D. Anitha scite author profile

Studies on selection for faster development in Drosophila have typically focused on the trade-offs among development time, adult weight, and adult life span. Relatively less attention has been paid to the evolution of preadult life stages and behaviors in response to such selection. We have earlier reported that four laboratory populations of D. melanogaster selected for faster development and early reproduction, relative to control populations, showed considerably reduced preadult development time and survivorship, dry weight at eclosion, and larval growth rates. Here we study the larval phase of these populations in greater detail. We show here that the reduction in development time after about 50 generations of selection is due to reduced duration of the first and third larval instars and the pupal stage, whereas the duration of the second larval instar has not changed. About 90% of the preadult mortality in the selected populations is due to larval mortality. The third instar larvae, pupae, and freshly eclosed adults of the selected populations weigh significantly less than controls, and this difference appears during the third larval instar. Thereafter, percentage weight loss during the pupal stage does not differ between selected and control populations. The minimum amount of time a larva must feed to subsequently complete development is lower in the selected populations, which also exhibit a syndrome of reduced energy expenditure through reduction in larval feeding rate, larval digging and foraging activity, and pupation height. Comparison of these results with those observed earlier in populations selected for adaptation to larval crowding and faster development under a different protocol from ours reveal differences in the evolved traits that suggest that the responses to selection for faster development are greatly affected by the larval density at which selection acts and on details of the selection pressures acting on the timing of reproduction.

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Possible role of eclosion rhythm in mediating the effects of light-dark environments on pre-adult development in Drosophila melanogaster

Paranjpe

Anitha

Chandrashekaran

et al. 2005

BMC Dev Biol

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Background: In insects, circadian clocks have been implicated in affecting life history traits such as pre-adult development time and adult lifespan. Studies on the period (per) mutants of Drosophila melanogaster, and laboratory-selected lines of Bactrocera cucurbitae suggested a close link between circadian clocks and development time. There is a possibility of clock genes having pleiotropic effects on clock period and pre-adult development time. In order to avoid such pleiotropic effects we have used wild type flies of same genotype under environments of different periodicities, which phenotypically either speeded up or slowed down the eclosion clock of D. melanogaster.

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Entrainment of Eclosion Rhythm inDrosophila melanogasterPopulations Reared for More Than 700 Generations in Constant Light Environment

Paranjpe¹,

Anitha²,

Kumar³

et al. 2003

Chronobiology International

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In this paper, we report the results of our extensive study on eclosion rhythm of four independent populations of Drosophila melanogaster that were reared in constant light (LL) environment of the laboratory for more than 700 generations. The eclosion rhythm of these flies was assayed under LL, constant darkness (DD) and three periodic light-dark (LD) cycles (T20, T24, and T28). The percentage of vials from each population that exhibited circadian rhythm of eclosion in DD and in LL (intensity of approximately 100 lux) was about 90% and 18%, respectively. The mean free-running period (tau) of eclosion rhythm in DD was 22.85 +/- 0.87 h (mean +/- SD). Eclosion rhythm of these flies entrained to all the three periodic LD cycles, and the phase relationship (psi) of the peak of eclosion with respect to "lights-on" of the LD cycle was significantly different in the three periodic light regimes (T20, T24, and T28). The results thus clearly demonstrate that these flies have preserved the ability to exhibit circadian rhythm of eclosion and the ability to entrain to a wide range of periodic LD cycles even after being in an aperiodic environment for several hundred generations. This suggests that circadian clocks may have intrinsic adaptive value accrued perhaps from coordinating internal metabolic cycles in constant conditions, and that the entrainment mechanisms of circadian clocks are possibly an integral part of the clockwork.

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Circadian clocks and life-history related traits: Is pupation height affected by circadian organization inDrosophila melanogaster?

