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1. |
CHANGES IN BIOLOGICAL PARAMETERS OF TREES BY AIRBORNE POLLUTANTS
– Review
Ghosh A., Paul R.S., Roy S.
ÈÇÌÅÍÅÍÈÅ ÁÈÎËÎÃÈ×ÅÑÊÈÕ ÏÀÐÀÌÅÒÐΠÄÅÐÅÂÜÅ ÏÐÈ ÀÝÐÎÇÎËÜÍÎÌ
ÇÀÃÐßÇÍÅÍÈÈ – Îáçîð
Ãõîø À., Ïàóë Ð.Ñ., Ðîé Ñ.
http://doi.org/10.31163/2618-964X-2020-3-4-563-577 [510
KB] |
563-577 |
2. |
PHOSPHATE SOLUBILIZING MICROORGANISM CONSORTIUM OF VIRGIN TIGER
HILL FOREST SOIL SHOWS HIGH LEVEL TOLERANCE TO PESTICIDE,
ANTIBIOTIC, ANTIFUNGAL AND HEAVY METALS
Saha S., Chakraborty S., Acharyya S., Sarkar S., Majumder S.,
Ghosh A., Bhattacharya M.
ÊÎÍÑÎÐÖÈÓÌ ÔÎÑÔÀÒÑÎËÞÁÈËÈÇÈÐÓÞÙÈÕ ÌÈÊÐÎÎÐÃÀÍÈÇÌÎÂ ÄÅÂÑÒÂÅÍÍÎÉ
ËÅÑÍÎÉ ÏÎ×ÂÛ ÒÀÉÃÅÐ-ÕÈËË ÄÅÌÎÍÑÒÐÈÐÓÅÒ ÂÛÑÎÊÓÞ ÒÎËÅÐÀÍÒÍÎÑÒÜ Ê
ÏÅÑÒÈÖÈÄÀÌ, ÀÍÒÈÁÈÎÒÈÊÀÌ, ÏÐÎÒÈÂÎÃÐÈÁÊÎÂÛÌ ÏÐÅÏÀÐÀÒÀÌ È ÒßÆÅËÛÌ
ÌÅÒÀËËÀÌ
Ñàõà Ñ., ×àêðàáîðòè Ñ., À÷àðüÿ Ñ., Ñàðêàð Ñ.,
Ìàäæóìäàð Ñ.,
Ãõîø À.,
Áõàòòà÷àðüÿ Ì.
http://doi.org/10.31163/2618-964X-2020-3-4-578-588 [626
KB] |
578-588 |
3. |
ETHNOBOTANICAL APPROACH FOR IDENTIFYING THE POTENTIAL
WOUND-HEALING PLANTS FROM THE FLORA OF WEST BENGAL – Review
Paul R.S., Saha S.
ÝÒÍÎÁÎÒÀÍÈ×ÅÑÊÈÉ ÏÎÄÕÎÄ Ê ÂÛßÂËÅÍÈÞ
ÏÎÒÅÍÖÈÀËÜÍÛÕ ÐÀÍÎÇÀÆÈÂËßÞÙÈÕ ÐÀÑÒÅÍÈÉ ÈÇ ÔËÎÐÛ ÇÀÏÀÄÍÎÉ
ÁÅÍÃÀËÈÈ – Îáçîð
Ïàóë Ð.
Ñ., Ñàõà Ñ.
http://doi.org/10.31163/2618-964X-2020-3-4-589-603 [358
KB] |
589-603 |
4. |
Î ÂÎÇÌÎÆÍÎÑÒÈ ÏÐÈÌÅÍÅÍÈß ÍÎÂÎÃÎ ÍÀÁÎÐÀ ËÎÊÓÑÎÂ ÎÄÍÎÍÓÊËÅÒÈÄÍÛÕ
ÏÎËÈÌÎÐÔÈÇÌÎÂ ÄËß ÎÏÒÈÌÈÇÀÖÈÈ ËÅÑÎÑÅÌÅÍÍÎÃÎ ÐÀÉÎÍÈÐÎÂÀÍÈß ÄÓÁÀ
×ÅÐÅØ×ÀÒÎÃÎ
Äåãåí Á., ßíáàåâ Þ.À., ßíáàåâ Ð.Þ., Áàõòèíà Ñ.Þ.,
Òàãèðîâà À.À.
