AP19674567 Conservation and reproduction of the relic poplar-turanga Populus pruinosa for scientific purposes and in afforestation practice

About the project

Relevance
The project idea is to reduce the relict poplar turanga Populus pruinosa Schrenk extinction risk by developing and applying ex situ germplasm conservation methods. This species is the Miocene era relic (23-5.3 million years ago) with a drastically reduced range, listed in the Red Book of Kazakhstan. Only a few populations that are subject to strong regression have survived on the territory of Kazakhstan. 

Project Objective
The project goal is to develop effective conservation and reproduction methods of the endangered relict Populus pruinosa

Expected and achieved results
The main results of the project implementation are the developed methods for the conservation, reproduction and cultivation of the endangered species Populus pruinosa Schrenk, a relic of the Miocene era. Based on the developed methods, 5 genebanks will be created: tissue cryobank, seed cryobank, in vitro clone bank of male and female individuals, field genebank, DNA bank. Genebanks are used for reliable conservation of genetic resources, the endangered relict turanga poplar P. pruinosa, for scientific research on the phylogeny of the genus Populus, for international exchange of germplasm with genebanks of other countries, in breeding, and in forestry.

List of publications (with links to them) and patents
Publications over the last 5 years:
1. Kovalchuk I.Y., Mukhitdinova Z., Turdiyev T., Madiyeva, G., Akin M., Eyduran, E., Reed B.M. Nitrogen ions and nitrogen ion proportions impact the growth of apricot (Prunus armeniaca) shoot cultures // Plant Cell, Tissue and Organ Culture (PCTOC), Journal of Plant Biotechnology. – 2018. – Vol. 133(2). – P. 263-273. According to the Scopus database: citations (27), percentile (87th). According to the Web of Science database: citations (27), quartile (Q2), Impact Factor 2,859. DOI: 10.1007/s11240-018-1379-8
2. Kabylbekova B., Kovalchuk I., Mukhitdinova Z., Turdiyev T., Kairova G.,Madiyeva G., Reed B. Reduced major minerals and increased minor nutrients improve micropropagation in three apple cultivars // In vitro cellular & developmental biology-plant. – 2020. – Vol. 56(3). – P. 335-349. According to the Scopus database: citations (3), percentile (74). According to the Web of Science database: citations (3), quartile (Q2), Impact Factor 2,404. DOI: 10.1007/s11627-019-10019-1
3. Shuo Liu, Stephane Decroocq, Elodie Harte, David Tricon, Aurelie Chague, Gulnara Balakishiyeva, Tatiana Kostritsyna, Timur Turdiev, Marion Fisher-Le Saux, Sylvie Dallot, Tatiana Giraud & Veronique Decroocq. Genetic diversity and population structure analyses in the Alpine plum (Prunus brigantine Vill.) confirm its affiliation to the Armeniaca section // Tree Genetics & Genomes. – 2021. – Vol. 17(1). – P. 1-12. According to the Scopus database: citations (4), percentile (88). Impact Factor 2.262. https://doi.org/10.1101/2020.08.12.247718
4. B. Kabylbekova, I. Kovalchuk, N. Chukanova, T. Turdiyev. Cold storage of in vitro apple germplasm in Kazakhstan // Acta Horticulturae. – 2021. – N. 1324. – P. 77-82. According to the Scopus database: citations (1), percentile (8). According to the Web of Science database: citations (1), quartile (Q4). Impact Factor 0,28. DOI: 10.17660/ActaHortic.2021.1324.11
5. Turdiyev T., Kovalchuk I., Mukhitdinova Z., Hunger O., Frolov S., Kabylbekova B. Micropropagation of berry crops for creation of germplasm cryobanks // Brazilian journal of biology = Revista brasleira de biologia. – 2023. – Vol. 84. – P. 1-6. According to the Scopus database: citations (0), percentile (61). According to the Web of Science database: citations (0), quartile (Q2). Impact Factor 2,4. DOI: 10.1590/1519-6984.266975
6. DavidTricon, Julie Faivre d’Arcier, Jean Philippe Eyquard, Shuo Liu, Stéphane Decroocq, Aurélie Chague, Weisheng Liu, Gulnara Balakishiyeva, Alamdar Mammadov, Timur Turdiev, Tatiana Kostritsyna, Bayram M.Asma, ZeynalAkparov, Véronique Decroocq. Allele mining of eukaryotic translation initiation factor genes in Prunus for the identifcation of new sources of resistance to sharka // Scientifc Reports. – 2023. – No. 13(1). – 15247. According to the Scopus database: citations (0), percentile (92). According to the Web of Science database: citations (0), quartile (Q1). Impact Factor 4,6. DOI: doi.org/10.1038/s41598-023-42215-w

