Spatial variability of the modern radiocarbon reservoir effect in the high-altitude lake Laguna del Peinado (southern Puna Plateau, Argentina)

The high-altitude lakes of the Altiplano–Puna Plateau in the Central Andes commonly have large radiocarbon reservoir effects. This, combined with the general scarcity of terrestrial organic matter, makes obtaining a reliable and accurate chronological model based on radiocarbon ages a challenge. As a result, age–depth models based on radiocarbon dating are often constructed by correcting for the modern reservoir effect, but commonly without consideration of spatial and possible temporal variations of reservoir ages within the lake and across the basin. In order to get a better constraint on the spatial variability of the radiocarbon reservoir effects, we analyse inline-formula¹⁴C ages of modern terrestrial and aquatic plants from the El Peinado basin in the southern Puna Plateau, which hosts Laguna del Peinado fed by hydrothermal springs. The oldest inline-formula¹⁴C ages of modern samples (inline-formula> 18 000 and inline-formula> 26 000 BP) were found in hot springs discharging into the lake, likely resulting from the input of inline-formula¹⁴C-depleted carbon from old groundwater and inline-formula¹⁴C-free magmatic COinline-formula₂. In the littoral and central part of Laguna del Peinado, inline-formula¹⁴C ages of modern samples were several thousand years younger (inline-formula> 13 000 and inline-formula> 12 000 BP) compared to the inflowing waters as a result of COinline-formula₂ exchange with the atmosphere. Altogether, our findings reveal a spatial variability of up to 14 000 inline-formula¹⁴C years of the modern reservoir effect between the hot springs and the northern part of the Peinado lake basin. Temporal changes of reservoir effects in sediment records are more difficult to quantify, but inline-formula¹⁴C ages from a short core from Laguna del Peinado may suggest temporal reservoir age variations of a few thousand years. This study has implications for accurate inline-formula¹⁴C-based chronologies for palaeoclimate studies in the Altiplano–Puna Plateau and similar settings. Our results highlight the need to consider spatial and likely also temporal variations in the reservoir effects when constructing age–depth models.