key: cord-0775431-dh9dft7t
authors: Alsina-Pagès, Rosa Ma; Bergadà, Pau; Martínez-Suquía, Carme
title: Changes in the soundscape of Girona during the COVID lockdown
date: 2021-05-21
journal: J Acoust Soc Am
DOI: 10.1121/10.0004986
sha: 7990b9f2b4cd379160b641972ba7935181022a41
doc_id: 775431
cord_uid: dh9dft7t

The lockdown measures in Spain due to COVID-19 social measures showed a wide decrease in the urban noise levels observed. This paper presents an analysis of the noise levels in Girona, a 100 000 citizen city in the North-East of Catalonia (Spain). We present the L(Aeq) levels in four different locations from January 2020 to June 2020, including all the stages of the lockdown. Several comparisons are conducted with the monitoring data available from the previous years (2019, 2018, and 2017, when available). This analysis is part of the project “Sons al Balcó,” which aims to draw the soundscape of Catalonia during the lockdown. The results of the analysis in Girona show drastic L(Aeq) changes especially in nightlife areas of the city, moderate L(Aeq) changes in commercial and restaurants areas, and low L(Aeq) changes in dense traffic areas.

Environmental noise has been proved to cause more than 12 000 deaths in Europe per year, as the World Health Organisation (WHO) states (WHO, 2020) . It generates more than 48 000 new cases of ischemic heart diseases, chronic annoyance to more than 22 Â 10 6 people (Guski et al., 2017) , and even chronic sleep problems to more than 6.5 Â 10 6 people (Blanes et al., 2017) . WHO declared the COVID-19 pandemic as an emergency on the 30th of January of 2020 (Jee, 2020) , and several European countries developed lockdown plans, based on restricting commercial activities and flights, decreasing ground transportation (Aletta and Osborn, 2020) , the closure of schools, and promoting teleworking, in order to minimize people contact, and hence, less contagion. Spain also had its own lockdown plan, starting in March and finishing in June, with several different stages (Alsina-Pages and Bergad a, 2021).

This social, educational, and industrial lockdown had a relevant impact on the cities' soundscape (Aletta et al., 2020b; Basu et al., 2020; Vida Manzano et al., 2021) . Most of the noise (Asensio et al., 2020a) associated with everyday outdoor activities was severely decreased. Noisy ground transportation, mainly traffic noise (Aletta et al., 2020a; Alsina-Pagès et al., 2020a; Benocci et al., 2020; Munoz et al., 2020; Said et al., 2020) , railway noise, but also port noise ( Curovič et al., 2021) , airport noise (Vogiatzis et al., 2020; Montano and Gushiken, 2020) , industry noise (Mandal and Pal, 2020) , and leisure-related noise (De Lauro et al., 2020) , were clearly reduced in the analyzed cities (Asensio et al., 2020b; Bartalucci et al., 2020) , and even in quiet residential areas (Sakagami, 2020) .

There have been several initiatives to track the soundscape changes by means of perception, questionnaires to citizens, and citizen science recordings, as in the United Kingdom-the Quiet Project (KSG Acoustics, 2020, Dance and Mcintyre, 2020) , France (Bruit, Paris, France, 2020) , Italy (AIA, 2020; Locate Your Sound, 2020; Scienzia sul Balcone, 2019)-even by means of questionnaires- (Bartalucci et al., 2021) , Barcelona Ajuntament de Barcelona, New York City NY Times Covid 19 (Bui and Badger, 2020), Turkey (Şentop D€ umen and Şaher, 2020) , and even aiming worldwide (Cities and Memory, 2020). In Catalonia, our project "Sons al Balc o" (Alsina-Pagès et al., 2020b is studying the effect of the lockdown on the perception of street noise, asking citizens to fill in a perception questionnaire and upload a short video recorded from their own home. In this work, we only focus on quantitative data, which comes from four out of the eight calibrated sensors deployed in the streets of Girona (Spain). We deeply analyze the data gathered in four sensors during the first six months of 2020 and compute the mean values gathered in 2019, 2018, and 2017 when available, in order to compare the street L Aeq levels among the four years and to evaluate the progression of the soundscape during the different stages of the confinement. Several conclusions about the different noise sources (traffic, leisure noise, tourism, etc.) are reached from this deep analysis of the sensors outcomes. meters, included in the project Smart Green. One of the actions was the deployment of a Noise Surveillance Network in the streets, including the installation of several sound sensors. The sensors deployed in Girona are located in the city center, 1 and constitutes a network of up to eight sensors, which is detailed in Fig. 1 The device chosen can be installed in the streetlights and measures, with quality, the sounds over 40 dBA and up to 90 dBA, with an accuracy of 62 dBA. They are precise enough to detect situations of high noise, which can cause annoyance to neighbors. The sensors have been deployed by Urbiotica 2 and the signal processing corresponding to the equivalent levels evaluation has been coded by Keacoustics. 3 The sensors give a detail of L Aeq with a maximum temporal resolution of 1 min. The sensors collect data all day and night and, besides several technical issues that occurred particularly during the lockdown, the analyzed data is continuous 24 h per day, throughout all analyzed weeks.

