Arxius de Miscel·lània Zoològica. Volum 20 (2022) Pàgines: 111-116

First record of the introduced freshwater leech Helobdella europaea Kutschera 1987 in Portugal

Ferreira, S., Oliveira, D., da Silva, L. P., Utevsky, A., Utevsky, S.

DOI: https://doi.org/10.32800/amz.2022.20.0111

Descarregar

PDF

Paraules clau

Espècies introduïdes, Codis de barres d'ADN, Citocrom c oxidasa I (COI), Ecosistema d'aigua dolça, Biodiversitat

Cita

Ferreira, S., Oliveira, D., da Silva, L. P., Utevsky, A., Utevsky, S., 2022. First record of the introduced freshwater leech Helobdella europaea Kutschera 1987 in Portugal. Arxius de Miscel·lània Zoològica, 20: 111-116, DOI: https://doi.org/10.32800/amz.2022.20.0111

Data de recepció:

11/07/2022

Data d'acceptació:

30/11/2022

Data de publicació:

16/12/2022

Compartir

Visites

1077

Descàrregues

308

Untitled Document

Abstract

First record of the alien freshwater leech Helobdella europaea Kutschera 1987 in Portugal (Hirudinea, Glossiphoniidae)

Recent spread of alien leech species has been reported throughout Europe, but a severe knowledge gap concerning their impact, distribution and ecology remains. Here, we document the occurrence of Helobdella europaea in a freshwater habitat in the north of Portugal, the first published record of this species in the country. Four specimens were found during water sampling at Ferreira River and promptly collected for study. Morphological identification was performed and tissue samples were also obtained for DNA barcode sequencing. Genetic analysis yielded a single haplotype shared by the four specimens,  with very low divergence relative to other sequences deposited in public databases, confirming its identity.

Key words: Introduced species, DNA barcoding, Cytochrome c oxidase I (COI), Freshwater ecosystem, Biodiversity  

Resumen

Primer registro de la sanguijuela exótica de agua dulce Helobdella europaea Kutschera 1987 en Portugal (Hirudinea, Glossiphoniidae)

Se ha reportado la reciente propagación de especies de sanguijuelas exóticas en toda Europa y todavía existe una gran laguna en el conocimiento de su impacto, distribución y ecología. Aquí documentamos la presencia de Helobdella europaea en un hábitat de agua dulce en el norte de Portugal, que constituye el primer registro publicado para esta especie en el país. Se encontraron cuatro especímenes en un muestreo de agua en el río Ferreira que se recolectaron rápidamente para su estudio. Se realizó la identificación morfológica y se obtuvieron muestras de tejido para la secuenciación del código de barras de ADN. El análisis genético dio como resultado un solo haplotipo compartido por los cuatro especímenes y con muy poca divergencia de otras secuencias disponibles en bases de datos públicas, lo que confirma su identidad.

Palabras clave: Especies introducidas, Códigos de barras de ADN, Citocromo c oxidasa I (COI), Ecosistema de agua dulce, Biodiversidad

Resum

Primer registre de la sangonera exòtica d'aigua dolça Helobdella europaea Kutschera 1987 a Portugal (Hirudinea, Glossiphoniidae)

S'ha comunicat la propagació recent d'espècies de sangoneres exòtiques a tot Europa i encara hi ha una gran llacuna pel que fa a l'impacte que puguin tenir, com també a la seva distribució i ecologia. Aquí documentem la presència d'Helobdella europaea en un hàbitat d'aigua dolça al nord de Portugal, que constitueix el primer registre publicat per a aquesta espècie al país. Se'n van trobar quatre espècimens en un mostreig d'aigua al riu Ferreira que van ser recol·lectats ràpidament per estudiar-los. Se'n va fer la identificació morfològica i es van obtenir mostres de teixit per a la seqüenciació del codi de barres d'ADN. L'anàlisi genètica va donar com a resultat un sol haplotip compartit pels quatre espècimens i amb molt poca divergència d'altres seqüències disponibles en bases de dades públiques, la qual cosa en confirma la identitat.

Paraules clau: Espècies introduïdes, Codis de barres d'ADN, Citocrom c oxidasa I (COI), Ecosistema d'aigua dolça, Biodiversitat

Introduction

Leeches of the genus Helobdella Blanchard 1986 are distributed worldwide. They are characterized, in part, by a small chitinous scute on the dorsal side of the neck, a protrusible proboscis, and their brooding behaviour (Kutschera and Wirtz, 1986; Sawyer, 1986; Pfeiffer et al., 2004). In Europe, two species of this genus have been reported to date: H. stagnalis L. 1758 and H. europaea Kutschera 1987. The latter of the two is considered an invasive species and has a complicated taxonomic history, having been described more than once in the last 40 years.