ON THE POSSIBILITY OF APPLYING A NEW SET OF SINGLE-NUCLEIC
POLYMORPHISMS LOCI TO THE OPTIMIZATION OF THE FOREST SEED AREA
OF PEDUNCULATE OAK
Degen B., Yanbaev Y.A., Ianbaev R.Y., Bakhtina S.Y., Tagirova A.A.
http://doi.org/10.31163/2618-964X-2020-3-4-604-608 [454
KB] |
604-608 |
5. |
ÃÅÎÝÍÅÐÃÅÒÈÊÀ È ÝÌÅÐÄÆÅÍÒÍÎÑÒÜ ÑÎÂÐÅÌÅÍÍÛÕ
ÏÐÈÐÎÄÍÎ-ÀÍÒÐÎÏÎÃÅÍÍÛÕ ËÅÑÍÛÕ ÝÊÎÑÈÑÒÅÌ È ËÀÍÄØÀÔÒÎÂ
Êî÷óðîâ Á.È., Ìàðóíè÷ Í.À.
GEO-ENERGY AND EMERGENCE OF MODERN NATURAL AND ANTHROPOGENIC
FOREST ECOSYSTEMS AND LANDSCAPES
Kochurov B.I., Marunich N.A.
http://doi.org/10.31163/2618-964X-2020-3-4-609-613 [352
KB] |
609-613 |
6. |
ÏÐÎÁËÅÌÛ ÂÅÄÅÍÈß ËÅÑÍÎÃÎ ÕÎÇßÉÑÒÂÀ  ËÅÑÀÕ ÐÀÇËÈ×ÍÎÃÎ ÖÅËÅÂÎÃÎ
ÍÀÇÍÀ×ÅÍÈß
Çàëåñîâà Å.Ñ., Çàëåñîâ Ñ.Â., Îïëåòàåâ À.Ñ.
FOREST MANAGEMENT PROBLEMS IN FORESTS FOR SPECIAL PURPOSES
Zalesova E.S., Zalesov S.V., Opletaev A.S.
http://doi.org/10.31163/2618-964X-2020-3-4-614-620 [400
KB] |
614-620 |
7. |
ÎÏÛÒ ÐÅÊÓËÜÒÈÂÀÖÈÈ ÐÀÇËÈ×ÍÛÕ ÂÈÄΠÍÀÐÓØÅÍÍÛÕ ÇÅÌÅËÜ
Çàðèïîâ Þ.Â., Îñèïåíêî Ð.À., Çàëåñîâà Å.Ñ., Çàëåñîâ Ñ.Â.
EXPERIENCE IN RECULTIVATION OF VARIOUS TYPES OF DEGRADED LAND
Zaripov Ju.V., Osipenko R.A., Zalesova E.S., Zalesov S.V.
http://doi.org/10.31163/2618-964X-2020-3-4-621-626 [288
KB] |
621-626 |
8. |
ÄÈÍÀÌÈÊÀ ÑÒÐÓÊÒÓÐÛ ÏÎÑÒÏÈÐÎÃÅÍÍÛÕ ÄÐÅÂÎÑÒÎÅ ÑÎÑÍßÊΠÁÐÓÑÍÈ×ÍÛÕ
ÑÅÂÅÐÍÎÃÎ ÏÐÈÓÐÀËÜß (ÐÅÑÏÓÁËÈÊÀ ÊÎÌÈ)
Êóòÿâèí È.Í.*, Ìàíîâ À.Â., Äûìîâ À.Â.
