A high-quality reference genome and comparative genomics of the widely farmed banded cricket (Gryllodes sigillatus) identifies selective breeding targets

Shangzhe Zhang; Kristin R. Duffield; Bert Foquet; Jose L. Ramirez; Ben M. Sadd; Scott K. Sakaluk; John Hunt; Nathan W. Bailey

doi:10.1002/ece3.71134

A high-quality reference genome and comparative genomics of the widely farmed banded cricket (Gryllodes sigillatus) identifies selective breeding targets

Shangzhe Zhang, Kristin R. Duffield, Bert Foquet, Jose L. Ramirez, Ben M. Sadd, Scott K. Sakaluk, John Hunt, Nathan W. Bailey^*

^*Corresponding author for this work

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

Abstract

Farmed insects have gained attention as an alternative, sustainable source of protein with a lower carbon footprint than traditional livestock. We present a high-quality reference genome for one of the most commonly farmed insects, the banded cricket Gryllodes sigillatus. In addition to its agricultural importance, G. sigillatus is also a model in behavioural and evolutionary ecology research on reproduction and mating systems. We report comparative genomic analyses that clarify the banded cricket's evolutionary history, identify gene family expansions and contractions unique to this lineage, associate these with agriculturally important traits, and identify targets for genome-assisted breeding efforts. The high-quality G. sigillatus genome assembly plus accompanying comparative genomic analyses serve as foundational resources for both applied and basic research on insect farming and behavioural biology, enabling researchers to pinpoint trait-associated genetic variants, unravel functional pathways governing those phenotypes, and accelerate selective breeding efforts to increase the efficacy of large-scale insect farming operations.

Original language	English
Article number	e71134
Number of pages	12
Journal	Ecology and Evolution
Volume	15
Issue number	3
DOIs	https://doi.org/10.1002/ece3.71134
Publication status	Published - 16 Mar 2025

Keywords

Banded cricket
Cricket farming
Genome-assisted breeding
Gryllodes sigillatus
Insect protein

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10.1002/ece3.71134Licence: CC BY

Zhang_2025_EaE_High-quality-reference-genome-banded-cricket-selective-breeding_CC
© 2025 The Author(s). This is an open access article under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
Final published version, 2.57 MBLicence: CC BY

Genomics of Host-Parasite Coevolution: Genomics of Host-Parasite Coevolution: A Test of Arms Race and Red Queen Dynamics in a Wild Insect System
Bailey, N. W. (PI) & Zhang, X. (CoI)
3/07/22 → 2/07/25
Project: Standard

A high-quality reference genome of the widely-farmed banded cricket (Gryllodes sigillatus) (dataset)
Zhang, S. (Creator), Bailey, N. (Contributor), Zhang, S. (Contributor), Duffield, K. (Contributor), Foquet, B. (Contributor), Ramirez, J. (Contributor), Sadd, B. (Contributor), Sakaluk, S. (Contributor), Hunt, J. (Contributor) & Bailey, N. (Contributor), Zenodo, 8 Jan 2025
DOI: 10.5281/zenodo.14617131
Dataset

Cite this

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title = "A high-quality reference genome and comparative genomics of the widely farmed banded cricket (Gryllodes sigillatus) identifies selective breeding targets",

abstract = "Farmed insects have gained attention as an alternative, sustainable source of protein with a lower carbon footprint than traditional livestock. We present a high-quality reference genome for one of the most commonly farmed insects, the banded cricket Gryllodes sigillatus. In addition to its agricultural importance, G. sigillatus is also a model in behavioural and evolutionary ecology research on reproduction and mating systems. We report comparative genomic analyses that clarify the banded cricket's evolutionary history, identify gene family expansions and contractions unique to this lineage, associate these with agriculturally important traits, and identify targets for genome-assisted breeding efforts. The high-quality G. sigillatus genome assembly plus accompanying comparative genomic analyses serve as foundational resources for both applied and basic research on insect farming and behavioural biology, enabling researchers to pinpoint trait-associated genetic variants, unravel functional pathways governing those phenotypes, and accelerate selective breeding efforts to increase the efficacy of large-scale insect farming operations.",

keywords = "Banded cricket, Cricket farming, Genome-assisted breeding, Gryllodes sigillatus, Insect protein",

author = "Shangzhe Zhang and Duffield, {Kristin R.} and Bert Foquet and Ramirez, {Jose L.} and Sadd, {Ben M.} and Sakaluk, {Scott K.} and John Hunt and Bailey, {Nathan W.}",

