Abstract
Measured meteorological time series are frequently used to obtain information about climate dynamics. We use time series analysis and nonlinear system identification methods in order to assess outdoor-environment bioclimatic conditions starting from the analysis of long historical meteorological data records. We investigate and model the stochastic and deterministic properties of 117 years (1891–2007) of monthly measurements of air temperature, precipitation and sunshine duration by separating their slow and fast components of the dynamics. In particular, we reconstruct the trend behaviour at long terms by modelling its dynamics via a phase space dynamical systems approach. The long-term reconstruction method reveals that an underlying dynamical system would drive the trend behaviour of the meteorological variables and in turn of the calculated Universal Thermal Climatic Index (UTCI), as representative of bioclimatic conditions. At longer terms, the system would slowly be attracted to a limit cycle characterized by 50–60 years cycle fluctuations that is reminiscent of the Atlantic Multidecadal Oscillation (AMO). Because of lack of information about long historical wind speed data we performed a sensitivity analysis of the UTCI to three constant wind speed scenarios (i.e. 0.5, 1 and 5 m/s). This methodology may be transferred to model bioclimatic conditions of nearby regions lacking of measured data but experiencing similar climatic conditions.
Highlights
The study of bioclimatic conditions of the outdoor environment is a very important subject, in the first instance to understand how climate changes may affect society’s well being (Stocker et al 2013)
Time series analysis of measured data may reveal the presence of lowdimensional deterministic behaviour in the slow component
The periodic oscillation that characterizes the dynamic of the reconstructed slow component would be consistent with well known patterns induced by the Atlantic Multidecadal Oscillation (AMO) of 55–80 years (Knudsen et al 2011; Bronnimann 2015; Malik et al 2018)
Summary
The study of bioclimatic conditions of the outdoor environment is a very important subject, in the first instance to understand how climate changes may affect society’s well being (Stocker et al 2013). Bioclimatic assessment has found applications in a multitude of research areas relating the effects of climate change (Wu et al 2019) on health and well-being (Brode et al 2018), epidemiology (Di Napoli et al 2018), military (Galan and Guedes 2019), urban planning, etc. Brode et al (2012) studied outdoor thermal comfort in Brazil These studies find practical application for instance to determine the attractiveness of tourist places like coastal and mountain towns or health resorts in such areas (Ge et al 2017; Błazejczyk and Kunert 2011), as well as in ergonomics to determine working conditions in both indoor and outdoor environments (Brode et al 2018; Sen and Nag 2019)
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