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1. Insect Diversity Estimation in Polarimetric Lidar

Author

Bernenko, Dolores, Li, Meng, Månefjord, Hampus, Jansson, Samuel, Runemark, Anna, Kirkeby, Carsten, and Brydegaard, Mikkel

Subjects
Quantitative Biology - Quantitative Methods, Physics - Instrumentation and Detectors
Abstract

Identification of insects in flight is a particular challenge for ecologists in several settings with no other method able to count and classify insects at the pace of entomological lidar. Thus, it can play a unique role as a non-intrusive diagnostic tool to assess insect biodiversity, inform planning, and evaluate mitigation efforts aimed at tackling declines in insect abundance and diversity. While species richness of co-existing insects could reach tens of thousands, to date, photonic sensors and lidars can differentiate roughly one hundred signal types. This taxonomic specificity or number of discernible signal types is currently limited by instrumentation and algorithm sophistication. In this study we report 32,533 observations of wild flying insects along a 500-meter transect. We report the benefits of lidar polarization bands for differentiating species and compare the performance of two unsupervised clustering algorithms, namely Hierarchical Cluster Analysis and Gaussian Mixture Model. We demonstrate that polarimetric properties could be partially predicted even with unpolarized light, thus polarimetric lidar bands provide only a minor improvement in specificity. Finally, we use physical properties of the clustered observation, such as wing beat frequency, daily activity patterns, and spatial distribution, to establish a lower bound for the number of species represented by the differentiated signal types., Comment: 24 pages, 9 figures

Published
2024

4. Low-Cost and Lightweight Hyperspectral Lidar for Mapping Vegetation Fluorescence

Author

Månefjord, Hampus, Müller, Lauro, Salvador, Jacobo, Runemark, Anna, Kirkeby, Carsten, Brydegaard, Mikkel, Sullivan, John T., editor, Leblanc, Thierry, editor, Tucker, Sara, editor, Demoz, Belay, editor, Eloranta, Edwin, editor, Hostetler, Chris, editor, Ishii, Shoken, editor, Mona, Lucia, editor, Moshary, Fred, editor, Papayannis, Alexandros, editor, and Rupavatharam, Krishna, editor

Published
2023
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7. Correlational selection in the age of genomics

Author

Svensson, Erik I., Arnold, Stevan J., Bürger, Reinhard, Csilléry, Katalin, Draghi, Jeremy, Henshaw, Jonathan M., Jones, Adam G., De Lisle, Stephen, Marques, David A., McGuigan, Katrina, Simon, Monique N., and Runemark, Anna

Published
2021
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9. The Role of Hybridization in Species Formation and Persistence

Author

Peñalba, Joshua V., primary, Runemark, Anna, additional, Meier, Joana I., additional, Singh, Pooja, additional, Wogan, Guinevere O.U., additional, Sánchez-Guillén, Rosa, additional, Mallet, James, additional, Rometsch, Sina J., additional, Menon, Mitra, additional, Seehausen, Ole, additional, Kulmuni, Jonna, additional, and Pereira, Ricardo J., additional

Published
2024
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11. Evolutionary plant–pollinator responses to anthropogenic land‐use change: impacts on ecosystem services.

Author

Pontarp, Mikael, Runemark, Anna, Friberg, Magne, Opedal, Øystein H., Persson, Anna S., Wang, Lingzi, and Smith, Henrik G.

Subjects
*ECOSYSTEM services, *ECOSYSTEMS, *AGRICULTURAL intensification, *QUANTITATIVE genetics, *FRAGMENTED landscapes, *WILDLIFE conservation
Abstract

Agricultural intensification at field and landscape scales, including increased use of agrochemicals and loss of semi‐natural habitats, is a major driver of insect declines and other community changes. Efforts to understand and mitigate these effects have traditionally focused on ecological responses. At the same time, adaptations to pesticide use and habitat fragmentation in both insects and flowering plants show the potential for rapid evolution. Yet we lack an understanding of how such evolutionary responses may propagate within and between trophic levels with ensuing consequences for conservation of species and ecological functions in agroecosystems. Here, we review the literature on the consequences of agricultural intensification on plant and animal evolutionary responses and interactions. We present a novel conceptualization of evolutionary change induced by agricultural intensification at field and landscape scales and emphasize direct and indirect effects of rapid evolution on ecosystem services. We exemplify by focusing on economically and ecologically important interactions between plants and pollinators. We showcase available eco‐evolutionary theory and plant–pollinator modelling that can improve predictions of how agricultural intensification affects interaction networks, and highlight available genetic and trait‐focused methodological approaches. Specifically, we focus on how spatial genetic structure affects the probability of propagated responses, and how the structure of interaction networks modulates effects of evolutionary change in individual species. Thereby, we highlight how combined trait‐based eco‐evolutionary modelling, functionally explicit quantitative genetics, and genomic analyses may shed light on conditions where evolutionary responses impact important ecosystem services. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Remote Nanoscopy with Infrared Elastic Hyperspectral Lidar

