The genome sequence of the Brindled Beauty, Lycia hirtaria (Clerck, 1759)

We present a genome assembly from an individual male Lycia hirtaria (the Brindled Beauty; Arthropoda; Insecta; Lepidoptera; Geometridae). The genome sequence is 552.0 megabases in span. Most of the assembly is scaffolded into 14 chromosomal pseudomolecules, including the Z sex chromosome. The mitochondrial genome has also been assembled and is 15.58 kilobases in length.


Background
Several moths in the subfamily Ennominae, family Geometridae, have winged males and flightless females, with wing reduction probably having evolved multiple times (Wahlberg et al., 2010).To understand the genetic basis and the selective pressures underpinning this trait, species with flightless females must be compared to close relatives with winged females.The Brindled Beauty Lycia hirtaria is an example of this group in which both males and females are fully winged: in each sex the forewings are smoky-grey with black cross-lines.Interspecific crosses have been made between L. hirtaria and several related species, although the offspring are usually infertile (Ford, 1967;Harrison, 1916).In crosses between L. hirtaria and species with wingless females, partially winged hybrids are sometimes obtained.When the male is L. hirtaria, some of these crosses also give sex ratio distortion with a predominance of phenotypic males (Harrison, 1916;Harrison, 1919;Harrison & Doncaster, 1914).In the case of infertile offspring produced by crossing L. hirtaria with L. zonaria, examination of hybrids suggests that major karyotype differences cause disruption of chromosome paring during meiosis in the F 1 generation (Harrison & Doncaster, 1914).
L. hirtaria is found in woodland and suburban areas across northern Europe and further east through Russia to Japan (GBIF Secretariat, 2022;Wagner, 2023).In Britain and Ireland, the moth is widespread but not usually common, and is recorded most frequently in the southeast of England (Randle et al., 2019).The adult moth is on the wing in early spring, peaking in April in southern England, with larvae feeding in summer on the leaves of deciduous trees including Prunus, Crataegus and Salix; the pupal stage overwinters.Abundance of the species in Britain has declined by over 70% since 1970 (Randle et al., 2019); in the 19th century it was sufficiently abundant in London to cause widespread defoliation of trees (Newman, 1869).
The complete genome of Lycia hirtaria was determined as part of the Darwin Tree of Life project.The assembled genome will contribute to the growing set of resources for studying insect ecology and evolution.

Genome sequence report
The genome was sequenced from one male Lycia hirtaria (Figure 1) collected from Wytham Woods, Oxfordshire, UK (51.77, -1.34).A total of 40-fold coverage in Pacific Biosciences single-molecule HiFi long reads was generated.Primary assembly contigs were scaffolded with chromosome conformation Hi-C data.Manual assembly curation corrected three missing joins or mis-joins and removed one haplotypic duplication, reducing the scaffold number by 4.76%.
The final assembly has a total length of 552.0 Mb in 19 sequence scaffolds with a scaffold N50 of 45.4 Mb (Table 1).Most (99.92%) of the assembly sequence was assigned to 14 chromosomal-level scaffolds, representing 13 autosomes and the Z sex chromosome.Chromosome-scale scaffolds confirmed by the Hi-C data are named in order of size (Figure 2-Figure 5; Table 2).While not fully phased, the assembly deposited is of one haplotype.Contigs corresponding to the second haplotype have also been deposited.The mitochondrial genome was also assembled and can be found as a contig within the multifasta file of the genome submission.
Metadata for specimens, spectral estimates, sequencing runs, contaminants and pre-curation assembly statistics can be found at https://links.tol.sanger.ac.uk/species/326963.

