National Geoinformation Center (part of National Roadmap of RIs)

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National Geoinformation Center (part of National Roadmap of RIs)

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Publications

Speciation and historical migration pattern interaction: examples from P. nigra and P. sylvestris phylogeography

Naydenov, Krassimir D.; Naydenov, Michel K.; Alexandrov, Alexander; Gurov, Todor; Gyuleva, Veselka; Hinkov, Georgi; Ivanovska, Sofiya; Tsarev, Anatoly; Nikolić, Biljana; Goudiaby, Venceslas; Carcaillet, Christopher; Volosyanchuk, Roman; Bojović, Srđan; Vasilevski, Kole; Matevski, Vlado; Peruzzi, Lorenzo; Christou, Andreas; Paitaridou, Despina; Goia, Irina; Kamary, Salim; Gulcu, Suleyman; Ture, Cengiz; Bogunić, Faruk

(2023) 

TY  - JOUR
AU  - Naydenov, Krassimir D.
AU  - Naydenov, Michel K.
AU  - Alexandrov, Alexander
AU  - Gurov, Todor
AU  - Gyuleva, Veselka
AU  - Hinkov, Georgi
AU  - Ivanovska, Sofiya
AU  - Tsarev, Anatoly
AU  - Nikolić, Biljana
AU  - Goudiaby, Venceslas
AU  - Carcaillet, Christopher
AU  - Volosyanchuk, Roman
AU  - Bojović, Srđan
AU  - Vasilevski, Kole
AU  - Matevski, Vlado
AU  - Peruzzi, Lorenzo
AU  - Christou, Andreas
AU  - Paitaridou, Despina
AU  - Goia, Irina
AU  - Kamary, Salim
AU  - Gulcu, Suleyman
AU  - Ture, Cengiz
AU  - Bogunić, Faruk
PY  - 2023
UR  - https://link.springer.com/10.1007/s10342-022-01513-0
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/5460
AB  - Here, from macrophylogeographic mtDNA empirical data, we propose a scenario for the evolution and speciation of two important forest trees, European black pine and Scotch pine, and their multiple subspecies and varieties. Molecular clock simulations revealed that INDEL variability in the Pinus mitochondrial genome is relatively old, i.e., from the Pliocene-Miocene epoch, and related to historical tectonic continental fluctuations rather than to climate change at a large geographic scale. For conservation and management biodiversity program recommendations, special attention is given to the relationships between different speciation models, historical migration patterns, and differences between peripheral and central populations. Species evolution involves the mixing of different speciation modes, and every speciation mode has different effects on different DNA types (e.g., mitochondrial vs. chloroplast vs. nuclear DNA). The misbalance between the contributions of different meta-population census sizes vs. effective population sizes to asymmetric migration patterns is the result of different genotypes (and subphylogenetic lines) responding to selection pressure and adaptive evolution. We propose initial minimal size of conservation unit (between 3 and 5 ha) from central and marginal natural area of distribution for both species in the dynamic management system for practical forest genetic diversity management. The proposed physical sizes were determined by the effective population size, effective radius of seed distribution data, forest density age dynamics, succession pattern, natural selection pressing and species biology [R-17].
T2  - European Journal of Forest Research
T1  - Speciation and historical migration pattern interaction: examples from P. nigra and P. sylvestris phylogeography
IS  - 1
VL  - 142
DO  - 10.1007/s10342-022-01513-0
SP  - 1
EP  - 26
ER  - 
@article{
author = "Naydenov, Krassimir D. and Naydenov, Michel K. and Alexandrov, Alexander and Gurov, Todor and Gyuleva, Veselka and Hinkov, Georgi and Ivanovska, Sofiya and Tsarev, Anatoly and Nikolić, Biljana and Goudiaby, Venceslas and Carcaillet, Christopher and Volosyanchuk, Roman and Bojović, Srđan and Vasilevski, Kole and Matevski, Vlado and Peruzzi, Lorenzo and Christou, Andreas and Paitaridou, Despina and Goia, Irina and Kamary, Salim and Gulcu, Suleyman and Ture, Cengiz and Bogunić, Faruk",