note = "Funding: The authors gratefully acknowledge funding support from the Australian Research Council to J.H. (DP180101708), the UK Natural Environment Research Council to N.W.B. (NE/W001616/1), the China Scholarship Council to S.Z. (202106180022), and the United States National Science Foundation to S.K.S., B.M.S., and J.H. (IOS 16–54028). This research was also supported in part by the U.S. Department of Agriculture, Agricultural Research Service (Project Number: 6064-32000-001-000D to K.R.D. and 5010-22410-023-00-D to J.L.R.). The authors thank the UK Biotechnology and Biological Sciences Research Council (BB/S019669/1 and BB/X019683/1) and James Hutton Institute for access to the UK's Crop Diversity Bioinformatics High Performance Computing Cluster",

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AU - Duffield, Kristin R.

AU - Foquet, Bert

AU - Ramirez, Jose L.

AU - Sadd, Ben M.

AU - Sakaluk, Scott K.

AU - Hunt, John

AU - Bailey, Nathan W.

N1 - Funding: The authors gratefully acknowledge funding support from the Australian Research Council to J.H. (DP180101708), the UK Natural Environment Research Council to N.W.B. (NE/W001616/1), the China Scholarship Council to S.Z. (202106180022), and the United States National Science Foundation to S.K.S., B.M.S., and J.H. (IOS 16–54028). This research was also supported in part by the U.S. Department of Agriculture, Agricultural Research Service (Project Number: 6064-32000-001-000D to K.R.D. and 5010-22410-023-00-D to J.L.R.). The authors thank the UK Biotechnology and Biological Sciences Research Council (BB/S019669/1 and BB/X019683/1) and James Hutton Institute for access to the UK's Crop Diversity Bioinformatics High Performance Computing Cluster

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N2 - Farmed insects have gained attention as an alternative, sustainable source of protein with a lower carbon footprint than traditional livestock. We present a high-quality reference genome for one of the most commonly farmed insects, the banded cricket Gryllodes sigillatus. In addition to its agricultural importance, G. sigillatus is also a model in behavioural and evolutionary ecology research on reproduction and mating systems. We report comparative genomic analyses that clarify the banded cricket's evolutionary history, identify gene family expansions and contractions unique to this lineage, associate these with agriculturally important traits, and identify targets for genome-assisted breeding efforts. The high-quality G. sigillatus genome assembly plus accompanying comparative genomic analyses serve as foundational resources for both applied and basic research on insect farming and behavioural biology, enabling researchers to pinpoint trait-associated genetic variants, unravel functional pathways governing those phenotypes, and accelerate selective breeding efforts to increase the efficacy of large-scale insect farming operations.

AB - Farmed insects have gained attention as an alternative, sustainable source of protein with a lower carbon footprint than traditional livestock. We present a high-quality reference genome for one of the most commonly farmed insects, the banded cricket Gryllodes sigillatus. In addition to its agricultural importance, G. sigillatus is also a model in behavioural and evolutionary ecology research on reproduction and mating systems. We report comparative genomic analyses that clarify the banded cricket's evolutionary history, identify gene family expansions and contractions unique to this lineage, associate these with agriculturally important traits, and identify targets for genome-assisted breeding efforts. The high-quality G. sigillatus genome assembly plus accompanying comparative genomic analyses serve as foundational resources for both applied and basic research on insect farming and behavioural biology, enabling researchers to pinpoint trait-associated genetic variants, unravel functional pathways governing those phenotypes, and accelerate selective breeding efforts to increase the efficacy of large-scale insect farming operations.

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KW - Cricket farming

KW - Genome-assisted breeding

KW - Gryllodes sigillatus

KW - Insect protein

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DO - 10.1002/ece3.71134

M3 - Article

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VL - 15

JO - Ecology and Evolution

JF - Ecology and Evolution

IS - 3

M1 - e71134

ER -

A high-quality reference genome and comparative genomics of the widely farmed banded cricket (Gryllodes sigillatus) identifies selective breeding targets

Abstract

Keywords

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Projects

Genomics of Host-Parasite Coevolution: Genomics of Host-Parasite Coevolution: A Test of Arms Race and Red Queen Dynamics in a Wild Insect System

Datasets

A high-quality reference genome of the widely-farmed banded cricket (Gryllodes sigillatus) (dataset)

Cite this