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Criteria for Assessment of Plus Oak Stands

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V.A. Kostrikin, V.K. Shirnin, S.A. Kryukova

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UDС

630*232.311.3

DOI:

10.37482/0536-1036-2021-4-68-79

Abstract

In the Voronezh region the share of seed plantations is less than half of the area of oak forests. Therefore, the regeneration of high-quality forests of seed origin with improved hereditary characteristics is a major challenge. In the production of seeds of improved breeding categories, plus stands play an important role. They produce improved seeds, if minus trees are removed. Moreover, permanent forest seed plots which were planted by the plus stand offspring, produce seeds of the required breeding category. Current laws and regulations do not provide specific recommendations on selection of plus stands. To address this issue and establish the criteria by which such forest stands should be selected we examined all the best stands containing plus trees in the Voronezh region (those that are candidates for plus stands). The frequency of occurrence of plus trees varies from 2 to 10 trees per 10 ha. We took the average value as the minimum to classify the forest plot as a plus stand. Marking forest stands as plus stands based on selection inventory data is recommended regardless of the time of the forest management fieldwork. Besides this, we performed a detailed inventory of the plus stand in the quadrant 41 of the Krasnoye divisional forestry area in the Vorontsovskoye forestry area on the area of 10.7 ha. The study was carried out on 10 trial plots (1 ha each), where a selection inventory was conducted, as well as an inventory of trees by technical assessment with a detailed description of each oak specimen by inventory characteristics, condition and the presence of flaws. The data obtained by selection inventory with identification of “good trees” (sum of plus and normally best trees) correlate with distribution of trees by technical assessment categories. The identified patterns can be used for selection inventory of oak plantations. We recommend to place stands in a category of plus stand if their forest density ranges from 0.7 to 0.9, more than 35 % of the trees have commercial wood and if this plot has at least one plus tree per two ha. Restoring oak forests with acorns harvested from plus stands will improve the quality of forest plantations.

Authors

Viktor A. Kostrikin, Candidate of Agriculture; Leading Research Scientist;
ResearcherIDU-2449-2019, ORСID: https://orcid.org/0000-0003-1939-4743
Viktor K. Shirnin, Doctor of Agriculture, Leading Research Scientist;
ResearcherIDU-1932-2019, ORСID: https://orcid.org/0000-0003-2614-3416
Svetlana A. Kryukova, Junior Research Scientist, Postgraduate Student;
ResearcherIDF-6016-2019, ORCID: https://orcid.org/0000-0002-3648-6845
e-mail: ilgis@lesgen.vrn.ru, v.kostrikin2015@yandex.ru

Affiliation

All-Russian Research Institute of Forest Genetics, Breeding and Biotechnology, 394087, Lomonosova street, 105, Voronezh, Russian Federation

Keywords

oak, plus stand, selection inventory, technical assessment categories of trees

For citation

Kostrikin V.A., Shirnin V.K., Kryukova S.A. Criteria for Assessment of Plus Oak Stands. Lesnoy Zhurnal [Russian Forestry Journal], 2021, no. 4, pp. 68–79. DOI: 10.37482/0536-1036-2021-4-68-79

References

1. Veresin M.M. Forest Seed Production. Moscow, Goslesbumizdat Publ., 1963. 158 p.

2. Veresin M.M., Efimov Yu.P., Aref’ev Yu.F. Handbook on Forest Seed Breeding. Moscow, Agropromizdat Publ., 1985. 245 p.

3. Verkhunov P.M., Chernykh V.L. Forest Inventory. Yoshkar-Ola, MarSU Publ., 2007. 396 p.

4. Lakin G.F. Biometrics. Moscow, Vysshaya shkola Publ., 1980. 293 p.

5. Laur N.V., Tsarev A.P. Selection of Plus Trees and Stands. Petrozavodsk, PetrSU Publ., 2005. 36 p.

6. Forest Code of the Russian Federation: The Federal Law of December 4, 2006 No. 200-FZ. Corpus of Legislation of the Russian Federation, 2006, no. 50, art. 5278.

7. Decree of the Government of the Russian Federation of May 20, 2017 No. 607 “On the Rules of Sanitary Safety in Forests”. The Official Internet-Portal of Legal Information. Moscow, 2017.

8. Privalov F.I., Kilchevskij A.V., Grib S.I., Reshetnikov V.N., Kozlovskaja Z.A., Dmitrieva S.A., Kovale-vich A.I., Matys I.S. Plants Genetic Resources in the Republic of Belarus – the Fundamental Principle of Food, Environmental and Biological Security of the Country. Vestsі Natsyyanal’nay akademіі navuk Belarusі. Seryya agrarnykh navuk [Proceedings of the National Academy of Sciences of Belarus. Agrarian series], 2018, vol. 56, no 3, pp. 304–320. DOI: https://doi.org/10.29235/1817-7204-2018-56-3-304-320

9. Order of the Ministry of Natural Resources and Environment of the Russian Federation of October 20, 2015 No. 438 “On Approval of the Rules for Creation and Allocation of Forest Seed Production Facilities (Forest Seed Plantations, Permanent Forest Seed Plots and Similar Facilities)”: Registered in the Ministry of Justice of the Russian Federation on February 12, 2016 No. 41078. The Official Internet-Portal of Legal Information. Moscow, 2016.

