Adaptive Potential of Seed Crops on the Example of Apple Tree Varieties and Quince Seedlings

Мұқаба

Дәйексөз келтіру

Толық мәтін

Ашық рұқсат Ашық рұқсат
Рұқсат жабық Рұқсат берілді
Рұқсат жабық Рұқсат ақылы немесе тек жазылушылар үшін

Аннотация

Apple is the main fruit crop in the European part of Russia. Quince is a promising crop as a valuable low-growing rootstock for pears. The most favorable conditions for growing pome crops (apple and common quince) are in the Central and Central Black Earth regions (Voronezh, Tula, Lipetsk, Kursk, Belgorod, Oryol, Ryazan and Tambov regions). Currently, there is a wide variety of varieties and rootstocks (of various selections) for apple and pear trees, but choosing more adaptive ones for each ecological-geographical zone in intensive gardening is considered relevant. The studies were carried out on the basis of VNIISPK in 2018–2023. Apple cultivars of VNIISPK breeding and foreign cultivars grafted on rootstock 54-118 as well as common quince of VNIISPK breeding selected according to a complex of valuable economically useful characteristics were used as objects of study. The research of the presented work was carried out on the basis of the methodological recommendations “Programs and methods for the variety study of fruit, berry and nut crops” and “Methods for the accelerated assessment of winter hardiness of fruit and berry plants”. Severe frosts occur in the Central region of Russia (Orel region) in winter (January-February). Over the past five years, the lowest air temperature was recorded in the winter of 2020/2021, when in February it dropped to minus 30°C. In the field, the studied apple cultivars on the clone rootstock 54-118 showed sufficient winter hardiness. As a result of freezing of annual branches in laboratory conditions, it was revealed that Ligol (the Polish cultivar) and the VNIISPK cultivars Orlovsky Partizan, Vyatich, Orlovskoe Polesie and Pamyat Semakinu had bud and wood damage according to all I, II, III components of winter hardiness. The most winter-hardy cultivar Rozhdestvenskoe of VNIISPK breeding stood out. In VNIISPK, seedlings of common quince with high winter hardiness of the aboveground and root systems adapted to the climatic conditions of the central part of Russia and possessing restrained growth have been identified. Studies have shown that these quince seedlings being in deep dormancy can withstand frosts up to -36°C and are able to tolerate a decrease in temperature in the zone of the root layer up to -10°C without significant damage.