Author

Müller, Lauro, Li, Meng, Månefjord, Hampus, Salvador, Jacobo, Reistad, Nina, Hernandez, Julio, Kirkeby, Carsten, Runemark, Anna, Brydegaard, Mikkel, Müller, Lauro, Li, Meng, Månefjord, Hampus, Salvador, Jacobo, Reistad, Nina, Hernandez, Julio, Kirkeby, Carsten, Runemark, Anna, and Brydegaard, Mikkel

Abstract

Monitoring insects of different species to understand the factors affecting their diversity and decline is a major challenge. Laser remote sensing and spectroscopy offer promising novel solutions to this. Coherent scattering from thin wing membranes also known as wing interference patterns (WIPs) have recently been demonstrated to be species specific. The colors of WIPs arise due to unique fringy spectra, which can be retrieved over long distances. To demonstrate this, a new concept of infrared (950–1650 nm) hyperspectral lidar with 64 spectral bands based on a supercontinuum light source using ray-tracing and 3D printing is developed. A lidar with an unprecedented number of spectral channels, high signal-to-noise ratio, and spatio-temporal resolution enabling detection of free-flying insects and their wingbeats. As proof of principle, coherent scatter from a damselfly wing at 87 m distance without averaging (4 ms recording) is retrieved. The fringed signal properties are used to determine an effective wing membrane thickness of 1412 nm with ±4 nm precision matching laboratory recordings of the same wing. Similar signals from free flying insects (2 ms recording) are later recorded. The accuracy and the method's potential are discussed to discriminate species by capturing coherent features from free-flying insects.

Published
2023

26. Weak population genetic structure in Eurasian spruce bark beetle over large regional scales in Sweden

Author

Ellerstrand, Simon Jacobsen, primary, Choudhury, Shruti, additional, Svensson, Kajsa, additional, Andersson, Martin N., additional, Kirkeby, Carsten, additional, Powell, Daniel, additional, Schlyter, Fredrik, additional, Jönsson, Anna Maria, additional, Brydegaard, Mikkel, additional, Hansson, Bengt, additional, and Runemark, Anna, additional

Published
2022
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27. Extensive transgressive gene expression in testis but not ovary in the homoploid hybrid Italian sparrow

Author

Papoli Yazdi, Homa, Ravinet, Mark, Rowe, Melissah, Sætre, Glenn Peter, Guldvog, Caroline, Eroukhmanoff, Fabrice, Marzal, Alfonso, Magallanes, Sergio, Runemark, Anna, Papoli Yazdi, Homa, Ravinet, Mark, Rowe, Melissah, Sætre, Glenn Peter, Guldvog, Caroline, Eroukhmanoff, Fabrice, Marzal, Alfonso, Magallanes, Sergio, and Runemark, Anna

Abstract

Hybridization can result in novel allelic combinations which can impact the hybrid phenotype through changes in gene expression. While misexpression in F1 hybrids is well documented, how gene expression evolves in stabilized hybrid taxa remains an open question. As gene expression evolves in a stabilizing manner, break-up of co-evolved cis- and trans-regulatory elements could lead to transgressive patterns of gene expression in hybrids. Here, we address to what extent gonad gene expression has evolved in an established and stable homoploid hybrid, the Italian sparrow (Passer italiae). Through comparison of gene expression in gonads from individuals of the two parental species (i.e., house and Spanish sparrow) to that of Italian sparrows, we find evidence for strongly transgressive expression in male Italian sparrows—2530 genes (22% of testis genes tested for inheritance) exhibit expression patterns outside the range of both parent species. In contrast, Italian sparrow ovary expression was similar to that of one of the parent species, the house sparrow (Passer domesticus). Moreover, the Italian sparrow testis transcriptome is 26 times as diverged from those of the parent species as the parental transcriptomes are from each other, despite being genetically intermediate. This highlights the potential for regulation of gene expression to produce novel variation following hybridization. Genes involved in mitochondrial respiratory chain complexes and protein synthesis are enriched in the subset that is over-dominantly expressed in Italian sparrow testis, suggesting that selection on key functions has moulded the hybrid Italian sparrow transcriptome.

