Recovery of the flight system following ablation of the tegulae in immature adult locusts

Christine Gee; R M Robertson

Recovery of the flight system following ablation of the tegulae in immature adult locusts

Standard

Recovery of the flight system following ablation of the tegulae in immature adult locusts. / Gee, Christine; Robertson, R M.

in: J EXP BIOL, Jahrgang 199, Nr. Pt 6, 1996, S. 1395-403.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Gee, C & Robertson, RM 1996, 'Recovery of the flight system following ablation of the tegulae in immature adult locusts', J EXP BIOL, Jg. 199, Nr. Pt 6, S. 1395-403.

APA

Gee, C., & Robertson, R. M. (1996). Recovery of the flight system following ablation of the tegulae in immature adult locusts. J EXP BIOL, 199(Pt 6), 1395-403.

Vancouver

Gee C, Robertson RM. Recovery of the flight system following ablation of the tegulae in immature adult locusts. J EXP BIOL. 1996;199(Pt 6):1395-403.

Bibtex

@article{0b7f74113804441cb7b4225f50a60860,

title = "Recovery of the flight system following ablation of the tegulae in immature adult locusts",

abstract = "The capacity of the flight system to recover from ablation of the tegulae was studied in immature adult Locusta migratoria and compared with recovery in mature adults. We ablated the hindwing tegulae or all tegulae in adult locusts either 1 day after the imaginal moult (immature locusts) or 2 weeks after the imaginal moult (mature locusts). We monitored recovery throughout the recovery period by using a stroboscope to measure the wingbeat frequency of tethered locusts. In addition, we measured other parameters of the flight motor pattern using electromyographic electrodes implanted into recovered locusts. Both methods of monitoring recovery yielded the same results. There was no reduction, during adult maturation, in the capacity of the locust flight system to recover from the loss of these proprioceptors. Plasticity of the locust flight system was therefore maintained in the mature adult locust. This suggests that the flight system is not fixed and simply implemented when the locust reaches adulthood, but that the circuitry can be remodelled throughout the animal's life to produce behaviour adapted to the needs and constraints of the individual.",

author = "Christine Gee and Robertson, {R M}",

year = "1996",

language = "English",

volume = "199",

pages = "1395--403",

journal = "J EXP BIOL",

issn = "0022-0949",

publisher = "Company of Biologists Ltd",

number = "Pt 6",

}

RIS

TY - JOUR

T1 - Recovery of the flight system following ablation of the tegulae in immature adult locusts

AU - Gee, Christine

AU - Robertson, R M

PY - 1996

Y1 - 1996

N2 - The capacity of the flight system to recover from ablation of the tegulae was studied in immature adult Locusta migratoria and compared with recovery in mature adults. We ablated the hindwing tegulae or all tegulae in adult locusts either 1 day after the imaginal moult (immature locusts) or 2 weeks after the imaginal moult (mature locusts). We monitored recovery throughout the recovery period by using a stroboscope to measure the wingbeat frequency of tethered locusts. In addition, we measured other parameters of the flight motor pattern using electromyographic electrodes implanted into recovered locusts. Both methods of monitoring recovery yielded the same results. There was no reduction, during adult maturation, in the capacity of the locust flight system to recover from the loss of these proprioceptors. Plasticity of the locust flight system was therefore maintained in the mature adult locust. This suggests that the flight system is not fixed and simply implemented when the locust reaches adulthood, but that the circuitry can be remodelled throughout the animal's life to produce behaviour adapted to the needs and constraints of the individual.

AB - The capacity of the flight system to recover from ablation of the tegulae was studied in immature adult Locusta migratoria and compared with recovery in mature adults. We ablated the hindwing tegulae or all tegulae in adult locusts either 1 day after the imaginal moult (immature locusts) or 2 weeks after the imaginal moult (mature locusts). We monitored recovery throughout the recovery period by using a stroboscope to measure the wingbeat frequency of tethered locusts. In addition, we measured other parameters of the flight motor pattern using electromyographic electrodes implanted into recovered locusts. Both methods of monitoring recovery yielded the same results. There was no reduction, during adult maturation, in the capacity of the locust flight system to recover from the loss of these proprioceptors. Plasticity of the locust flight system was therefore maintained in the mature adult locust. This suggests that the flight system is not fixed and simply implemented when the locust reaches adulthood, but that the circuitry can be remodelled throughout the animal's life to produce behaviour adapted to the needs and constraints of the individual.

M3 - SCORING: Journal article

C2 - 9319291

VL - 199

SP - 1395

EP - 1403

JO - J EXP BIOL

JF - J EXP BIOL

SN - 0022-0949

IS - Pt 6

ER -