Sample acquisition and nucleic acid extraction
A male Lycia hirtaria (specimen ID Ox001108, individual ilLycHirt1) was collected using a light trap in Wytham Woods, Oxfordshire (biological vice-county Berkshire), UK (latitude 51.77, longitude -1.34) on 2021-03-31.Douglas Boyes (University of Oxford) collected and identified the specimen.The specimen was snap-frozen on dry ice.DNA was extracted at the Tree of Life laboratory, Wellcome Sanger Institute (WSI).The ilLycHirt1 sample was weighed and dissected on dry ice with tissue set aside for Hi-C sequencing.Thorax tissue was cryogenically disrupted to a fine powder using a Covaris cryoPREP Automated Dry Pulveriser, receiving multiple impacts.High molecular weight (HMW) DNA was extracted using the Qiagen MagAttract HMW DNA extraction kit.HMW DNA was sheared into an average fragment size of 12-20 kb in a Megaruptor 3 system with speed setting 30.Sheared DNA was purified by solid-phase reversible immobilisation using AMPure PB beads with a 1.8X ratio of beads to sample to remove the shorter fragments and concentrate the DNA sample.The concentration of the sheared and purified DNA was assessed using a Nanodrop spectrophotometer and Qubit Fluorometer and Qubit dsDNA High Sensitivity Assay kit.Fragment size distribution was evaluated by running the sample on the FemtoPulse system.

Sequencing
Pacific Biosciences HiFi circular consensus DNA sequencing libraries were constructed according to the manufacturers' instructions.DNA sequencing was performed by the Scientific Operations core at the WSI on a Pacific Biosciences SEQUEL II (HiFi) instrument.Hi-C data were also generated from head tissue of ilLycHirt1 using the Arima2 kit and sequenced on the Illumina NovaSeq 6000 instrument.

Genome assembly, curation and evaluation
Assembly was carried out with Hifiasm (Cheng et al., 2021) and haplotypic duplication was identified and removed with purge_dups (Guan et al., 2020).The assembly was then A Hi-C map for the final assembly was produced using bwa-mem2 (Vasimuddin et al., 2019) in the Cooler file format (Abdennur & Mirny, 2020).To assess the assembly metrics, Table 3 contains a list of relevant software tool versions and sources.

Wellcome Sanger Institute -Legal and Governance
The materials that have contributed to this genome note have been supplied by a Darwin Tree of Life Partner.The submission Further, the Wellcome Sanger Institute employs a process whereby due diligence is carried out proportionate to the nature of the materials themselves, and the circumstances under which they have been/are to be collected and provided for use.
The purpose of this is to address and mitigate any potential legal and/or ethical implications of receipt and use of the materials as part of the research project, and to ensure that in doing so we align with best practice wherever possible.The overarching areas of consideration are: • Ethical review of provenance and sourcing of the material • Legality of collection, transfer and use (national and international)

Roberto Feuda
University of Leicester, Leicester, England, UK In this article, Boyes and Holland present the genome sequence of a male Lycia hirtaria.The rationale for sequencing this genome is well described, as its comparison will inform the genomic basis of wing gain and retention and the overall ecology of this declining species.The entire process, from DNA extraction to genome assembly, is documented.Additionally, the genome and the raw reads are available.

Ludvik M Gomulski
University of Pavia, Pavia, Italy The manuscript describes the nuclear and mitochondrial genome sequences obtained from a single male of the Brindled beauty moth, Lycia hirtaria from Wytham Woods, Oxfordshire.One of the reasons for sequencing this species is to understand the genetic basis and selective pressures underlying the presence of flightless females in several species within the subfamily Ennominae, to which L. hirtaria pertains, and whose females are fully winged.The genome sequences appear to be of very high quality and the methods and analyses used are well described and appropriate, and the datasets are readily accessible.

Is the rationale for creating the dataset(s) clearly described? Yes
Are the protocols appropriate and is the work technically sound?Yes

