Abin Ghosh scite author profile

Abin Ghosh

3Publications

15Citation Statements Received

78Citation Statements Given

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Affiliations

Shell (India), National Centre for Biological Sciences, Tata Institute of Fundamental Research

Publications

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Effectiveness and efficiency of two distinct mechanisms for take-off in a derbid planthopper insect

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Ghosh

Yeshwanth

et al. 2018

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Analysis of the kinematics of take-off in the planthopper Proutista moesta (Hemiptera, Fulgoroidea, family Derbidae) from high-speed videos showed that these insects used two distinct mechanisms involving different appendages. The first was a fast take-off (55.7% of 106 take-offs by 11 insects) propelled by a synchronised movement of the two hind legs and without participation of the wings. The body was accelerated in 1 ms or less to a mean take-off velocity of 1.7 m s −1 while experiencing average forces of more than 150 times gravity. The power required from the leg muscles implicated a poweramplification mechanism. Such take-offs propelled the insect along its trajectory a mean distance of 7.9 mm in the first 5 ms after take-off. The second and slower take-off mechanism (44.3% of take-offs) was powered by beating movements of the wings alone, with no discernible contribution from the hind legs. The resulting mean acceleration time was 16 times slower at 17.3 ms, the mean final velocity was six times lower at 0.27 m s −1 , the g forces experienced were 80 times lower and the distance moved in 5 ms after take-off was 7 times shorter. The power requirements could be readily met by direct muscle contraction. The results suggest a testable hypothesis that the two mechanisms serve distinct behavioural actions: the fast take-offs could enable escape from predators and the slow take-offs that exert much lower ground reaction forces could enable take-off from more flexible substrates while also displacing the insect in a slower and more controllable trajectory.Comparison of take-off performance using two mechanisms: (1) fast take-off propelled by hind legs and (2) slow take-off propelled by wings. Data in columns 2-6 are the grand means (±s.e.m.) for the measured jumping performance of all insects analysed. The values in columns 7-12 are calculated from these means. N=number of individuals performing this type of take-off. The best performance is based on the take-off with the highest velocity. 6

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Jumping in lantern bugs (Hemiptera, Fulgoridae)

Burrows

Ghosh

Sutton

et al. 2021

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Lantern bugs are amongst the largest of the jumping hemipteran bugs with body lengths reaching 44 mm and their masses 0.7 g. They are up to 600 times heavier than smaller hemipterans that jump powerfully using catapult mechanisms to store energy. Does a similar mechanism also propel jumping in these much larger insects? The jumping performance of two species of lantern bugs (Hemiptera, Auchenorrhyncha, family Fulgoridae) from India and Malaysia was therefore analysed from high-speed videos. The kinematics showed that jumps were propelled by rapid and synchronous movements of both hind legs with their trochantera moving first. The hind legs were 20-40% longer than the front legs, which was attributable to longer tibiae. It took 5-6 ms to accelerate to take-off velocities reaching 4.65 m s−1 in the best jumps by female Kalidasa lanata. During these jumps, adults experienced an acceleration of 77 g, required an energy expenditure of 4800 µJ, a power output of 900 mW and exerted a force of 400 mN. The required power output of the thoracic jumping muscles was 21,000 W kg−1, 40 times greater than the maximum active contractile limit of muscle. Such a jumping performance therefore required a power amplification mechanism with energy storage in advance of the movement as in their smaller relatives. These large lantern bugs are near isometrically scaled up versions of their smaller relatives, still achieve comparable, if not higher, take-off velocities, and outperform other large jumping insects such as grasshoppers.

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IOT based Sensor System for 24×7 monitoring movement disorder symptoms using machine learning

Ghosh

Anand

Kaushik

et al. 2023

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Abin Ghosh

Effectiveness and efficiency of two distinct mechanisms for take-off in a derbid planthopper insect

Jumping in lantern bugs (Hemiptera, Fulgoridae)

IOT based Sensor System for 24×7 monitoring movement disorder symptoms using machine learning

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