List of publications in domestic journals recommended by KOKSON MES RK:
1. Turdiev T.T., Kovalchuk I.Yu., Mukhitdinova Z.R., Frolov S.N., Kabylbekova B.Zh. Clonal micropropagation in the production of elite raspberry planting material // Izdenister, Natizheler / Research, results. – 2019. – No. 3(83). – pp. 256-265. https://journal.kaznaru.edu.kz/index.php/research/issue/view/7
2. Kabylbekova B.Zh., Chukanova N.I., Turdiev T.T., Kovalchuk I.Yu. The influence of the composition of the nutrient medium and genotype on the preservation of the gene pool of the apple tree under cold storage conditions // Izdenister, Natizheler / Research, results. – 2019. – No. 3(83). – pp. 200-209. ttps://journal.kaznaru.edu.kz/index.php/research/issue/view/7
3. Mukhitdinova Z.R., Turdiev T.T., Kovalchuk I.Yu., Frolov S.N., Rymkhanova N.K., Besschetnov A.P. Methods of propagation of Kazakhstani poplar hybrids // Bulletin of KazNU, Biological Series. – No. 1 (82). – 2020. – pp. 63-74. bb.kaznu.kz›index.php…article/download/1482/1369
4. S.V. Kushnarenko, N.V. Romadanova, T.T. Turdiev, M.M. Aralbaeva, K.R. Kalybaev. Preservation of walnut samples from several populations of the Sairam-Ugam State National Natural Park in a cryobank // Vestnik KazNU. Ecological series. – 2022. – No. 2 (71). – P. 72-80. https://doi.org/10.26577/EJE.2022.v71.i2.07
5. Kushnarenko S.V., Manapkanova U.A., Rymkhanova N.K., Turdiev T.T., Zhumabaeva B.A., Aubakirova K.P., Galiakparov N.N. Development of in vitro technology for the elimination of raspberry bushy dwarf virus // Bulletin of Karaganda University. Series “Biology. Medicine. Geography". – 2023. – No. 2 (110). – P. 76-84. DOI: 10.31489/2023BMG2/76-84
6. Turdiev T.T., Kabylbekova B.Zh., Kovalchuk I.Yu., Mukhitdinova Z.R., Frolov S.N., Rakhimbaev I.R., Ogar N.P. Preservation of germplasm of wild pear forms by cryopreservation // Vestnik KazNU. Biological series. – 2023. – No. 2 (95). – P. 72-82. DOI: https://doi.org/10.26577/eb.2023.v95.i2.07
7. Turdiev T.T., Kovalchuk I.Yu., Kabylbekova B.Zh., Tolegen A., Mikhailenko N.V., Rakhimbaev I.R. Restoration of regressive populations of Populus diversifolia Schrenk in the floodplains of the Ili and Syr Darya rivers using in vitro cloning // Karaganda University Khabarshysy = Bulletin of the Karaganda University, Series “Biology. Medicine. Geography". – 2023. – No. 3(111). – pp. 176-183. DOI 10.31489/2023BMG3/176-183

List of received protection documents/patents:
1. Utility model patent No. 3104 dated August 25, 2018. Kazakhstan. Nutrient medium for microclonal propagation of poplar, apple, and pear / Turdiev T.T., Kovalchuk I.Yu., Kabylbekova B.Zh., Frolov S.N., Mukhitdinova Z.R. https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=284433
2. Innovative patent for invention No. 34523 dated August 25, 2020, Kazakhstan. A method for obtaining turanga poplar planting material under in vitro conditions. Turdiev T.T., Kovalchuk I.Yu., Mukhitdinova Z.R., Frolov S.N., Nogaibaev A.M., Besschetnov A.P. Copyright certificate No. 104223. https://gosreestr.kazpatent.kz/Invention/Details?docNumber=314353
3. Utility model patent No. 6332 dated August 20, 2021, Kazakhstan. Method for obtaining raspberry planting material in vitro. Turdiev T.T., Kovalchuk I.Yu., Mukhitdinova Z.R., Frolov S.N., Rymkhanova N.K., Belgozhaev E.M., Besschetnov A.P. https://gosreestr.kazpatent.kz/Utilitymodel/Details?docNumber=345290

Information for potential users
Conservation of P. pruinosa is quite applicable for scientific and practical purposes. Thus, this species, which enters the section Turanga, is the most anterior branch of the genus Populus, which can serve as valuable targets for phylogenetic studies. Of theoretical importance is the study of P. pruinosa in florogenesis as an important component of biodiversity for many millions of years. The use of P. pruinosa in breeding for the development of drought-resistant and salt-tolerant hybrids and varieties of poplar is of great importance.

Research team members
Kovalchuk Irina
Academic degree, title: Candidate of Agricultural Sciences, Assoc. Professor
Scopus Author ID: 7003910097
Researcher ID: М-6742-2015
ORCID: 0000-0002-8315-1490

Madenova Aigul
Academic degree, title: PhD
Scopus Author ID: 56800868300822-202
Researcher ID: AAQ-2822-2020
ORCID: https://orcid.org/0000-0003-0349-749X

Kabylbekova Balnur
Academic degree, title: PhD
Scopus Author ID: 57210303835
Researcher ID: E-4079-2015
ORCID: https://orcid.org/0000-0003-4933-4151

 Baizhumanova Saule
Researcher ID: GZK-9162-2022
ORCID: https://orcid.org/0000-0001-8715-2055 

 Emesheva Kamila
Researcher ID: JJG-1618-2023
ORCID: https://orcid.org/0000-0002-7098-9286 

Kuan Angsagan
Researcher ID: JFS-4113-2023
ORCID: https://orcid.org/0000-0002-7865-8879

Contacts