Research output: Contribution to Journal/Magazine › Journal article › peer-review
Research output: Contribution to Journal/Magazine › Journal article › peer-review
}
TY - JOUR
T1 - Are we living in the Anthropocene.
AU - Zalasiewicz, Jan
AU - Gibbard, Phil
AU - Waters, Colin
AU - Gregory, F.J.
AU - Barry, T.L.
AU - Bown, P.R
AU - Brenchley, P.
AU - Cantrill, D.J.
AU - Coe, A.L.
AU - Cope, J.C.W
AU - Knox, R
AU - Gale, A.
AU - Hounslow, M. W.
AU - Marshall, J.
AU - Powell, J.
AU - Oates, M.
AU - Smith, A.
AU - Stone, P.
AU - Rawson, P.
AU - Trewin, N.
AU - Williams, M.
PY - 2008/2
Y1 - 2008/2
N2 - The term Anthropocene, proposed and increasingly employed to denote the current interval of anthropogenic global environmental change, may be discussed on stratigraphic grounds. A case can be made for its consideration as a formal epoch in that, since the start of the Industrial Revolution, Earth has endured changes sufficient to leave a global stratigraphic signature distinct from that of the Holocene or of previous Pleistocene interglacial phases, encompassing novel biotic, sedimentary, and geochemical change. These changes, although likely only in their initial phases, are sufficiently distinct and robustly established for suggestions of a Holocene–Anthropocene boundary in the recent historical past to be geologically reasonable. The boundary may be defined either via Global Stratigraphic Section and Point (“golden spike”) locations or by adopting a numerical date. Formal adoption of this term in the near future will largely depend on its utility, particularly to earth scientists working on late Holocene successions. This datum, from the perspective of the far future, will most probably approximate a distinctive stratigraphic boundary.
AB - The term Anthropocene, proposed and increasingly employed to denote the current interval of anthropogenic global environmental change, may be discussed on stratigraphic grounds. A case can be made for its consideration as a formal epoch in that, since the start of the Industrial Revolution, Earth has endured changes sufficient to leave a global stratigraphic signature distinct from that of the Holocene or of previous Pleistocene interglacial phases, encompassing novel biotic, sedimentary, and geochemical change. These changes, although likely only in their initial phases, are sufficiently distinct and robustly established for suggestions of a Holocene–Anthropocene boundary in the recent historical past to be geologically reasonable. The boundary may be defined either via Global Stratigraphic Section and Point (“golden spike”) locations or by adopting a numerical date. Formal adoption of this term in the near future will largely depend on its utility, particularly to earth scientists working on late Holocene successions. This datum, from the perspective of the far future, will most probably approximate a distinctive stratigraphic boundary.
U2 - 10.1130/GSAT01802A.1
DO - 10.1130/GSAT01802A.1
M3 - Journal article
VL - 18
SP - 4
EP - 8
JO - GSA Today
JF - GSA Today
SN - 1052-5173
IS - 2
ER -