was altered and maintained at a certain photoperiodic time interval of the circadian clock. In distinction to results observed from antioxidative measurements performed with an early and late circadian duration of salt-treated plants, 10 am and 2 pm were revealed to be the rhythmic times for controlling salinity stress. Likewise, comprehensive measurements of the photosynthetic system under salinity stress at specific photoperiodic circadian time intervals, including net-photosynthetic rate, transpiration, stomatal conductance, PSII quantum yield, and stomata structure, were made at 10 am and 2 pm. The salinity stress response was down-streamed and the clock also regulated chloroplastic protein expression. Thus, according to our findings, photoperiodic circadian rhythms, particularly the morning–evening loop, enhanced plant survival rates by modulating cellular antioxidant mechanisms and chloroplastic proteins that further helped to reduce the effects of salinity stress.

Published

2023

126. Bolwig Organ and Its Role in the Photoperiodic Response of Sarcophaga similis Larvae

Author

Kazuné Hirata and Sakiko Shiga

Subjects

photoperiodism, photoreceptor, circadian clock, Bolwig organ, pigment-dispersing factor, pupal diapause, Science

Abstract

Flesh-fly Sarcophaga similis larvae exhibit a photoperiodic response, in which short days induce pupal diapause for seasonal adaptation. Although the spectral sensitivity of photoperiodic photoreception is known, the photoreceptor organ remains unclear. We morphologically identified the Bolwig organ, a larval-photoreceptor identified in several other fly species, and examined the effects of its removal on the photoperiodic response in S. similis. Backfill-staining and embryonic-lethal-abnormal-vision (ELAV) immunohistochemical-staining identified ~34 and 38 cells, respectively, in a spherical body at the ocular depression of the cephalopharyngeal skeleton, suggesting that the spherical body is the Bolwig organ in S. similis. Forward-fill and immunohistochemistry revealed that Bolwig-organ neurons terminate in the vicinity of the dendritic fibres of pigment-dispersing factor-immunoreactive and potential circadian-clock neurons in the brain. After surgical removal of the Bolwig-organ regions, diapause incidence was not significantly different between short and long days, and was similar to that in the insects with an intact organ, under constant darkness. However, diapause incidence was not significantly different between the control and Bolwig-organ-removed insects for each photoperiod. These results suggest that the Bolwig organ contributes partially to photoperiodic photoreception, and that other photoreceptors may also be involved.

Published

2023

127. 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

128. Optogenetic stimulation of VIPergic SCN neurons induces photoperiodic‐like changes in the mammalian circadian clock.

Author

Tackenberg, Michael C., Hughey, Jacob J., and McMahon, Douglas G.

Subjects

*SUPRACHIASMATIC nucleus, *NEURONS, *LIGHT transmission, *SEASONS, *BIOLOGICAL rhythms

Abstract

Circadian clocks play key roles in how organisms respond to and even anticipate seasonal change in day length, or photoperiod. In mammals, photoperiod is encoded by the central circadian pacemaker in the brain, the suprachiasmatic nucleus (SCN). The subpopulation of SCN neurons that secrete the neuropeptide VIP mediates the transmission of light information within the SCN neural network, suggesting a role for these neurons in circadian plasticity in response to light information that has yet to be directly tested. Here, we used in vivo optogenetic stimulation of VIPergic SCN neurons followed by ex vivo PERIOD 2::LUCIFERASE (PER2::LUC) bioluminescent imaging to test whether activation of this SCN neuron subpopulation can induce SCN network changes that are hallmarks of photoperiodic encoding. We found that optogenetic stimulation designed to mimic a long photoperiod indeed altered subsequent SCN entrained phase, increased the phase dispersal of PER2 rhythms within the SCN network, and shortened SCN free‐running period—similar to the effects of a true extension of photoperiod. Optogenetic stimulation also induced analogous changes on related aspects of locomotor behaviour in vivo. Thus, selective activation of VIPergic SCN neurons induces photoperiodic network plasticity in the SCN that underpins photoperiodic entrainment of behaviour. [ABSTRACT FROM AUTHOR]

Published

2021

129. The Effect of Monochromatic LED Light Wavelengths and Photoperiods on Botrytis cinerea.

Author

RasiukeviĆiūtė, Neringa, Brazaitytė, Aušra, Vaštakaitė-Kairienė, Viktorija, KupĆinskienė, Asta, Duchovskis, Pavelas, Samuolienė, Giedrė, and Valiuškaitė, Alma

Subjects

*PHOTOPERIODISM, *BOTRYTIS cinerea, *MONOCHROMATIC light, *MYCELIUM, *LIGHT emitting diodes, *PATHOGENIC fungi