Published
2022

28. 3D-Printed Fluorescence Hyperspectral Lidar for Monitoring Tagged Insects

Author

Manefjord, Hampus, Muller, Lauro, Li, Meng, Salvador, Jacobo, Blomqvist, Sofia, Runemark, Anna, Kirkeby, Carsten, Ignell, Rickard, Bood, Joakim, Brydegaard, Mikkel, Manefjord, Hampus, Muller, Lauro, Li, Meng, Salvador, Jacobo, Blomqvist, Sofia, Runemark, Anna, Kirkeby, Carsten, Ignell, Rickard, Bood, Joakim, and Brydegaard, Mikkel

Abstract

Insects play crucial roles in ecosystems, and how they disperse within their habitat has significant implications for our daily life. Examples include foraging ranges for pollinators, as well as the spread of disease vectors and pests. Despite technological advances with radio tags, isotopes, and genetic sequencing, insect dispersal and migration range remain challenging to study. The gold standard method of mark-recapture is tedious and inefficient. This paper demonstrates the construction of a compact, inexpensive hyperspectral fluorescence lidar. The system is based on off-the-shelf components and 3D printing. After evaluating the performance of the instrument in the laboratory, we demonstrate its efficient range-resolved fluorescence spectra in situ. We present daytime remote ranging and fluorescent identification of auto-powder-tagged honey bees. We also showcase range-, temporally- and spectrally-resolved free-flying mosquitoes, which were tagged through feeding on fluorescent-dyed sugar water. We conclude that violet light can efficiently excite administered sugar meals imbibed by flying insects. Our field experiences provide realistic expectations of signal-to-noise levels, which can be used in future studies. The technique is generally applicable and can efficiently monitor several tagged insect groups in parallel for comparative ecological analysis. This technique opens up a range of ecological experiments, which were previously unfeasible.

Published
2022

29. Weak population genetic structure in Eurasian spruce bark beetle over large regional scales in Sweden

Author

Ellerstrand, Simon Jacobsen, Choudhury, Shruti, Svensson, Kajsa, Andersson, Martin N., Kirkeby, Carsten, Powell, Daniel, Schlyter, Fredrik, Jönsson, Anna Maria, Brydegaard, Mikkel, Hansson, Bengt, Runemark, Anna, Ellerstrand, Simon Jacobsen, Choudhury, Shruti, Svensson, Kajsa, Andersson, Martin N., Kirkeby, Carsten, Powell, Daniel, Schlyter, Fredrik, Jönsson, Anna Maria, Brydegaard, Mikkel, Hansson, Bengt, and Runemark, Anna

Abstract

The Eurasian spruce bark beetle, Ips typographus, is a major pest, capable of killing spruce forests during large population outbreaks. Recorded dispersal distances of individual beetles are typically within hundreds of meters or a few kilometers. However, the connectivity between populations at larger distances and longer time spans and how this is affected by the habitat is less studied, despite its importance for understanding at which distances local outbreaks may spread. Previous population genetic studies in I. typographus typically used low resolution markers. Here, we use genome-wide data to assess population structure and connectivity of I. typographus in Sweden. We used 152 individuals from 19 population samples, distributed over 830 km from Strömsund (63° 46′ 8″ N) in the north to Nyteboda (56° 8′ 50″ N) in the south, to capture processes at a large regional scale, and a transect sampling design adjacent to a recent outbreak to capture processes at a smaller scale (76 km). Using restriction site-associated DNA sequencing (RADseq) markers capturing 1409–1997 SNPs throughout the genome, we document a weak genetic structure over the large scale, potentially indicative of high connectivity with extensive gene flow. No differentiation was detected at the smaller scale. We find indications of isolation-by-distance both for relative (FST) and absolute divergence (Dxy). The two northernmost populations are most differentiated from the remaining populations, and diverge in parallel to the southern populations for a set of outlier loci. In conclusion, the population structure of I. typographus in Sweden is weak, suggesting a high capacity to disperse and establish outbreak populations in new territories.

