The genome sequence of the Grey Sedge caddis fly, Odontocerum albicorne (Scopoli, 1769)

We present a genome assembly from an individual male Odontocerum albicorne (the Grey Sedge caddis fly; Arthropoda; Insecta; Trichoptera; Odontoceridae). The genome sequence is 1,287.3 megabases in span. Most of the assembly is scaffolded into 31 chromosomal pseudomolecules, including the Z sex chromosome. The mitochondrial genome has also been assembled and is 16.57 kilobases in length.


Amendments from Version 1
We have inserted a phrase in the Background section to explain what is meant by a long flight period, and we have corrected the number of chromosomal-level scaffolds in the Genome sequence report to 31.
Any further responses from the reviewers can be found at the end of the article

Background
The adult of Odontocerum albicorne (Figure 1) has the common name of Silver or Grey Sedge, although the male has yellowish wings.Those are held partially rolled around the body when at rest.Adults also have toothed antennae, but the purpose of that is not known.Larvae live in permanent, moderate to fast flowing, streams and rivers on a substratum of stones sand and gravel.The species is absent from Shetland and the Outer Hebrides and scarce in East Anglia due to lack of suitable flowing waters.It is the only member of its family in Britain and Ireland.
The distinctive adults can be easily identified in the wild, with the assistance of Wallace et al. (2022).The curved sand grain cases with their unique posterior closure are also easy to recognise and the pupal cases persist for some time after the adult has emerged.Larger larvae have a characteristic anchor mark on their pale heads.Larvae of all sizes can be identified using Wallace et al., 2003).
There is consensus that in Britain the life cycle takes one year but due to a long flight period during which adults are active and capable of reproduction, from May to September, the larvae are at various sizes throughout.Eggs are laid by females dropping an egg mass into slowly flowing water.The egg absorbs water and expands so the final jelly egg mass, which has a sculptured outer surface, is between 8 and 10 mm in diameter.The eggs do not have any delayed hatching.
The larva spends the day under stones and forages, especially in the early part of the night.Out of preference it is predaceous and eats animals it can subdue or find dead; it has been reported feeding on the eggs of the Bullhead Cottus gobio Linnaeus.However, it will also eat plant material if higher energy food is not available.The larva has several interesting features relating to its method of case construction.Other cased caddis join case particles with silk threads and then line the resulting tube with a layer of smooth silk.O. albicorne larvae firmly cement the outer case particles together with silk material dispensing with an internal silk lining.The case is very strong and can resist attack from some biting fish.However, if bent, it will snap rather than deform.Other caddis larvae have sharply pointed anal proleg claws that can grip the internal silk lining of the case and help prevent the larva being forcibly removed, but the claws of O. albicorne are blunt, with the result that they grip the knobbly inner surface of the case better.The posterior of the case is closed, with a large sand grain attached to the rim of the case, with holes in the attachment to allow for water movement.This is one of a handful of caddis larvae that have an ichneumonid parasite.Agriotypus armatus Curtis normally attacks goerid caddis pupae, but has this species as an alternative host (Grenier, 1970).
The genome of O. albicorne was sequenced as part of the Darwin Tree of Life Project, a collaborative effort to sequence all named eukaryotic species in the Atlantic Archipelago of Britain and Ireland.

Genome sequence report
The genome was sequenced from one Odontocerum albicorne (Figure 1) collected from River Itchen, Itchen Stoke, UK (51.09, -1.20).A total of 25-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 329 missing joins or mis-joins and removed 24 haplotypic duplications, reducing the assembly length by 0.15% and the scaffold number by 7.04%, and increasing the scaffold N50 by 1.45%.
The final assembly has a total length of 1,287.3Mb in 1267 sequence scaffolds with a scaffold N50 of 44.9 Mb (Table 1).A summary of the assembly statistics is shown in Figure 2, while the distribution of assembly scaffolds on GC proportion and coverage is shown in Figure 3.The cumulative assembly plot in Figure 4 shows curves for subsets of scaffolds assigned to different phyla.Most (96.62%) of the assembly sequence was assigned to 31 chromosomal-level scaffolds, representing 30 autosomes and the Z sex chromosome.Chromosome Z was assigned by synteny to  Glyphotaelius pellucidus (GCA_936435175.1)(McSwan et al., 2023).Chromosome-scale scaffolds confirmed by the Hi-C data are named in order of size (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.The estimated Quality Value (QV) of the final assembly is 57.7 with k-mer completeness of 99.99%, and the assembly has a BUSCO v5.3.2 completeness of 94.4% (single = 93.6%,duplicated = 0.8%), using the endopterygota_odb10 reference set (n = 2,124).
Metadata for specimens, spectral estimates, sequencing runs, contaminants and pre-curation assembly statistics can be found at https://links.tol.sanger.ac.uk/species/446452.

Sample acquisition and nucleic acid extraction
A male Odontocerum albicorne (specimen ID NHMUK014361308, individual iiOdoAlbi1) was collected from River Itchen, Itchen Stoke, UK (latitude 51.09, longitude -1.20) on 2019-03-19 using a kicknet.The specimen was collected by Sue Skipp (Environment Agency) and identified by Ian Wallace, and then snap-frozen using a dry shipper.The specimen was weighed and dissected on dry ice with tissue set aside for Hi-C sequencing.Head and thorax tissue was disrupted using a Nippi Powermasher fitted with a BioMasher pestle.DNA was extracted at the WSI Scientific Operations core using the Qiagen MagAttract HMW DNA kit, according to the manufacturer's instructions.

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 terminal body tissue of iiOdoAlbi1 using the Arima2 kit and sequenced on the HiSeq X Ten instrument.
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 of materials by a Darwin Tree of Life Partner is subject to the 'Darwin Tree of Life Project Sampling Code of Practice', which can be found in full on the Darwin Tree of Life website here.By agreeing with and signing up to the Sampling Code of Practice, the Darwin Tree of Life Partner agrees they will meet the legal and ethical requirements and

Software tool Version
I am glad to see your genome assembly of Odontocerum albicorne.Overall, I found your manuscript to be well written and your methods sound.I was able to follow your assembly and annotation processes.I believe this genome will serve as a valuable reference for future research on Trichoptera.
One thing to note is that I suspect your BUSCO completeness is under the true value.There is a single low quality Trichopteran representative in the endopterygota_odb10 reference set.A lack of a close relative will cause the pipeline to overlook valid matches.

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.
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.
In describing the genome, there is one confusing sentence: "Most (96.62%) of the assembly sequence was assigned to 10 chromosomal-level scaffolds, representing 30 autosomes and the Z sex chromosome."Could the authors provide more information on this?Was ten meant to be 31?

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Overall this is an excellent genome report, despite our minor comments, above.

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?

Figure 1 .
Figure 1.Photograph of adult Odontocerum albicorne (not the specimen used for genome sequencing) by Janet Graham, CC-BY.

Figure 2 .
Figure 2. Genome assembly of Odontocerum albicorne, iiOdoAlbi1.1: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 1,287,343,752 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 (63,503,693 bp, shown in red).Orange and pale-orange arcs show the N50 and N90 scaffold lengths (44,898,628 and 23,064,039 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 endopterygota_odb10 set is shown in the top right An interactive version of this figure is available at https://blobtoolkit.genomehubs.org/view/Odontocerum%20albicorne/dataset/CATKWJ01/snail.

Figure 5 .
Figure 5. Genome assembly of Odontocerum albicorne, iiOdoAlbi1.1:Hi-C contact map of the iiOdoAlbi1.1 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=QqP4gJm9SsCzzU461RBsHA.