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2023. T. 128. Vyp. 6.
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2023. T. 128. Vyp. 6.

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10.55959/MSU0027-1403-BB-2023-128-6-13-22

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Pchelkin A.V.

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Ornithological factor, pollution, bioindication, toxicophobia, lichens, Astrakhan Nature Reserve

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Pchelkin A.V., Nitrophilic aspect of epiphytic lichenobiota of white willow (Salix alba L.) in the Astrakhan Reserve // Byul. MOIP. Otd. biol. 2023. T. 128. Vyp. 6. S. 13-22

Nitrophilic aspect of epiphytic lichenobiota of white willow (Salix alba L.) in the Astrakhan Reserve

Among the epiphytic lichens of the Astrakhan Reserve, nitrophilic, toxic tolerant species dominate. At the same time, the reserve is located far from industrial areas. According to the results of quantitative studies, nitrophilic species dominate in terms of species diversity, occurrence, and projective cover. It is suggested that the abundance of nitrophilous species among lichens is associated with the ornithological factor: numerous nests of great cormorants, gray herons and crows on white willow. Crown rainwater containing bird excretions has elevated concentrations of nitrogen compounds. To assess nitrophilicity and toxicophobia, an index of average toxicophobia is proposed, calculated on the basis of a 5-point scale of lichen sensitivity and the number of species. It is based on an assessment of the most widespread lichen species, which determine the general background of lichenological toxicophobia in the surveyed area. The higher the indicator (maximum TFav = 5), the cleaner the area. The Average Toxicophobicity Index of the Astrakhan Reserve, calculated on the basis of the list of species minus the “null” trees for the established test sites in the Damchiksky, Trekhizbinsky and Obzhorovsky areas and considered as a single data set, is TFav = 2,18, which is lower than the median value of TF = 2,5 for a 5 point scale. A more accurate calculation of the Average Toxiphobicity Index (TFav), calculated on the basis of individual trees as a single array, taking into account “null” trees, is 1,66 ± 0,08. For the Damchiksky section, TFav = 1,46±0,12; for the Obzhorovsky section TFav = 1.93±0,12. For the Trekhizbinsky section, TFav = 1,48±0,16. This indicates a significant nitrophilic component of the epiphytic lichen biota Salix alba L. in the Astrakhan Reserve and the influence of the ornithological factor on the formation of the lichen flora.