The lockdown in Girona was divided into five stages, as stated in (Asensio et al., 2020b) ; the different stages require degrees of restrictions:

• Stage 1: 12/03/2020-13/03/2020-School suspended and telework suggested. • Stage 2: 14/03/2020-28/03/2020-School, non-essential shops, and any events closed, no walking outdoors, telework unless justified.

• Stage 3: 29/03/2020-12/04/2020-School, non-essential shops, and any events closed, no walking outdoors, telework unless justified. Non-essential movement banned. • Stage 4 (similar to Stage 2): 13/04/2020-26/04/2020-School, non-essential shops, and any events closed, no walking outdoors, telework unless justified. • Stage 5: 27/04/2020-24/05/2020-School and any events closed, telework unless justified. Walks allowed (major restrictions). • Stage 6: 25/05/2020-07/06/2020-School and any events closed, telework unless justified. Walks allowed (minor restrictions).

The weekly updates of the stages are used to label the figures of the analysis of the L Aeq in the four sensors. Just for clarification, we have to assume that there are slight variations of those stages, especially in small parts of the country where the evolution of the pandemic was not the expected.

After a preliminary approach (Alsina-Pages and Bergad a, 2021), and considering the data issues that impact the completeness of the values of the noise levels, four sensors out of eight were chosen to conduct this analysis. Points #2, #4, #6, and #7 were chosen for several reasons: (i) the completeness of the data during the lockdown and the week previous to it, (ii) the completeness of the data the previous years during the same months of the lockdown, and (iii) the implication of several urban activities in the sound gathered in the selected sensors-traffic, railway, commerce, restaurants, leisure, etc. After a first analysis, four of the eight sensors accomplish these three requirements.

Point #2 (Ramon Folch) corresponds to a city center location, which combines both traffic and leisure noise, and also railway traffic is measured at that point. Point #4 (G€ uell) is located in a city highway, which makes the place really noisy in terms of traffic. Point #6 (Pj. St Feliu) is located in a quiet touristic zone, in the old quarter. Finally, Point #7 (Pç. St Feliu) is also located in the old quarter, but in a touristic zone with several restaurants and some traffic during the day. For more details, the pictures of the sensors and their surroundings are depicted in Fig. 2 . By choosing these four sensors, we detailed four different noise source sensors and guaranteed the completeness of the data, both in 2020 but also in the former two or three years, in order to establish reliable comparisons in terms of L Aeq . There is a clear difference with the weekend days, periodically drawn as less noisy. Nights in this sensor present complementary values before the lockdown. The noisier ones are for Thursday, Friday, Saturday, and Sunday from each week, due to the fact that it belongs to leisure noise because Ramon Folch is also the center in terms of night activity.

During the lockdown, the nights become extraordinary quiet there. An interesting outcome of this sensor is that L Aeq;10min increases, several times per day, with a regular period. Checked with the railway company, it corresponds to the moment that several trains are circulating really close to the sensor (around 7 or 8 a.m.).