THE STRUCTURE DYNAMICS OF POST-PYROGENIC COWBERRY PINE STANDS OF
THE NORTHERN CIS-URAL (KOMI REPUBLIC)
Kutyavin I.N., Manov A.V., Dymov A.V.
http://doi.org/10.31163/2618-964X-2020-3-4-627-633 [381
KB] |
627-633 |
9. |
ÂÊËÀÄ ÓÔÈÌÑÊÈÕ Ó×ÅÍÛÕ Â ÕÈÌÈÞ ÎÏÒÈ×ÅÑÊÈ ÀÊÒÈÂÍÎÃÎ ÏÎËÎÂÎÃÎ
ÔÅÐÎÌÎÍÀ ÑÎÑÍÎÂÛÕ ÏÈËÈËÜÙÈÊÎÂ – Îáçîð
ßêîâëåâà Ì.Ï., Âûäðèíà Â.À., Èøìóðàòîâà Í.Ì.,
Èøìóðàòîâ Ã.Þ.
CONTRIBUTION OF UFA SCIENTISTS TO THE CHEMISTRY OF OPTICALLY
ACTIVE SEX PHEROMONE OF PINE SAWFLIES – Review
Yakovleva M.P., Vydrina V.A., Ishmuratova N.M., Ishmuratov G.Yu.
http://doi.org/10.31163/2618-964X-2020-3-4-634-642 [405
KB] |
634-642 |
10. |
ÎÑÎÁÅÍÍÎÑÒÈ ÁÈÎÕÈÌÈ×ÅÑÊÎÃÎ ÑÎÑÒÀÂÀ ÁÅÐÅÇÛ ÏÎÂÈÑËÎÉ (BETULA
PENDULA ROTH.) Â ÓÑËÎÂÈßÕ ÒÅÕÍÎÃÅÍÍÎÉ ÑÐÅÄÛ
Êóçüìèí Ï.À., Áóõàðèíà È.Ë., Êóçüìèíà À.Ì.
FEATURES OF THE BIOCHEMICAL COMPOSITION OF SILVER BIRCH (BETULA
PENDULA ROTH.) IN A TECHNOGENIC
ENVIRONMENT
Kuzmin P.A., Bukharina I.L., Kuzmina A.M.
http://doi.org/10.31163/2618-964X-2020-3-4-643-651 [430
KB] |
643-651 |
11. |
ÄÈÍÀÌÈÊÀ ÍÀÊÎÏËÅÍÈß ÔÈÒÎÌÀÑÑÛ ÏÎÄÐÎÑÒÎÌ ÅËÈ ÑÈÁÈÐÑÊÎÉ (PICEA
OBOVATA LEDEB.) ÍÀ ÍÀ×ÀËÜÍÛÕ ÝÒÀÏÀÕ ÎÍÒÎÃÅÍÅÇÀ
Äàâûäû÷åâ À.Í., Åãîðîâà Í.Í.
TRENDS IN THE ACCUMULATION OF PHYTOMASS BY SIBERIAN SPRUCE (PICEA OBOVATA
LEDEB.) UNDERGROWTH DURING THE INITIAL STAGES OF ONTOGENY
Davydychev A.N., Egorova N.N.
http://doi.org/10.31163/2618-964X-2020-3-4-652-659 [1.30
MB] |
652-659 |
12. |
ÏËÎÒÍÎÑÒÜ ÄÐÅÂÅÑÈÍÛ ÑÎÑÍÛ ÎÁÛÊÍÎÂÅÍÍÎÉ ÍÀ ÒÅÕÍÎÃÅÍÍÛÕ ÏËÎÙÀÄßÕ
Ó×ÀËÈÍÑÊÎÃÎ ÃÎÐÍÎ-ÎÁÎÃÀÒÈÒÅËÜÍÎÃÎ ÊÎÌÁÈÍÀÒÀ
Áàõòèíà Ñ.Þ.
DENSITY OF SCOTS PINE WOOD ON TECHNOGENIC AREAS OF UCHALINSKY MINING
AND PROCESSING PLANT
Bakhtina S.Y.
http://doi.org/10.31163/2618-964X-2020-3-4-660-666 [537
KB] |
660-666 |
13. |
ÈÑÑËÅÄÎÂÀÍÈÅ ÊÀ×ÅÑÒÂÅÍÍÛÕ ÕÀÐÀÊÒÅÐÈÑÒÈÊ ÓÍÈÂÅÐÑÀËÜÍÛÕ ÑÎÐÁÅÍÒÎÂ,
ÈÑÏÎËÜÇÓÞÙÈÕÑß ÍÀ ÓÔÈÌÑÊÈÕ
ÍÏÇ
Ãàëèóëëèíà Þ.Ð., Êóëàãèí À.À.