Paranjpe

Anitha

Sharma

et al. 2004

J Genet

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In D. melanogaster, the observation of greater pupation height under constant darkness than under constant light has been explained by the hypothesis that light has an inhibitory effect on larval wandering behaviour, preventing larvae from crawling higher up the walls of culture vials prior to pupation. If this is the only role of light in affecting pupation height, then various light : dark regimes would be predicted to yield pupation heights intermediate between those seen in constant light and constant darkness. We tested this hypothesis by measuring pupation height under various light : dark regimes in four laboratory populations of Drosophila melanogaster. Pupation height was the greatest in constant darkness, intermediate in constant light, and the least in a light/dark regime of LD 14:14 h. The results clearly suggest that there is more to light regime effects on pupation height than mere behavioural inhibition of wandering larvae, and that circadian organization may play some role in determining pupation height, although the details of this role are not yet clear. We briefly discuss these results in the context of the possible involvement of circadian clocks in life-history evolution.

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Deriving a prototype for the dynamic generation of learning path in an e-learning environment using genetic algorithm

Anitha

Deisy

2013

IJIL

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Multi-Oscillatory Control of Eclosion and Oviposition Rhythms inDrosophila melanogaster: Evidence from Limits of Entrainment Studies

Paranjpe

Anitha

Joshi

et al. 2004

Chronobiology International

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The eclosion and oviposition rhythms of flies from a population of Drosophila melanogaster maintained under constant conditions of the laboratory were assayed under constant light (LL), constant darkness (DD), and light/dark (LD) cycles of 10:10h (T20), 12:12h (T24), and 14:14h (T28). The mean (+/- 95% confidence interval; CI) free-running period (tau) of the oviposition rhythm was 26.34 +/- 1.04h and 24.50 +/- 1.77h in DD and LL, respectively. The eclosion rhythm showed a tau of 23.33 +/- 0.63 h (mean +/- 95% CI) in DD, and eclosion was not rhythmic in LL. The tau of the oviposition rhythm in DD was significantly greater than that of the eclosion rhythm. The eclosion rhythm of all 10 replicate vials entrained to the three periodic light regimes, T20, T24, and T28, whereas the oviposition rhythm of only about 24 and 41% of the individuals entrained to T20 and T24 regimes, respectively, while about 74% of the individuals assayed in T28 regimes showed entrainment. Our results thus clearly indicate that the tau and the limits of entrainment of eclosion rhythm are different from those of the oviposition rhythm, and hence this reinforces the view that separate oscillators may regulate these two rhythms in D. melanogaster.

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Proposing a novel approach for classification and sequencing of Learning Objects in E-learning systems based on learning style

Anitha¹,

Deisy²

2015

IFS

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Proposing a Classification Methodology to Reduce Learning Style Combinations for Better Teaching and Learning

Anitha¹,

Deisy²,

Lakshmi³

et al. 2014

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Over the past 25 years, Learning Style Models have brought increasing attention to the fact that students have varying learning styles and students may enjoy learning only if teaching learning methodologies adapt to their learning style. There exists a lot of learning style models that determine the learning styles. However, addressing the needs of all styles of students is practically impossible and there is a need to find methodologies that identify major classification of students in a classroom. This research work proposes a classification methodology based on correlation prevailing between various dimensions of the learning models. This work finds the major classifications of learning styles among students and suggests suitable Teaching Learning Strategies. Felder Silverman Learning Style Model (FSLSM) is chosen for this research work and the reliability of this Learning Style Model is tested.A case study was conducted with 45 post graduate students using the proposed methodology and results are discussed.

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D. Anitha

Correlated Responses to Selection for Faster Development and Early Reproduction in Drosophila: The Evolution of Larval Traits

Possible role of eclosion rhythm in mediating the effects of light-dark environments on pre-adult development in Drosophila melanogaster

Entrainment of Eclosion Rhythm inDrosophila melanogasterPopulations Reared for More Than 700 Generations in Constant Light Environment

Circadian clocks and life-history related traits: Is pupation height affected by circadian organization inDrosophila melanogaster?

Deriving a prototype for the dynamic generation of learning path in an e-learning environment using genetic algorithm

Multi-Oscillatory Control of Eclosion and Oviposition Rhythms inDrosophila melanogaster: Evidence from Limits of Entrainment Studies

Proposing a novel approach for classification and sequencing of Learning Objects in E-learning systems based on learning style

Proposing a Classification Methodology to Reduce Learning Style Combinations for Better Teaching and Learning

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