De Novo Genome Assemblies for Three North American Bumble Bee Species: Bombus bifarius, Bombus vancouverensis, and Bombus vosnesenskii

Heraghty, Sam D; Sutton, John M.; Pimsler, Meaghan L.; Fierst, Janna L.; Strange, James P.; Lozier, Jeffrey D.

doi:10.1534/g3.120.401437

Cited by 21 publications

(27 citation statements)

References 41 publications

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“…Assembly statistics for BBAL_1.0 ( B. balteatus ) and BSYL_1.0 ( B. sylvicola ) are presented in table 1, which includes statistics for the assemblies of B. terrestris (BTER_1.0) and B. impatiens (BIMP_2.2) for comparison. Total assembly sizes of 250.1 and 252.1 Mbp for B. balteatus and B. sylvicola respectively are both above the average assembly size of Bombus genomes assembled to date of 247.9 Mbp (22 genomes, range 229.8 – 282.1 Mbp) (Heraghty et al, 2020; Sadd et al, 2015; Sun et al, 2020). Contig N50s of 8.60 and 3.02 for BBAL_1.0 and BSYL_1.0 respectively are the longest and third longest contig N50s of all published Bombus assemblies, demonstrating these to be highly contiguous assemblies.…”

Section: Resultsmentioning

confidence: 80%

“…These are highly comparable to the 11,874 genes in the B. terrestris gene set (v. 1.0), but lower than the 12,728 genes in the B. impatiens gene set (v. 2.1). Gene annotation of the Bombus assemblies presented in (Heraghty et al, 2020; Sun et al, 2020) also resulted in a greater number of genes annotated, ranging from 13,325 to 16,970 genes. BUSCO analyses of the annotated genes in our assemblies do suggest that we are missing some genes from our annotations (complete BUSCO genes in BBAL_01 and BSYL_01 respectively: 86.6% and 86.9%).…”

Section: Resultsmentioning

confidence: 99%

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A genomic and morphometric analysis of alpine bumblebees: ongoing reductions in tongue length but no clear genetic component

Christmas

Jones

Olsson

et al. 2021

Preprint

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Populations of the bumblebees Bombus sylvicola and Bombus balteatus in Colorado have experienced decreases in tongue length, a trait important for plant-pollinator mutualisms, in the last six decades. It is hypothesized that this reflects selection exerted by changes in floral composition under climate change. Here we combine extensive morphometric and population genomic data to investigate population structure, whether morphological change is ongoing, and the genetic basis of morphological change. We generate highly-contiguous genome assemblies of both species using long-read sequencing. We then perform whole-genome sequencing and morphometric measurements of 580 samples of these species from seven high-altitude localities. Out of 281 samples originally identified as B. sylvicola, 67 formed a separate genetic cluster comprising the newly-discovered cryptic species B. incognitus. However, there is very little additional genetic substructure, suggesting that gene flow occurs readily between mountains. We find a significant decrease in tongue length between bees collected between 2008-2014 and in 2017, indicating that morphological shifts are ongoing. We did not discover any genetic associations with tongue length, but a SNP related to production of a proteolytic digestive enzyme is implicated in body size variation. We identify evidence of covariance between kinship and both tongue length and body size, which is suggestive of a genetic component of these traits, although it is not possible to rule out shared environmental effects between colonies. Our results provide evidence for ongoing evolution of a morphological trait important for pollination and indicate that this trait likely has a complex genetic and environmental basis.

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Section: Resultsmentioning

confidence: 80%

Section: Resultsmentioning

confidence: 99%

A genomic and morphometric analysis of alpine bumblebees: ongoing reductions in tongue length but no clear genetic component

Christmas

Jones

Olsson

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…balteatus and B . sylvicola respectively are both above the average assembly size of Bombus genomes assembled to date of 247.9 Mbp (22 genomes, range 229.8–282.1 Mbp) (Heraghty et al, 2020; Sadd et al, 2015; Sun et al, 2020). Contig N50s of 8.60 and 3.02 for BBAL_1.0 and BSYL_1.0 respectively are the longest and third longest contig N50s of all published Bombus assemblies, demonstrating these to be highly contiguous assemblies.…”

Section: Resultsmentioning

confidence: 96%

“…impatiens gene set (v. 2.1). Gene annotation of the Bombus assemblies presented in (Heraghty et al, 2020; Sun et al, 2020) also resulted in a greater number of genes annotated, ranging from 13,325 to 16,970 genes. BUSCO analyses of the annotated genes in our assemblies do suggest that we are missing some genes from our annotations (complete BUSCO genes in BBAL_01 and BSYL_01, respectively: 86.6% and 86.9%).…”