Abstract

Botrytis cinerea is a ubiquitous necrotrophic pathogen causing grey mould in economically important crops. Light effect in horticulture is undeniable and fungi also react to light. Selected specific light-emitting diodes (LEDs) and photoperiods can be used for fungal pathogen inhibition. This study aimed to evaluate how LED light wavelengths and photoperiods affect the growth parameters of B. cinerea. The morphological (mycelium appearance, sclerotia distribution) and phenotypic (conidia presence and size, mycelium growth rate, recovery) characteristics of the fungal pathogen B. cinerea were evaluated under royal blue 455 nm, blue 470 nm, cyan 505 nm, yellow 590 nm, and red 627 nm LED lights at various photoperiods (4, 8, 12, 16, 20, 24 h). The results revealed that the light conditions and photoperiods influenced the B. cinerea morphological and phenotypic characteristics. Overall, the highest B. cinerea inhibition was under yellow (590 nm) LED light at 4 and 8 h photoperiods. Conidia did not form under blue 455 nm at 8, 16, 20, and 24 h photoperiods. Therefore, it can be assumed that the phenotypic and morphological features of B. cinerea depend on the specific photoperiod and LED light wavelength. The results allowed an exploration of original research approaches, raised new scientific questions for further investigation, and suggested new green plant protection solutions. [ABSTRACT FROM AUTHOR]

Published

2021

130. 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

131. Photoperiodic control of electrophysiological properties of the caudo‐dorsal cells in the pond snail, Lymnaea stagnalis.

Author

Hamanaka, Yoshitaka and Shiga, Sakiko

Abstract

Egg laying in the pond snail, Lymnaea stagnalis is regulated by the photoperiod; long‐day conditions (16L8D) promote egg laying whereas medium‐day conditions (12L12D) suppress it. In this snail, a caudo‐dorsal cell hormone (CDCH) is produced by neurosecretory cells, CDCs in the cerebral ganglion (CG), and its release triggers ovulation and subsequent egg laying. However, the physiological basis for photoperiod‐dependent egg laying remains unraveled. Here, we compared electrophysiological properties of CDCs between 16L8D and 12L12D using intracellular recording, and found that CDC excitability is higher in 16L8D than in 12L12D. Striking differences are as follows: (1) a shallower resting membrane potential in 16L8D than in 12L12D, and (2) a smaller threshold voltage (minimum depolarization from rest to elicit action potentials) in 16L8D than in 12L12D. Switching of the excitability can be a physiological basis of a photoperiod‐dependent CDCH release. Simultaneous intracellular dye injection identified two morphological subtypes of CDCs, validating a previous report. Both types bear short lateral extensions in CG, some of which probably function as integration sites of photoperiodic inputs. In addition, we found two novel CDCH‐immunoreactive cell groups (CDCCOM and SCm) in the CG besides conventional CDCs and small cells expressing CDCH. The CDCCOM with cell bodies and fibers in the neurohemal commissure may be involved in triggering ovulation. Notably, the total number of CDCs is larger than that previously reported, the right CDC cluster with more cells than the left. Our findings are instructive in following the neurophysiology of photoperiodism in L. stagnalis. [ABSTRACT FROM AUTHOR]

Published

2021

132. 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

133. SYNERGISTIC EFFECT OF SILVER NITRATE AND PHOTON FLUX DENSITY ON THE IN-VITRO MULTIPLICATION OF BANANA (CV. GRAND NAIN, AAA).

Author

Shekhar, Shashi, Rustagi, Anjana, Sarin, Neera Bhalla, and Lawrence, Kapil

Subjects

SILVER nitrate, PHOTON flux, BANANAS, PLANT micropropagation, PHOTOPERIODISM

Abstract

The present study was aimed to investigate the effect of photon flux density and silver nitrate either alone or in combination on in-vitro micro-propagation of banana cv. Grand Nain (AAA). Five different concentrations of silver nitrate (0 to 68 µM) and PFD (0-55 µmol m-2 s-1) were assessed. Plantlets were grown in culture room at 24±2°C with 16±8 h photoperiod. Highest number of bud formation was observed in explant cultured in bud establishment medium (MBE) medium supplemented with AgNO3 (34 µM) and placed under dark condition. Additionally maximum bud break was observed in the pre developed buds exposed to PFD of 45 µmolm-2s-1. Maximum shoot and root elongation was observed in shoot elongation medium supplemented with AgNO3 (34 µM) under 50 µmolm-2s-1 of photon flux density. Light quality also affected the total chlorophyll and phenolic content. Incorporation of silver nitrate in the culture medium reduced tissue browning and precocious rooting. Darkness and low light intensity significantly reduce precocious rooting in buds and resulted in albino effect in elongated shoots. However, high light intensity increased shoot proliferation and shoot elongation. The results obtained could be valuable for rapid and mass multiplication of banana to fulfilling the demand of Cavendish sub-group. Simultaneously the substitution of fluorescent lights with light emitting diode (LED) will be cost effective and result in cost saving of annual electricity consumption. The LED lighting system seemed to be the most suitable in terms of propagation efficiency, and plantlet quality. [ABSTRACT FROM AUTHOR]

