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Use of Genetic, Climatic, and Microbiological Data to Inform Reintroduction of a Regionally Extinct Butterfly

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Use of Genetic, Climatic, and Microbiological Data to Inform Reintroduction of a Regionally Extinct Butterfly Contributed Paper Use of genetic, climatic, and microbiological data to inform reintroduction of a regionally extinct butterfly Vlad Dinc˘a ,1,2 ∗ Zsolt B´alint,3 Raluca Vod˘a,4 Leonardo Dapporto,5 Paul D. N. Hebert,6 and Roger Vila1 1Institut de Biologia Evolutiva (CSIC-Universitat Pompeu Fabra), Passeig Mar´ıtim de la Barceloneta 37, Barcelona, 08003, Spain 2Department of Ecology and Genetics, University of Oulu, P.O. Box 3000, 90014, Finland 3Department of Zoology, Hungarian Natural History Museum, Baross utca 13, 1088, Budapest, Hungary 4DBIOS Dipartimento di Scienze della Vita e Biologia dei Sistemi, Universit`a degli Studi di Torino, Via Accademia Albertina 13, 10123, Turin, Italy 5Dipartimento di Biologia, Universit`a degli Studi di Firenze, Via Madonna del Piano 6, 50109, Sesto Fiorentino, Florence, Italy 6Centre for Biodiversity Genomics, Biodiversity Institute of Ontario, University of Guelph, Guelph, N1G 2W1, Ontario, Canada Abstract: Species reintroductions are increasingly used as means of mitigating biodiversity loss. Besides habitat quality at the site targeted for reintroduction, the choice of source population can be critical for success. The butterfly Melanargia russiae (Esper´s marbled white) was extirpated from Hungary over 100 years ago, and a reintroduction program has recently been approved. We used museum specimens of this butterfly, mitochondrial DNA data (mtDNA), endosymbiont screening, and climatic-similarity analyses to determine which extant populations should be used for its reintroduction. The species displayed 2 main mtDNA lineages across its range: 1 restricted to Iberia and southern France (Iberian lineage) and another found throughout the rest of its range (Eurasian lineage). These 2 lineages possessed highly divergent wsp alleles of the bacterial endosymbiont Wolbachia. The century-old Hungarian specimens represented an endemic haplotype belonging to the Eurasian lineage, differing by one mutation from the Balkan and eastern European populations. The Hungarian populations of M. russiae occurred in areas with a colder and drier climate relative to most sites with extant known populations. Our results suggest the populations used for reintroduction to Hungary should belong to the Eurasian lineage, preferably from eastern Ukraine (genetically close and living in areas with the highest climatic similarity). Materials stored in museum collections can provide unique opportunities to document historical genetic diversity and help direct conservation. Keywords: COI, century-old DNA, Hungary, Melanargia russiae, species reintroduction, Wolbachia Uso de Datos Geneticos,´ Clim´aticos y Microbiologicos´ para Informar la Reintroduccion´ de una Mariposa Extinta Regionalmente Resumen: Las reintroducciones de especies se usan cada vez mas´ como medio de mitigacion´ de la p´erdida de la biodiversidad. Ademas´ de la calidad del habitat´ en el sitio seleccionado para la reintroduccion,´ la eleccion´ de la poblacion´ fuente puede ser cr´ıtica para el ´exito. La mariposa Melanargia russiae (medioluto montanesa)˜ se extinguio´ en Hungr´ıa hace mas´ de 100 anos˜ y recientemente se ha aprobado un programa de reintroduccion.´ Utilizamos espec´ımenes de museo de esta mariposa, datos de ADN mitocondrial (ADNmt), el estudio de la presencia de endosimbiontes y el analisis´ de similitudes climaticas´ para determinar cual´ es la poblacion´ existente que deber´ıa usarse para la reintroduccion.´ La especie exhibe dos linajes principales de ADNmt a lo largo de su extension´ geografica:´ uno restringido a Iberia y al sur de Francia (linaje ib´erico) y el otro hallado a lo largo del resto de su extension´ (linaje euroasiatico).´ Estos dos linajes presentan alelos wsp altamente divergentes del endosimbionte bacteriano Wolbachia. Los antiguos espec´ımenes hungaros´ ∗email [email protected] Article impact statement: DNA, climatic, and microbiological data reveal the best source populations for the planned reintroduction of a regionally extinct butterfly. Paper submitted October 28, 2017; revised manuscript accepted January 29, 2018. 1 Conservation Biology, Volume 0, No. 0, 1–10 C 2018 Society for Conservation Biology DOI: 10.1111/cobi.13111 2 Reintroduction and Integrative Data representan un haplotipo end´emico que pertenece al linaje euroasiatico,´ diferenciandose´ de la poblacion´ balcanica´ y de la del este de Europa por una mutacion.