Толық мәтін

Рұқсат жабық

Авторлар туралы

А. Galasheva

Russian Research Institute of Fruit Crop Breeding

Хат алмасуға жауапты Автор.
Email: anna-galasheva@mail.ru

PhD in Agricultural Sciences

Ресей, Zhilina

I. Semin

Russian Research Institute of Fruit Crop Breeding

Email: anna-galasheva@mail.ru

PhD in Agricultural Sciences

Ресей, Zhilina

Z. Ozherelyeva

Russian Research Institute of Fruit Crop Breeding

Email: anna-galasheva@mail.ru

PhD in Agricultural Sciences

Ресей, Zhilina

Әдебиет тізімі

  1. Borisova O.N., Dolmatov E.A. Morozostojkost’ kornevoj sistemy perspektivnyh klonovyh podvoev dlya grushi // Uspekhi sovremennoj nauki. 2017. № 7. S. 11–13.
  2. Dolmatov E.A., Sidorov A.V., Baranov R.V. Zimostojkost’ novyh form ajvy obyknovennoj v svyazi s ispol’zovaniem ee v kachestve semennogo podvoya grushi // Problemy agroekologii i adaptivnost’ sortov v sovremennom sadovodstve Rossii. Orel, 2008. S. 60–64.
  3. Zykova Yu.N., Trefilova L.V., Kovina A.L. Indukciya holodoustojchivosti rastenij lavatera trimestris l. s pomoshch’yu biopreparatov // Aktual’nye napravleniya razvitiya agrarnoj nauki v rabotah molodyh uchenyh: sbornik nauchnyh statej molodyh uchenyh, posvyashchennyj 190-letiyu opytnogo dela v Sibiri, 100-letiyu sel’skohozyajstvennoj nauki v Omskom Priirtysh’e i 85-letiyu obrazovaniya Sibirskogo NII sel’skogo hozyajstva. 2018. S. 210.
  4. Kashin V.I. Nauchnye osnovy adaptivnogo sadovodstva. M.: Kolos, 1995. 334 s.
  5. Kichina V.V. Selekciya plodovyh i yagodnyh kul’tur na vysokij uroven’ zimostojkosti. M.: Kolos, 1999. 126 s.
  6. Krasova N.G., Ozherel’eva Z.E., Golyshkina L.V. i dr. Zimostojkost’ sortov yabloni. Vserossijskij nauchno-issledovatel’skij institut selekcii plodovyh kul’tur. Orel, 2014. S. 183.
  7. Kulikov I.M., Minakov I.A. Prioritetnye napravleniya razvitiya sadovodstva v usloviyah importozameshcheniya: monografiya. M.: VSTISP, 2020. 114 s.
  8. Mozhar N.V. Perspektivnye sorta ajvy dlya uslovij yuga Rossii // Nauchnye trudy SKFNCSVV. 2018. № 19. S. 30–33. https://doi.org/10.30679/2587-9847-2018-19-30-33
  9. Ozherel’eva Z.E., Galasheva A.M., Krasova N.G. Izuchenie zimostojkosti yabloni v kontroliruemyh usloviyah // Sovremennoe sadovodstvo. 2019. № 4. S. 33–41. https://doi.org/10.24411/2312-6701-2019-10404
  10. Ozherel’eva Z.E., Krasova N.G., Galasheva A.M. Morozostojkost’ yabloni na karlikovyh podvoyah // Sovremennoe sadovodstvo. 2016. № 2(18). S. 35–41.
  11. Savel’eva N.N. Biologicheskie i geneticheskie osobennosti yabloni i selekciya immunnyh k parshe i kolonnovidnyh sortov. Michurinsk. 2016. 280 s.
  12. Samus’ V.A., Shkrobova M.A., Levshunov V.A. Hozyajstvenno-biologicheskaya harakteristika mestnyh i introducirovannyh form ajvy (Cydonia oblonga) v kachestve klonovyh podvoev dlya grushi v matochnike. Plodovodstvo. 2019. № 31(1). S. 55–61.
  13. Saudabaeva A.Zh., Mushinskij A.A. Izuchenie zimostojkosti i morozostojkosti luchshih form abrikosa v orenburgskoj oblasti // Izvestiya Orenburgskogo gosudarstvennogo agrarnogo universiteta. 2022. № 6(98). S. 103–108). https://doi.org/10.37670/2073-0853-2022-98-6-103-107
  14. Sedov E.N., Ogol’cova T.P. Programma i metodika sortoizucheniya plodovyh, yagodnyh i orekhoplodnyh kul’tur. Orel: VNIISPK, 1999. 608 s.
  15. Syomin I.V. Tekhnologicheskie aspekty vyrashchivaniya perspektivnyh semennyh podvoev dlya grushi na osnove ajvy obyknovennoj selekcii VNIISPK // Vestnik rossijskoj sel’skohozyajstvennoj nauki. 2023. № 5. S. 52–56. https://doi.org/10.31857/2500-2082/2023/5/52-56
  16. Tankevich V.V. Vliyanie podvoev na rost i produktivnost’ yabloni v Krymu. Plodovodstvo. Samohvalovichi: Institut plodovodstva. 2013. № 25. S. 353–358.
  17. Tankevich V.V., Sotnik A.I. Otdel’nye priemy polucheniya razvetvlennyh sazhencev grushi. Plodovodstvo i yagodovodstvo Rossii. 2021. № 64. S. 77–82.
  18. Shkrobova M.A. Zimostojkost’ nadzemnoj sistemy ajvy obyknovennoj v matochnike v estestvennyh usloviyah. Sovremennye tekhnologii sel’skohozyajstvennogo proizvodstva. 2022. S. 195–197.
  19. Galasheva A.M., Krasova N.G., Ozherelieva Z.E. A study of introduced apple cultivars according to the main components of winter hardiness by simulating damaging factors under controlled conditions // Proceedings on Applied Botany, Genetics and Breeding. 2022. V. 183. № 1. P. 31–37. https://doi.org/10.30901/2227-8834-2022-1-31-37
  20. Krasova N., Ozherelieva Z., Galasheva A. et al. Gene pool assessment in terms of apple tree generative organs resistance of different ploidy to spring frost // In the collection of sci. works: E3S Web of Conferences. Сер. “International Scientific and Practical Conference “From Inertia to Develop: Research and Innovation Support to Agriculture”, IDSISA 2020” 2020. P. 03017. https://doi.org/ 10.1051/e3sconf/202017603017
  21. Syomin I.V. Evaluation of common quince of VNIISPK breeding as pear seedling rootstock for fruit production in Central Russia. E3S Web of Conferences, 24–25 февраля, Orel, 2021, 02017. https://doi.org/10.1051/e3sconf/202125402017 (дата обращения 10.01.2024).

Қосымша файлдар

Қосымша файлдар
Әрекет
1. JATS XML
Жүктеу
2. Fig. 1. Indices of minimum air and snow surface temperatures, 2002-2023.

Жүктеу (408KB)
Метадеректер
3. Fig. 2. Growth of common quince seedlings after artificial root freezing.

Жүктеу (255KB)
Метадеректер

© Russian Academy of Sciences, 2024

Creative Commons License
Бұл мақала лицензия бойынша қолжетімді Creative Commons Attribution 4.0 International License.