Of microbes and men, Indoor Air, vol.15, pp.58-64, 2005. ,
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. ,
Wood Decay, Fungi, Stain and Mold, 2011. ,
Resistance of green building materials to fungal 543 growth, Int Biodeterior Biodegrad, vol.64, pp.104-117, 2010. ,
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. ,
The Relationship 548 between Measured Moisture Conditions and Fungal Concentrations in Water-Damaged Building 549, Materials. Indoor Air, vol.10, pp.111-131, 2000. ,
Antifungal effect of essential oils on southern yellow pine, Int Biodeterior 551 Biodegrad, vol.59, pp.302-308, 2007. ,
Fungal production of volatiles during 553 growth on fiberglass, Appl Environ Microbiol, vol.60, pp.4172-4175, 1994. ,
Fungal growth on different insulation materials exposed to 555 different moisture regimes, Int Biodeterior Biodegrad, vol.54, pp.277-82, 2004. ,
Laboratory study to determine the critical 558 moisture level for mould growth on building materials, Int Biodeterior Biodegrad, vol.73, pp.23-32, 2012. ,
E24-06: Standard method of evaluating the resistance of evaluating the 561 resistance of wood product surfaces to mold growth, 2006. ,
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.
, , p.567
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. ,
Moisture 571 buffering of building materials, 2005. ,
, ISOBIO-Naturally High Performance Insulation, 2015.
Hemp-Straw Composites: Thermal And Hygric Performances ,
URL : https://hal.archives-ouvertes.fr/hal-01696641
, Energy Procedia, vol.139, pp.294-300, 2017.
Image analysis for mould and sapstain detection on wood, vol.577, p.2013 ,
, , p.579
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. ,
, , 2018.
, Airbus Group Innovations. Correli STC. Correli STC n.d, vol.585, 2018.
Finite-Element" Displacement Fields Analysis from Digital Images: 587 Application to Portevin-Le Châtelier Bands, Exp Mech, vol.46, pp.789-803, 2006. ,
Applications of digital-image-correlation techniques to 590 experimental mechanics, Exp Mech, vol.25, pp.232-276, 1985. ,
Image Correlation for Shape, Motion and Deformation 592 ,
Basic Concepts, Theory and Applications, 2009. ,
Sécurité microbiologique des procédés alimentaires. 595 Tech Ing Bioprocédés, 2001. ,
Who guidelines for indoor air quality: 597 dampness and mould, 2009. ,
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. ,
Fungal communities in attached ash (Fraxinus excelsior) twigs, Trans Br, p.602 ,
, Mycol Soc, vol.91, pp.599-606, 1988.
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. ,
Ecology and environment, 2012. ,
Moisissures utiles et nuisibles : 608 importance industrielle, 1985. ,
Fungi and Food Spoilage, p.610, 2009. ,
Identification 611 and nomenclature of the genus Penicillium, Stud Mycol, vol.78, pp.343-71, 2014. ,
El reino de los hongos: Micología básica y aplicada. Mexico: 2 a Edición 614 Fondo de Cultura Económica-UNAM, 1998. ,
The Aspergillus glaucus group. U.S. Dept. of Agriculture, p.616, 1941. ,
Phoma lingam-a rapeseed parasite in Serbia. Proc 12th Intern 617 Rapeseed Congr, pp.217-219, 2007. ,
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.
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.