Section: Resultsmentioning

confidence: 99%

A genomic and morphometric analysis of alpine bumblebees: Ongoing reductions in tongue length but no clear genetic component

et al. 2021

View full text Add to dashboard Cite

Over the last six decades, populations of the bumblebees Bombus sylvicola and Bombus balteatus in Colorado have experienced decreases in tongue length, a trait important for plant‐pollinator mutualisms. It has been hypothesized that this observation reflects selection resulting from shifts in floral composition under climate change. Here we used morphometrics and population genomics to determine whether morphological change is ongoing, investigate the genetic basis of morphological variation, and analyse population structure in these populations. We generated a genome assembly of B. balteatus. We then analysed whole‐genome sequencing data and morphometric measurements of 580 samples of both species from seven high‐altitude localities. Out of 281 samples originally identified as B. sylvicola, 67 formed a separate genetic cluster comprising a newly‐discovered cryptic species (“incognitus”). However, an absence of genetic structure within species suggests that gene flow is common between mountains. We found a significant decrease in tongue length between bees collected between 2012–2014 and in 2017, indicating that morphological shifts are ongoing. We did not discover any genetic associations with tongue length, but a SNP related to production of a proteolytic digestive enzyme was implicated in body size variation. We identified evidence of covariance between kinship and both tongue length and body size, which is suggestive of a genetic component of these traits, although it is possible that shared environmental effects between colonies are responsible. Our results provide evidence for ongoing modification of a morphological trait important for pollination and indicate that this trait probably has a complex genetic and environmental basis.

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“…The segment-specific manifestation of color and frequent color transitions across the phylogeny, along with an abundance of natural replicates in bumble bees makes this system well suited for addressing questions in evo-devo and testing fundamental evolutionary hypotheses driving phenotypic diversification ( Rapti et al 2014 ; Hines and Rahman 2019 ; Tian et al 2019 ). This system is primed for comparative genomic approaches to understanding this color diversity, as it has a well-established phylogenetic framework ( Cameron et al 2007 ), standardized methods of color pattern quantification ( Cameron et al 2007 ), multiple high-quality genome assemblies ( Sadd et al 2015 ; Heraghty et al 2020 ; Sun et al 2020 ), and detailed developmental staging protocols ( Tian and Hines 2018 ).…”

Section: Introductionmentioning

confidence: 99%

Developmental Transcriptomics Reveals a Gene Network Driving Mimetic Color Variation in a Bumble Bee

Rahman

Terranova

Tian

et al. 2021

Genome Biology and Evolution

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A major goal of evolutionary genetics and evo-devo is to understand how changes in genotype manifest as changes in phenotype. Bumble bees display remarkable color pattern diversity while converging onto numerous regional Müllerian mimicry patterns, thus enabling exploration of the genetic mechanisms underlying convergent phenotypic evolution. In western North America, multiple bumble bee species converge onto local mimicry patterns through parallel shifts of midabdominal segments from red to black. It was previously demonstrated that a Hox gene, Abd-B, is the key regulator of the phenotypic switch in one of these species, Bombus melanopygus, however, the mechanism by which Abd-B regulates color differentiation remains unclear. Using tissue/stage-specific transcriptomic analysis followed by qRT-PCR validation, this study reveals a suite of genes potentially involved downstream of Abd-B during color pattern differentiation. The data support differential genes expression of not only the first switch gene Abd-B, but also an intermediate developmental gene nubbin, and a whole suite of downstream melanin and redox genes that together reinforce the observed eumelanin (black)-pheomelanin (red) ratios. These include potential genes involved in the production of insect pheomelanins, a pigment until recently not thought to occur in insects and thus lacking known regulatory enzymes. The results enhance understanding of pigmentation gene networks involved in bumble bee color pattern development and diversification, while providing insights into how upstream regulators such as Hox genes interact with downstream morphogenic players to facilitate this adaptive phenotypic radiation.

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De Novo Genome Assemblies for Three North American Bumble Bee Species: Bombus bifarius, Bombus vancouverensis, and Bombus vosnesenskii

Cited by 21 publications

References 41 publications

A genomic and morphometric analysis of alpine bumblebees: ongoing reductions in tongue length but no clear genetic component

A genomic and morphometric analysis of alpine bumblebees: ongoing reductions in tongue length but no clear genetic component

A genomic and morphometric analysis of alpine bumblebees: Ongoing reductions in tongue length but no clear genetic component

Developmental Transcriptomics Reveals a Gene Network Driving Mimetic Color Variation in a Bumble Bee

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