Published

2021

134. Seasonal Regulation of Reproduction in Vertebrates: Special Focus on Avian Strategy

Author

Shinomiya, Ai, Yoshimura, Takashi, Asami, Takahiro, Series Editor, Kajihara, Hiroshi, Series Editor, Kobayashi, Kazuya, Series Editor, Koizumi, Osamu, Series Editor, Motokawa, Masaharu, Series Editor, Naruse, Kiyoshi, Series Editor, Satoh, Akiko, Series Editor, Takamune, Kazufumi, Series Editor, Takeuchi, Hideaki, Series Editor, Yoshikuni, Michiyasu, Series Editor, Kitano, Takeshi, editor, Iwao, Yasuhiro, editor, and Kondo, Mariko, editor

Published

2018

135. Blue Light Supplemented at Intervals in Long-Day Conditions Intervenes in Photoperiodic Flowering, Photosynthesis, and Antioxidant Properties in Chrysanthemums

Author

Jingli Yang, Jinnan Song, and Byoung Ryong Jeong

Subjects

antioxidant ability, photoperiodism, photosynthetic carbon assimilation, supplemental blue light, unusual photoperiod, Therapeutics. Pharmacology, RM1-950

Abstract

The flowering of chrysanthemum (Chrysanthemum morifolium Ramat.), inhibited by long-day lighting, can be reversed with a short period of low supplemental blue light (S-BL). Both flowering and the reactive oxygen species (ROS) scavenging processes are primarily driven by sugars created by photosynthetic carbon assimilation. In addition, the antioxidant ability potentially affects flowering in photoperiod- and/or circadian rhythm-dependent manners. This indicates that there is an interactive relationship among blue (B) light, photosynthetic efficiency, sugar accumulation, and antioxidant ability in flowering regulation. Here, 4 h of 30 μmol·m−2·s−1 photosynthetic photon flux density (PPFD) S-BL was applied at the end of a 13-h long-day period (LD13 + 4B) at different intervals during 60 days of experimental duration. The five experimental groups were named according to the actual number of days of S-BL and their intervals: applied once every day, “60 days-(LD13 + 4B) (100.0%)”; once every other day, “30 days-(LD13 + 4B) (50.0%)”; once every three days, “15 days-(LD13 + 4B) (25.0%)”; once every five days, “10 days-(LD13 + 4B) (16.7%)”; and once every seven days, “7 days-(LD13 + 4B) (11.7%)”. Two non-S-BL control groups were also included: 60 10-h short days (60 days-SD10) and 13-h long days (60 days-LD13). At the harvest stage, varying degrees of flowering were observed except in “60 days-LD13” and “7 days-(LD13 + 4B) (11.7%)”. The number of flowers increased and the flower buds appeared earlier as the proportion of S-BL days increased in LD13 conditions, although the “60 days-SD10” gave the earliest flowering. The proportion of initial, pivotal, and optimal flowering was 16.7% (“10 days-(LD13 + 4B)”), 50.0% (“30 days-(LD13 + 4B)”), and 100.0% (“60 days-(LD13 + 4B)”), respectively. Meanwhile, a series of physiological parameters such as the production of enzymatic or non-enzymatic antioxidants, chlorophyll content, photosynthetic efficiency, enzyme activities, and carbohydrate accumulation were significantly improved by “30 days-(LD13 + 4B) (50.0%)” as a turning point until the peaks appeared in “60 days-(LD13 + 4B) (100.0%)”, as well as the expression of florigenic or anti-florigenic and some antioxidant-synthetic genes. Furthermore, the results of principal component analysis (PCA) indicated that S-BL days positively regulated flowering, photosynthesis, carbohydrate accumulation, and antioxidant production. In aggregate, the pivotal and optimal proportions of S-BL days to reconcile the relationship among flowering, photosynthetic carbon assimilation, and antioxidant ability were 50.0% and 100.0%, respectively. However, there are still significant gaps to be filled in order to determine the specific involvement of blue light and antioxidant abilities in flowering regulation.

