The vulnerability of the Nothofagus forest-steppe ecotone to climate change: palaeoecological evidence from Tierra del Fuego (~53°S).

Mansilla, Claudia A., Morello, Flavia., McCulloch, R.D.

Abstract

A new Late glacial-Holocene palaeoenvironmental record from near Lago Lynch (53°54’S, 69°26’W), Tierra del Fuego is presented. The record was sampled from a mire located within the deciduous Nothofagus forest-steppe ecotone and pollen and spore analysis suggest a high degree of vulnerability of past vegetation to changes in effective moisture. AMS radiocarbon dating supplemented by the application of tephrochronology including the geochemical fingerprinting of six visible and crypto-tephra layers provides robust age constraint. The Lago Lynch record commences at c.15.6 ka. The sequence of vegetation changes between c.15.6 and 14.4 ka reflect a gradual increase in humidity followed by a colder interval between c.14.4 and 13.2 ka, which is broadly coeval with the Antarctic Cold Reversal. After c.13.3 ka patches of Nothofagus forest appeared, suggesting more humid conditions leading gradually to the establishment of an open-canopy Nothofagus forest by c.12.5 ka which marks the start of the Holocene. Moderate to strong effective moisture levels continued during the early Holocene until c.11.0 ka, followed by a sustained period (c.11.0-6.5 ka) dominated by drier climatic conditions, particularly two arid phases at c.10.5-10.0 ka and 8.5-6.5 ka. An eastwards expansion of the forest margin after c.6.5 ka at the site suggests a return to more humid conditions during the late Holocene. The sequence of inferred moisture changes closely reflects the nature and timing of latitudinal shifts in the southern westerly winds (SWWs). More significantly the vulnerability of the forest-steppe ecotone to moisture appears to amplify the longitudinal variations in moisture and the extent to which the SWWs push eastwards to the drier regions of Fuego-Patagonia during the Holocene.

Más información

Título de la Revista: Palaeogeography, Palaeoclimatology, Palaeoecology
Editorial: ELSEVIER SCIENCE BV
Fecha de publicación: 2018