Are sufficient details of methods and materials provided to allow replication by others? Yes
Are the datasets clearly presented in a useable and accessible format?Yes Competing Interests: No competing interests were disclosed.
Reviewer Expertise: Behaviour, physiology and functional genetics of insects, especially mosquitoes I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.
This manuscript provides the critical data details from the recently acquired sequence of the genome of the Brindled Beauty, Lycia hirtaria (Clerck), a common and notably polymorphic species of geometrid moth which is of additional interest in having both sexes fully winged while close relatives have flightless females.The new genome can thus serve as a useful comparison when studying the genes responsible for the winged/wingless shift.Some genetic experiments concerning this shift are mentioned, but it is not clear whether additional genomes of close relatives have been or are currently being sequenced.It would have been useful to know what is the closest relative for which the genomes sequence is known, and whether the chromosomal organization of this genome is unusual or not.
The assembly appears to be of suitably high quality to be useful for such comparisons, and is based on the sequence from a single male.The paper as a whole, and the methods in particular, are very clearly written and cleanly illustrated.The methodology and results reflect the current state of the art.
Is the rationale for creating the dataset(s) clearly described?Yes Are the protocols appropriate and is the work technically sound?Yes

Are sufficient details of methods and materials provided to allow replication by others? Yes
Are the datasets clearly presented in a useable and accessible format?Yes Competing Interests: No competing interests were disclosed.
Reviewer Expertise: Systematics and ecology of parasitoids of Lepidoptera; comparative genomics of parasitoid wasps and their viruses I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.

Figure 2 .
Figure 2. Genome assembly of Lycia hirtaria, ilLycHirt1.1:metrics.The BlobToolKit Snailplot shows N50 metrics and BUSCO gene completeness.The main plot is divided into 1,000 size-ordered bins around the circumference with each bin representing 0.1% of the 551,971,097 bp assembly.The distribution of scaffold lengths is shown in dark grey with the plot radius scaled to the longest scaffold present in the assembly (56,061,216 bp, shown in red).Orange and pale-orange arcs show the N50 and N90 scaffold lengths (45,432,280 and 37,909,223 bp), respectively.The pale grey spiral shows the cumulative scaffold count on a log scale with white scale lines showing successive orders of magnitude.The blue and pale-blue area around the outside of the plot shows the distribution of GC, AT and N percentages in the same bins as the inner plot.A summary of complete, fragmented, duplicated and missing BUSCO genes in the lepidoptera_odb10 set is shown in the top right.An interactive version of this figure is available at https://blobtoolkit.genomehubs.org/view/Lycia%20hirtaria/dataset/CANOBA01/snail.

Figure 3 .
Figure 3. Genome assembly of Lycia hirtaria, ilLycHirt1.1:BlobToolKit GC-coverage plot.Scaffolds are coloured by phylum.Circles are sized in proportion to scaffold length.Histograms show the distribution of scaffold length sum along each axis.An interactive version of this figure is available at https://blobtoolkit.genomehubs.org/view/Lycia%20hirtaria/dataset/CANOBA01/blob.

Figure 4 .
Figure 4. Genome assembly of Lycia hirtaria, ilLycHirt1.1:BlobToolKit cumulative sequence plot.The grey line shows cumulative length for all scaffolds.Coloured lines show cumulative lengths of scaffolds assigned to each phylum using the buscogenes taxrule.An interactive version of this figure is available at https://blobtoolkit.genomehubs.org/view/Lycia%20hirtaria/dataset/CANOBA01/cumulative.

Figure 5 .
Figure 5. Genome assembly of Lycia hirtaria, ilLycHirt1.1:Hi-C contact map of the ilLycHirt1.1 assembly, visualised using HiGlass.Chromosomes are shown in order of size from left to right and top to bottom.An interactive version of this figure may be viewed at https://genome-note-higlass.tol.sanger.ac.uk/l/?d=eaCUaTdDS5yUWAKuI097OA.

Table 3 . Software tools: versions and sources. Software tool Version Each
transfer of samples is further undertaken according to a Research Collaboration Agreement or Material Transfer Agreement entered into by the Darwin Tree of Life Partner, Genome Research Limited (operating as the Wellcome Sanger Institute), and in some circumstances other Darwin Tree of Life collaborators.

Is the rationale for creating the dataset(s) clearly described? Yes Are the protocols appropriate and is the work technically sound? Yes Are sufficient details of methods and materials provided to allow replication by others? Yes Are the datasets clearly presented in a useable and accessible format? Yes Competing Interests:
No competing interests were disclosed.

have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.
This is an open access peer review report distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.