Published
2022

33. Bark beetles as lidar targets and prospects of photonic surveillance

Author

Li, Meng, Jansson, Samuel, Runemark, Anna, Peterson, Jonathan, Kirkeby, Carsten Thure, Jönsson, Anna Maria, Brydegaard, Mikkel, Li, Meng, Jansson, Samuel, Runemark, Anna, Peterson, Jonathan, Kirkeby, Carsten Thure, Jönsson, Anna Maria, and Brydegaard, Mikkel

Abstract

Forestry is raising concern about the outbreaks of European spruce bark beetle, Ips typographus, causing extensive damage to the spruce forest and timber values. Precise monitoring of these beetles is a necessary step towards preventing outbreaks. Current commercial monitoring methods are catch-based and lack in both temporal and spatial resolution. In this work, light scattering from beetles is characterized, and the feasibility of entomological lidar as a tool for long-term monitoring of bark beetles is explored. Laboratory optical properties, wing thickness, and wingbeat frequency of bark beetles are reported, and these parameters can infer target identity in lidar data. Lidar results from a Swedish forest with controlled bark beetle release event are presented. The capability of lidar to simultaneously monitor both insects and a pheromone plume mixed with chemical smoke governing the dispersal of many insects is demonstrated. In conclusion, entomological lidar is a promising tool for monitoring bark beetles.

Published
2021

34. Insect monitoring with fluorescence lidar techniques: field experiments

Author

Guan, Zuguang, Brydegaard, Mikkel, Lundin, Patrik, Wellenreuther, Maren, Runemark, Anna, Svensson, Erik I., and Svanberg, Sune

Subjects
Remote sensing -- Equipment and supplies, Remote sensing -- Methods, Fluorescence -- Research, Motion -- Research, Damselflies -- Physiological aspects, Astronomy, Physics
Abstract

Results from field experiments using a fluorescence lidar system to monitor movements of insects are reported. Measurements over a river surface were made at distances between 100 and 300 m, detecting, in particular, damselflies entering the 355 nm pulsed laser beam. The lidar system recorded the depolarized elastic backscattering and two broad bands of laser-induced fluorescence, with the separation wavelength at 500 nm. Captured species, dusted with characteristic fluorescent dye powders, could be followed spatially and temporally after release. Implications for ecological research are discussed. OCIS codes: 280.3640, 300.2530.

Published
2010

35. Feasibility study: fluorescence lidar for remote bird classification

Author

Brydegaard, Mikkel, Lundin, Patrik, Guan, Zuguang, Runemark, Anna, Akesson, Susanne, and Svanberg, Sune

Subjects
Birds -- Identification and classification, Optical radar -- Usage, Fluorescence -- Research, Remote sensing -- Methods, Remote sensing -- Equipment and supplies, Astronomy, Physics
Abstract

We present a method for remote classification of birds based on eye-safe fluorescence lidar techniques. Mechanisms of quenching are discussed. Plumage reflectance is related to plumage fluorescence. Laboratory measurements on reflectance and fluorescence are presented, as well as test-range measurements. Also we present examples of birds' in-flight lidar returns. The methods are suitable for studies of night migrating species and high-altitude classification with implications for the detailed understanding of bird migration and global virus spread. [c] 2010 Optical Society of America OCIS codes: 010.3640, 300.2530, 280.1100.

Published
2010

38. Front Cover

Author

Li, Meng, primary, Jansson, Samuel, additional, Runemark, Anna, additional, Peterson, Jonathan, additional, Kirkeby, Carsten Thure, additional, Jönsson, Anna Maria, additional, and Brydegaard, Mikkel, additional

Published
2021
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42. Eukaryote hybrid genomes

Author

Runemark, Anna, Vallejo-Marin, Mario, Meier, Joana I., Runemark, Anna [0000-0002-8976-5530], Vallejo-Marin, Mario [0000-0002-5663-8025], Meier, Joana I [0000-0001-7726-2875], and Apollo - University of Cambridge Repository