In 1982, in a stream in the western part of Germany, Kutschera found leeches of the genus Helobdella, which he described and named Helobdella striata (Kutschera, 1985). In later years, however, Kutschera found that the specific epithet ‘striata’ had been used previously to describe a variety of the species H. triserialis and, later, as a separate species, by Ringuelet (Ringuelet, 1943; Kutschera, 1987). Consequently, the “new” European species was renamed H. europaea Kutschera 1987.

The leech H. europaea remained the second European species of the genus for several years. However, in 1999, the species nativeness to Europe was questioned, as Neubert and Nesemann postulated that, given the absence of new species in Europe since 1758, H. europaea were merely escapees of H. triserialis from German aquaria (Neubert and Nesemann, 1999) (it was later found that this species had been discovered, years prior to its description, in German aquaria (Pederzani, 1980) but this was unknown to the authors). Almost simultaneously, a new species, Helobdella papillornata,was described in Australia, the first of this genus for the country (Govedich and Davies, 1998). In 2004, however, through the use of mitochondrial DNA and morphological analysis, not only was H. europaea proven to be an independent species, but it has also been shown that H. europaea and H. papillornata (syn.)are identical to each other (despite some dietary and ecological differences) and separate from the South American H. triserialis species (Kutschera, 2004; Pfeiffer et al., 2004). Given that a year earlier H. papillornata (= H. europaea) was shown to be the sister taxa to the South American H. triserialis (Siddall and Borda, 2003), all evidence suggested that H. europaea was imported from that subcontinent.

Conclusively, in 2005, again through the use of DNA barcoding and morphology, Siddall and Budinoff determined that the German species had originated in South America and was identical to another variety of H. triserialis described by Ringuelet in 1943, Helobdella (triserialis) lineata. Because the name H. lineata (Verrill 1874) was already taken, H. europaea is the valid name of the species, which is not originally European (Siddall and Budinoff, 2005). The comprehensive phylogenetic analysis performed by Morhun et al. (2021) implied that populations of an undescribed species closely related to H. europaea occur in Arizona (USA). The further related H. socimulcensis Caballero, 1931occurs in Mexico.

In summary, H. europaea is a North American species with broad dietary preferences. It has been introduced at several times in many parts of the world, most likely through the international trade of plants and animals for aquaria. Over the years, the species has been reported from New Zealand, South Africa, Hawaii and California, the Netherlands, Taiwan, Spain, Hungary and the Ukraine (Kutschera, 1985; Govedich and Davies, 1998; Haaren et al., 2004; Siddall and Budinoff, 2005; Bely and Weisblat, 2006; Lai et al., 2009; Reyes-Prieto et al., 2013; Málnás et al., 2016; Morhun et al., 2021).

In Helobdella, DNA barcoding has been repeatedly used to identify specimens (Siddall and Budinoff, 2005; Oceguera-Figueroa et al., 2010; Morhun et al., 2021). In fact, not only has it been extremely important in the understanding of the true origins of the species, but it has also revealed the presence of H. europaea in several countries (Siddall and Budinoff, 2005; Morhun et al., 2021).

In this work, we report the presence of a glossiphoniid leech speciesin northern Portugal. The captured specimens were morphologically and genetically identified, confirming their identity as Helobdella europaea, an invasive species.

Material and methods

In 2019, L. P. da Silva and S. Ferreira were sampling streams and rivers in the north of Portugal within the context of the project FUNAQUA and using standardized methods. Sampling consisted of collecting water and sediments from a section of the waterbody with 40-50 cm depth. On the return from sample collection at Rio Ferreira in Couce (Valongo–Porto District), specimens of leeches were observed on the legs of L. P. da Silva and collected for further study. Specimens were morphologically identified by S. Utevsky based on Kutschera (1987), and using a stereomicroscope Konus Crystal-45. These specimens were deposited in IBI – InBIO Barcoding Initiative reference collection at CIBIO-InBIO (Vairão-Portugal). A tissue sample of 4 specimens was processed for DNA barcoding. Genomic DNA was extracted using EasySpin Genomic DNA Tissue Kit (Citomed, Lisboa, Portugal) following the manufacturer’s protocol, except for the lysis period which was extended to enhance extraction success. The cytochrome c-oxidase I (COI) barcoding fragment was amplified using the LCO1490 and HC02198 primers (Folmer et al., 1994). PCR reactions had 10 μL of final volume, containing 5 μL of Multiplex PCR Master Mix (QIAGEN, Hilden, Germany), 0.4μM of each primer, and 1-2μL of DNA. PCR amplification was carried out on a T100 Thermal Cycler (BioRad, Hercules, CA, USA) using the following conditions: initial denaturation at 95ºC for 15 min; 5 cycles at 95ºC for 30 s, 47ºC for 45 s, 72ºC for 45 s; then 40 cycles at 95ºC for 30 s, 51ºC for 45 s, 72ºC for 45 s; and a final elongation step at 60ºC for 10 min. Amplified DNA fragments were purified and sequenced (most with both primers) using the same primers as in the PCR, following ABI PRISM BigDye Terminator protocols. Sequences were visualized on a 310 Applied Biosystem DNA Sequencing Apparatus. All sequences were submitted to BOLD and GenBank databases.