INVESTIGATION OF QUALITY CHARACTERISTICS OF UNIVERSAL SORBENTS
USED AT UFA REFINERIES
Galiullina Yu.R., Kulagin A.A.
http://doi.org/10.31163/2618-964X-2020-3-4-667-672 [462
KB] |
667-672 |
14. |
ÐÀÄÈÀËÜÍÛÉ ÏÐÈÐÎÑÒ ÑÎÑÍÛ ÎÁÛÊÍÎÂÅÍÍÎÉ ÍÀ ÇÎÍÀËÜÍÎÌ ÝÊÎÒÎÍÅ ËÅÑÀ
È ÑÒÅÏÈ ÞÆÍÎÃÎ ÏÐÅÄÓÐÀËÜß
Êóëàãèí À.Þ., Ñèìîíåíêîâà Â.À., Ñèìîíåíêîâ Â.Ñ.
RADIAL GROWTH OF SCOTS PINE IN THE ZONAL ECOTONE OF FORESTS AND
STEPPES OF THE SOUTHERN URALS
Kulagin A.Yu., Simonenkova V.A., Simonenkov V.S.
http://doi.org/10.31163/2618-964X-2020-3-4-673-679 [679
KB] |
673-679 |
15. |
ÌÎÐÔÎËÎÃÈ×ÅÑÊÀß ÈÇÌÅÍ×ÈÂÎÑÒÜ ËÈÑÒÜÅ ÊÀÊ ÏÎÊÀÇÀÒÅËÜ ÀÄÀÏÒÈÂÍÎÑÒÈ
BETULA PENDULA ROTH Ê ÝÊÑÒÐÅÌÀËÜÍÛÌ ËÅÑÎÐÀÑÒÈÒÅËÜÍÛÌ
ÓÑËÎÂÈßÌ
Òàãèðîâà Î.Â.
MORPHOLOGICAL VARIABILITY OF LEAVES AS AN INDICATOR OF BETULA
PENDULA ROTH ADAPTABILITY TO EXTREME FOREST CONDITIONS
Tagirova O.V.
http://doi.org/10.31163/2618-964X-2020-3-4-680-689 [458
KB] |
680-689 |
16. |
ÂËÈßÍÈÅ ÍÈÇÊÎÌÎËÅÊÓËßÐÍÛÕ ÝÊÇÎÌÅÒÀÁÎËÈÒΠÔÈÒÎÏÀÒÎÃÅÍÍÛÕ È ÑÀÏÐÎÒÐÎÔÍÛÕ
ÌÈÊÐÎÌÈÖÅÒÎÂ ÍÀ ÐÎÑÒ,
ÔÎÐÌÈÐÎÂÀÍÈÅ ÁÈÎÏËÅÍÊÈ È ÀÍÒÀÃÎÍÈÑÒÈ×ÅÑÊÓÞ
ÀÊÒÈÂÍÎÑÒÜ
PGPR ØÒÀÌÌÎÂ
BACILLUS È PAENIBACILLUS
Àêòóãàíîâ Ã.Ý.,
Ãàëèìçÿíîâà Í.Ô.,
Êóçüìèíà Ë.Þ.,
Ãèëüâàíîâà Å.À.,
Ñàôèíà Â.Ð.,
Ðÿáîâà À.Ñ., Áîéêî Ò.Ô., Ìèëüìàí Ï.Þ., Ìåëåíòüåâ À.È.
EFFECT OF LOW-MOLECULAR WEIGHT EXOMETABOLITES PRODUCED BY PHYTOPATHOGENIC
AND SAPROPHYTE MICROMYCETES ON
THE GROWTH, BIOFILM FORMATION AND ANTAGONISTIC ACTIVITY OF PGPR STRAINS
OF BACILLUS AND PAENIBACILLUS
Aktuganov G.E., Galimzianova N.F., Kuzmina L.Yu.,
Gilvanova E.A., Safina V.R., Ryabova A.S., Boyko T.F., Milman P.Yu.,
Melentiev A.I.
http://doi.org/10.31163/2618-964X-2020-3-4-690-705 [1.12
MB] |
690-705 |
17. |
ÍÎÂÛÉ ØÒÀÌÌ
PARARHIZOBIUM
SP.
