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Publications

1. Peer-reviewed articles (original works) corresponding author (*)

W. M. Kooli, T. Junier, M. Shakya, …, E. Joseph* & P. Junier* (2018). Remedial treatment of corroded iron objects by environmental Aeromonas isolates. Applied Environmental Microbiology, AEM-02042.

P. Letardi, M. Albini, E. Joseph. (2018). EIS measurements for treatments testing: the case of a bio-based method applied on outdoor bronze statues in Switzerland. ScienceOpen.

E. Joseph, M. Albelda, W.M. Kooli, L. Mathys, M. Monachon, J. Schröter, & P. Junier (2018). Stabilization of endangered heritage objects: call a microbial plumber! New Biotechnology, 44, S17.

M. Albini, L. Letardi, L. Mathys, Brambilla, J. Schröter, P. Junier & E. Joseph*. (2018). Comparison of a bio-based corrosion inhibitor versus benzotriazole on corroded copper surfaces. Corrosion Science, 143, 84-92.

M. Albelda Berenguer, M. Monachon, C. Jacquet, P. Junier, C. Rémazeilles, E.J. Schofield, E. Joseph* (2018). Biological oxidation of sulfur compounds in artificially degraded wood. International Biodeterioration and Biodegradation.https://doi.org/10.1016/j.ibiod.2018.06.009

Mushegian S. (2018). Metal art, microbial culture, ASBMB Today, 17 (4), 18-23. paperfront. Interview

L. Comensoli, J. Maillard, W.M. Kooli, P. Junier, E. Joseph. (2018). Iron Reduction Assays with Desulfitobacterium hafniense: Soluble Iron Phase, Solid Iron Phase and Corroded Coupons. Bio-protocol (open-access), Vol 8, 17.

W. Kooli, L. Comensoli, J. Maillard, M. Albini, A. Gelb, P. Junier*, E Joseph*. (2018). Bacterial iron reduction and biogenic mineral formation for the stabilisation of corroded iron objects. Scientific reports, 8(1), 764.

P. Junier*, E. Joseph. (2017). Microbial biotechnology approaches to mitigating the deterioration of construction and heritage materials. Microbial biotechnology, 10(5), 1145-1148.

L. Comensoli, J. Maillard, M. Albini, F. Sandoz, P. Junier, E. Joseph*. (2017). Use of bacteria to stabilize archaeological iron. Applied and Environmental Microbiology, 83:e03478-16.

M. Albini, C. Chiavari, E. Bernardi, C. Martini, L. Mathys, E. Joseph*. Evaluation of the performances of a biological treatment on tin-enriched bronze. Environmental Science and Pollution Research 2016, 1-10. doi:10.1007/s11356-016-7361-2E.

Domon Beuret, E. Joseph. Restauration de la statuette d'Osiris du MEN dans le cadre du projet CTI Biopatines. In Collections de l'Egypte ancienne. Musée d'ethnographie de Neuchâtel: Neuchâtel, 2016. In press.

M.Albini, C. Chiavari, E. Bernardi, C. Martini, L. Mathys, P. Letardi, P. Junier and E. Joseph*. Evaluation of the influence of alloying elements on the performances of a biological treatment.  In METAL 2016 Interim Meeting of the ICOM-CC Metal Working Group Conference Proceedings. New Delhi, India, September 16-20 2016. R. Menon, C. Chemello, A. Pandya (Eds.), International Council of Museums – Committee for Conservation (ICOM-CC) and Indira Gandhi National Centre for the Arts (IGNCA), 2016; ISBN: 979290124184, 306-313.

P. Letardi*, B. Ramírez-Barat, M. Albini, P. Traverso, E. Cano and E. Joseph. Corrosion characterisation of copper alloys and weathering steel used in outdoor sculpture and monuments in an urban-marine environment. In METAL 2016 Interim Meeting of the ICOM-CC Metal Working Group Conference Proceedings. New Delhi, India, September 16-20 2016.  R. Menon, C. Chemello, A. Pandya (Eds.), International Council of Museums – Committee for Conservation (ICOM-CC) and Indira Gandhi National Centre for the Arts (IGNCA), 2016; ISBN: 979290124184, 320-328.

E. Joseph*, P. Junier, M. Albini, P. Letardi, E. Domon Beuret, L. Brambilla, L. Mathys, C. Cevey, R. Bertholon. Biologically induced patina for metal built heritage. In Metalli in architettura. Atti del 31° convegno scienza e beni culturali, Bressanone, Italy, 30th June- 3rd July 2015. G. Biscontin, G. Driussi (Eds.), ARCADIA ricerche srl: Marghera, 2015; ISBN 9788895409191, 273-282.

M. Albini, L. Comensoli, L. Brambilla, E. Domon Beuret, W. Kooli, L. Mathys, P. Letardi and E. Joseph*. Innovative biological approaches for metal conservation. Materials and Corrosion 2015, doi: 10.1002/maco.201408168.

E. Joseph*, M. Albini, P. Letardi, E. Domon Beuret, L. Brambilla, L. Mathys, C. Cevey, R. Bertholon, D. Job, P. Junier. BIOPATINAS: Innovative biological patinas for copper-based artefacts. In Open Air Metal, Outdoor Metallic Sculpture from the XIXth to the Beginning of the XXth Century: Identification, Conservation, Restoration. A. Azéma, A. Texier, SFIIC - Section Française de l’Institut International de Conservation (Eds.), ICOMOS France, Paris, 2014; ISBN 9782905430182, 154-162.

