Microclimate monitoring of Ariadne's house (Pompeii, Italy) for preventive conservation of fresco paintings

Background: Ariadne's house, located at the city center of ancient Pompeii, is of great archaeological value due to the fresco paintings decorating several rooms. In order to assess the risks for long-term conservation affecting the valuable mural paintings, 26 temperature data-loggers and 26 relative humidity data-loggers were located in four rooms of the house for the monitoring of ambient conditions. Results: Data recorded during 372 days were analyzed by means of graphical descriptive methods and analysis of variance (ANOVA). Results revealed an effect of the roof type and number of walls of the room. Excessive temperatures were observed during the summer in rooms covered with transparent roofs, and corrective actions were taken. Moreover, higher humidity values were recorded by sensors on the floor level. Conclusions: The present work provides guidelines about the type, number, calibration and position of thermohygrometric sensors recommended for the microclimate monitoring of mural paintings in outdoor or semi-confined environments. © 2012 Merello et al.; licensee Chemistry Central Ltd.This work was partially supported by the Spanish Government (Ministerio de Ciencia e Innovacion) under projects HAR2010-21944-C02-01 and HAR2010-21944-C02-02.Merello Giménez, P.; García Diego, FJ.; Zarzo Castelló, M. (2012). Microclimate monitoring of Ariadne's house (Pompeii, Italy) for preventive conservation of fresco paintings. Chemistry Central Journal. 6:145-161. https://doi.org/10.1186/1752-153X-6-145S1451616Ribera A, Olcina M, Ballester C: Pompeya Bajo Pompeya, las Excavaciones en la Casa de Ariadna. Valencia: Fundación MARQ; 2007.World Monuments Fund: World Monuments Watch: 100 Most Endangered Sites. New York: World Monuments Fund; 1996.Anter KF: Colours in Pompeiian cityscape: Adding pieces to the puzzle. Color Res Appl 2006,31(4):331–340.Harris J: Protecting Pompeii and the Italian heritage in 2012. http://www.i-italy.org/bloggers/18935/protecting-pompeii-and-italian-heritage-2012Augusti S: La Tecnica Dell’antica Pittura Parietale Pompeiana. Napoli: Gaetano Macchiaroli Editore; 1950.Miriello D, Barca D, Bloise A, Ciarallo A, Crisci GM, De Rose T, Gattuso C, Gazineo F, La Russa MF: Characterisation of archaeological mortars from Pompeii (Campania, Italy) and identification of construction phases by compositional data analysis. J Arch Sci 2010, 37:2207–2223.Castriota M, Cosco V, Barone T, De Santo G, Carafa P, Cazzanelli E: Micro-Raman characterizations of Pompei’s mortars. J Raman Spectrosc 2008,39(2):295–301.Maguregui M, Knuutinen U, Castro K, Madariaga JM: Raman spectroscopy as a tool to diagnose the impact and conservation state of Pompeian second and fourth style wall paintings exposed to diverse environments (House of Marcus Lucretius). J Raman Spectrosc 2010,41(11):1400–1409.Genestar C, Pons C, Más A: Analytical characterisation of ancient mortars from the archaeological Roman city of Pollentia (Balearic Islands, Spain). Anal Chim Acta 2006, 557:373–379.Duran A, Perez-Maqueda LA, Poyato J, Perez-Rodriguez JL: A thermal study approach to roman age wall painting mortars. J Therm Anal Calorim 2010,99(3):803–809.Pérez MC, García Diego F-J, Merello P, D’Antoni P, Fernández Navajas A, Ribera Lacomba A, Ferrazza L, Pérez Miralles J, Baró JL, Merce P, D’Antoni H, Curiel Esparza J: Ariadne’s house (Pompeii, Italy) wall paintings: a multidisciplinary study of its present state focused on a future restoration and preventive conservation. Mater Constr in pressBernardi A: Microclimate in the British Museum. London. Museum Manag Curat 1990, 9:169–182.Bernardi A, Camuffo D: Microclimate in the Chiericati Palace Municipal