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1. |
ÐÅÀÊÖÈß ÝÊÒÎÌÈÊÎÐÈÇ
PINUS SYLVESTRIS
È
LARIX SUKACZEWII
ÓÔÈÌÑÊÎÃÎ ÏÐÎÌÛØËÅÍÍÎÃÎ ÖÅÍÒÐÀ
THE REACTION OF ECTOMYCORRHIZAE PINUS SYLVESTRIS AND LARIX
SUKACZEWII |
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2. |
ØÒÀÌÌÛ ÁÀÊÒÅÐÈÉ, ÂÛÄÅËÅÍÍÛÅ ÈÇ ÑÏÅËÅÎÒÅÌÛ
ÏÅÙÅÐÛ ØÓËÜÃÀÍ-ÒÀØ (ÊÀÏÎÂÎÉ, ÞÆÍÛÉ ÓÐÀË), ÑÏÎÑÎÁÍÛÅ Ê ÎÒËÎÆÅÍÈÞ
ÌÈÍÅÐÀËÎÂ ÊÀÐÁÎÍÀÒÀ ÊÀËÜÖÈß
THE BACTERIAL STRAINS ISOLATED FROM SUBAQUEOUS SPELEOTHEMES IN THE
SHULGAN-TASH CAVE (KAPOVA, SOUTH URAL) ARE CAPABLE TO DEPOSITION OF
CALCIUM CARBONATE MINERALS |
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3. |
ÏËÎÄÎÎÁÐÀÇÎÂÀÍÈÅ Ó ÝÍÄÅÌÈ×ÍÎÃÎ ÂÈÄÀ OXYTROPIS
HIPPOLYTI
BORISS.
(FABACEAE) Â ÓÑËÎÂÈßÕ
ÈÍÒÐÎÄÓÊÖÈÈ
FRUITS FORMATION OF RARE ENDEMIC OXYTROPIS HIPPOLYTI BORISS.
(FABACEAE) IN THE CONDITIONS OF INTRODUCTION |
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4. |
ÁÈÎÐÀÇÍÎÎÁÐÀÇÈÅ ÁÀÊÒÅÐÈÉ-ÄÅÑÒÐÓÊÒÎÐÎÂ ÔÅÍÎËÀ È ÅÃÎ
ÕËÎÐÈÐÎÂÀÍÍÛÕ ÏÐÎÈÇÂÎÄÍÛÕ ÏÎ× ÏÐÎÌÇÎÍÛ Ã. ÓÔÛ, ÇÀÃÐßÇÍÅÍÍÛÕ
ÎÒÕÎÄÀÌÈ ÕÈÌÈ×ÅÑÊÎÃÎ ÏÐÎÈÇÂÎÄÑÒÂÀ
BIODIVERSITY OF THE BACTERIA DEGRADERS OF PHENOL AND ITS CHLORINATED
DERIVATIVES WHICH WERE ISOLATED FROM THE SOILS (INDUSTRIAL ZONE, UFA
CITY) CONTAMINATED WITH CHEMICAL WASTE |
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5. |
ÈÑÏÎËÜÇÎÂÀÍÈÅ ËÈØÀÉÍÈÊÎÂ ÄËß ÎÖÅÍÊÈ
ÀÍÒÐÎÏÎÃÅÍÍÎÃÎ ÇÀÃÐßÇÍÅÍÈß ÒßÆÅËÛÌÈ ÌÅÒÀËËÀÌÈ ÂÎÑÒÎ×ÍÎÉ ÀÍÒÀÐÊÒÈÄÛ
POSSIBILITIES OF THE USE OF LICHENS FOR THE ESTIMATION OF
ANTHROPOGENIC POLLUTION WITH METALS IN THE EAST ANTARCTICA |
|
6. |
ÈÇÌÅÍÅÍÈÅ ÀÊÒÈÂÍÎÑÒÈ ÃÈÄÐÎËÈÒÈ×ÅÊÈÕ ÔÅÐÌÅÍÒÎÂ È ÈÕ
ÁÅËÊÎÂÛÕ ÈÍÃÈÁÈÒÎÐÎÂ Â ÒÊÀÍßÕ ÊÀÐÒÎÔÅËß