Published

2022

136. Photoperiodic Regulation of Tuber Enlargement in Water Yam

Author

Norimitsu Hamaoka, Misato Nabeshima, Takahito Moriyama, Yudai Kozawa, and Yushi Ishibashi

Subjects

photoperiodism, rhizophore, short daylength, tropical yam, tuber crops, tuber growth, Agriculture

Abstract

In tuberous crops, tuber enlargement is one of the most important target traits for yield formation. It has long been known that tuber growth in yams is enhanced by short-day (SD) conditions, but the mechanism of tuber enlargement remains unknown. Here, we analyzed the photoperiodic regulation of tuber enlargement in water yam (Dioscorea alata L.). The photoperiod experiments in seedlings showed that tuber enlargement is initiated under SD conditions (≤10 h daylength) within 20 days of treatment. DaFT2, a FLOWERING LOCUS T (FT)-like gene, was upregulated in SD and downregulated in long-day (LD) conditions in tubers, suggesting that DaFT2 promotes tuber enlargement. DaFT1, the other FT-like gene, was significantly upregulated only in the leaves under LD, and its expression pattern was opposite to that of DaFT2 in the tubers. A night-break experiment showed that tuber growth was inhibited by red light in the dark period. These results suggest that the tuber enlargement of water yam is completely dependent on the photoperiod and that it involves an FT gene-mediated mechanism in response to the SD condition by red light sensing.

Published

2022

137. The role of photoperiodic history and internal long-term timing in seasonal neuroendocrinology

Author

Sáenz de Miera, Cristina

Subjects

612.8, Photoperiodism, Neuroendocrinology

Abstract

Seasonal physiology has evolved as an adaptive strategy to changing environments with daylength (photoperiod) used as the predominant environmental cue to suit breeding and other functions to the external season. However, seasonal physiological state is determined not only by the photoperiod that is currently in effect but also by the animal's history, allowing changes in physiology in anticipation to the seasons. Many mammals and birds show internally timed, long-term (circannual) changes in seasonal physiology, synchronised to the seasons by changing photoperiods. The importance of history-dependent photoperiodic programming applies also to puberty attainment in juvenile animals, timed by the photoperiod received by the mother during gestation. In this project I investigated the effects of both types of history-dependent timing on the neuroendocrine pathways for photoperiodic regulation of seasonal physiology. In mammals, photoperiod is transmitted via the pineal hormone melatonin, which acts on the pars tuberalis (PT) to regulate thyrotropin (TSH) expression and in turn controls seasonal physiology via effects on the hypothalamic synthesis of type 2 and 3 thyroid hormone deiodinases (Dio2 and Dio3), and thus the local regulation of thyroid hormone metabolism, and downstream changes in hypothalamic neuropeptidergic signalling. Using two circannual species, the Soay sheep (Ovis aries) –a short-day breeder – and the European hamster (Cricetus cricetus) – a long-day breeder – exposed to constant photoperiodic conditions, my findings reveal that in both models, in the absence of seasonal cues, internal circannual timing is initiated at the PT control of TSH and transmitted to the regulation of hypothalamic T3 regulation and neuropeptides. Siberian hamsters (Phodopus sungorus) were placed under different photoperiods during gestation and transferred to a photoperiod of intermediate duration at weaning. Reproductive activation under these conditions was dependent upon early life exposure and this effect controls history-dependent changes in hypothalamic deiodinases. Interestingly, the gestational experience was reflected in PT TSH expression and Dio2 expression as early as birth time. The same prenatal effects were observed in a strain of seasonal mice, (Mus musculus molossinus). Overall my dissertation has established that: i) both the circannual and the melatonin signals converge on TSH expression to synchronise seasonal biological activity; ii) the photoperiodic pituitary-hypothalamic network is programmed by prenatal experience; and iii) this pathway is already functional before birth. Overall, my results highlight the PT as a conserved central site in mammals for the integration of multiple seasonal cues which via differential control of thyroid hormone levels in the hypothalamus dictates the timing in seasonal physiology.

Published

2014

138. Urban warming and artificial light alter dormancy in the flesh fly

Author

Ayumu Mukai, Koki Yamaguchi, and Shin G. Goto

Subjects

artificial light, diapause, flesh fly, photoperiodism, urbanization, urban warming, Science

Abstract

Seasonal changes in temperature and day length are distinct between rural and urban areas due to urban warming and the presence of artificial light at night. Many studies have focused on the impacts of these ubiquitous signatures on daily biological events, but empirical studies on their impacts on insect seasonality are limited. In the present study, we used the flesh fly Sarcophaga similis as a model insect to determine the impacts of urbanization on the incidence and timing of diapause (dormancy), not only in the laboratory but also in rural and urban conditions. In the laboratory, diapause entry was affected by night-time light levels as low as 0.01 lux. We placed fly cages on outdoor shelves in urban and rural areas to determine the timing of diapause entry; it was retarded by approximately four weeks in urban areas relative to that in rural areas. Moreover, almost all flies in the site facing an urban residential area failed to enter diapause, even by late autumn. Although an autumnal low temperature in the urban area would mitigate the negative effect of artificial light at night, strong light pollution seriously disrupts the flesh fly seasonal adaptation.