Museum. Vicenza. Museum Manag Curat 1995, 14:5–18.Camuffo D, Bernardi A, Sturaro G, Valentino A: The microclimate inside the Pollaiolo and Botticelli rooms in the Uffizi Gallery. Florence. J Cult Herit 2002, 3:155–161.La Gennusa M, Rizzo G, Scaccianoce G, Nicoletti F: Control of indoor environments in heritage buildings: Experimental measurements in an old Italian museum and proposal of a methodology. J Cult Herit 2005,6(2):147–155.Camuffo D, Sturaro G, Valentino A: Thermodynamic exchanges between the external boundary layer and the indoor microclimate at the Basilica of Santa Maria Maggiore, Rome, Italy: the problem of conservation of ancient works of art. Bound Lay Meteorol 1999, 92:243–262.Tabunschikov Y, Brodatch M: Indoor air climate requirements for Russian churches and cathedrals. Indoor Air 2004,14(Suppl 7):168–174.Loupa G, Charpantidou E, Kioutsioukis I, Rapsomanikis S: Indoor microclimate, ozone and nitrogen oxides in two medieval churches in Cyprus. Atmos Environ 2006, 40:7457–7466.Vuerich E, Malaspina F, Barazutti M, Georgiadis T, Nardino M: Indoor measurements of microclimate variables and ozone in the church of San Vincenzo (Monastery of Bassano Romano – Italy): a pilot study. Microchem J 2008, 88:218–223.García-Diego F-J, Zarzo M: Microclimate monitoring by multivariate statistical control: the renaissance frescoes of the cathedral of valencia (Spain). J Cult Herit 2010,11(3):339–344.Zarzo M, Fernández-Navajas A, García-Diego F-J: Long-term monitoring of fresco paintings in the Cathedral of Valencia (Spain) through humidity and temperature sensors in various locations for preventive conservation. Sensors 2011,11(9):8685–8710.Maekawa S, Lambert F, Meyer J: Environmental monitoring at Tiwanaku. Mater Res Soc Symp Proc 1995, 352:885–892.Lillie M, Smith R, Reed J, Inglis R: Southwest Scottish Crannogs: using in situ studies to assess preservation in wetland archaeological contexts. J Archaeol Sci 2008,35(7):1886–1900.Verdecchia F, Zoccatelli C, Norelli E, Miandro R: Integrated monitoring network for surface deformation in Capo Colonna archaeological area, Crotone. Italy. IAHS-AISH P 2010, 339:345–351.Nava S, Becherini F, Bernardi A, Bonazza A, Chiari M, García-Orellana I, Lucarelli F, Ludwig N, Migliori A, Sabbioni C, Udisti R, Valli G, Vecchi R: An integrated approach to assess air pollution threats to cultural heritage in a semi-confined environment: the case study of Michelozzo’s Courtyard in Florence (Italy). Sci Total Environ 2010,408(6):1403–1413.Hygrochron Temperature/Humidity Logger iButton with 8KB Data-Log Memory. Maxim Integrated Products. http://datasheets.maxim-ic.com/en/ds/DS1923.pdfTemperature Logger iButton with 8KB Data-Log Memory. Maxim Integrated Products. http://datasheets.maxim-ic.com/en/ds/DS1922L-DS1922T.pdfVisco G, Plattner SH, Fortini P, Di Giovanni S, Sammartino MP: Microclimate monitoring in the Carcer Tullianum: temporal and spatial correlation and gradients evidenced by multivariate analysis; first campaign. Chem Cent J 2012,6(Suppl 2):S11.UNI 10829: Works of Art of Historical Importance. Ambient Conditions for the Conservation. Measurement and Analysis. Milano: UNI Ente Nazionale Italiano di Unificazione; 1999.DM 10/2001: Atto di Indirizzo sui Criteri Tecnico-scientifici e Sugli Standard di Funzionamento e Sviluppo dei Musei. Ministero per i Beni e le Attività Culturali. Gazzeta Ufficiale della Repubblica Italiana (Official Bulletin of Italian Republica), Rome (Italy); 2001. DL 112/1998 art. 150 comma 6Camuffo D: Microclimate for Cultural Heritage. Amsterdam: Elsevier Science; 1998.ASTM E 104–02: Standard Practice for Maintaining Constant Relative Humidity by Means of Aqueous Solutions. West Conshohocken, PA: ASTM Intl; 2012.Statgraphics Software. http://www.statgraphics.ne