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2009517 
Journal Article 
Stratigraphic expressions of the Holocene-Anthropocene transition revealed in sediments from remote lakes 
Wolfe, AP; Hobbs, WO; Birks, HH; Briner, JP; Holmgren, SU; Ingolfsson, O; Kaushal, SS; Miller, GH; Pagani, M; Saros, JE; Vinebrooke, RD 
2013 
Yes 
Earth-Science Reviews
ISSN: 0012-8252 
116 
17-34 
WOS:000316159000002 
Stratigraphic boundaries are ideally defined by distinct lithological, geochemical, and palaeobiological signatures, to which a chronological framework can be applied. We present a range of observations that illustrate how the Holocene-Anthropocene transition meets these criteria in its expression in sediments from remote arctic and alpine lakes, removed from direct, catchment-scale, anthropogenic influences. In glaciated lake basins, the retreat of glaciers commonly leads to lithological successions from proglacial clastic sedimentation to non-glacial organic deposition. Sediments from the majority of lakes record marked depletions in the nitrogen stable isotopic composition of sediment organic matter, reflecting anthropogenic influences on the global nitrogen cycle. In all cases, siliceous microfossil assemblages (diatoms and chrysophytes) change markedly and directionally, with regional nuances. These stratigraphic fingerprints begin to appear in the sediment record after AD 1850, but accelerate in pulses between AD 1950 and 1970 and again after AD 1980. Our review indicates that recent environmental changes associated with humankind's dominance of key global biogeochemical cycles are sufficiently pervasive to be imprinted on the sediment record of remote lakes. Moreover, these changes are of sufficient magnitude to conclude that the Holocene has effectively ended, and that the concept of Anthropocene more aptly describes current planetary dynamics. The synthesis of these observations pertains directly to ongoing discussions concerning the eventual formalization of a new stratigraphic boundary. (c) 2012 Elsevier B.V. All rights reserved. 
Anthropocene; Holocene; Diatoms; Nitrogen stable isotopes; Palaeolimnology