Predation-driven geographical isolation of broods in periodical cicadas

Diane Carmeliza N. Cuaresma; Maica Krizna A. Gavina; Jomar F. Rabajante; Jerrold M. Tubay; Takuya Okabe; Satoru Morita; Kazuya Kobayashi; Nobuaki Mizumoto; Hiromu Ito; Jin Yoshimura; Satoshi Kakishima; John R. Cooley

doi:10.1038/s41598-024-75247-x

Predation-driven geographical isolation of broods in periodical cicadas

Diane Carmeliza N. Cuaresma^*, Maica Krizna A. Gavina, Jomar F. Rabajante, Jerrold M. Tubay, Takuya Okabe, Satoru Morita, Kazuya Kobayashi, Nobuaki Mizumoto, Hiromu Ito, Jin Yoshimura, Satoshi Kakishima, John R. Cooley

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Periodical cicadas are remarkable for their incredibly long, prime-numbered life cycles and almost perfectly synchronized mass emergence. Synchronized emergence is a generally localized event, referred to as a "brood". Broods are separated in space and time, or parapatric; adjacent broods emerge on different schedules, whereas some cicadas emerge off schedule, called stragglers. Straggling can potentially erode brood boundaries; thus, the mechanism allowing broods to maintain nonoverlapping distributions is highly puzzling. Here, we propose that predation may allow broods to exclude each other. Our model and numerical simulations show that predation could act as an important factor for maintaining the nonoverlapping distributions. The proposed mechanism is most effective in the vicinity of the critical strength of predation, beyond which the population is doomed to extinction. An increase in predation intensity increases resistance to settlement of a minority brood, while suppressing the main brood population.

Original language	English
Article number	27071
Number of pages	9
Journal	Scientific Reports
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41598-024-75247-x
Publication status	Published - 7 Nov 2024

Bibliographical note

Publisher Copyright:
© 2024. The Author(s).

Keywords

Magicicada
Nonoverlapping broods
Stragglers

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10.1038/s41598-024-75247-xLicence: CC BY-NC-ND

s41598-024-75247-xFinal published version, 3.77 MBLicence: CC BY-NC-ND

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title = "Predation-driven geographical isolation of broods in periodical cicadas",

abstract = "Periodical cicadas are remarkable for their incredibly long, prime-numbered life cycles and almost perfectly synchronized mass emergence. Synchronized emergence is a generally localized event, referred to as a {"}brood{"}. Broods are separated in space and time, or parapatric; adjacent broods emerge on different schedules, whereas some cicadas emerge off schedule, called stragglers. Straggling can potentially erode brood boundaries; thus, the mechanism allowing broods to maintain nonoverlapping distributions is highly puzzling. Here, we propose that predation may allow broods to exclude each other. Our model and numerical simulations show that predation could act as an important factor for maintaining the nonoverlapping distributions. The proposed mechanism is most effective in the vicinity of the critical strength of predation, beyond which the population is doomed to extinction. An increase in predation intensity increases resistance to settlement of a minority brood, while suppressing the main brood population.",

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doi = "10.1038/s41598-024-75247-x",

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AU - Cuaresma, Diane Carmeliza N.

AU - Gavina, Maica Krizna A.

AU - Rabajante, Jomar F.

AU - Tubay, Jerrold M.

AU - Okabe, Takuya

AU - Morita, Satoru

AU - Kobayashi, Kazuya

AU - Mizumoto, Nobuaki

AU - Ito, Hiromu

AU - Yoshimura, Jin

AU - Kakishima, Satoshi

AU - Cooley, John R.

PY - 2024/11/7

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N2 - Periodical cicadas are remarkable for their incredibly long, prime-numbered life cycles and almost perfectly synchronized mass emergence. Synchronized emergence is a generally localized event, referred to as a "brood". Broods are separated in space and time, or parapatric; adjacent broods emerge on different schedules, whereas some cicadas emerge off schedule, called stragglers. Straggling can potentially erode brood boundaries; thus, the mechanism allowing broods to maintain nonoverlapping distributions is highly puzzling. Here, we propose that predation may allow broods to exclude each other. Our model and numerical simulations show that predation could act as an important factor for maintaining the nonoverlapping distributions. The proposed mechanism is most effective in the vicinity of the critical strength of predation, beyond which the population is doomed to extinction. An increase in predation intensity increases resistance to settlement of a minority brood, while suppressing the main brood population.

AB - Periodical cicadas are remarkable for their incredibly long, prime-numbered life cycles and almost perfectly synchronized mass emergence. Synchronized emergence is a generally localized event, referred to as a "brood". Broods are separated in space and time, or parapatric; adjacent broods emerge on different schedules, whereas some cicadas emerge off schedule, called stragglers. Straggling can potentially erode brood boundaries; thus, the mechanism allowing broods to maintain nonoverlapping distributions is highly puzzling. Here, we propose that predation may allow broods to exclude each other. Our model and numerical simulations show that predation could act as an important factor for maintaining the nonoverlapping distributions. The proposed mechanism is most effective in the vicinity of the critical strength of predation, beyond which the population is doomed to extinction. An increase in predation intensity increases resistance to settlement of a minority brood, while suppressing the main brood population.

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Predation-driven geographical isolation of broods in periodical cicadas

Abstract

Bibliographical note

Keywords

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