Subjects
Cancer Research, Introgression, Speciation, Plant Science, QH426-470, Plant Genetics, Genome, 0302 clinical medicine, Invertebrate Genomics, Plant Genomics, Biologiska vetenskaper, Genome Evolution, Hybrid Speciation, Genetics (clinical), 0303 health sciences, Mammalian Genomics, Eukaryota, Nucleic Acid Hybridization, Genomics, Reproductive isolation, Biological Sciences, Biological Evolution, Engineering and Technology, Genome, Plant, Biotechnology, Genome evolution, Evolutionary Processes, Reproductive Isolation, Genetic Speciation, Bioengineering, Biology, Molecular Evolution, Polyploidy, 03 medical and health sciences, Genetics, Hybridization, Molecular Biology, Ecosystem, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Hybrid, Evolutionary Biology, Topic Page, Biology and Life Sciences, Computational Biology, Animal Genomics, Evolutionary biology, Plant Biotechnology, Hybrid speciation, Departures from Diploidy, 030217 neurology & neurosurgery
Abstract

Interspecific hybridization is the process where closely related species mate and produce offspring with admixed genomes. The genomic revolution has shown that hybridization is common, and that it may represent an important source of novel variation. Although most interspecific hybrids are sterile or less fit than their parents, some may survive and reproduce, enabling the transfer of adaptive variants across the species boundary, and even result in the formation of novel evolutionary lineages. There are two main variants of hybrid species genomes: allopolyploid, which have one full chromosome set from each parent species, and homoploid, which are a mosaic of the parent species genomes with no increase in chromosome number. The establishment of hybrid species requires the development of reproductive isolation against parental species. Allopolyploid species often have strong intrinsic reproductive barriers due to differences in chromosome number, and homoploid hybrids can become reproductively isolated from the parent species through assortment of genetic incompatibilities. However, both types of hybrids can become further reproductively isolated, gaining extrinsic isolation barriers, by exploiting novel ecological niches, relative to their parents. Hybrids represent the merging of divergent genomes and thus face problems arising from incompatible combinations of genes. Thus hybrid genomes are highly dynamic and undergo rapid evolutionary change, including genome stabilization in which selection against incompatible combinations results in fixation of compatible ancestry block combinations within the hybrid species. The potential for rapid adaptation or speciation makes hybrid genomes a particularly exciting subject of in evolutionary biology. Here we summarize how introgressed alleles or hybrid species can establish and how the resulting hybrid genomes evolve.

Published
2019
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43. Selection in parental species predicts hybrid evolution

Author

Runemark, Anna, Bailey, Richard I, Bache-Mathiesen, Lena, and Sætre, Glenn-Peter

Abstract

While hybridization is recognized as important in evolution, its contribution to adaptation and diversification remains poorly understood. Using genomically diverged island populations of the homoploid hybrid Italian sparrow, we test predictions for phenotypic trait values and evolvability based on patterns of parental species divergence in four plumage color traits. Fixed major QTL in species differences, favoured by strong selection, are expected to lead to hybrids with higher evolvability than the parent species. We find associations between parental divergence and trait evolution in Italian sparrows. Rump color shows little evidence of major QTL, and hybrid evolution closely matches parental variability. Back and crown plumage, however, show evidence of major QTL in species differences. For these traits, Italian sparrow phenotypes are biased towards axes of high parental differentiation and show greater phenotypic novelty along axes of low current parental evolvability, as predicted when major QTL are involved in species differences. Crown color has consistently evolved back towards one parent, while back color varies among islands. We also find among-island diversification within the Italian sparrow. Hence, hybridization of the same parent species can generate different phenotypes. In conclusion, we find that parental phenotypic divergence patterns can be useful in predicting hybrid evolutionary potential.

Published
2018
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44. Island biology and morphological divergence of the Skyros wall lizard Podarcis gaigeae: a combined role for local selection and genetic drift on color morph frequency divergence?

Author

Runemark Anna, Hansson Bengt, Pafilis Panayiotis, Valakos Efstratios D, and Svensson Erik I

Subjects
Evolution, QH359-425
Abstract

Abstract Background Patterns of spatial variation in discrete phenotypic traits can be used to draw inferences about the adaptive significance of traits and evolutionary processes, especially when compared to patterns of neutral genetic variation. Population divergence in adaptive traits such as color morphs can be influenced by both local ecology and stochastic factors such as genetic drift or founder events. Here, we use quantitative color measurements of males and females of Skyros wall lizard, Podarcis gaigeae, to demonstrate that this species is polymorphic with respect to throat color, and the morphs form discrete phenotypic clusters with limited overlap between categories. We use divergence in throat color morph frequencies and compare that to neutral genetic variation to infer the evolutionary processes acting on islet- and mainland populations. Results Geographically close islet- and mainland populations of the Skyros wall lizard exhibit strong divergence in throat color morph frequencies. Population variation in throat color morph frequencies between islets was higher than that between mainland populations, and the effective population sizes on the islets were small (Ne:s < 100). Population divergence (FST) for throat color morph frequencies fell within the neutral FST-distribution estimated from microsatellite markers, and genetic drift could thus not be rejected as an explanation for the pattern. Moreover, for both comparisons among mainland-mainland population pairs and between mainland-islet population pairs, morph frequency divergence was significantly correlated with neutral divergence, further pointing to some role for genetic drift in divergence also at the phenotypic level of throat color morphs. Conclusions Genetic drift could not be rejected as an explanation for the pattern of population divergence in morph frequencies. In spite of an expected stabilising selection, throat color frequencies diverged in the islet populations. These results suggest that there is an interaction between selection and genetic drift causing divergence even at a phenotypic level in these small, subdivided populations.

