Abstract
As larval cannibalism is common under intensive rearing conditions, leg regeneration can help ladybugs adapt to the competitive environment, but whether the leg regeneration leads to side effects on development remains unclear. To analyze the potentially developmental cost of leg regeneration, the developmental period and weight of leg-regenerated Coccinella septempunctata were studied in the laboratory. The results showed that, when the time intervals between the emergency of 4th-instar larva and leg amputation increased, the developmental period of leg-regenerated 4th-instar larvae was gradually prolonged. Significantly developmental delay were also examined at prepupal and pupal stages, and various timings of leg amputation affected the periods of leg-regenerated prepupae/pupae similarly. After the leg was amputated at different larval instars, the developmental delay only occurred at the larval instar when the leg was amputated, whereas other larval instars failed to be extended, and the developmental periods of leg-regenerated prepupae/pupae were affected similarly by the instars of leg amputation. Developmental delays possibly resulted in more consumption by leg-regenerated larvae, and then weight gains at prepupal/pupal stages, but different larval instars of leg amputation affected the weight gain similarly. Both the developmental delay (at 4th-instar larval, prepupal and pupal stages) and weight gain (at pupal and adult stages) in complete/bilateral amputation were longer or greater than those in half/unilateral amputation. However, the thoracic locations of leg amputation impacted the developmental delay and weight gain similarly. Our study indicates that although leg regeneration triggers the developmental cost decreasing the competitive superiority or agility, C. septempunctata larvae still choose to completely regenerate the leg to adapt to complex environments. Thus, in order to remain competitive at adult stages, leg-impaired larvae may make an investment tradeoff between leg regeneration and developmental cost.
Highlights
Regeneration is a process of regrowing or renovating injured tissues/cells in organisms [1,2], and the in-depth study of regeneration may contribute to technical improvements in repairing damaged human organs [3]
Developmental periods of leg-regenerated 4th-instar larvae were prolonged progressively when the leg was amputated from day 0 to day 4, and almost all 4th-instar larval periods of leg-regenerated ladybugs significantly longer than that of control (F9, 38 = 155.556, P < 0.001; Fig 2A)
Various timings of leg amputation affected developmental periods of leg-regenerated prepupae/pupae but both leg-regenerated prepupae (F9, 20 = 2.895, P = 0.014; Fig 2B) and pupae (F9, 20 = 2.831, P = 0.025; Fig 2C) delayed development significantly compared to normal individuals after the leg was amputated at the different timings
Summary
Regeneration is a process of regrowing or renovating injured tissues/cells in organisms [1,2], and the in-depth study of regeneration may contribute to technical improvements in repairing damaged human organs [3]. Epimorphosis observed in both vertebrate and invertebrate is the tissue reestablishment of lost parts via cell multiplication [4,5]. Leg regeneration in insects has been studied in at least 36 genera of 11 orders, including Blattaria, Periplaneta americana [10], Leucophaea maderae [11], Eupolyphaga sinensis Walker [12], Phasmida, Sinophasma spp. Leg regeneration helps insects adapt to competitive environments, and causes developmental costs
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