M. Abellana, V. Sanchis, and A. J. Ramos, Effect of water activity and temperature on growth of three Penicillium species and Aspergillus flavus on a sponge cake analogue, Int. J. Food Microbiol, vol.71, pp.151-157, 2001.

A. Barata, M. Malfeito-ferreira, and V. Loureiro, The microbial ecology of wine grape berries, Int. J. Food Microbiol, vol.153, pp.243-259, 2012.

J. C. Barbe, G. De-revel, A. Joyeux, A. Bertrand, and A. Lonvaud-funel, Role of botrytized grape micro-organisms in SO2 binding phenomena, J. Appl. Microbiol, vol.90, pp.34-42, 2001.

B. Bois, Cartography of agroclimatic indices at mesoscale level -Methodology and case study of Bordeaux winegrowing area. Implications on vine development and fruit ripening, Université Bordeaux, vol.1, 2007.
URL : https://hal.archives-ouvertes.fr/tel-00695507

S. W. Burrage, Micro-climate at the leaf surface, 1971.

T. Preece and . Ecol,

N. ?ade?, J. Zupan, and P. Raspor, The effect of fungicides on yeast communities associated with grape berries, FEMS Yeast Res, vol.10, pp.619-630, 2010.

A. T. Classen, S. I. Boyle, K. E. Haskins, S. T. Overby, and S. C. Hart, Community-level physiological profiles of bacteria and fungi: plate type and incubation temperature influences on contrasting soil, FEMS Microbiol. Ecol, vol.44, pp.319-328, 2003.

M. Combina, L. Mercado, P. Borgo, A. Elia, V. Jofré et al., Yeasts associated to Malbec grape berries from Mendoza, Argentina, J. Appl. Microbiol, vol.98, pp.1055-1061, 2005.

F. Comitini and M. Ciani, Influence of fungicide treatments on the occurrence of yeast flora associated with wine grapes, Ann. Microbiol, vol.58, pp.489-493, 2008.

S. Compant and F. Mathieu, Biocontrol of Major Grapevine Diseases: Leading Research (CABI), 2016.

S. Compant, B. Mitter, J. G. Colli-mull, H. Gangl, and A. Sessitsch, Endophytes of grapevine flowers, berries, and seeds: identification of cultivable bacteria, comparison with other plant parts, and visualization of niches of colonization, Microb. Ecol, vol.62, pp.188-197, 2011.

G. Cordero-bueso, T. Arroyo, A. Serrano, and V. E. , Influence of different floor management strategies of the vineyard on the natural yeast population associated with grape berries, Int. J. Food Microbiol, vol.148, pp.23-29, 2011.

C. Deytieux-belleau, L. Geny, J. Roudet, V. Mayet, B. Donèche et al., Grape berry skin features related to ontogenic resistance to Botrytis cinerea, Eur. J. Plant Pathol, vol.125, pp.551-563, 2009.

J. Dunbar, L. O. Ticknor, and C. R. Kuske, Phylogenetic Specificity and Reproducibility and New Method for Analysis of Terminal Restriction Fragment Profiles of 16S rRNA Genes from Bacterial Communities, Appl Env. Microbiol, vol.67, pp.190-197, 2001.

Y. Elad and A. Stewart, Microbial Control of Botrytis spp, Botrytis: Biology, Pathology and Control, pp.223-241, 2007.

A. Esteban, M. L. Abarca, M. R. Bragulat, and F. J. Cabañes, Effect of water activity on ochratoxin A production by Aspergillus niger aggregate species, Int. J. Food Microbiol, vol.108, pp.188-195, 2006.

M. Fermaud, C. Deytieux-belleau, J. Roudet, G. Darrieutort, and L. Geny, Water activity at the fruit surface: a potentiel indicator of grape berry susceptibility to Botrytis cinerea, Integrated Protection and Production in Viticulture. Breisgau, 2011.

G. H. Fleet, C. Prakitchaiwattana, G. Heard, and C. M. , The yeast ecology of wine grapes, 2002.

N. Fromin, J. Hamelin, S. Tarnawski, D. Roesti, K. Jourdain-miserez et al., Statistical analysis of denaturing gel electrophoresis (DGE) fingerprinting patterns, Environ. Microbiol, vol.4, pp.634-643, 2002.
URL : https://hal.archives-ouvertes.fr/hal-02126963

J. L. Garland, Analytical approaches to the characterization of samples of microbial communities using patterns of potential C source utilization, Soil Biol. Biochem, vol.28, pp.213-221, 1996.

