A. Nevalainen and M. Seuri, Of microbes and men, Indoor Air, vol.15, pp.58-64, 2005.

K. F. Nielsen, G. Holm, L. P. Uttrup, and P. A. Nielsen, Mould growth on building materials under low water 539 activities. Influence of humidity and temperature on fungal growth and secondary metabolism, Int 540 Biodeterior Biodegrad, vol.54, pp.325-361, 2004.

S. E. Anagnost, Wood Decay, Fungi, Stain and Mold, 2011.

C. P. Hoang, K. A. Kinney, R. L. Corsi, and P. J. Szaniszlo, Resistance of green building materials to fungal 543 growth, Int Biodeterior Biodegrad, vol.64, pp.104-117, 2010.

T. Murtoniemi, M. Hirvonen, A. Nevalainen, and M. Suutari, The relation between growth of four 545 microbes on six different plasterboards and biological activity of spores, Indoor Air, vol.13, pp.65-546, 2003.

A. Pasanen, S. Rautiala, J. Kasanen, P. Raunio, J. Rantamäki et al., The Relationship 548 between Measured Moisture Conditions and Fungal Concentrations in Water-Damaged Building 549, Materials. Indoor Air, vol.10, pp.111-131, 2000.

V. W. Yang and C. A. Clausen, Antifungal effect of essential oils on southern yellow pine, Int Biodeterior 551 Biodegrad, vol.59, pp.302-308, 2007.

I. M. Ezeonu, D. L. Price, R. B. Simmons, S. A. Crow, and D. G. Ahearn, Fungal production of volatiles during 553 growth on fiberglass, Appl Environ Microbiol, vol.60, pp.4172-4175, 1994.

M. Klamer, E. Morsing, and T. Husemoen, Fungal growth on different insulation materials exposed to 555 different moisture regimes, Int Biodeterior Biodegrad, vol.54, pp.277-82, 2004.

P. Johansson, A. Ekstrand-tobin, T. Svensson, and G. Bok, Laboratory study to determine the critical 558 moisture level for mould growth on building materials, Int Biodeterior Biodegrad, vol.73, pp.23-32, 2012.

A. Standard, E24-06: Standard method of evaluating the resistance of evaluating the 561 resistance of wood product surfaces to mold growth, 2006.

A. International, ASTM D3273-12: Standard Test Method for Resistance to Growth of Mold 563 on the Surface of Interior Coatings in an Environmental Chamber, 2012.

, Plastics: Evaluation of the Action of 565 microorganisms, British Standards Institute. BSI EN ISO, vol.846, 1997.

S. Amziane, F. Collet, M. Lawrence, C. Magniont, V. Picandet et al., , p.567

R. Tc, BBM: characterisation testing of hemp shiv to determine the initial water content, 568 water absorption, dry density, particle size distribution and thermal conductivity, Mater Struct, vol.569, p.167, 2017.

C. Rode, R. H. Peuhkuri, L. H. Mortensen, K. K. Hansen, B. Time et al., Moisture 571 buffering of building materials, 2005.

, ISOBIO-Naturally High Performance Insulation, 2015.

F. Collet, S. Prétot, and C. Lanos, Hemp-Straw Composites: Thermal And Hygric Performances
URL : https://hal.archives-ouvertes.fr/hal-01696641

, Energy Procedia, vol.139, pp.294-300, 2017.

C. A. Clausen and V. W. Yang, Image analysis for mould and sapstain detection on wood, vol.577, p.2013

N. M. Garzón-barrero, M. A. Shirakawa, S. Brazolin, . De-barros, F. N. Pereira-rg-de et al., , p.579

H. Savastano, Evaluation of mold growth on sugarcane bagasse particleboards in natural 580 exposure and in accelerated test, Int Biodeterior Biodegrad, vol.115, pp.266-76, 2016.

J. Blaber and A. Antoniou, , 2018.

H. and L. , Airbus Group Innovations. Correli STC. Correli STC n.d, vol.585, 2018.

G. Besnard, F. Hild, and S. Roux, Finite-Element" Displacement Fields Analysis from Digital Images: 587 Application to Portevin-Le Châtelier Bands, Exp Mech, vol.46, pp.789-803, 2006.

T. C. Chu, W. F. Ranson, and M. A. Sutton, Applications of digital-image-correlation techniques to 590 experimental mechanics, Exp Mech, vol.25, pp.232-276, 1985.

M. Sutton, J. Orteu, and H. W. Schreier, Image Correlation for Shape, Motion and Deformation 592

. Measurements, Basic Concepts, Theory and Applications, 2009.

J. Leveau, L. , and B. , Sécurité microbiologique des procédés alimentaires. 595 Tech Ing Bioprocédés, 2001.

E. Heseltine and J. Rosen, Who guidelines for indoor air quality: 597 dampness and mould, 2009.

B. K. Stefanowski, S. F. Curling, and G. A. Ormondroyd, A rapid screening method to determine the 599 susceptibility of bio-based construction and insulation products to mould growth. Int Biodeterior 600, Biodegrad, vol.116, pp.124-156, 2017.

G. S. Griffith and L. Boddy, Fungal communities in attached ash (Fraxinus excelsior) twigs, Trans Br, p.602

, Mycol Soc, vol.91, pp.599-606, 1988.

Y. Li and L. Wadsö, Fungal activities of indoor moulds on wood as a function of relative humidity 604 during desorption and adsorption processes, Eng Life Sci, vol.13, 2013.

P. D. Sharma, Ecology and environment, 2012.

B. Botton, A. Breton, M. Fevre, P. Guy, J. P. Larpent et al., Moisissures utiles et nuisibles : 608 importance industrielle, 1985.

J. I. Pitt and A. D. Hocking, Fungi and Food Spoilage, p.610, 2009.

C. M. Visagie, J. Houbraken, J. C. Frisvad, S. Hong, C. Klaassen et al., Identification 611 and nomenclature of the genus Penicillium, Stud Mycol, vol.78, pp.343-71, 2014.

H. Teófilo and M. Ulloa, El reino de los hongos: Micología básica y aplicada. Mexico: 2 a Edición 614 Fondo de Cultura Económica-UNAM, 1998.

C. Thom and K. B. Raper, The Aspergillus glaucus group. U.S. Dept. of Agriculture, p.616, 1941.

P. Mitrovi? and R. Marinkovi?, Phoma lingam-a rapeseed parasite in Serbia. Proc 12th Intern 617 Rapeseed Congr, pp.217-219, 2007.

H. C. Smith and B. C. Sutton, Leptosphaeria maculans the ascogenous state of Phoma lingam, Trans Br, p.619
DOI : 10.1016/s0007-1536(64)80049-8

, Mycol Soc, vol.47, pp.80049-80057, 1964.

R. Travadon, Facteurs épidémiologiques contribuant à l'adaptation des populations de 621 Leptosphaeria maculans aux résistances spécifiques de Brassica napus : dispersion des 622 pycnidiospores et des ascospores et progression systémique du champignon

, Agrocampus-Ecole nationale supérieure d'agronomie de rennes, 2008.