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Список литературы

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  • Byazrov L.G. Lishainiki Moskvy: sovremennaya dinamika. M., 2009. 146 s.
  • Gimel’brant D.E., Stepanchikova I.S., Kuznetsova E.S. Lishainiki nekotorykh kustarnikov i kustarnichkov poluostrova Kamchatki // Novosti sistematiki nizshikh rastenii. SPb., 2009. T. 43, S. 150–171.
  • Zakutnova V.I. Ekobiomorfologicheskii analiz likhenoflory del’ty Volgi (taksonomicheskii sostav, geografiya, monitoring gorodov i zapovednykh mest). Avtoreferat dissertatsii na soiskanie uchenoi stepeni doktora biologicheskikh nauk. Astrakhan’, 2004. 49 s.
  • Zakutnova V.I. Monitoring lishainikov Astrakhanskogo biosfernogo zapovednika // Vestn. Orenburgskogo gosudarstvennogo universiteta. 2004a. № 9. S. 102–106.
  • Zakutnova V.I., Pilipenko T.A. Analiz likhenoflory zapovednykh mest Astrakhanskoi oblasti. // Estestvennye nauki. 2017. № 2. S. 9–14.
  • Insarov G.E., Pchelkin A.V. Kolichestvennye kharakteristiki sostoya¬niya epifitnoi likhenoflory Astrakhanskogo zapovednika. Obninsk, 1989. 18 s.
  • Insarova I.D., Insarov G.E. Sravnitel’naya otsenka chuvstvitel’nosti epifitnykh lishainikov razlichnykh vidov k zagryazneniyu vozdukha // Problemy ekologicheskogo monitoringa i modelirovaniya ekosistem. L.: Gidrometeoizdat. 1989. T. 12. S. 113–175.
  • Krasnov I.O., Chuikov Yu.S. (red.) Gosudarstvennyi doklad ob ekologicheskoi obstanovke v Astrakhanskoi oblasti v 2012 godu. Astrakhan’, 2013. S. 1–225.
  • Malysheva N.V. Lishainiki gorodov evropeiskoi Rossii. Avtoref. dis. … dokt. Boil. nauk. SPb., 2005. 38 s.
  • Novikov M.N., Khokhlov V.I., Ryabkov V.V. Ptichii pomet – tsennoe organicheskoe udobrenie. M., 1989. 80 s.
  • Pchelkin A.V. Sravnenie flory lishainikov Moskvy i Prioksko-Terrasnogo zapovednika // V sbornike: Ekosistemy Prioksko-Terrasnogo zapovednika. Pushchino, 2005. S. 95–104.
  • Rusanov G.M. Monitoring ptich’ego naseleniya v del’te Volgi v 2016 godu; gnezdovanie orlana-belokhvosta Haliaetus albicilla v trostnike na predust’evom vzmor’e // Russkii ornitologicheskii zhurnal 2020. T. 29. Ekspress-vypusk 1939. S. 2817–2830.
  • Rusanov G.M. Monitoring ptich’ego naseleniya v Astrakhanskom zapovednike i v avandel’te Volgi (2008) // Samarskaya Luka: problemy regional’noi i global’noi ekologii. 2009. T. 18. № 4. S. 199–209.
  • Taran G.S., Kataeva O.A. K likhenoflore ivnyakov (Salix triandra, S. viminalis) malykh rek goroda Novosibirska. Vestn. Krasnoyarskogo gosudarstvennogo agrarnogo universiteta, sel’skokhozyaistvennye nauki. 2015. № 6. S. 220–224.
  • Tolpysheva T.Yu. Epifitnye lishainiki nekotorykh antropogennykh mestoobitanii sel’skoi mestnosti (Zubtsovskii raion, Tverskaya oblast’) // Sotsial’no-ekologicheskie tekhnologii. 2019. T. 9. № 4. S. 467–480.
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  • Chuikov Yu.S., Krivonosov G.A., Golovkin A.N. Rol’ kolonial’nykh ryboyadnykh ptits v biogidrokhimicheskoi sisteme kultuchnoi zony del’ty Volgi // VII Vsesoyuz. Ornitolog. Konf. Tez. dokl. Ch. I. Kiev, 1977. S. 338–339.
  • Yatsyna A.P. Struktura epifitnykh lishainikovykh soobshchestv Pinus sylvestris L. v Belarusi // Vesnіk Vіtsebskaga dzyarzhaўnaga ўnіversіteta. 2013. № 1 (73). S. 45–49.
  • Ellis C.J., Coppins B.J. Partitioning the role of climate, pollution and old-growth woodland in the composition and richness of lichen epiphytes in Scotland //
    The Lichenologist, 2010. 42(5). P. 601–614.
  • Gauslla Y. Rain, dew, and humid air as drivers of morphology, function and spatial distribution in epiphytic lichens // The Lichenologist, 2014, 46(1): 1–16.
  • Kuusinen M. Epiphytic Lichen Diversity on Salix caprea and Populus tremula in Old-growth Forests of Finland // Mitt. Eidgenoss. Forsch.anst. Wald Schnee Landsch. 1995, 70, 1: 125–132.
  • Kuusinen M. Epiphyte Flora and Diversity on Basal Trunks of Six Old-Growth Forest Tree Species in Southern and Middle Boreal Finland // The Lichenologist, 1996. Vol. 28, Issue 5. P. 443–463.
  • Temirov U.Sh., Namazov Sh.S., Usanbaev N.Kh. Intensive technology for processing bird litter in organomineral fertilizers // ChemChemTech. 2020. Т. 63. № 12. С. 85–94.
  • Wirth V. Zeigewerte von Flechten // Scripta Geobotanica. 1991. Bd18. S. 215–237.