Geneious v.6.1.5 (http://www.geneious.com/) was used for sequence assembly and curation. The sequence obtained was blasted against GenBank and BOLD databases. The average divergence (uncorrected p-distance) between the sequence of Portuguese specimens and sequences available in GenBank and BOLD was calculated in MEGA v.5.2.1 (Tamura et al., 2011).

Results and discussion

Species diagnosis and description of Portuguese specimens

All four specimens were morphologically identified as Helobdella europaea (fig. 1). DNA barcoding results included a single haplotype common to the 4 specimens (BOLD Accession numbers: IBIAH005-20, IBIAH006-20, IBIAH007-20, IBIAH008-20; BOLD BIN code: IBOLD:AAC5160) and equal to sequences of publicly available specimens from Australia, Hungary, Spain, South Africa, Taiwan, USA and Ukraine. The Portuguese sequences differ by 0.06% to the single sequence available from Germany where the species was described but later considered not native, and by 0.05% from New Zealand sequences.

Fig. 1. Dorsal and ventral photographs of one of the Portuguese specimens of Helobdella europaea Kutschera 1987. Note the characteristic longitudinal rows of tubercles on the dorsum (left) and the young leeches attached to the ventral side of the maternal individual.

Fig. 1. Fotografía dorsal y ventral de un especimen de Helobdella europaea Kutschera 1987 recolectado en Portugal. Destacan las características filas longitudinales de tubérculos en el dorso (izquierda) y las sanguijuelas jóvenes unidas a la cara ventral de la madre.

Invasive potential and possible impacts

Early dietary assessments of H. europaea concluded that it predated several aquatic animals, namely aquatic Oligochaeta, insect larva, crustaceans and snails. Nonetheless, since then it has been found attached to larger vertebrates, most notably freshwater turtles (Reyes-Prieto et al., 2013; Perera et al., 2019). While no large populations have been found in Portugal to date, the proliferation of such a generalist species of leech may contribute to displacement of native species and it may harm already vulnerable populations of aquatic animals. Although the parasitism of H. europaea on vertebrate hosts was hypothesized (Perera et al., 2019), this hypothesis should be substantiated through revealing the respective evidence of feeding behaviour (Iwama et al., 2019). Since the current distribution of this invasive species is unknown, given its potential for a vast impact on ecosystems, it is imperative to screen and monitor freshwater bodies for this and similar species to determine which measures, if any, must be undertaken to control its spread. For this assessment, DNA barcoding may be a vital tool for fast and accurate identification of this species.

Acknowledgements

This project received funding from the European Union’s Horizon 2020 Research and Innovation Programme under grant agreement No 668981 and from the project PORBIOTA-Portuguese E-Infrastructure for Information and Research on Biodiversity (POCI-01-0145-FEDER-022127), supported by Operational Thematic Program for Competitiveness and Internationalization (POCI), under the PORTUGAL 2020 Partnership Agreement, through the European Regional Development Fund (FEDER). L. P. da Silva and S. Ferreira were supported by individual research contracts (CEECIND/02064/2017, 2020.03526.CEECIND) funded by FCT.

References

Bely, A. E., Weisblat, D. A., 2006. Lessons from leeches: A call for DNA barcoding in the lab. Evolution and Development, 8(6): 491–501, Doi: 10.1111/j.1525-142X.2006.00122.x

