Risk analysis for preventive conservation of heritage collections in Mediterranean museums: case study of the museum of fine arts in Alexandria (Egypt)

Author:

Elnaggar Abdelrazek,Said Mahmoud,Kraševec Ida,Said Aly,Grau-Bove Josep,Moubarak Hosam

Abstract

AbstractThe impacts of climate change on heritage collections in Mediterranean museums are serious and lead to accelerated material degradation, loss of value, increasing conservation costs and climatisation. Climate change scenarios and simulation models have been developed to predict the extreme and average future environmental conditions and to assess the future long-term risks caused by global warming for museum buildings and their collections in Mediterranean countries, with Egypt being particularly at risk. This paper presents the results of the risk analysis of the indoor and outdoor environments in Alexandria Museum of Fine Arts (AMFA) in Egypt to provide an overview of the current situation of conservation and museum management and to provide evidence-based data to support decision-making regarding preventive conservation given the museum's limited funding, capacity and resources. Unfortunately, the air quality in the museum cannot be considered satisfactory and specific measures need to be taken to improve the level of air quality and museum and building management. The results enabled an assessment of indoor air quality and provided information on potential risks to the museum building and collections, including variations in temperature (T) and relative humidity (RH), concentrations of NO2, SO2, O3, CO2, acetic and formic acid and lighting conditions, as well as the location and management of the museum. The results necessitate the development of a preventive conservation plan to address the challenges associated with high T/RH fluctuations and pollution pressure. This requires more regular use of the HVAC system within certain T/RH set points as well as minimising light exposure and the use of UV-filtering glazing. Care should be taken to ensure that housekeeping and emergency preparedness reduce the damping and salt florescence in the museum building. However, dealing with the impact of climate change on indoor and outdoor environments and museum collections in Mediterranean museums requires a holistic and adaptive approach that includes joint collaboration, research, training and strategic planning to ensure the long-term preservation of valuable cultural heritage collections in different climates with customised adaptations based on local environmental conditions, resources and needs. Resilience planning should be region-specific and take into account the potential impacts of extreme weather events, sea level rise and other climate-related challenges.

Funder

Science, Technology & Innovation Funding Authority

"PrevAlex" for access to research infrastructures in the framework of the European H2020 project IPERION HS (Integrated Platform for the European Research Infrastructure ON Heritage Science

EU research project (GREENART, Horizon Europe research and innovation program under

Publisher

Springer Science and Business Media LLC

Reference104 articles.

1. The British Standards Institution. Conservation of Cultural Heritage – Specifications for location, construction and modification of buildings or rooms intended for the storage or use of heritage collections, 2018.

2. European Union. Report on the role of public arts and cultural institutions in the promotion of cultural diversity and intercultural dialogue. On Open Method of Coordination (OMC) Working Group. January 2014. European Agenda for Culture Work Plan for Culture 2011–2014. https://ec.europa.eu/assets/eac/culture/library/reports/201405-omc-diversity-dialogue_en.pdf. Accessed 14 Jan 2024.

3. Naguib SA. Heritage in Movement: rethinking cultural borrowings in the Mediterranean. Int J Herit Stud. 2008;14(5):467–80. https://doi.org/10.1080/13527250802284891.

4. Bertolin C. Preservation of cultural heritage and resources threatened by climate change”. Geosciences. 2019;9(6):250. https://doi.org/10.3390/geosciences9060250.

5. Bathiany S, Dakos V, Scheffer M, Lenton TM. Climate models predict increasing temperature variability in poor countries. Sci Adv. 2018;4:5. https://doi.org/10.1126/sciadv.aar5809.

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