Abstract
Abstract. Two lacustrine sediment cores from Lake Ledro in northern Italy were studied to produce chronologies of flood events for the past 10 000 yr. For this purpose, we have developed an automatic method that objectively identifies the sedimentary imprint of river floods in the downstream lake basin. The method was based on colour data extracted from processed core photographs, and the count data were analysed to capture the flood signal. Flood frequency and reconstructed sedimentary dynamics were compared with lake-level changes and pollen inferred vegetation dynamics. The results suggest a record marked by low flood frequency during the early and middle Holocene (10 000–4500 cal BP). Only modest increases during short intervals are recorded at ca. 8000, 7500, and 7100 cal BP. After 4500–4000 cal BP, the record shows a shift toward increased flood frequency. With the exception of two short intervals around 2900–2500 and 1800–1400 cal BP, which show a slightly reduced number of floods, the trend of increasing flood frequency prevailed until the 20th century, reaching a maximum between the 16th and the 19th centuries. Brief-flood frequency increases recorded during the early and middle Holocene can be attributed to cold climatic oscillations. On a centennial time scale, major changes in flood frequency, such as those observed after ca. 4500/4000 and 500 cal BP, can be attributed to large-scale climatic changes such as the Neo-glacial and Little Ice Age, which are under orbital and possibly solar control. However, in the Bronze Age and during the Middle Ages and modern times, forest clearing and land use probably partially control the flood activity.
Highlights
Solid EarthUnderstanding the respective roles of climate and land-use change on long-term ecosystem dynamics have become an important issue of palaeo-studies (Dearing et al, 2006; Hoffmann et al, 2010), paTrtihcuelarCly rsiynocesthpehReudrdeiman’s hypothesis about the anthropogenic greenhouse era (2003, 2007)
The sedimentation of Lake Ledro offers one of the best systems to clearly detect and quantify flood deposits: the background sedimentation is dominated by autochthonous sedimentation, and the flood deposits are marked by a high content of soil organic matter and appear as dark-brown layers that can be differentiated from the background in digital pictures
During the early- to midHolocene, flood activity appears limited to short episodes of weak increases in flood frequency during periods of high lake levels, which indicate cooler and wetter climate conditions between 8000 and 7000 cal BP
Summary
Understanding the respective roles of climate and land-use change on long-term ecosystem dynamics have become an important issue of palaeo-studies (Dearing et al, 2006; Hoffmann et al, 2010), paTrtihcuelarCly rsiynocesthpehReudrdeiman’s hypothesis about the anthropogenic greenhouse era (2003, 2007). One of the main questions addresses the tipping elements that indicate ecosystems dynamics (Lenton et al, 2008) over the Holocene controlled by climatic or human forcing factors (Hoffmann et al, 2008; Magny et al, 2009). The low-frequency smoothing of the data highlights the main trend of the sedimentary dynamics during the last ten millennia, i.e. the change in sediment composition associated with environmental changes, excluding sedimentary events. Complementary calcium and zirconium elemental analyses from samples of discrete laminated facies characterise the background sedimentation
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