Published

2021

139. Phytoplankton communities in temporary ponds under different climate scenarios.

Author

Celewicz, Sofia and Gołdyn, Bartłomiej

Subjects

*PHYTOPLANKTON, *PONDS, *CLIMATE change, *PHOTOPERIODISM, *DIATOMS

Abstract

Temporary water bodies, especially vernal pools, are the most sensitive aquatic environments to climate change yet the least studied. Their functioning largely depends on their phytoplankton community structure. This study aimed to determine how temperature and photoperiod length (by simulating inundation in different parts of the year under five climate scenarios) affect the succession and structure of phytoplankton communities soon after inundation. Photoperiod was the most important factor affecting phytoplankton species richness, total abundance and the abundance of taxonomic groups in the course of succession. A long photoperiod (16 h) and a moderate temperature (16 °C) in vernal pool microcosms (late spring inundation after a warm snowless winter) were the most favourable conditions for phytoplankton growth (especially for the main taxonomic groups: chlorophytes and cryptophytes) and species richness. With short photoperiods (inundation in winter) and low temperatures, the communities transformed towards diatoms, euglenoids and cyanobacteria. In line with our predictions, a high temperature (25 °C) favoured a decline in phytoplankton species diversity. Our study shows that climate change will result in seasonal shifts in species abundance or even in their disappearance and, finally, in potential strong changes in the biodiversity and food webs of aquatic ecosystems in the future. [ABSTRACT FROM AUTHOR]

Published

2021

140. DNA methylation affects photoperiodic tuberization in potato (Solanum tuberosum L.) by mediating the expression of genes related to the photoperiod and GA pathways.

Author

Ai, Yanjun, Jing, Shenglin, Cheng, Zhengnan, Song, Botao, Xie, Conghua, Liu, Jun, and Zhou, Jun

Subjects

DNA methylation, PHOTOPERIODISM, POTATOES, GENE expression, TRANSCRIPTOMES

Abstract

Overcoming short-day-dependent tuberization to adapt to long-day conditions is critical for the widespread geographical success of potato. The genetic pathways of photoperiodic tuberization are similar to those of photoperiodic flowering. DNA methylation plays an important role in photoperiodic flowering. However, little is known about how DNA methylation affects photoperiodic tuberization in potato. Here, we verified the effect of a DNA methylation inhibitor on photoperiodic tuberization and compared the DNA methylation levels and differentially methylated genes (DMGs) in the photoperiodic tuberization process between photoperiod-sensitive and photoperiod-insensitive genotypes, aiming to dissect the role of DNA methylation in the photoperiodic tuberization of potato. We found that a DNA methylation inhibitor could promote tuber initiation in strict short-day genotypes. Whole-genome DNA methylation sequencing showed that the photoperiod-sensitive and photoperiod-insensitive genotypes had distinct DNA methylation modes in which few differentially methylated genes were shared. Transcriptome analysis confirmed that the DNA methylation inhibitor regulated the expression of the key genes involved in the photoperiod and GA pathways to promote tuber initiation in the photoperiod-sensitive genotype. Comparison of the DNA methylation levels and transcriptome levels identified 52 candidate genes regulated by DNA methylation that were predicted to be involved in photoperiodic tuberization. Our findings provide a new perspective for understanding the relationship between photoperiod-dependent and GA-regulated tuberization. Uncovering the epigenomic signatures of these pathways will greatly enhance potato breeding for adaptation to a wide range of environments. [ABSTRACT FROM AUTHOR]

Published

2021

141. 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

142. Diapause and bet‐hedging strategies in insects: a meta‐analysis of reaction norm shapes.

Author

Joschinski, Jens and Bonte, Dries

Subjects

*DIAPAUSE, *CLIMATE change in literature, *PHENOTYPIC plasticity, *SEASONS, *INSECTS, *PLANT phenology