´ Las poblaciones hungaras´ de M. russiae estuvieron presentes en areas´ con un clima mas´ fr´ıo y mas´ seco en relacion´ con la mayor´ıa de los sitios con poblaciones existentes conocidas. Nuestros resultados sugieren que las poblaciones que se usen para la reintroduccion´ en Hungr´ıa deber´ıan pertenecer al linaje euroasiatico,´ de preferencia del este de Ucrania (gen´eticamente mas´ cercanas y de areas´ con la similitud climatica´ mas´ alta). Los materiales almacenados en las colecciones de museos pueden proporcionar oportunidades unicas´ para documentar la diversidad gen´etica historica´ y pueden ayudar a dirigir la conservacion.´ Palabras Clave: ADN con un siglo de antiguedad,¨ COI, Hungr´ıa, Melanargia russiae, reintroduccion´ de especies, Wolbachia : , (Melanargia russiae) , DNA (mtDNA) , mtDNA : ( ), ( ) — (Wolbachia) wsp , , M. russiae , , () : ; : : COI , DNA, , (Melanargia russiae), , (Wolbachia) Introduction species that are locally or globally extinct in the wild is Species are the basis of biodiversity measurement and being taken (e.g., Seddon et al. 2005; Weeks et al. 2011; conservation measures (Gaston & Spicer 2003). The Ewen et al. 2012). These efforts have had varying success, growing use of genetic data in biodiversity research, par- and most have focused on plants, mammals, and birds tially fueled by widely applied approaches such as DNA (Seddon et al. 2005; Bajomi et al. 2010; Godefroid et al. barcoding (Hebert et al. 2003), has led to the discovery of 2011). However, butterflies, as an intensively studied a new layer of biodiversity in the form of cryptic species and flagship group for invertebrate conservation, have (species merged in traditional taxonomy due to their mor- been the subject of several reintroduction programs, phological similarity) (Bickford et al. 2007; Pfenninger particularly in Europe (Schultz et al. 2008). The & Schwenk 2007). These species seem to encompass successful reintroduction of Maculinea arion to the a large fraction of the alpha and beta diversity at the United Kingdom has become a model for similar actions continental level (Dinc˘a et al. 2015; Vod˘a et al. 2015), (Thomas et al. 2009). but their morphological similarity complicates monitor- With support from the national government and the ing and conservation programs. European Union, several projects are striving to recon- In addition to species, intraspecific genetic variation struct the formerly vast marshlands and forest steppes is a fundamental parameter in biodiversity conservation of Hungary. In this country, these biotopes are frag- (Fraser & Bernatchez 2001). Genetic diversity increases mented and threatened by desertification because of the ability of individuals or populations to use local re- extensive canalization in the last 2 centuries. These sources and to tolerate environmental stress (e.g., Sac- projects consider the enrichment of natural communities cheri et al. 1998; Bijlsma & Loeschcke 2012). Extinction via the eradication of invasive species and the control is typically preceded by the erosion of genetic diversity, and breeding of taxa important for the biodiversity of which can cause the loss of useful traits (e.g., resistance to the region. One of the best known examples involves parasites, tolerance to climatic extremes) (Menzies et al. the endemic snake Vipera ursinii rakosiensis, whose 2012; Willoughby et al. 2015). Thus, genetic diversity is populations were saved from extinction through well- a key element in determining the responses of organisms planned breeding programs and habitat restoration to human perturbations such as climate change, habitat (Halpern 2007; Pechy´ et al. 2015). Another program in- fragmentation and deterioration, and biological invasions volves the reintroduction of the butterfly Melanargia (Kolbe et al. 2004; Roger et al. 2012). russiae (Esper´s marbled white), which was extirpated Conservation aims to prevent loss of species, their from Hungary in 1913 (B´alint & Katona 2013). The Hun- genetic diversity, and habitats (Wilson & Peter 1988). garian populations of this species were geographically Increasingly, the drastic measure of reintroduction of isolated from any other known populations by at least Conservation Biology Volume 0, No. 0, 2018 Dincaetal.˘ 3 600 km (Kudrna et al. 2015) and were emblematic of the the extinct Hungarian population (collected in 1912), distinctive fauna of the Pannonian steppe (Frivaldszky the latter stored in the Hungarian Natural History Mu- 1865). The extirpation of the butterfly was perceived as a seum, Budapest (HNHM) (Supporting Information). The great loss by Hungarian naturalists because the swarming 47 COI sequences specifically generated for this study of the species was an impressive sight that attracted local were obtained using standard protocols, as were the and foreign entomologists (Fountaine 1898). In 2016, a combinations of primers designed to facilitate sequence century after the species´ extirpation, a plan focusing recovery from old specimens (Supporting Information). on the reintroduction of M. russiae in Hungary was All COI sequences are publicly
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