The main purpose of this study is to
quantify important climatic shifts that took place over
Malta and Venice that could be considered as a determining
factor on their choice as two prime tourist destinations.
Rather than making use of traditional tourist
climate indices, this study identifi es long-term trends
in weather variables and their derived bioclimatic indices.
These climate derivatives are based on a set
of high temporal observations (some of which are collected
every 30 minutes) and are thus able to capture
valuable information that traditional monthly distribution
cannot provide. The derivatives obtained from the
elementary meteorological observations showed that the
level of comfort experienced by visiting tourists over the
long term is deteriorating due to increased heat stress.
Nonetheless, the increased occurrence of optimal wind
speed conditions, as well as a reduced occurrence of gale
storms and wind chill events is making these destinations
more attractive. A careful study of the output of
IPCC climate model projections sheds light on a critical
future bioclimate condition during current peak visiting
months (July and August) at both destinations. This
may imply a required shift, as a form of adaptation,
of the visiting periods at these two destinations. This
study should allow tourist planners to determine which
weather element is a likely future obstacle to the overall
bioclimatic suitability of outdoor tourism activities.peer-reviewe