Abstract

Many organisms escape from lethal climatological conditions by entering a resistant resting stage called diapause, which needs to be optimally timed with seasonal change. As climate change exerts selection pressure on phenology, the evolution of mean diapause timing, but also of phenotypic plasticity and bet‐hedging strategies is expected. The potential of the latter strategy as a means of coping with environmental unpredictability has received little attention in the climate change literature. Populations should be adapted to spatial variation in local conditions; contemporary patterns of phenological strategies across a geographic range may hence provide information about their evolvability. We thus extracted 458 diapause reaction norms from 60 studies. First, we correlated mean diapause timing with mean winter onset. Then we partitioned the reaction norm variance into a temporal component (phenotypic plasticity) and among‐offspring variance (diversified bet‐hedging) and correlated this variance composition with variability of winter onset. Mean diapause timing correlated reasonably well with mean winter onset, except for populations at high latitudes, which apparently failed to track early onsets. Variance among offspring was, however, limited and correlated only weakly with environmental variability, indicating little scope for bet‐hedging. The apparent lack of phenological bet‐hedging strategies may pose a risk in a less predictable climate, but we also highlight the need for more data on alternative strategies. [ABSTRACT FROM AUTHOR]

Published

2021

143. Antibodies Against the Clock Proteins Period and Cryptochrome Reveal the Neuronal Organization of the Circadian Clock in the Pea Aphid.

Author

Colizzi, Francesca Sara, Beer, Katharina, Cuti, Paolo, Deppisch, Peter, Martínez Torres, David, Yoshii, Taishi, and Helfrich-Förster, Charlotte

Subjects

PEA aphid, CRYPTOCHROMES, CIRCADIAN rhythms, DROSOPHILA melanogaster, ENDOCRINE glands, MOLTING

Abstract

Circadian clocks prepare the organism to cyclic environmental changes in light, temperature, or food availability. Here, we characterized the master clock in the brain of a strongly photoperiodic insect, the aphid Acyrthosiphon pisum , immunohistochemically with antibodies against A. pisum Period (PER), Drosophila melanogaster Cryptochrome (CRY1), and crab Pigment-Dispersing Hormone (PDH). The latter antibody detects all so far known PDHs and PDFs (Pigment-Dispersing Factors), which play a dominant role in the circadian system of many arthropods. We found that, under long days, PER and CRY are expressed in a rhythmic manner in three regions of the brain: the dorsal and lateral protocerebrum and the lamina. No staining was detected with anti-PDH, suggesting that aphids lack PDF. All the CRY1-positive cells co-expressed PER and showed daily PER/CRY1 oscillations of high amplitude, while the PER oscillations of the CRY1-negative PER neurons were of considerable lower amplitude. The CRY1 oscillations were highly synchronous in all neurons, suggesting that aphid CRY1, similarly to Drosophila CRY1, is light sensitive and its oscillations are synchronized by light-dark cycles. Nevertheless, in contrast to Drosophila CRY1, aphid CRY1 was not degraded by light, but steadily increased during the day and decreased during the night. PER was always located in the nuclei of the clock neurons, while CRY was predominantly cytoplasmic and revealed the projections of the PER/CRY1-positive neurons. We traced the PER/CRY1-positive neurons through the aphid protocerebrum discovering striking similarities with the circadian clock of D. melanogaster : The CRY1 fibers innervate the dorsal and lateral protocerebrum and putatively connect the different PER-positive neurons with each other. They also run toward the pars intercerebralis, which controls hormone release via the neurohemal organ, the corpora cardiaca. In contrast to Drosophila , the CRY1-positive fibers additionally travel directly toward the corpora cardiaca and the close-by endocrine gland, corpora allata. This suggests a direct link between the circadian clock and the photoperiodic control of hormone release that can be studied in the future. [ABSTRACT FROM AUTHOR]

Published

2021

144. Photoperiod controls egg laying and caudodorsal cell hormone expression but not gonadal development in the pond snail Lymnaea stagnalis.

Author

Kitai, Hitomi, Kakuda, Umi, Goto, Shin G., and Shiga, Sakiko

Subjects

*SNAILS, *EGGS, *BODY size, *OVUM, *SEASONS

Abstract

Photoperiod is a reliable cue to regulate growth and reproduction for seasonal adaptation. Although photoperiodism has been well studied in Chordata and Arthropoda, less is known about Mollusca. We examined photoperiodic effects on egg laying, body size, gonad-somatic index, oocyte size and relative amounts of caudodorsal cell hormone mRNA in individual rearing conditions in the pond snail Lymnaea stagnalis. Twenty-five weeks after hatching, the percentages of egg-laying snails under a photoperiod of 12 h light and 12 h darkness (12L:12D) were significantly smaller than those under longer days. The total numbers of eggs and egg masses under 12L:12D were significantly smaller than those under longer days. Significant differences between 16L:8D and 12L:12D were not observed in the soft body and ovotestis weight, and the gonad-somatic index. Photoperiodic effects were also not observed in oocyte diameters twenty-two weeks after hatching. Twenty-seven weeks after hatching amounts of caudodorsal cell hormone mRNA were significantly lower in the cerebral ganglia with commissure under 12L:12D than 16L:8D. L. stagnalis exhibited a clear photoperiodic response in egg laying and the amount of caudodorsal cell hormone mRNA, but not in gonadal development. Under 12L:12D suppression of caudodorsal cell hormone expression might suppress egg laying. [ABSTRACT FROM AUTHOR]