THE CHANGE OF ACTIVITY OF HYDROLYTIC ENZYMES AND THEIR PROTEIN
INHIBITORS IN THE TISSUES OF POTATO UNDER THE TREATMENT WITH
INDUCERS OF RESISTANCE AND INFECTION of Phytophthora infestans
(Mont.) de Bary |
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7. |
ÂÈÄÎÂÎÉ ÑÎÑÒÀÂ È ×ÈÑËÅÍÍÎÑÒÜ ÄÎÆÄÅÂÛÕ ×ÅÐÂÅÉ Â
ÐÀÇËÈ×ÍÛÕ ÝÊÎÑÈÑÒÅÌÀÕ ÑÅÂÅÐÍÎÉ ËÅÑÎÑÒÅÏÈ ÐÅÑÏÓÁËÈÊÈ ÁÀØÊÎÐÒÎÑÒÀÍ
SPECIFIC COMPOSITION AND NUMBER OF EARTHWORMS IN VARIOUS ECOSYSTEMS
OF THE NORTHERN FOREST-STEPPE OF THE REPUBLIC OF BASHKORTOSTAN |
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8. |
ÊÎËÎÍÈÇÀÖÈß ÊÎÐÍÅÉ ÏØÅÍÈÖÛ ÃÀËÎÒÎËÅÐÀÍÒÍÛÌÈ
ÁÀÊÒÅÐÈßÌÈ È ÈÕ ÂËÈßÍÈÅ ÍÀ ÐÎÑÒ ÐÀÑÒÅÍÈÉ Â ÓÑËÎÂÈßÕ ÑÎËÅÂÎÃÎ ÑÒÐÅÑÑÀ
COLONIZATION OF WHEAT ROOT BY HALOTOLERANT BACTERIA AND THEIR
INFLUENCE ON PLANT GROWTH UNDER SALT STRESS |
|
9. |
ÎÑÎÁÅÍÍÎÑÒÈ «ÑÒÐÓÊÒÓÐÈÐÎÂÀÍÍÛÕ ÏÐÎÖÅÑÑλ Â
ÈÍÒÅÐÔÀÇÍÛÕ ßÄÐÀÕ Ó ÏØÅÍÈÖÛ,
ÂÛÂÅÄÅÍÍÎÉ Â ÓÑËÎÂÈßÕ ÕÎËÎÄÎÂÎÃÎ ÑÒÐÅÑÑÀ
FEATURES
OF
“STRUCTURED |
|
10. |
ÐÀÇÌÍÎÆÅÍÈÅ
RHODODENDRON LUTEUM
SWEET.
 ÊÓËÜÒÓÐÅ
IN VITRO
REPRODUCTION OF YELLOW RHODODENDRON (RHODODENDRON LUTEUM
SWEET.) IN VITRO |
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11. |
ÓÑÒÎÉ×ÈÂÎÑÒÜ ÄÅÊÎÐÀÒÈÂÍÛÕ ÒÐÀÂßÍÈÑÒÛÕ ÐÀÑÒÅÍÈÉ
Ê ÈÇÌÅÍßÞÙÈÌÑß ÓÑËÎÂÈßÌ ÎÊÐÓÆÀÞÙÅÉ ÑÐÅÄÛ
RESISTANCE OF DECORATIVE HERBACEOUS PLANTS TO CHANGING ENVIRONMENTAL
CONDITIONS |
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12. |
ÌÎÐÔÎËÎÃÈ×ÅÑÊÈÅ ÑÂÎÉÑÒÂÀ ÏÎ× ÀÐÕÅÎËÎÃÈ×ÅÑÊÈÕ
ÏÀÌßÒÍÈÊÎÂ ã. ÓÔÛ (ÐÅÑÏÓÁËÈÊÀ ÁÀØÊÎÐÒÎÑÒÀÍ)
MORPHOLOGICAL PROPERTIES OF SOILS OF ARCHAEOLOGICAL MONUMENTS OF UFA
CITY (REPUBLIC OF BASHKORTOSTAN) |
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13. |
