|
1
|
Rogozin D.Y.
, Nazarova L.B.
, Rudaya N.A.
, Frolova L.A.
, Bolobanshchikova G.N.
, Palagushkina O.V.
, Darin A.V.
, Meydus A.V.
Tracking Late Holocene climate change and the 1908 Tunguska impact event from lake sediments in Central Siberia
Quaternary Research. 2025.
P.1-19. DOI: 10.1017/qua.2024.35
WOS
Scopus
РИНЦ
OpenAlex
|
|
2
|
Rudaya N.
, Kuzmina O.
, Frolova L.
, Nazarova L.
, Nigmatullin N.
, Syrykh L.
, Vnukovskaya Y.
, Cao X.
, Zhilich S.
, Novikov V.
, Karachurina S.
, Darin A.
Holocene environments and the forest dynamics enigma in the arid Altai highlands
Quaternary Science Reviews. 2025.
P.109548. DOI: 10.1016/j.quascirev.2025.109548
WOS
Scopus
РИНЦ
OpenAlex
|
|
3
|
Ibragimova A.G.
, Seleznev D.G.
, Frolova L.A.
, Subetto D.A.
, Potakhin M.S.
, Belkina N.A.
, Kotov A.A.
Cladoceran remains as a tool for reconstruction of past environmental conditions during the Late Pleistocene–Holocene in Central Karelia (NW Russia). Part I. Traditional quantitative analysis
Arthropoda Selecta. 2025.
V.34. N2. P.192-204. DOI: 10.15298/arthsel.34.2.05
WOS
|
|
4
|
Ibragimova A.G.
, Seleznev D.G.
, Frolova L.A.
, Subetto D.A.
, Potakhin M.S.
, Belkina N.A.
, Kotov A.A.
Cladoceran remains as a tool for reconstruction of past environmental conditions during the Late Pleistocene-Holocene in Central Karelia (NW Russia). Part II. Qualitative approach including species co-occurrence analysis
Arthropoda Selecta. 2025.
Т.34. №3. С.339-346. DOI: 10.15298/arthsel.34.3.05
WOS
|
|
5
|
Schirrmeister L.
, Kienast F.
, Frolova L.
, Tumskoy V.
, Matthes H.
, Lohmann G.
, Grosse G.
, Zimmermann H.H.
, Herzschuh U.
, Böhmer T.
, Breitenbach S.F.M.
, Pismeniuk A.
, Schwamborn G.
, Wetterich S.
Newly dated permafrost deposits and their paleoecological inventory reveal an Eemian much warmer than today in Arctic Siberia
Climate of the past. 2025.
V.21. N7. P.1143-1184. DOI: 10.5194/cp-21-1143-2025
WOS
|