Point #4 also shows a decrease in L Aeq;10min when comparing the pre-lockdown period with the lockdown period, but not as deep as the previous sensor. The reason is its location, in a crossroads with high traffic, mainly from the people crossing the city, or entering or going out the city. This traffic comes predominantly from people going to work or going to large supermarkets outskirts of the city, and is probably one of the places in Girona where the traffic was mainly maintained during the lockdown. There is also a decrease during the night, being mostly noticeable during the weekends rather than the week. An interesting conclusion in this sensor is that there is a clear effect of the 8 p.m. tribute to the medical community by clapping at the windows, mainly visible from mid-March until the end of April.

Points #6 and #7 show lower L Aeq;10min values both before the lockdown and during the lockdown. In this sense, the night values of Point #6 present very low values all the nights, and even lower during the lockdown, and moderate day values, and slightly lower during the lockdown, especially from lunchtime on. We have to take into account that it is a pedestrianized zone. Point #7 also shows low night values, but the difference between before the lockdown and during the lockdown is higher. Pç. Sant Feliu presents slightly higher values of L Aeq;10min during the day, probably due to the fact that this is the beginning of the pedestrianized zone in the old quarter, and still keeps some road traffic noise.

Finally, and detailing a global vision, a predominant trend in all four sensors can be seen. The noise decrease between lockdown and pre-lockdown nights is more significant than the reduction of noise contamination between prelockdown and lockdown, day and evening. In general, the hours that present a major noise reduction are from 11 p.m. to 7 a.m. if two pandemic and pre-pandemic periods are compared. There is also a slight noise decrease difference between the 2nd and 3rd stage in comparison with the 4th, 5th, and 6th stage. weekdays and weekend days. L day has been computed from L Aeq;1min , considering noise data between 7 a.m. and 9 p.m.. Moreover, L eve and L night have been calculated through L Aeq;1min measures, from 9 p.m. to 11 p.m. and from 11 p.m. to 7 a.m., respectively. The before the lockdown analysis (BLock in Fig. 4 ) starts on January 30th and finishes on March 12th. The during the lockdown analysis (DLock in Fig. 4 ) starts on March 13th and finishes on June 7th. One of the first conclusions to reach is that Points #2 and #4 are more noisy than Points #6 and #7. L day values decrease in all the sensors on the weekdays, but especially on the weekend days, where median values of less than 55 dBA can be found in Points #6 and #7. L eve values also present a decrease during the lockdown, despite, we should note, that Point #4 values keep high presumably due to the tribute to the medical professionals at 8 p.m. Finally, L night is the most different picture overall for Points #2 and #4, where the leisure noise and road traffic noise are substantially decreased due to the lockdown. Especially, Point #2 has the most significant L night noise reduction on the weekend, more than 10 dB, which is quite significant. It is also noticeable in Points #6 and #7, but assuming that the noise comes mainly from tourism and restaurants, it did not present high values even before the lockdown.

In this section, we compare the L eq;1hour during the 2020 lockdown (i.e., from March 13th to June 7th) with the same period of time throughout the three previous years (i.e., 2017, 2018, and 2019). The first and third rows of Fig. 5 show the L eq;1hour regarding Points #2 and #4 and Points #6 and #7, respectively, whereas the second and fourth rows show the difference between the L eq;1hour during the 2020 lockdown and an average of L eq;1hour throughout 2017, 2018, and 2019 during the same period of the year. In all cases, Fig. 5 plots the results sorted by hours and discriminating between weekdays and weekend days. Figure 5 shows a behavior for each sensor that can be correlated with the environment where it is placed. Point #2, which is placed in a night leisure area, shows a large difference between the 2020 lockdown period and previous years (i.e., difference in median values higher than 12 dB) at evening and night. Results match with those obtained in Fig. 4 previously. This conduct happens during weekends and with not so high difference median values (i.e., between 7 and 11 dB) also during weekdays. Point #4, which is located in a sort of urban highway where heavy traffic noise almost squelches all remaining noise, shows the lowest difference (i.e., difference in median values always lower than 8 dB) between the 2020 lockdown period and previous years. Point #6, which is placed in a quiet zone in the old quarter of the city, shows the highest difference (median values between 10 and 15 dB) with previous years at weekend evenings. Point #7, which is placed in a location with several restaurants, shows the highest difference with previous years (difference median values between 8 and 12 dB) at afternoon and dinner time mainly at weekends (in Catalonia, dinner time might span from 8 p.m. to 12 a.m.). Furthermore, the trend of noise behaviour during the day can be recognized in each sensor considering noise levels L eq;1hour . Even so, in Points #6 and #7, the difference levels have a more random component, suggesting that there is not a predominant FIG. 4 . (Color online) L day , L eve , and L night for the four sensors before and during the lockdown and on the week and on the weekend. BLock stands for before the lockdown and DLock stands for during the lockdown, as well as week stands for during the week and WEnd stands for during the weekend.

