ENGLISH OAK AND PHYLLOPHAGOUS INSECTS AS THE OBJECT OF STUDIES ON BIOCENOTIC RELATIONSHIPS IN THE FOREST ECOSYSTEM OF THE TELLERMAN OAK FOREST
Abstract and keywords
Abstract (English):
Our long-term observations in the Tellerman oak forest (Voronezh region) have shown that in recent decades due to climate change there have been significant changes in population dynamics of many phyl-lophagous insects. It is established that the growth processes of absorbing mycorrhizal roots of oak are closely related to the state of foliage in the crown of a tree and actively respond to its loss, and this response varies among trees of different classes of growth and depends on the intensity and replications of defoliations.

Keywords:
biogeocenosis, English oak, phyllophagous insects.
Text
Text (PDF): Read Download
References

1. Baranchikov Ju.N. Shodstvo funkcional'noj roli nasekomyh-fillofagov lesnyh biogeocenozah planety [The similarity of the functional role of insects-phyllophagous in forest biogeocoenoses of the planet]. Obshhie problem biogeocenologii. Tez. dokl. II Vsesojuz. coveshh., Moskva, 11-13 nojabrja 1986 g. [General Problems of biogeocenology. II All-Union Conf. abstracts]. Мoscow, 1986, vol. 1, pp. 252-253. (In Russian)

2. Weber J.X. Novyj massovyj vreditel' - dubovajamol' (Corisciumbrongniardellum L.) [The new mass pest, the oak mining moth (Corisciumbrongniardellum L.)]. Zashhita rastenij [ Plant Protection], 1932, no. 2, pp. 57-68. (In Russian)

3. Golub V.B., Berezhnova O.N., Kornev I.I. Massovoe razmnozhenie dubovoj shirokominirujushhej moli (Acrocercopsbrongniardella F., Lepidoptera, Gracillariidae) v Voronezhskoj oblasti [Mass propagation of the oak mining moth (Acrocercopsbrongniardella F., Lepidoptera, Gracillariidae) in the Voronezh oblast]. Izvestija Sankt-Peterburgskoj lesotehnicheskoj akademii, [Proceedings of the St. Petersburg Forestry Academy] 2009, vol. 187, рр. 96-102. (In Russian)

4. Degradacija dubrav Central'nogo Chernozem'ja [Degradation of oak forests in Central Black Soil region]. Voronezh, 2010, 604 p. (In Russian)

5. Dovnar-Zapolskij D.P. Jentomofauna duba v predelah Evropejskoj chaste Sovetskogo sojuza [Entomofauna on oaks in the European part of the Soviet Union]. Voronezh, 1953, 12 p. (In Russian)

6. Enkova E.I. Tellermanovskij les i ego vosstanovlenie [The Tellerman forest and its restoration]. Voronezh, 1976, 216 p. (In Russian)

7. En'kova E.I., Shirnin V.K. Vlijanie uslovij proizrastanija na fiziko-mehanicheskie svojstva drevesiny rano- i pozdnoraspuskajushhihsja form [The influence of growth conditions on the physico-mechanical properties of wood of early and late phenological forms]. Lesovedenie [Forest Science], 1970, no. 2, pp. 59-73. (In Russian)

8. Isaev A.S., Girs G.I. Vzaimodejstvie dereva i nasekomyhk silofagov [The interaction of tree and xylophagous insects]. Novosibirsk, 1975, 346 p. (In Russian)

9. Kaplina N.F., Selochnik N.N. Tekushhee i dolgovremennoe sostojanie duba chereshchatogo v treh kontrastnyh tipah lesa juzhnoj lesostepi [Current and long-term state of common oak in three contrasting forest types in the southern forest-steppe]. Lesovedenie [Forest Science], 2015, no. 3, pp. 191-201. (In Russian)