IB
ST
1-4, ÂÛÄÅËÅÍÍÛÉ ÈÇ ÂÒÎÐÈ×ÍÎÃÎ ÌÈÍÅÐÀËÜÍÎÃÎ ÎÁÐÀÇÎÂÀÍÈß
ÏÅÙÅÐÛ ØÓËÜÃÀÍ-ÒÀØ
Ðÿáîâà À.Ñ., ßñàêîâ Ò.Ð., Ãèëüâàíîâà Å.À., Êóçüìèíà Ë.Þ.
NEW STRAIN OF PARARHIZOBIUM SP. IB ST 1-4 ISOLATED FROM
POOL FINGERS OF SHULGAN-TASH CAVE
Ryabova A.S., Iasakov T.R., Gilvanova E.A., Kuzmina L.Y.
http://doi.org/10.31163/2618-964X-2020-3-4-706-711 [897
KB] |
706-711 |
18. |
ÁÈÎÐÀÇÍÎÎÁÐÀÇÈÅ ÁÀÊÒÅÐÈÀËÜÍÛÕ ÄÅÑÒÐÓÊÒÎÐÎÂ 2,5-ÄÈÕËÎÐÔÅÍÎËÀ È
2,4,6-ÒÐÈÕËÎÐÔÅÍÎËÀ ÏÎ× ÏÐÎÌÇÎÍÛ Ã. ÓÔÛ
Æàðèêîâà Í.Â., ßñàêîâ Ò.Ð., Êîðîáîâ Â.Â., Æóðåíêî Å.Þ.
BIODIVERSITY OF BACTERIAL DESTRUCTORS OF 2,5-DICHLOROPHENOL AND
2,4,6-TRICHLOROPHENOL FROM SOILS OF INDUSTRIAL ZONE OF UFA CITY
Zharikova N.V., Iasakov T.R., Korobov V.V., Zhurenko E.I.
http://doi.org/10.31163/2618-964X-2020-3-4-712-715 [349
KB] |
712-715 |
19. |
ØÒÀÌÌ ENTEROBACTER SP. UOM-3 ÑÏÎÑÎÁÅÍ Ê ÑÈÍÕÐÎÍÍÎÉ
ÄÅÑÒÐÓÊÖÈÈ ÃÀËÎÃÅÍÑÎÄÅÐÆÀÙÈÕ ÃÅÐÁÈÖÈÄÎÂ È ÑÈÍÒÅÇÓ
ÈÍÄÎË-3-ÓÊÑÓÑÍÎÉ ÊÈÑËÎÒÛ
Ñòàðèêîâ Ñ.Í.., ×åòâåðèêîâ Ñ.Ï.
STRAIN ENTEROBACTER SP. UOM-3 IS ABLE TO SYNCHRONOUS
DESTRUCTION OF HALOGEN-CONTAINING HERBICIDES AND SYNTHESIS OF
INDOL-3-ACETIC ACID
Starikov S.N., Chetverikov S.P.
http://doi.org/10.31163/2618-964X-2020-3-4-716-721 [607
KB] |
716-721 |
20. |
ÑÊÐÈÍÈÍÃ ÊÎÄÈÐÓÞÙÅÃÎ ÐÅÇÈÑÒÅÍÒÍÎÑÒÜ Ê ÕËÎÐÀÌÔÅÍÈÊÎËÓ ÃÅÍÀ
catA1
Ó ÁÀÊÒÅÐÈÉ ÒÅÕÍÎÃÅÍÍÛÕ ÝÊÎÒÎÏÎÂ
Àäåëüãàðååâà À.Þ., Ñòàðèêîâ Ñ.Í., Ñòóïàê Å.Ý., Ìàðêóøåâà Ò.Â.
