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Lesnoy Zhurnal

Fir Reproduction Technology for Harvesting Coniferous Boughs

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E.М. Tsarev, K.P. Rukomojnikov, S.E. Anisimov, D.S. Tatarinov

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Abstract

The article considers the use of innovative technologies in logging industry. Manufacture of products “for health” can turn into a substantial profit if one approaches the business competently and chooses a low-competitive niche. Nowadays, there are still types of industries where competition is minimal, despite high consumer demand. These include the industrial production of fir needle oil, which is popular with consumers. It is famous for its healing properties and is used in treating colds, intestinal issues, joints, and nervous disorders; in the manufacture of cosmetics and medicines (ointments and creams). However, there are a number of issues related to the organization of the fir needle oil production, which are the basis of legislation in this area. This applies to the harvesting of raw materials. The share of fir stands in the composition of forests is constantly decreasing. In the European part of Russia, it became necessary to find a way to ensure a regular supply of fir needle oil enterprises with the necessary raw materials. The article proposes a new technology for the artificial reproduction of fir plantations for the purpose of their further use in the production of fir needle oil. A periodic cycle, which allows producing fir needle oil wherever a fir plantation is laid out, is recommended. The design of the device has also been developed. It helps to reduce the planting time, the loads on people when forming the planting spot and thereby increase labor productivity. The article materials can serve as a guide for the efficient use of production resources (people and machinery) for those who lease land for fir growing for oil production.

Authors

Evgeny М. Tsarev, Doctor of Engineering, Prof.; ResearcherIDAAB-2166-2020, ORCID: https://orcid.org/0000-0001-5695-3028
Konstantin P. Rukomojnikov, Doctor of Engineering, Prof.; ResearcherIDN-6961-2019, ORCID: https://orcid.org/0000-0002-9956-5081
Sergey E. Anisimov, Candidate of Engineering, Assoc. Prof.; ResearcherIDAAB-1346- 2020, ORCID: https://orcid.org/0000-0003-3332-0927
Denis S. Tatarinov, Postgraduate Student; ResearcherIDAAB-7031-2020, ORCID: https://orcid.org/0000-0002-3312-796X

Affiliation

Volga State University of Technology, pl. Lenina, 3, Yoshkar-Ola, Mari El Republic, 424000, Russian Federation; e-mail: CarevEM@volgatech.netRukomojnikovKP@volgatech.netAnisimovSE@volgatech.net, denistatarinov4@mail.ru

Keywords

innovations, forest plantations, fir stands, reforestation, fir needle oil

For citation

Tsarev E.М., Rukomojnikov K.P., Anisimov S.E., Tatarinov D.S. Fir Reproduction Technology for Harvesting Coniferous Boughs. Lesnoy Zhurnal [Russian Forestry Journal], 2021, no. 6, pp. 79–88. DOI: 10.37482/0536-1036-2021-6-79-88

References

1. Вайс А.А. Регрессионная оценка фитомассы хвои в пихтовых древостоях Средней Сибири // Междунар. журн. эксперим. образования. 2015. № 11-2. С. 304. Vais A.A. Regression Assessment of Coniferous Phytomass in Fir Stands of Middle Siberia. Mezhdunarodnyy zhurnal eksperimental’nogo obrazovaniya [International Journal of Experimental Education], 2015, no. 11-2, p. 304.

2. Вайс А.А. Оценка строения фитомассы хвои пихтовых древостоев с учетом нормативно-справочных данных (на примере насаждений Сибири) // Хвойные бореальной зоны. 2018. Т. 36, № 2. С. 140–147. Vais A.A. Fir Forest Stands Acerous Leaf Phytomass Structure Assessment of Taking into Account Standard and Help Data (Plantings of Siberia Were Taken as an Example). Hvojnye boreal’noj zony [Conifers of the boreal area], 2018, vol. 36, no. 2, pp. 140–147.

3. Выращивание посадочного материала с закрытой корневой системой // Зоо-инженерный факультет МС ХА. Неофициальный сайт. Режим доступа: https://www.activestudy.info/vyrashhivanie-posadochnogo-materiala-s-zakrytoj-kornevoj-sistemoj (дата обращения: 25.12.19). Cultivation of Ball-Rooted Planting Material. Unofficial Website of the Zooengineering Faculty of the Moscow Agricultural Academy.