10. Kuznecov A.V. Raspuskanie listvy u fenologicheskih form duba chereshchatogo v Tellermanovskoj dubrave [Leaf expansion in phenologicalforns of common oak in the Tellerman forest]. Bioraznoobrazie i antropogennaja transformacija prirodnyh jekosistem. Mater. Vseros. nauch-praktich. konf.,posvjashh. Pamjati professora A. I. Zolotuhina (g. Balashov, 12-13 nojabrja 2015 g.). [Biodiversity and anthropogenic transformation of natural ecosystems mater. Proc. Scientific-practical. conf., is dedicated. the memory of Professor AI Zolotukhin (Balashov, November 12-13, 2015). Saratov: Saratovskijistochnik, 2015, pp. 131-134. (In Russian)

11. Lukjanec V.B. Vnutri vidovaja izmenchivost' duba chereshchatogo v Central'noj lesostepi [Intraspecific genetic variability of pedunculate oak in the Central forest-steppe]. Voronezh, 1979, 216 p. (In Russian)

12. Mamaev V.V., Rubtsov V.V., Utkina I.A. Vlijanie defoliacii kron duba na rostovujuaktivnost' pogloshhajushhih kornej v juzhnoj lesostepi [Effect of defoliation of oak crowns on the growth activity of absorbing roots in the southern forest-steppe]. Lesovedenie [Forest Science], 2001, no. 5, pp. 43-49. (In Russian)

13. Moravskaja A.S. Nasekomye-fitofagi dubravnyh lesov [Phytophagous insects of oak forests]. Dubravy lesostepi v biogeocenologicheskom osveshhenii [Oak forests of forest-steppe in biogeocenological lighting]. Мoscow: Nauka, 1975, pp. 199-217. (In Russian)

14. Rubtsov V.V., Rubtsova N.N.Analiz vzaimodejstvija listogryzushhih na sekomyh s dubom [The analysis of the interaction between leaf-eating insects and oak]. Мoscow, 1984, 184 p. (In Russian)

15. Rubtsov V.V., Utkina I.A. Adaptacionny ereakcii duba na defoliaciju [Adaptive responses of oak to defoliation]. Мoscow, 2008, 302 p. (InRussian)

16. Rubtsov V.V., UtkinaI.A. Osobennosti poslednej vspyshki massovogo razmnozhenija zimnej pjadenicy v juzhnoj lesostepi [Feature soft here centout break of winter mothin the southern forest-steppe]. Vestnik Moskovskogo gosudarstvennogo universiteta lesa - Lesnojvestnik, [Bulletin of the Moscow State Forest University - Forest Gazette]. 2014, no. no. 6, pp. 86-93. (In Russian)

17. Selochnik, N.N. Sostojanie dubrav Srednerusskoj lesostepiiih gribnyesoobshhestva [Thestate of Central Russianforest-steppeoak forests and their fungal communities]. Мoscow; Sankt-Peterburg, 2015, 215 p. (In Russian)

18. Sukachev V.N. Osnovnye ponjatija lesnoj biogeocenologii [The main concepts of the forest biogeocenology]. Osnovy lesnoj biogeocenologii. [Fundamentals of Forest biogeocenology] Мoscow, 1964, pp. 5-49. (InRussian)

19. Utkina I.A., Rubtsov V.V. Izmenenie klimata i ego posledstvija dlja vzaimootnoshenij fitofagov s rastenijami [Climate change and its consequences for plant - insect interactions]. Vestnik Moskovskogo gosudarstvennogo universitetalesa - Lesnojvestnik, [Bulletin of the Moscow State Forest University - Forest Gazette]. 2009, no. 5, pp. 165-175. (In Russian)

20. Utkina I.A., Rubtsov V.V. Issledovanija fenologicheskih form duba chereshchatogo [Studies of phenological forms of the common oak]. Lesovedenie [Forest Science], 2016, no. 6 (in press).(In Russian)

