Haplotype variation in the Physa acuta group (Basommatophora): genetic diversity and distribution in Serbia
2016
Autori
Raković, M. J.Raković, M. B.
Petrović, A. M.
Popović, N. Z.
Duknić, J. A.
Naunović, Zorana
Paunović, Marijana
Članak u časopisu (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
The genus Physa (= Physella) includes the most abundant and diverse freshwater gastropods native to North America. Due to their invasive nature, many species occur throughout the world. The most abundant species, Physa acuta, has been introduced to Europe, Africa, Asia and Australia by human commerce and migrating birds. This species is widely distributed throughout Serbia. The aim of this study was to explore the genetic diversity of P. acuta from Serbia, and to determine the evolutionary relationships among native Physidae populations from North America, Mexico and Cuba and populations from Europe, using sequences of the mitochondrial 16S rDNA gene. The ML (Maximum Likelihood) tree revealed two clades within Physidae, and two clades that correspond to the families Planorbidae and Lymnaeidae. In the Physidae clade there are two separate clades: one includes the species Physa spelunca, and the second includes samples of P. acuta. We determined three different haplotypes within specimen...s from Serbia. One haplotype is genetically closest to Physa heterostrofa (synonym of P. acuta) from Philadelphia, while the other two are very close to P. acuta specimens from New Mexico. Together with other samples, our findings corroborate the notion that we are dealing with one panmictic population of P. acuta and not with several separate species, despite the high genetic diversity between and among the populations. Our results indicate that in the same population in Serbia, there is high genetic distance between samples. Despite the small number of analyzed samples, our findings point to multiple introductions of P. acuta from different locations in America.
Ključne reči:
16S rDNA variation / Physidae / Physa acuta / alien species / Danube / SerbiaIzvor:
Mediterranean Marine Science, 2016, 17, 1, 292-301Izdavač:
- Hellenic Centre for Marine Research
Finansiranje / projekti:
- Geološka i ekotoksikološka istraživanja u identifikaciji geopatogenih zona toksičnih elemenata u akumulacijama vode za piće-istraživanje metoda i postupaka smanjivanja uticaja biogeohemijskih anomalija (RS-MESTD-Basic Research (BR or ON)-176018)
- Evolucija u heterogenim sredinama: mehanizmi adaptacija, biomonitoring i konzervacija biodiverziteta (RS-MESTD-Basic Research (BR or ON)-173025)
- Agrobiodiverzitet i korišćenje zemljišta u Srbiji: integrisana procena biodiverziteta ključnih grupa artropoda i biljnih patogena (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-43001)
- Managing the effects of multiple stressors on aquatic ecosystems under water scarcity (EU-FP7-603629)
DOI: 10.12681/mms.1453
ISSN: 1108-393X
WoS: 000374469200024
Scopus: 2-s2.0-85016333431
Kolekcije
Institucija/grupa
GraFarTY - JOUR AU - Raković, M. J. AU - Raković, M. B. AU - Petrović, A. M. AU - Popović, N. Z. AU - Duknić, J. A. AU - Naunović, Zorana AU - Paunović, Marijana PY - 2016 UR - https://grafar.grf.bg.ac.rs/handle/123456789/809 AB - The genus Physa (= Physella) includes the most abundant and diverse freshwater gastropods native to North America. Due to their invasive nature, many species occur throughout the world. The most abundant species, Physa acuta, has been introduced to Europe, Africa, Asia and Australia by human commerce and migrating birds. This species is widely distributed throughout Serbia. The aim of this study was to explore the genetic diversity of P. acuta from Serbia, and to determine the evolutionary relationships among native Physidae populations from North America, Mexico and Cuba and populations from Europe, using sequences of the mitochondrial 16S rDNA gene. The ML (Maximum Likelihood) tree revealed two clades within Physidae, and two clades that correspond to the families Planorbidae and Lymnaeidae. In the Physidae clade there are two separate clades: one includes the species Physa spelunca, and the second includes samples of P. acuta. We determined three different haplotypes within specimens from Serbia. One haplotype is genetically closest to Physa heterostrofa (synonym of P. acuta) from Philadelphia, while the other two are very close to P. acuta specimens from New Mexico. Together with other samples, our findings corroborate the notion that we are dealing with one panmictic population of P. acuta and not with several separate species, despite the high genetic diversity between and among the populations. Our results indicate that in the same population in Serbia, there is high genetic distance between samples. Despite the small number of analyzed samples, our findings point to multiple introductions of P. acuta from different locations in America. PB - Hellenic Centre for Marine Research T2 - Mediterranean Marine Science T1 - Haplotype variation in the Physa acuta group (Basommatophora): genetic diversity and distribution in Serbia EP - 301 IS - 1 SP - 292 VL - 17 DO - 10.12681/mms.1453 ER -
@article{ author = "Raković, M. J. and Raković, M. B. and Petrović, A. M. and Popović, N. Z. and Duknić, J. A. and Naunović, Zorana and Paunović, Marijana", year = "2016", abstract = "The genus Physa (= Physella) includes the most abundant and diverse freshwater gastropods native to North America. Due to their invasive nature, many species occur throughout the world. The most abundant species, Physa acuta, has been introduced to Europe, Africa, Asia and Australia by human commerce and migrating birds. This species is widely distributed throughout Serbia. The aim of this study was to explore the genetic diversity of P. acuta from Serbia, and to determine the evolutionary relationships among native Physidae populations from North America, Mexico and Cuba and populations from Europe, using sequences of the mitochondrial 16S rDNA gene. The ML (Maximum Likelihood) tree revealed two clades within Physidae, and two clades that correspond to the families Planorbidae and Lymnaeidae. In the Physidae clade there are two separate clades: one includes the species Physa spelunca, and the second includes samples of P. acuta. We determined three different haplotypes within specimens from Serbia. One haplotype is genetically closest to Physa heterostrofa (synonym of P. acuta) from Philadelphia, while the other two are very close to P. acuta specimens from New Mexico. Together with other samples, our findings corroborate the notion that we are dealing with one panmictic population of P. acuta and not with several separate species, despite the high genetic diversity between and among the populations. Our results indicate that in the same population in Serbia, there is high genetic distance between samples. Despite the small number of analyzed samples, our findings point to multiple introductions of P. acuta from different locations in America.", publisher = "Hellenic Centre for Marine Research", journal = "Mediterranean Marine Science", title = "Haplotype variation in the Physa acuta group (Basommatophora): genetic diversity and distribution in Serbia", pages = "301-292", number = "1", volume = "17", doi = "10.12681/mms.1453" }
Raković, M. J., Raković, M. B., Petrović, A. M., Popović, N. Z., Duknić, J. A., Naunović, Z.,& Paunović, M.. (2016). Haplotype variation in the Physa acuta group (Basommatophora): genetic diversity and distribution in Serbia. in Mediterranean Marine Science Hellenic Centre for Marine Research., 17(1), 292-301. https://doi.org/10.12681/mms.1453
Raković MJ, Raković MB, Petrović AM, Popović NZ, Duknić JA, Naunović Z, Paunović M. Haplotype variation in the Physa acuta group (Basommatophora): genetic diversity and distribution in Serbia. in Mediterranean Marine Science. 2016;17(1):292-301. doi:10.12681/mms.1453 .
Raković, M. J., Raković, M. B., Petrović, A. M., Popović, N. Z., Duknić, J. A., Naunović, Zorana, Paunović, Marijana, "Haplotype variation in the Physa acuta group (Basommatophora): genetic diversity and distribution in Serbia" in Mediterranean Marine Science, 17, no. 1 (2016):292-301, https://doi.org/10.12681/mms.1453 . .