source of environmental noise but several and that they are also variable through hours and days.

In conclusion, there is a clear decrease in the noise in the street coming from any of the urban noise sources. The sensors presenting larger differences between the before and during the lockdown period are those that contain night leisure noise, and they also present larger differences with previous years.

Point #2 placed in a night activities area presents noise reduction differences from 5 dB (L day week) to 11 dB (L night weekend), between before and during lockdown noise levels. Similarly, data from Barcelona present an average decrease between 9 and 12 dB for the same typology of sound sources (Ajuntament de Barcelona, 2020) . In addition, Madrid data show a lower decrease, between 3.9 (L eve weekend) and 6.3 dB (L night weekend) in active areas (Asensio et al., 2020b) . In the London study (Aletta et al., 2020b) , sound level reduction was 6.6 dB on average between the same periods of 2019 and 2020 in active areas. Active areas are described as those where human activities are the main contributor, combined with traffic noise. Also, the active areas are comparable to where Points #6 and #7 are located. Points #6 and #7 present noise reduction differences from 3 (L day week) up to 10 dB (L night weekend).

In comparison, sensors with a heavy charge of traffic present lower differences in all the conducted measurements. For instance, Point #4 presents noise reduction differences between 2 (L night week) and 8 dB (L night weekend). Additionally, in Barcelona, noise reduction fluctuates from 2 to 6 dB in heavy traffic highways (Ajuntament de Barcelona, 2020) . Traffic noise measurements from Madrid show a similar decrease, between 3.9 (L eve week) and 7.4 dB (L night weekend) (Asensio et al., 2020b) . Moreover, in Milan and Rome, data show average differences between weekly noise levels in 2019 and 2020 of 7.3 dB (A) L den and 5.2 dB (A) L den , respectively (Alsina-Pagès et al., 2020a). Noise level reduction in traffic dominated areas at cities in northernmost areas are comparable. In Paris and London, sound level reduction has been 4.5 and 5.9 dB (A) L den on average, respectively (Aletta et al., 2020b; Bruitparif, 2020) .

Other studies have been done in Granada, Spain (Vida Manzano et al., 2021) and Stockholm (Sweden) (Rumpler, Venkataraman, and Goransson, 2021) . If we look at absolute noise reduction in Granada between 2019 and 2020, the study shows an impressive difference up to 30 dB (A) in some locations. Data from Stockholm presents a decrease in more than 4 dB (A) on the daily average in April 2020.

In conclusion, the sensors with the highest levels of L eq;1hour , mainly due to traffic noise, are those that experience the lowest differences with previous years. The leisure values decrease especially during the evening and the night, and mainly in the leisure areas. Reduction of night activities, like closing restaurants and bars, has a direct impact on noise contamination reduction mainly in center town areas, as is shown in Point #2.

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We acknowledge the funding from Secretaria d'Universitats i Recerca from the Departament d'Empresa i Coneixement (Generalitat de Catalunya) and Universitat Ramon Llull, under Grant No. 2020-URL-Proj-054 (R.M.A.-P.). We would like to acknowledge Ajuntament de Girona for the data samples provided from their WASN.