ÂËÈßÍÈÅ ÈÑÒÎ×ÍÈÊΠÓÃËÅÐÎÄÀ È ÌÈÍÅÐÀËÜÍÛÕ ÑÎËÅÉ ÍÀ
ÔÎÐÌÈÐÎÂÀÍÈÅ ÁÈÎÏËÅÍÎÊ È ÑÈÍÒÅÇ ÖÈÊËÈ×ÅÑÊÈÕ ËÈÏÎÏÅÏÒÈÄÎÂ
PGPB-ØÒÀÌÌÀÌÈ
BACILLUS
È
PAENIBACILLUS
INFLUENCE OF SEVERAL CARBON SOURCES AND MINERAL SALTS ON BIOFILM
FORMATION AND SYNTHESIS OF CYCLIC LIPOPEPTIDES BY PGPB-STRAINS OF
BACILLUS AND PAENIBACILLUS |
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14. |
ÔÈÇÈÎËÎÃÎ-ÁÈÎÕÈÌÈ×ÅÑÊÈÅ ÐÅÀÊÖÈÈ
MISCANTHUS
×
GIGANTEUS
ÍÀ ÇÀÃÐßÇÍÅÍÈÅ ÏÎ×ÂÛ ÒßÆÅËÛÌÈ ÌÅÒÀËËÀÌÈ
PHYSIOLOGICAL AND BIOCHEMICAL RESPONSES OF MISCANTHUS × GIGANTEUS
TO SOIL CONTAMINATION WITH HEAVY METALS |
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15. |
ÏÎÄÁÎÐ ÌÅÒÎÄÎÂ ÄËÈÒÅËÜÍÎÃÎ ÕÐÀÍÅÍÈß ÊÎËËÅÊÖÈÎÍÍÛÕ
ØÒÀÌÌÎÂ ÌÈÊÐÎÌÈÖÅÒÎÂ È ÄÐÎÆÆÅÉ
SELECTION OF METHODS FOR LONG STORAGE OF COLLECTION STRAINS OF
MICROMYCETES AND YEAST |
|
16. |
ÀÄÂÅÍÒÈÂÍÛÉ ÊÎÌÏÎÍÅÍÒ ÑÅÃÅÒÀËÜÍÎÉ ÔËÎÐÛ ÏÐÎÏÀØÍÛÕ
ÊÓËÜÒÓÐ ÓÔÈÌÑÊÎÃÎ ÐÀÉÎÍÀ ÐÅÑÏÓÁËÈÊÈ ÁÀØÊÎÐÒÎÑÒÀÍ
THE ADVENTIVE COMPONENT OF SEGETAL FLORA OF CULTIVATED CROPS OF THE
UFA DISTRICT OF THE REPUBLIC OF BASHKORTOSTAN |
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17. |
ÏÐÀÉÌÈÍÃ-ÑÈÃÍÀËÜÍÀß ÔÓÍÊÖÈß ÀÍÒÈÁÈÎÒÈÊÎÂ,
ÏÐÎÄÓÖÈÐÓÅÌÛÕ ÑÒÐÅÏÒÎÌÈÖÅÒÀÌÈ
PRIMING-SIGNAL FUNCTION OF ANTIBIOTICS PRODUCED BY STREPTOMYCETES |
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18. |
ÄÈÍÀÌÈÊÀ ÏÎÊÀÇÀÒÅËÅÉ ÊÀ×ÅÑÒÂÀ ÏÛËÜÖÛ ÑÎÑÍÛ
ÎÁÛÊÍÎÂÅÍÍÎÉ Â ÓÑËÎÂÈßÕ ÑÍÈÆÅÍÈß ÓÐÎÂÍß ÒÅÕÍÎÃÅÍÍÎÃÎ ÇÀÃÐßÇÍÅÍÈß
ÑÐÅÄÛ
THE DYNAMICS OF QUALITY INDICATORS OF POLLEN OF SCOTS PINE IN
CONDITIONS OF A DECREASE IN THE LEVEL OF TECHNOGENIC POLLUTION |
|
19. |
ÎÑÎÁÅÍÍÎÑÒÈ ÎÕÐÀÍÛ
HEDYSARUM GRANDIFLORUM
PALL.
