Abstract
Deltaic systems are broadly recognized as vulnerable hot spots at the interface between land and sea and are highly exposed to harmful natural and manmade threats. The vulnerability to these threats and the interactions of the biological, physical, and anthropogenic processes in low-lying coastal plains, such as river deltas, requires a better understanding in terms of vulnerable systems and to support sustainable management and spatial planning actions in the context of climate change. This study analyses the potential of Bayesian belief network (BBN) models to represent conditional dependencies in vulnerability assessment for future sea level rise (SLR) scenarios considering ecological, morphological and social factors using Earth observation (EO) time series dataset. The BBN model, applied in the Po Delta region in the northern Adriatic coast of Italy, defines relationships between twelve selected variables classified as driver factors (DF), land cover factors (LCF), and land use factors (LUF) chosen as critical for the definition of vulnerability hot spots, future coastal adaptation, and spatial planning actions to be taken. The key results identify the spatial distribution of the vulnerability along the costal delta and highlight where the probability of vulnerable areas is expected to increase in terms of SLR pressure, which occurs especially in the central and southern delta portion.
Highlights
Coastal areas, and especially deltas, are highly dynamic systems of great importance due to high productivity, giving access to a significant amount of food and raw materials, and being rich biodiversity, hosting several ecosystems and related services [1]
Water 2020, 12, 2830 coastal regions. They are broadly recognized as socio-economic vulnerable hot spots [2,4], occurring where the stresses on natural systems coincide with low human adaptive capacity and high exposure
Earth observation (EO) satellite data keeps proving its high potential for monitoring the Earth, easing spatial and temporal analysis in very complex and dynamic areas
Summary
Especially deltas, are highly dynamic systems of great importance due to high productivity, giving access to a significant amount of food and raw materials, and being rich biodiversity, hosting several ecosystems and related services [1]. Deltas are fragile geomorphic features that change dramatically due to human development and climate change putting them perilously out of dynamic equilibrium. These densely populated low-lying coastal plains areas are facing increasing threats and degradation due to a wide range of human [3] and natural pressures, transforming them into hazardous. They are broadly recognized as socio-economic vulnerable hot spots [2,4], occurring where the stresses on natural systems coincide with low human adaptive capacity and high exposure. Most deltas worldwide are already highly exposed to negative impacts, including coastal erosion, periodic or permanent inundation, increased coastal storm flooding, and salinization [5,6]
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