10. Order of the Federal Forestry Agency of November 10, 2011 No. 472 “On Approval of Methodical Recommendations for the State Forest Inventory”.

11. Order of the Federal Forestry Agency of January 10, 2012 No. 3 “On Approval of the Procedure for Seed Production for Different Categories of Forest Species”: Registered in the Ministry of Justice of the Russian Federation on February 20, 2012 No. 23270.

12. Order of the Federal Forestry Agency of June 9, 2015 No. 182 “On Approval of the methodical document ensuring sanitary safety in forests”: Registered in the Ministry of Justice of the Russian Federation on December 14, 2015 No. 40084.

13. Pyatnitskiy S.S. Management of Elite Seed Production of Forest Tree Species. Lesovozobnovleniye i lesorazvedeniye, 1964, vol. 155, pp. 81–93.

14. Instructions for Forest Seed Production in the Russian Federation: Approved by the Federal Forestry Agency on January 11, 2000. Moscow, VNIITslesresurs Publ., 2000. 198 p.

15. Guidelines for the Development of Projects on the Organization of Permanent Forest Seed Base on the Basis of Selection: Approved by the State Committee of the USSR on Forestry on April 17, 1985. Moscow, TsBNTIleskhoza Publ., 1986. 227 p.

16. Tsarev A.P., Laur N.V. Forest Plus Stands and Criteria for Their Selection. Byulleten’ Gosudarstvennogo Nikitskogo botanicheskogo sada [Bulletin of the State Nikitsky Botanical Garden], 2019, iss. 132, pp. 79–86. DOI: 10.25684/NBG.boolt.132.2019.10

17. Shirnin V.K., Shirnina L.V. Recommendations on the Selection of Plus Trees of Pedunculate Oak in Alluvial Oak Forests of the Central Chernozem Region. Voronezh, VSU Publ., 2004. 15 p.

18. Shirnin V.K., Kostrikin V.A., Shirnina L.V., Blagodarova T.A., Kryukova S.A., Tselikov M.E. Objects of Selective Oak Seed Production in the Central Chernozem Region: Monograph. Voronezh, Poligraficheskiye resheniya Publ., 2018. 196 p.

19. Ballian D., Memišević M., Bogunić F., Bašić N., Marković M., Kajba D. Morphological Variability of Pedunculate Oak (Quercus robur L.) in the Region of Croatia and Western Balkans. Šumarski List, 2010, vol. 134, no. 7-8, рр. 371−386.

20. Barzdajn W., Bruder M. Tree Testing and Estimation of Heritability Using the Pedunculate Oak Quercus robur L. Seed Orchard in the Krotoszyn Forest District. Leśne

21. Prace Badawcze [Forest Research Papers], 2018, vol. 79, iss. 4, pp. 309–315. DOI: https://doi.org/10.2478/frp-2018-0031

22. Bogdan I.K., Kajba D., Šatović Z., Schüler S., Bogdan S. Genetic Diversity of Pedunculate Oak (Quercus robur L.) in Clonal Seed Orchards in Croatia, Assessed by Nuclear and Chloroplast Microsatellites. South-East European Forestry, 2018, vol. 9, no. 1, рр. 29–46. DOI: https://doi.org/10.15177/seefor.18-09

23. Lindguist B. Forstgenetik in der schwedischen Waldbaupraxis. Radebene und Berlin, Neumann Verlag, 1954. 156 S.

24. Mirzaie-Nodoushan H., Hosseinzadeh J., Pourhashemi M., Mehrpur Sh., Hamzehpour M., Abravesh Z. Heritability and Growth Analysis of Brant’s Oak (Quercus brantii Lindl.) Based on Sapling Characteristics. Iranian Journal of Forest and Poplar Research, 2018, vol. 26, no. 2, pp. 215–227. DOI: https://doi.org/10.22092/ijfpr.2018.116750

25. Vranckx G., Jacquemyn H., Mergeay J., Cox K., Kint V., Muys B., Honnay O. Transmission of Genetic Variation from the Adult Generation to Naturally Established Seedling

26. Cohorts in Small Forest Stands of Pedunculate Oak (Quercus robur L.). Forest Ecology and Management, 2014, vol. 312, pp. 19–27. DOI: https://doi.org/10.1016/j.foreco.2013.10.027


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