FEATURES OF PROTECTION OF HEDYSARUM GRANDIFLORUM PALL. |
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20. |
ÀÖÈÄÎÔÈËÜÍÛÅ ÌÈÊÐÎÁÍÛÅ ÑÎÎÁÙÅÑÒÂÀ ÏÅÙÅÐÛ ØÅÊÈ-ÊÜÅÕ
(ÑÅÂÅÐÍÛÉ ÊÀÂÊÀÇ, ×Å×ÅÍÑÊÀß ÐÅÑÏÓÁËÈÊÀ)
ACIDOPHILE MICROBIAL COMMUNITIES OF SHEKI-CHIEH
CAVE
(NORTH
CAUCASUS,
CHECHEN REPUBLIC) |
|
21. |
ÈÑÏÎËÜÇÎÂÀÍÈÅ ÈÇÎËßÒΠÄÐÎÆÆÅÉ Â ÊÀ×ÅÑÒÂÅ ÈÑÒÎ×ÍÈÊÀ
ÊÎÐÌÎÂÎÃÎ ÁÅËÊÀ
USE OF YEAST ISOLATES AS A SOURCE OF FOOD PROTEIN |
|
22. |
ÏÐÈÌÅÍÅÍÈÅ ÒÎÂÀÐÍÛÕ ÔÎÐÌ ÕÈÒÎÇÀÍÑÎÄÅÐÆÀÙÈÕ ÏÐÅÏÀÐÀÒÎÂ
 ÐÀÑÒÅÍÈÅÂÎÄÑÒÂÅ
APPLICATION OF TRADITIONAL FORMS OF CHITOSOUS CONTAINING
PREPARATIONS IN PLANT GROWTH |
|
23. |
ÊËÎÍÀËÜÍÎÅ ÌÈÊÐÎÐÀÇÌÍÎÆÅÍÈÅ ÃËÎÊÑÈÍÈÈ ÃÈÁÐÈÄÍÎÉ
CLONAL MICROPROPAGATION OF HYBRID GLOXINIA |
|
24. |
ÈÍÄÓÊÖÈß ÌÎÐÔÎÃÅÍÅÇÀ ËÓÊÀ ÍÅÐÅÈÄÎÖÂÅÒÍÎÃÎ Â ÊÓËÜÒÓÐÅ
IN VITRO
INDUCTION OF MORPHOGENESIS ALLIUM NERINIFLORUM IN VITRO
CULTURE |
|
25. |
ÂËÈßÍÈÅ ØÒÀÌÌΠÐÈÇÎÑÔÅÐÍÛÕ ÁÀÊÒÅÐÈÉ
PSEUDOMONAS KOREENSIS
ÈÁ-4
È PSEUDOMONAS
PLECOGLOSSICIDA
2.4-D
ÍÀ ÐÎÑÒ
ÐÀÑÒÅÍÈÉ ÏØÅÍÈÖÛ ÏÐÈ ÄÅÔÈÖÈÒÅ ÂÎÄÛ ÐÀÇÍÎÉ ÈÍÒÅÍÑÈÂÍÎÑÒÈ
INFLUENCE OF STRAINS OF RHEOSPHERE BACTERIA PSEUDOMONAS KOREENSIS
IB-4 AND PSEUDOMONAS PLECOGLOSSICIDA 2.4-D ON THE GROWTH
OF WHEAT PLANTS DURING WATER DEFICIENCY OF VARIOUS INTENSITY |
|
26. |
ÂËÈßÍÈÅ ÝÍÄÎÃÅÍÍÛÕ ÖÈÒÎÊÈÍÈÍΠÍÀ ÏÐÎßÂËÅÍÈÅ
ÇÀÙÈÒÍÎÃÎ ÄÅÉÑÒÂÈß ÌÅÒÈËÆÀÑÌÎÍÀÒÀ ÍÀ ÐÀÑÒÅÍÈß ÏØÅÍÈÖÛ
THE
INFLUENCE OF ENDOGENOUS CYTOKININS ON METHILJASMONAT-INDUCED
