This paper deals with channel evolution over the past 200 yr in 12 selected streams
in northern and central Italy and aims at reconstructing the evolutionary trends (e.g.,
trends of channel width and bed elevation) and understanding the causes of channel
adjustments. The selected streams have been studied using various sources and methods
(historical maps, aerial photographs, topographic surveys, and geomorphological
surveys). The selected rivers have undergone almost the same processes in terms of
temporal trends; however, the magnitude of adjustments varies according to several
factors, such as original channel morphology. Initially, river channels underwent a
long phase of narrowing (up to 80%) and incision (up to 8–10 m), which started at the
end of the nineteenth century and was intense from the 1950s to the 1980s. Then, over the last 15–20 yr, channel widening and sedimentation, or bed-level stabilization, have
become the dominant processes in most of the rivers.
Different human interventions have been identifi ed as the causes of channel
adjustments in Italian rivers (sediment mining, channelization, dams, reforestation,
and torrent control works). Such interventions have caused a dramatic alteration
of the sediment regime, whereas effects on channel-forming discharges have seldom
been observed. Some notable implications for river management and restoration are
(1) the state of rivers before major human disturbances and channel adjustments can
rarely be taken as a reference, as at present rivers are far from their pristine condition;
and (2) sediment management is and will be a key issue in such fl uvial systems
Saltwater has invaded the coastal aquifer along the southern Adriatic coast of the Po Plain in Italy. The topography, morphology and land use of the region is complex: rivers, canals, wetlands, lagoons, urban, industrial and agricultural areas and tourist establishments all coexist in a small area. Water table and iso-salinity maps show that in four study areas (Ancona-Bellocchio, Marina Romea, San Vitale Forest, Cervia) out of five, the water tables are below sea level and saltwater has replaced
freshwater in the aquifer. The fifth area (Classe Forest) has a relatively pristine freshwater aquifer thanks to an average water-table height of 2m above sea level, a lower hydraulic conductivity (< 7.7m/day) and a continuous dune system along the coast. Only in this area is the topography high enough to maintain freshwater heads that can counteract saltwater intrusion according to the Ghyben-Herzberg principle. Furthermore, the climate, with an average yearly precipitation of 606mm and an
average temperature of 14.4°C, allows for little recharge of the aquifer. Ongoing subsidence, encroachment of sea water along rivers and canals, as well as drainage from agricultural land also enhance the salinization process
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