4. ГОСТ 21769–84. Зелень древесная. Технические условия: дата введения 1985-01-01. М.: Изд-во стандартов, 1984. 7 с. State Standard. GOST 21769–84. Tree Verdure. Specifications. Moscow, Izdatel’stvo standartov, 1984. 7 p.

5. Гуков Г.В., Гриднев А.Н., Гриднева Н.В. Пихта цельнолистная в Приморском крае (современное состояние, проблемы искусственного лесоразведения) // Успехи современного естествознания. 2017. № 10. С. 29–34. Gukov G.V., Gridnev A.N., Gridneva N.V. Manchurian Fir in Primorskiy Krai (Current State, Problems of Afforestation). Uspekhi sovremennogo estestvoznaniya [Advances in Current Natural Sciences], 2017, no. 10, pp. 29–34.

6. Лесной кодекс Российской Федерации от 04.12.2006 г. № 200-ФЗ . М.: ИН ЭКО , 2006. Forest Code of the Russian Federation Dated December 4, 2006 No. 200-ФЗ. Moscow, INEKO Publ., 2006.

7. Лобанов В.В., Степень Р.А. Влияние технологических факторов на выход и состав пихтового масла // ИВУЗ . Химия и химическая технология. 2006. Т . 49, вып. 9. С. 71–74. Lobanov V.V., Stepen’ R.А. Influence of Technological Factors on the Yield and Composition of Spruce Oil (Silver Fir Oil). Izvestiya Vysshikh Uchebnykh Zavedenii, Seriya Khimiya i Khimicheskaya Tekhnologiya [Russian Journal of Chemistry and Chemical Technology], 2006, vol. 49, iss. 9, pp. 71–74.

8. Анализ рынка эфирных масел в России в 2010–2014 гг., прогноз на 2015–2019 гг. // Официальный сайт АО «РосБизнесКонсалтинг». Режим доступа: https://marketing. rbc.ru/research/28153/ (дата обращения: 30.01.19). Analysis of the Market of Essential Oils in Russia in 2010–2014, Forecast for 2015–2019. Official Website of the RBC Group.

9. Панькив О.Г., Демина Л.Н., Паршикова В.Н., Степень Р.А. Эффективность переработки древесной зелени пихты различными методами // Фундаментальные исследования. 2012. № 1. С. 168–171. Pankiv O.G., Demina L.N., Parshikova V.N., Stepen R.A. Efficiency of Processing of Wood Greens of the Fir Various Methods. Fundamental’nyye issledovaniya [Fundamental research], 2012, no. 1, pp. 168–171.

10. Патент 2437925 РФ , МПК C11B 9/02. Установка для обработки зелени пихты: № 2010123612/12: заявл. 09.06.2010: опубл. 27.12.2011 / В.Н. Невзоров, В.А. Самойлов, Т.В. Невзорова, А.И. Ярум. Nevzorov V.N., Samojlov V.A., Nevzorova T.V., Jarum A.I. Silver Fir Branches Processing Plant. Patent RF no. RU 2437925 C1, 2011.

11. Патент 2673743 РФ , МПК A01C 5/02. Ручное устройство для образования лунок под посадку контейнеризированных сеянцев: № 2017146143: заявл. 27.12.2017: опубл. 29.11.2018 / Е.М. Царев, Д.С. Татаринов, С.Е. Анисимов. Tsarev E.M., Tatarinov D.S., Anisimov S.E. Hand-Held Device for Forming Holes for Planting Containerized Seedlings. Patent RF no. RU 2673743 A, 2018.

12. Руководство по лесовосстановлению и лесоразведению в лесостепной, степной, сухостепной и полупустынной зонах европейской части Российской Федерации. М.: Всерос. науч.-исслед. информ. центр по лесн. ресурсам, 1994. 152 с. Guidelines for Reforestation and Afforestation in the forest steppe, steppe, dry steppe and semi-desert zones of the European part of the Russian Federation. Moscow, VNIITs Lesresurs Publ., 1994. 152 p.

13. Степень Р.А. Ориентировочная оценка содержания пихтового масла в древесной зелени // Хвойные бореальной зоны. 2017. Т. 35, № 1-2. С. 123–126. Stepen R.A. Indicative Content Rating Fir Oil from the Tree Green. Hvojnye boreal’noj zony [Conifers of the boreal area], 2017, vol. 35, no. 1-2, pp. 123–126.