PROTECTION ON WHEAT PLANTS |
|
27. |
ÏÖÐ ÄÅÒÅÊÖÈß ÊÎÄÈÐÓÞÙÅÃÎ ÐÅÇÈÑÒÅÍÒÍÎÑÒÜ Ê
ÒÅÒÐÀÖÈÊËÈÍÓ ÃÅÍÀ tetC Ó ÁÀÊÒÅÐÈÉ ÒÅÕÍÎÃÅÍÍÛÕ ÝÊÎÒÎÏÎÂ
PCR DETECTION OF ENCODING TETRACYCLINE RESISTANCE tetC GENE
IN THE BACTERIA OF TECHNOGENIC ECOTOPES |
|
28. |
ÂËÈßÍÈÅ ÎÁÐÀÁÎÒÊÈ ÑÅÌßÍ ÃÎÐÌÎÍÏÐÎÄÓÖÈÐÓÞÙÈÌÈ È
ÔÎÑÔÀÒÌÎÁÈËÈÇÓÞÙÈÌÈ ÁÀÊÒÅÐÈßÌÈ ÍÀ ÐÎÑÒ ÐÀÑÒÅÍÈÉ ÏØÅÍÈÖÛ
ÏÐÈ ÇÀÑÎËÅÍÈÈ Â ÏÎËÅÂÛÕ ÓÑËÎÂÈßÕ
INFLUENCE OF BACTERIZATION OF SEEDS BY PHOSPHATOMOBILIZING AND
HORMONE PRODUCING BACTERIA TO THE GROWTH OF WHEAT PLANTS UNDER
SALTING IN THE FIELD |
|
29. |
ÏÎËÓ×ÅÍÈÅ ÂÎËÎÑÎÂÈÄÍÛÕ ÊÎÐÍÅÉ AMARANTHUS CRUENTUS
L. È ÎÖÅÍÊÀ ÏÎÊÀÇÀÒÅËÅÉ ÈÕ ÐÎÑÒÀ
OBTAINING HAIRY ROOTS OF AMARANTHUS CRUENTUS L. AND
EVALUATION OF THEIR GROWTH INDICATORS |
|
30. |
ÂËÈßÍÈÅ ÀÁÑÖÈÇÎÂÎÉ ÊÈÑËÎÒÛ ÍÀ ÏÐÎÄÓÊÖÈÞ ÏÅÐÅÊÈÑÈ
ÏÐÈ ÏÐÎÐÀÑÒÀÍÈÈ ÑÅÌßÍ È ÂÅÒÂËÅÍÈÈ ÊÎÐÍÅÉ ÐÀÑÒÅÍÈÉ ß×ÌÅÍß
INFLUENCE OF ABSCISIC ACID ON PEROXIDE PRODUCTION DURING SEED
GERMINATION AND ROOT BRANCHING OF BARLEY PLANTS |
|
31. |
ÀÍÀËÈÇ ÂÑÕÎÆÅÑÒÈ ÑÅÌßÍ
TRITICUM AESTIVUM
L.
ÍÀ ÁÅÇÆÈÇÍÅÍÍÛÕ ÑÓÁÑÒÐÀÒÀÕ ÏÐÈ ÑÎÂÌÅÑÒÍÎÌ ÈÑÏÎËÜÇÎÂÀÍÈÈ
ÂËÀÃÎÍÀÁÓÕÀÞÙÈÕ ÃÈÄÐÎÃÅËÅÉ È ÑÓÑÏÅÍÇÈÉ ÌÈÊÐÎÑÊÎÏÈ×ÅÑÊÈÕ ÂÎÄÎÐÎÑËÅÉ
ANALYSIS OF THE GERMINATION OF SEEDS OF TRITICUM AESTIVUM L.
ON LIFELESS SUBSTRATES WITH THE JOINT USE OF MOISTURE-SWOLLEN
HYDROGELS AND SUSPENSIONS OF MICROALGAE |
Îòïðàâèòü ñîîáùåíèå äëÿ postmaster@ecobiotech-journal.ru ñ âîïðîñàìè è çàìå÷àíèÿìè îá ýòîì âåá-óçëå. |