Govedich, F. R., Davies, R. W., 1998. The first record of the genus Helobdella (Helobdella: Glossiphoniidae) from Australia, with a description of a new species, Helobdella papillornata. Hydrobiologia, 389(1–3): 45–49, Doi:10.1023/A:1003543314841
Haaren, T. van, Hop, H., Soes, M., Tempelman, D., 2004. The freshwater leeches (Hirudinea) of The Netherlands. Lauterbornia, 52: 113–131, Doi: 10.1098/rspb.2002.2218 
Iwama, R. E., Oceguera-Figueroa, A., De Carle, D., Manglicmot, C., Erséus, C., Miles, N. M-S., Siddall, M. E., Kvist, S., 2019. Broad geographic sampling and DNA barcoding do not support the presence of Helobdella stagnalis (Linnaeus, 1758) (Clitellata: Glossiphoniidae) in North America. Zootaxa, 4671(1), 10.11646/zootaxa.4671.1.1
Kutschera, U., 1985. Beschreibung einer neuen Egelart, Helobdella striata nov. sp. (Hirudinea: Glossiphoniidae). Zoologische Jahrbücher. Abteilung für Systematik, Ökologie und Geographie der Tiere, 112(4): 469–476. <
Kutschera, U., 1987. Notes on the taxonomy and biology of leeches of the genus Helobdella Blanchard 1896 (Hirudinea: Glossiphoniidae). Zoologischer Anzeiger, 219(5): 321–323.
Kutschera, U., 2004. The freshwater leech Helobdella europaea (Hirudinea: Glossiphoniidae): an invasive species from South America? Lauterbornia, 52: 153–162.
Kutschera, U., Wirtz, P., 1986. Reproductive Behaviour and Parental Care of Helobdella striata (Hirudinea, Glossiphoniidae): a Leech that Feeds its Young. Ethology, 72(2): 132–142.
Lai, Y. I. T. E., Chang, C. H., Chen, J. H., 2009. Two new species of Helobdella Blanchard 1896 (Hirudinida: Rhynchobdellida: Glossiphoniidae) from Taiwan, with a checklist of Hirudinea fauna of the island. Zootaxa, 2068, Doi: https://doi.org/10.11646/zootaxa.2068.1.2
Málnás, K., Kovács, K., Ficsór, M., Juhász, P., Müller, Z., Olajos, P., Kiss, B., 2016. Appearances of the non-indigenous Helobdella europaea in Hungarian watercourses. Folia Historico-Naturalia Musei Matraensis, 40: 17–20, http://real.mtak.hu/id/eprint/141980
Morhun, H., Sidorovskyi, S., Khomenko, A., Mazepa, G., Utevsky, S., 2021. First Ukrainian record of the invasive leech Helobdella europaea (Hirudinea: Glossiphoniidae) from an aquarium in Kharkiv: morphological variability and phylogenetic relationships. Biologia, 76(1): 193–202, 10.2478/s11756-020-00542-7
Neubert, E., Nesemann, H., 1999. Annelida, Clitellata: Branchiobdellida, Acanthobdella, Hirudinea. In: Süßwasserfauna von Mitteleuropa. (J. Schwoerbel, P. Zick, Eds.). Spektrum Akademischer Verlag. Berlin.
Oceguera-Figueroa, A., León-Reògagnon, V., Siddall, M. E., 2010. DNA barcoding reveals Mexican diversity within the freshwater leech genus Helobdella (Annelida: Glossiphoniidae). Mitochondrial DNA, 21(suppl. 1): 24–29, Doi: 10.3109/19401736.2010.527965.
Pederzani, H. A., 1980. Ungebetene Gäste in unseren Aquarien. Aquarien Terrarien, 27: 370–374.
Perera, A., Hernandez-Sastre, P., Ayres, C., 2019. Hitch me a ride: first report of the alien leech Helobdella octatestisaca in Europe associated with freshwater turtles. Biological Invasions, 21(12): 3467–3471, Doi: 10.1007/s10530-019-02076-9
Pfeiffer, I., Brenig, B., Kutschera, U., 2004. The occurrence of an Australian leech species (genus Helobdella) in German freshwater habitats as revealed by mitochondrial DNA sequences. Molecular Phylogenetics and Evolution, 33(1): 214–219, Doi: 10.1016/j.ympev.2004.04.010
Reyes-Prieto, B. M., Oceguera-FigueroA, A, Snell, S., Negredo, A., Barba, E., Fernández, L., Moya, A., Latorre, A., 2013. DNA barcodes reveal the presence of the introduced freshwater leech Helobdella europaea in Spain. Mitochondrial DNA, 25(5): 387–393, Doi: 10.3109/19401736.2013.809426
Ringuelet, R. A., 1943. Sobre la morfología y la variabilidad de Helobdella triserialis (Em. Bl.) (Hirudinea. Glossiphoniidae). Notas del Museo de La Plata. Zoología, 8(69): 215–240.
Sawyer, R. T., 1986. Leech Biology and Behaviour: V.1. Anatomy, Physiology and Behaviour; V.2. Feeding, Biology, Ecology and Systematics. Clarendon Press, Oxford.
Siddall, M. E., Borda, E., 2003. Phylogeny and revision of the leech genus Helobdella (Glossiphoniidae) based on mitochondrial gene sequences and morphological data and a special consideration of the triserialis complex. Zoologica Scripta, 32(1): 23–33, Doi: 10.1046/j.1463-6409.2003.00098
Siddall, M. E., Budinoff, R. B., 2005. DNA-barcoding evidence for widespread introductions of a leech from the South American Helobdella triserialis complex. Conservation Genetics, 6(3): 467–472, Doi: 10.1007/s10592-005-4986-y
Tamura, K., Peterson, D., Peterson, N., Stecher, G., Nei, M., Kumar, S., 2011. MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Molecular Biology and Evolution, 28(10): 2731–2739, Doi: https://doi.org/10.1093/molbev/msr121