14. Степень Р.А., Невзоров В.Н., Невзорова Т.В. Организация производства пихтового масла. Красноярск: КрасГАУ , 2010. 104 с. Stephen’ R.A., Nevzorov V.N. Organization of Fir Needle Oil Production. Krasnoyarsk, KrasGAU Publ., 2010. 104 p.

15. Усольцев В.А., Воронов М.П., Колчин К.В., Маленко А.А., Кох Е.В. Трансконтинентальная аддитивная модель и таблица для оценки фитомассы елово-пихтовых древостоев Евразии // Вестн. АГАУ . 2017. № 9(155). С. 91–100. Usoltsev V.A., Voronov M.P., Kolchin K.V., Malenko A.A., Koch E.V. Transcontinental Additive Model and Weight Table for Estimating Biomass of Spruce-Fir Forests in Eurasia. Vestnik Altayskogo gosudarstvennogo agrarnogo universiteta [Bulletin of Altai State Agricultural University], 2017, no. 9(155), pp. 91–100.

16. Ухов О.Н., Буркова В.Н., Калинкина Г.И., Терентьева Г.А. Исследование химического состава отходов переработки пихтовой лапки // Химия растит. сырья. 2006. № 1. С. 55–58. Ukhov O.N., Burkova V.N., Kalinkina G.I., Terent’yeva G.A. Study of the Chemical Composition of Wastes of Fir Bough Processing. Khimija Rastitel’nogo Syr’ja [Chemistry of plant raw material], 2006, no. 1, pp. 55–58.

17. Ушанов С.В., Степень Р.А., Ушанова В.М. Возрастная динамика содержания пихтового масла в древесной зелени Abies sibirica. Теоретические аспекты оценки // Химия растит. сырья. 2017. № 1. С. 129–136. Ushanov S.V., Stepen R.A., Ushanova V.M. Age-Specific Dynamics of the Oil Composition in the Woody Greenery of Abies sibirica. Theoretical Aspects of Evaluation. Khimija Rastitel’nogo Syr’ja [Chemistry of plant raw material], 2017, no. 1, pp. 129–136. DOI: https://doi.org/10.14258/jcprm.2017011448

18. Blight M.M., Donald I.R.C. Sample Reproducibility Pinus Essential Oil Altudies. The New Zealand journal of science and technology, 1964, vol. 7, no. 2, pp. 212–214.

19. Bourrell C., Perineau F., Michel G., Bessiere J.M. Catnip (Nepata cataria L.) Essential Oils: Analysis of Chemical Constituents, Bacteriostatic and Fungistatic Properties. Journal of Essential Oil Research, 1993, vol. 5, iss. 2, pp. 159–167. DOI: https://doi.org/10.1080/10412905.1993.9698195

20. Brunke E.-J., Waiter G. Progress in Essential Oil Research: Proceedings of the International Symposium on Essential Oils. Germany, De Gruyter, 1986, vol. 16. 668 p. DOI: https://doi.org/10.1515/9783110855449

21. Chialva F., Frattini C., Martelli A. Unusual Essential Oils with Aromatic Properities. Zeitschrift für Lebensmittel-Untersuchung und Forschung, 1985, vol. 181, iss. 1, pp. 32–34. DOI: https://doi.org/10.1007/BF01124804

22. Kalinkina G., Beresovskaja E., Dmitruk S. Essential Oils as Natural Complexes of Biologically Active Substances. International Conference of Natural Products and Physiologically Active Substances (JCNPAS-98). Novosibirsk, 1998, p. 85.

23. Kolesnikova R., Tagiltsev Yu. The Essential Oils of the Far East Conifers. Abstracts of the Scientific Program XI International Congress of Essential Oils. New Delhi, 1989, pp. 63–69.

24. Weyerstahl P., Marschall-Weyerstahl H., Kaul V.K., Manteuffel E., Glasow L. Constituents of the Essential Oil of Strobilanthes auriculatus. Liebigs Annalen der Chemie, 1987, iss. 1, pp. 21–28. DOI: https://doi.org/10.1002/jlac.198719870105

25. Zafra M., Garcia-Pelagrim E. Seasonal Variations in the Composition of Pinus halepensis and Pinus sylvestris Twigs and Needles Essential Oil. The Journal of Agricultural Science, 1976, vol. 86, iss. 1, pp. 1–6. DOI: https://doi.org/10.1017/S002185960006490X


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