E. Joseph*, P. Letardi, M. Albini, L. Comensoli, W. Kooli, L. Mathys, E. Domon Beuret, L. Brambilla, C. Cevey, R. Bertholon, D. Job, P. Junier. Innovative biological approaches for metal conservation. In EUROCORR 2014, European Corrosion Congress « Improving materials durabilty: from cultural heritage to industrial applications » Pisa, Italy, 8th-12th September 2014. DECHEMA e.V., Frankfurt and AIM – Associazione Italiana di Metallurgia, Milano, 2014; ISBN 9783897461598, 1-10.

E. Joseph*, P. Letardi, L. Comensoli, A. Simon, P. Junier, D. Job & M. Woerle. Assessment of a biological approach for the protection of copper alloys artefacts. In METAL 2013 Interim Meeting of the ICOM-CC Metal Working Group Conference Proceedings. Edinburgh, Scotland, 16th-20th September 2013. E. Hyslop, V. Gonzalez, L. Troalen, L. Wilson (Eds.), Historic Scotland, Edinburgh, and International Council of Museums, 2013; ISBN 9781849171427, 203-208.

E. Joseph*, A. Simon, R. Mazzeo, D. Job, M. Wörle. Spectroscopic characterization of an innovative biological treatment for corroded metal artefacts. Journal of Raman Spectroscopy 2012, 43, 1612-1616. 4 citations

E. Joseph*, A. Simon, S. Prati, M. Wörle, D. Job, R. Mazzeo. Development of an analytical procedure for evaluation of the protective behaviour of innovative fungal patinas on archaeological and artistic metal artefacts. Analytical and Bioanalytical Chemistry 2011, 399, 2899-2907. (Paper in forefront and cover image). 7 citations

E. Joseph*, S. Cario, A. Simon, M. Wörle, R. Mazzeo, P. Junier, D. Job. Protection of metal artefacts with the formation of metal-oxalates complexes by Beauveria bassiana. Frontiers in Microbiotechnology 2012, 2, 1-8. 4 citations

R. Mazzeo*, S. Bittner, D. Job, G. Farron, R. Fontinha, E. Joseph, P. Letardi, M. Mach, S. Prati, M. Salta, A. Simon. Development and Evaluation of New Treatments for Outdoor Bronze Monuments. In Conservation Science 2007, J. Townsend, L. Toniolo, F. Cappitelli (Eds.), Archetype publications: London, 2008; ISBN 9781904982340, 40-48. 3 citations

C. Di Francesco, M. Ragazzino, B. Ferriani, M. Matteini*, M. Realini, C. Conti, R. Mazzeo*, E. Joseph, S. Prati. Esperienze innovative e conferme nei trattamenti a base di ossalati solubili su superfici lapidee e leghe metalliche: intervento e monitoraggio nel cantiere del portale di Santa Maria delle Grazie a Milano. In Il consolidamento degli apparati architettonici e decorativi: conoscenze, orientamenti, esperienze. Atti del convegno di Studi Scienze e beni culturali, Bressanone, 10-13 luglio 2007. G. Biscontin, G. Driussi (Eds.), ARCADIA ricerche srl: Marghera, 2007; ISBN 9788895409115, 245-256. 2 citations

E. Joseph*, P. Letardi, R. Mazzeo, S. Prati, M. Vandini. Innovative Treatments for the Protection of Outdoor Bronze Monuments. In Metal 07: Interim Meeting of ICOM-CC Metal WG Amsterdam, 17-21 September 2007. C. Degrigny, et al. (Eds.), Rijksmuseum: Amsterdam, 2007; 71-77. 8 citations

E. Domon Beuret, L. Mathys, L. Brambilla, M. Albini, C. Cevey, R. Bertholon, P. Junier, E. Joseph*. Biopatines: des champignons au service des alliages cuivreux. In Restaurer l’ordinaire, exposer l’extraordinaire: du site au musée. XXVIIIes Journées des restaurateurs en archéologie organisées par l’Atelier de conservation-restauration du musée départemental Arles Antique et la société a-corros les 16 et 17 octobre 2014 au musée départemental Arles antique (bouches-du-Rhône). Cahier technique, n° 22. ARAAFU: Paris, 2015 ; ISBN 2-907465-24-4, 45-48.

 

2. Summary articles

E. Joseph*, D. Job, P. Letardi, R. Mazzeo, M. Wörle. Development and evaluation of an innovative biological treatment for the protection of metal artefacts. Bulletin of research on metal conservation BROMEC 2012, 33, 9.

E. Joseph*, D. Job, P. Junier, M. Wörle. MAIA: Microbes for Archaeological Iron Artefacts. Bulletin of research on metal conservation BROMEC 2013, 34, 5.

W. Kooli, P. Junier, E. Joseph*. Bacterial Iron Reduction Properties for Healing Corroded Iron Artefacts. Clinical Chemistry and Laboratory Medicine 2016, 54, 7, eA88–eA89.

L. Comensoli, P. Junier, E. Joseph*. Fungi to the Rescue of Archaeological Iron. Clinical Chemistry and Laboratory Medicine 2016, 54, 7, eA101.

 

3. Contributions to books

L. Comensoli, S. Bindschedler, P. Junier*, E. Joseph*. (2017). Iron and Fungal Physiology: A Review of Biotechnological Opportunities. In S. Sariaslani, & G. M. Gadd (Eds.), Advances in Applied Microbiology, volume 98, chapter 2 (pp. 31–60). 

E. Joseph*, S. Bindschedler, M. Albini, L. Comensoli, W. Kooli, L. Mathys. (2017). Chapter 35 Microorganisms for Safeguarding Cultural Heritage. In The Fungal Community: Its Organization and Role in the Ecosystem, Fourth Edition (pp. 509-518). CRC Press.