Abstract
Observing natural vegetation dynamics over the entire Holocene is difficult in Central Europe, due to pervasive and increasing human disturbance since the Neolithic. One strategy to minimize this limitation is to select a study site in an area that is marginal for agricultural activity. Here, we present a new sediment record from Lake Svityaz in northwestern Ukraine. We have reconstructed regional and local vegetation and fire dynamics since the Late Glacial using pollen, spores, macrofossils and charcoal. Boreal forest composed of Pinus sylvestris and Betula with continental Larix decidua and Pinus cembra established in the region around 13,450 cal bp, replacing an open, steppic landscape. The first temperate tree to expand was Ulmus at 11,800 cal bp, followed by Quercus, Fraxinus excelsior, Tilia and Corylus ca. 1,000 years later. Fire activity was highest during the Early Holocene, when summer solar insolation reached its maximum. Carpinus betulus and Fagus sylvatica established at ca. 6,000 cal bp, coinciding with the first indicators of agricultural activity in the region and a transient climatic shift to cooler and moister conditions. Human impact on the vegetation remained initially very low, only increasing during the Bronze Age, at ca. 3,400 cal bp. Large-scale forest openings and the establishment of the present-day cultural landscape occurred only during the past 500 years. The persistence of highly diverse mixed forest under absent or low anthropogenic disturbance until the Early Middle Ages corroborates the role of human impact in the impoverishment of temperate forests elsewhere in Central Europe. The preservation or reestablishment of such diverse forests may mitigate future climate change impacts, specifically by lowering fire risk under warmer and drier conditions.
Highlights
The Neolithic revolution, which established a sedentary lifestyle with agricultural products as the main food source in early human societies, had a significant impact on natural ecosystems in Central Europe
In the case of Ulmus, the rapid decline all over northwestern Europe in the mid-Holocene has been attributed to the spread of a pathogen (Peglar 1993; Parker et al 2002), the remarkable coincidence with the Neolithic transition over large spatial scales indicates that humans might have played a role after all, possibly by indirectly facilitating
The 9 radiocarbon dates from our record span the Late Glacial to Holocene, with the oldest date at 13,255–13,065 cal bp (Table 1; Fig. 2)
Summary
The Neolithic revolution, which established a sedentary lifestyle with agricultural products as the main food source in early human societies, had a significant impact on natural ecosystems in Central Europe. Neolithic introduce new species such as crops or adventives (Behre 1981; Lang 1994), they directly affected the species composition and structure of the existing natural forest by using fire to clear areas for arable farming, selective logging of tree species and browsing by domesticated animals (Lang 1994; Ralska-Jasiewiczowa et al 2003; Tinner and Lotter 2006; Schwörer et al 2015; Roberts et al 2018; Rey et al 2019) Such anthropogenic disturbance led to the widespread decline of disturbance-sensitive taxa such as Tilia, Ulmus or Abies alba in Central European forests and promoted disturbance-adapted trees, shrubs and herbaceous apophytes (Behre 1981; Birks and Tinner 2016; Rey et al 2019). In the case of Ulmus, the rapid decline all over northwestern Europe in the mid-Holocene has been attributed to the spread of a pathogen (Peglar 1993; Parker et al 2002), the remarkable coincidence with the Neolithic transition over large spatial scales indicates that humans might have played a role after all, possibly by indirectly facilitating
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