Published
2010
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45. Genomic Contingencies and the Potential for Local Adaptation in a Hybrid Species

Author

Runemark, Anna; https://orcid.org/0000-0002-8976-5530, Piñeiro Fernández, Laura; https://orcid.org/0000-0002-8617-6490, Eroukhmanoff, Fabrice, Sætre, Glenn-Peter, Runemark, Anna; https://orcid.org/0000-0002-8976-5530, Piñeiro Fernández, Laura; https://orcid.org/0000-0002-8617-6490, Eroukhmanoff, Fabrice, and Sætre, Glenn-Peter

Abstract

Hybridization is increasingly recognized as a potent evolutionary force. Although additive genetic variation and novel combinations of parental genes theoretically increase the potential for hybrid species to adapt, few empirical studies have investigated the adaptive potential within a hybrid species. Here, we address whether genomic contingencies, adaptation to climate, or diet best explain divergence in beak morphology using genomically diverged island populations of the homoploid hybrid Italian sparrow Passer italiae from Crete, Corsica, and Sicily. Populations vary significantly in beak morphology both between and within islands of origin. Temperature seasonality best explains population divergence in beak size. Interestingly, beak shape along all significant dimensions of variation was best explained by annual precipitation, genomic composition, and their interaction, suggesting a role for contingencies. Moreover, beak shape similarity to a parent species correlates with proportion of the genome inherited from that species, consistent with the presence of contingencies. In conclusion, adaptation to local conditions and genomic contingencies arising from putatively independent hybridization events jointly explain beak morphology in the Italian sparrow. Hence, hybridization may induce contingencies and restrict evolution in certain directions dependent on the genetic background.

Published
2018

46. Resolution of conflict between parental genomes in a hybrid species

Author

Eroukhmanoff, Fabrice, Bailey, Richard, Elgvin, Tore O., Hermansen, Jo S., Runemark, Anna R., Trier, Cassandra N., and Sætre, Glenn-Peter

Abstract

The development of reproductive barriers against parent species is crucial during hybrid speciation, and post-zygotic isolation can be important in this process. Genetic incompatibilities that normally isolate the parent species can become sorted in hybrids to form reproductive barriers towards either parent. However, the extent to which this sorting process is systematically biased and therefore predictable in which loci are involved and which alleles are favored is largely unknown. Theoretically, reduced fitness in hybrids due to the mixing of differentiated genomes can be resolved through rapid evolution towards allelic combinations ancestral to lineage-splitting of the parent species, as these alleles have successfully coexisted in the past. However, for each locus, this effect may be influenced by its chromosomal location, function, and interactions with other loci. We use the Italian sparrow, a homoploid hybrid species that has developed post-zygotic barriers against its parent species, to investigate this prediction. We show significant bias towards fixation of the ancestral allele among 57 nuclear intragenic SNPs, particularly those with a mitochondrial function whose ancestral allele came from the same parent species as the mitochondria. Consistent with increased pleiotropy leading to stronger fitness effects, genes with more protein-protein interactions were more biased in favor of the ancestral allele. Furthermore, the number of protein-protein interactions was especially low among candidate incompatibilities still segregating within Italian sparrows, suggesting that low pleiotropy allows steep intraspecific clines in allele frequencies to form. Finally, we report evidence for pervasive epistatic interactions within one Italian sparrow population, particularly involving loci isolating the two parent species but not hybrid and parent. However there was a lack of classic incompatibilities and no admixture linkage disequilibrium. This suggests that parental genome admixture can continue to constrain evolution and prevent genome stabilization long after incompatibilities have been purged.

Published
2017
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