SCREENING OF ENCODING CHLORAMPHENICOL RESISTANCE catA1
GENE IN THE BACTERIA OF TECHNOGENIC ECOTOPES
Adelgareeva A.Yu., Starikov S.N., Stupak E.E., Markusheva T.V.
http://doi.org/10.31163/2618-964X-2020-3-4-722-726 [527
KB] |
722-726 |
21. |
ÈÎÍÍÛÉ ÃÎÌÅÎÑÒÀÇ Ó ÐÀÑÒÅÍÈÉ ÏØÅÍÈÖÛ, ÈÍÎÊÓËÈÐÎÂÀÍÍÛÕ
ÏÐÎÄÓÖÈÐÓÞÙÈÌÈ ÔÈÒÎÃÎÐÌÎÍÛ ÁÀÊÒÅÐÈßÌÈ ÍÀ ÔÎÍÅ ÇÀÑÎËÅÍÈß
Ìàðòûíåíêî Å.Â., Àðõèïîâà Ò.Í., Áåëèìîâ À.À., Êóäîÿðîâà Ã.Ð.
IONIC HOMEOSTASIS IN WHEAT PLANTS INOCULATED BY
HORMONE-PRODUCING BACTERIA UNDER SALINITY
Martynenko E.V., Arkhipova T.N., Belimov A.A., Kudoyarova G.R.
http://doi.org/10.31163/2618-964X-2020-3-4-727-733 [409
KB] |
727-733 |
22. |
ÑÐÀÂÍÈÒÅËÜÍÀß ÎÖÅÍÊÀ ÒÐÀÍÑÏÈÐÀÖÈÈ, ÐÎÑÒÀ ÊÎÐÍÅÉ È ÃÈÄÐÀÂËÈ×ÅÑÊÎÉ
ÏÐÎÂÎÄÈÌÎÑÒÈ Ó ÐÀÑÒÅÍÈÉ ÏØÅÍÈÖÛ, ÐÀÇËÈ×ÀÞÙÈÕÑß ÏÎ ÓÐÎÆÀÉÍÎÑÒÈ
 ÓÑËÎÂÈßÕ ÇÀÑÓÕÈ
Òèìåðãàëèíà Ë.Í., Èâàíîâ Ð.Ñ.,
Íèêîíîâ Â.È.,
Èâàíîâ È.È.
COMPARATIVE ASSESSMENT OF TRANSPIRATION, ROOT GROWTH
AND HYDRAULIC CONDUCTIVITY OF WHEAT PLANTS DIFFERING IN YIELD
UNDER DROUGHT CONDITIONS
Timergalina L.N., Ivanov R.S., Nikonov V.I., Ivanov I.I.
http://doi.org/10.31163/2618-964X-2020-3-4-734-740 [504
KB] |
734-740 |
23. |
Ó×ÀÑÒÈÅ ÏÅÐÅÍÎÑ×ÈÊÀ
ENT3
 ÐÀÑÏÐÅÄÅËÅÍÈÈ
ÖÈÒÎÊÈÍÈÍÎÂ ÌÅÆÄÓ ÊÎÐÍÅÌ È ÏÎÁÅÃÎÌ È Â ÐÅÃÓËßÖÈÈ ÐÎÑÒÎÂÎÃÎ
ÎÒÂÅÒÀ ÐÀÑÒÅÍÈÉ ÀÐÀÁÈÄÎÏÑÈÑÀ ÍÀ ÏÎÂÛØÅÍÍÛÉ ÓÐÎÂÅÍÜ ÌÈÍÅÐÀËÜÍÎÃÎ
ÏÈÒÀÍÈß
Êîðîáîâà À.Â., Àõòÿìîâà Ç.À., Êóëóåâ Á.Ð., Êóäîÿðîâà Ã.Ð.
PARTICIPATION OF ENT3 TRANSPORTER IN CYTOKININ DISTRIBUTION
BETWEEN THE ROOT AND THE SHOOT AND IN REGULATION OF GROWTH
RESPONSE OF ARABIDOPSIS PLANTS TO INCREASED LEVEL OF MINERAL
NUTRITION
Korobova A.V., Akhtyamova Z.A., Kuluev B.R., Kudoyarova G.R.
http://doi.org/10.31163/2618-964X-2020-3-4-741-749 [515
KB] |
741-749 |
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