Published

2021

145. The interindividual variability of sleep timing and circadian phase in humans is influenced by daytime and evening light conditions.

Author

Papatsimpa, C., Schlangen, L. J. M., Smolders, K. C. H. J., Linnartz, J.-P. M. G., and de Kort, Y. A. W.

Subjects

*COGNITION, *SLEEP disorders, *CIRCADIAN rhythms, *PHOTOPERIODISM, *MATHEMATICAL models

Abstract

Human cognitive functioning shows circadian variations throughout the day. However, individuals largely differ in their timing during the day of when they are more capable of performing specific tasks and when they prefer to sleep. These interindividual differences in preferred temporal organization of sleep and daytime activities define the chronotype. Since a late chronotype is associated with adverse mental and physical consequences, it is of vital importance to study how lighting environments affect chronotype. Here, we use a mathematical model of the human circadian pacemaker to understand how light in the built environment changes the chronotype distribution in the population. In line with experimental findings, we show that when individuals spend their days in relatively dim light conditions, this not only results in a later phase of their biological clock but also increases interindividual differences in circadian phase angle of entrainment and preferred sleep timing. Increasing daytime illuminance results in a more narrow distribution of sleep timing and circadian phase, and this effect is more pronounced for longer photoperiods. The model results demonstrate that modern lifestyle changes the chronotype distribution towards more eveningness and more extreme differences in eveningness. Such model-based predictions can be used to design guidelines for workplace lighting that help limiting circadian phase differences, and craft new lighting strategies that support human performance, health and wellbeing. [ABSTRACT FROM AUTHOR]

Published

2021

146. 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

147. Daphnia uses its circadian clock for short-day recognition in environmental sex determination.

Author

Abe, Shione, Takahata, Yugo, and Miyakawa, Hitoshi

Subjects

*ENVIRONMENTAL sex determination, *DAPHNIA, *DAPHNIA pulex, *SEX determination, *CLOCK genes, *X chromosome

Abstract

Some organisms have developed a mechanism called environmental sex determination (ESD), which allows environmental cues, rather than sex chromosomes or genes, to determine offspring sex. 1,2,3,4 ESD is advantageous to optimize sex ratios according to environmental conditions, enhancing reproductive success. 5,6 However, the process by which organisms perceive and translate diverse environmental signals into offspring sex remains unclear. Here, we analyzed the environmental perception mechanism in the crustacean, Daphnia pulex , a seasonal (photoperiodic) ESD arthropod, capable of producing females under long days and males under short days. 7,8,9,10 Through breeding experiments, we found that their circadian clock likely contributes to perception of day length. To explore this further, we created a genetically modified daphnid by knocking out the clock gene, period , using genome editing. Knockout disrupted the daphnid's ability to sustain diel vertical migration (DVM) under constant darkness, driven by the circadian clock, and leading them to produce females regardless of day length. Additionally, when exposed to an analog of juvenile hormone (JH), an endocrine factor synthesized in mothers during male production, or subjected to unfavorable conditions of high density and low food availability, these knockout daphnids produced males regardless of day length, like wild-type daphnids. Based on these findings, we propose that recognizing short days via the circadian clock is the initial step in sex determination. This recognition subsequently triggers male production by signaling the endocrine system, specifically via the JH signal. Establishment of a connection between these two processes may be the crucial element in evolution of ESD in Daphnia. [Display omitted] • Daphnids (WTN6) swiftly adjust offspring sex in response to day length changes • Ablation of per disrupts self-sustainability of diel vertical migration • per , a core clock gene, is required for short-day recognition in male production • Male production due to poor nutrition/crowding doesn't require the circadian clock Abe et al. show that the period gene, a circadian clock gene, is necessary for male production in response to short-day in Daphnia pulex. Males can still be produced by juvenoid exposure even when period is knocked out, suggesting that males are induced through activation of the juvenile hormone signal downstream of the circadian clock. [ABSTRACT FROM AUTHOR]