year = "2023",
abstract = "Here, from macrophylogeographic mtDNA empirical data, we propose a scenario for the evolution and speciation of two important forest trees, European black pine and Scotch pine, and their multiple subspecies and varieties. Molecular clock simulations revealed that INDEL variability in the Pinus mitochondrial genome is relatively old, i.e., from the Pliocene-Miocene epoch, and related to historical tectonic continental fluctuations rather than to climate change at a large geographic scale. For conservation and management biodiversity program recommendations, special attention is given to the relationships between different speciation models, historical migration patterns, and differences between peripheral and central populations. Species evolution involves the mixing of different speciation modes, and every speciation mode has different effects on different DNA types (e.g., mitochondrial vs. chloroplast vs. nuclear DNA). The misbalance between the contributions of different meta-population census sizes vs. effective population sizes to asymmetric migration patterns is the result of different genotypes (and subphylogenetic lines) responding to selection pressure and adaptive evolution. We propose initial minimal size of conservation unit (between 3 and 5 ha) from central and marginal natural area of distribution for both species in the dynamic management system for practical forest genetic diversity management. The proposed physical sizes were determined by the effective population size, effective radius of seed distribution data, forest density age dynamics, succession pattern, natural selection pressing and species biology [R-17].",
journal = "European Journal of Forest Research",
title = "Speciation and historical migration pattern interaction: examples from P. nigra and P. sylvestris phylogeography",
number = "1",
volume = "142",
doi = "10.1007/s10342-022-01513-0",
pages = "1-26"
}
Naydenov, K. D., Naydenov, M. K., Alexandrov, A., Gurov, T., Gyuleva, V., Hinkov, G., Ivanovska, S., Tsarev, A., Nikolić, B., Goudiaby, V., Carcaillet, C., Volosyanchuk, R., Bojović, S., Vasilevski, K., Matevski, V., Peruzzi, L., Christou, A., Paitaridou, D., Goia, I., Kamary, S., Gulcu, S., Ture, C.,& Bogunić, F.. (2023). Speciation and historical migration pattern interaction: examples from P. nigra and P. sylvestris phylogeography. in European Journal of Forest Research, 142(1), 1-26.
https://doi.org/10.1007/s10342-022-01513-0
Naydenov KD, Naydenov MK, Alexandrov A, Gurov T, Gyuleva V, Hinkov G, Ivanovska S, Tsarev A, Nikolić B, Goudiaby V, Carcaillet C, Volosyanchuk R, Bojović S, Vasilevski K, Matevski V, Peruzzi L, Christou A, Paitaridou D, Goia I, Kamary S, Gulcu S, Ture C, Bogunić F. Speciation and historical migration pattern interaction: examples from P. nigra and P. sylvestris phylogeography. in European Journal of Forest Research. 2023;142(1):1-26.
doi:10.1007/s10342-022-01513-0 .
Naydenov, Krassimir D., Naydenov, Michel K., Alexandrov, Alexander, Gurov, Todor, Gyuleva, Veselka, Hinkov, Georgi, Ivanovska, Sofiya, Tsarev, Anatoly, Nikolić, Biljana, Goudiaby, Venceslas, Carcaillet, Christopher, Volosyanchuk, Roman, Bojović, Srđan, Vasilevski, Kole, Matevski, Vlado, Peruzzi, Lorenzo, Christou, Andreas, Paitaridou, Despina, Goia, Irina, Kamary, Salim, Gulcu, Suleyman, Ture, Cengiz, Bogunić, Faruk, "Speciation and historical migration pattern interaction: examples from P. nigra and P. sylvestris phylogeography" in European Journal of Forest Research, 142, no. 1 (2023):1-26,
https://doi.org/10.1007/s10342-022-01513-0 . .
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