21. Harchenko N.A., Harchenko N.N. K voprosu o degradacii poroslevyh dubrav Central'nogo Chernozem'ja [About the degradation of coppice oak stands in the Central Black Soil region]. Vestnik Moskovskogo gosudarstvennogo universitetalesa - Lesnojvestnik, [Bulletin of the Moscow State Forest University - Forest Gazette], 2007, no. 4(53), pp. 29-32. (In Russian)

22. Harchenko N.A. [et al.] Sukcessionnye processy v dubravah central'noj lesostepi kak rezul'tat ih degradacii [Succession processes in oak stands of central forest-steppe as thr result of their degradation]. Vestnik Moskovskogo gosudarstvennogo universitetalesa - Lesnojvestnik, [Bulletin of the Moscow State Forest University - Forest Gazette], 2009, no. 5, pp. 192-195. (In Russian)

23. Chebotarev P.A., Chebotareva V.V., Storozhenko V.G. Struktura i sostojanie drevostoev v dubravah Tellermanovskogo opytnogo lesnichestva [Structure and condition of forest stands in the oak groves in the Tellermans experimental forest division]. Lesovedenie [Forest Science], 2016, no. 5, pp. 375-382. (In Russian)

24. Romanovskij M.G. [et al.]. Jekosistemy Tellermanovskogo lesa [Ecosystems of the Tellerman forest]. Мoscow, 2004, 340 p. (In Russian)

25. Barber N.A., Fahey R.T. Consequences of phenology variation and oxidative defenses in Quercus. Chemoecology, 2015, Vol. 25, pp. 261-270. doihttps://doi.org/10.1007/s00049-015-0194-5

26. Both C. [et al.] Climate change and unequal phenological changes across four trophic levels: constraints or adaptations? J. Anim. Ecol., 2009, Vol. 78(1), pp. 73-83. doi:https://doi.org/10.1111/j.1365-2656.2008.01458.x.

27. ChungH. [et al.]. Experimental warming studies on tree species and forest ecosystems: a literature review. Journal of Plant Research, 2013, Vol. 126, no. 4, pp. 447-460.

28. Cornelissen T. Climate change and its effects on terrestrial insects and herbivory patterns. Neotrop. Еntomol., 2001, Vol. 40, no. 2, pp. 155-163. doi: doi.org/10.1590/S1519-566X2011000200001.

29. Forrest J., Miller-Rushing A.J. Toward a synthetic understanding of the role of phenology in ecology and evolution. Phil. Trans. R. Soc. B., 2010, Vol. 365, pp. 3101-3112. doi:https://doi.org/10.1098/rstb.2010.0145.

30. Klein T. [et al.]. Coordination between growth, phenology and carbon storage in three coexisting deciduous tree species in a temperate forest. Tree Physiol., 2016, Vol. 36, no. 7, pp. 847-855. doi:https://doi.org/10.1093/treephys/tpw030.

31. Liebhold A., Bentz B. Insect disturbance and climate change. U.S. Department of Agriculture, Forest Service, Climate Change Resource Center, 2011. www.fs.usda.gov/ccrc/topics/insect-disturbance/insect-disturbance.

32. Pearse I.S. [et al.]. Lagged effects of early-season herbivores on valley oak fecundity.Oecologia, 2015, Vol. 178, no. 2, pp. 361-368. http://dx.doi.org/10.1007/s00442-014-3193-2

33. Pérez-de-Lis G.[et al.]. Feedbacks between earlywood anatomy and non-structural carbohydrates affect spring phenology and wood production in ringporous oaks. Biogeosciences Discuss., 2016, 19 p. doi:https://doi.org/10.5194/bg-2016-227, 2016.

34. Way D.A., Oren R. Differential responses to changes in growth temperature between trees from different functional groups and biomes: a review and synthesis of data. Tree Physiology, 2010, Vol. 30, pp. 669-688. doi:https://doi.org/10.1093/treephys/tpq015.


Login or Create
* Forgot password?