Published

2024

148. Sensitivity and photoperiodism response of algae-based biosensor using red and blue LED spectrums.

Author

Umar, Lazuardi, Aswandi, Febyola, Linda, Tetty Marta, Wati, Agustina, Setiadi, Rahmondia Nanda, Nasbey, Hadi, Fahdiran, Riser, Indrasari, Widyaningrum, Budi, Esmar, Bakri, Fauzi, Prayitno, Teguh Budi, and Muliyati, Dewi

Subjects

*PHOTOPERIODISM, *BIOSENSORS, *BLUE light, *CHLORELLA, *ALGAE

Abstract

An algae-based biosensor is investigated using dissolved oxygen levels producing from photosynthesis mechanism and from photoperiodism response time which describes the plant's reaction to light. This paper presents the sensitivity factor in the form of dissolved oxygen rate production level and response time of green algae-based biosensor, which is stimulated using artificial light of LEDs blue (480 nm) and red (650 nm). An amperometric electrode with two green algae as bioreceptors Chlorella kessleri and Chlorella sp. were tested in the biochip C chamber. A sample of 150µL algae with a density of 5−105 cells/ml was illuminated by the artificial light of blue and red spectrum altered for 1000 seconds of the dark-light cycle. The results showed a significant difference in the sensitivity of the algae chlorella sp. in producing dissolved oxygen which is 6.3 and 12.9 times higher than the chlorella kessleri for the blue and red light. While the photoperiodism response of Chlorella sp. has a time constant of 49.8 % for red and 37.5 % for blue smaller than Chlorella kessleri respectively. This result shows the algae chlorella sp. possesses good response characteristics to the red light, but less for photoperiodism response. [ABSTRACT FROM AUTHOR]

Published

2020

149. APPLICATION OF LASER RADIATION FOR PLANT GROWTH STIMULATION

Author

Veronika S. Filina, Natalya N. Sevostyanova, and Michael G. Danilovsky

Subjects

coherent radiation, laser radiation, crop production, photoperiodism, Optics. Light, QC350-467, Electronic computers. Computer science, QA75.5-76.95

Abstract

Subject of Research. The paper describes the laser stimulation technology for kohlrabi cabbage in the climate of North-West of Russia. The genetic potential of plants is activated as a result of exposure to laser radiation. Method. The method was based on the exciting effect of laser radiation with a wavelength of 650 nm on the plant phytochromes. Due to irradiation, protein and carbohydrate synthesis was accelerated, which leads to an increase in yield. Irradiation was performed at night by a semiconductor laser with a wavelength of 650 nm, a radiation power of 150 mW, and a radiation exposure of 30 seconds. Main Results. The total amount of protein in the collected kohlrabi stem crops in the experimental group samples was higher by 6 % than the corresponding indicators of the control group samples, carbohydrates — by 27 %, and the average weight of the stem crops — by 30 %. Practical Relevance. The proposed technology reduces the use of chemical agents for stimulation of plants growth and protection and, therefore, increases the profitability of crop production and improves its quality

Published

2020

150. Quantitative response to photoperiod and weak coupling between seasonal morphs and diapause regulation in the Asian comma butterfly, Polygonia c-aureum (Lepidoptera: Nymphalidae)

Author

Satoshi HIROYOSHI, Makio TAKEDA, Takayuki MITSUNAGA, and Gadi V.P. REDDY

Subjects

lepidoptera, nymphalidae, polygonia c-aureum, diapause induction, photoperiodism, ovary, reproduction, seasonal form, Zoology, QL1-991

Abstract

Reproduction and wing patterns (shape and colouration) in Polygonia c-aureum L. (Lepidoptera: Nymphalidae) are regulated by both photoperiod and temperature experienced during the immature stages, which result in the development of summer or autumn forms. The critical day length for this seasonal change in form was 13.5L : 10.5D at 21°C and 13L : 11D at 25°C. We investigated the connection between seasonal form and female reproduction. Under a 15L : 9D photoperiod at 21°C, reproductively active summer form butterflies are produced, whereas under an 8L : 16D photoperiod at 21°C autumn form butterflies with a strong tendency to enter diapause were produced. On the other hand, under the critical day lengths at 21 or 25°C, autumn form butterflies developed with a weak tendency to enter diapause. When the adult butterflies were transferred from a critical or a short photoperiod to a long photoperiod shortly after emergence, the former were more likely to terminate diapause than the latter. If individuals are reared throughout their entire life cycle under a short photoperiod at 21°C, all the adults have a strong tendency to enter diapause. These results reveal the quantitative effects of photoperiod on diapause in this butterfly and strongly indicate that the determination of the autumn form and induction and maintenance of diapause are not rigidly coupled, at least under laboratory conditions.

Published

2019