V. Gayevskiy and M. R. Goddard, Geographic delineations of yeast communities and populations associated with vines and wines in New Zealand, ISME J, vol.6, pp.1281-1290, 2012.

B. Gibson, The effect of high sugar concentrations on the heat resistance of vegetative microorganisms, J. App. Bacteriol, vol.36, pp.365-376, 1973.

C. Grangeteau, C. Roullier-gall, S. Rousseaux, R. D. Gougeon, P. Schmitt-kopplin et al., Wine microbiology is driven by vineyard and winery anthropogenic factors, Microb Biotechnol, vol.10, pp.354-370, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01511052

H. Hong, A. Pruden, and K. F. Reardon, Comparison of CE-SSCP and DGGE for monitoring a complex microbial community remediating mine drainage, J. Microbiol. Methods, vol.69, pp.52-64, 2007.

H. Insam and A. Rangger, A new set of substrates proposed for community characterization in environmental samples, pp.259-260, 1997.

L. Koujima, H. Hayashi, K. Tomochika, A. Oklase, and Y. Kanemasa, Adaptional change in proline and water content of Staphylococcus aureus after alteration of environmental salt concentration, App. Environ. Microbiol, vol.35, pp.67-470, 1978.

C. P. Kurtzman and C. J. Robnett, Identification of clinically important ascomycetous yeasts based on nucleotide divergence in the 5' end of the large-subunit (26S) ribosomal DNA gene, J. Clin. Microbiol, vol.35, pp.1216-1223, 1997.

F. Lecourieux, C. Kappel, P. Pieri, J. Charon, J. Pillet et al., Dissecting the Biochemical and Transcriptomic Effects of a Locally Applied Heat Treatment on Developing Cabernet Sauvignon Grape Berries, Front Plant Sci, vol.31, p.53, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01602655

C. V. Leeuwen and G. Seguin, The concept of terroir in viticulture, J. Wine Res, vol.17, pp.1-10, 2006.

G. Martins, Communautés microbiennes de la baie de raisin : Incidence des facteurs biotiques et abiotiques, École doctorale des Sciences de la vie et de la santé, 2012.

G. Martins, C. Miot-sertier, B. Lauga, O. Claisse, A. Lonvaud-funel et al.,

I. Pomarède, Grape berry bacterial microbiota: Impact of the ripening process and the farming system, Int. J. Food Microbiol, vol.158, pp.93-100, 2012.

G. Martins, B. Lauga, C. Miot-sertier, A. Mercier, A. Lonvaud et al., Characterization of Epiphytic Bacterial Communities from Grapes, Leaves, Bark and Soil of Grapevine Plants Grown, and Their Relations, PLoS ONE, vol.8, p.73013, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01631851

G. Martins, J. Vallance, A. Mercier, W. Albertin, P. Stamatopoulos et al., Influence of the farming system on the epiphytic yeasts and yeast-like fungi colonizing grape berries during the ripening process, Int. J. Food Microbiol, vol.177, pp.21-28, 2014.

D. Martin, C. Grose, B. Fedrizzi, L. Stuart, A. Albright et al., Grape cluster microclimate influences the aroma composition of Sauvignon blanc wine, Food Chem, vol.1, pp.640-647, 2016.

R. J. Micheland, S. Dejean, S. Combes, L. Fortun-lamothe, R. J. Cauquil-l.-;-x-michelland et al., StatFingerprints: a friendly graphical interface program for processing and analysis of microbial fingerprint profiles, Mol. Ecol. Resour, vol.9, pp.396-401, 2009.

A. A. Nisiotou, K. Rantsiou, V. Iliopoulos, L. Cocolin, and G. E. Nychas, Bacterial species associated with sound and Botrytis-infected grapes from a Greek vineyard, Int. J. Food Microbiol, vol.145, pp.432-436, 2011.

G. E. Pereira, G. J. Pieri, P. Hilbert, G. Maucourt, M. Deborde et al., , 2006.

, Microclimate influence on mineral and metabolic profiles of grape berries, J Agric Food Chem, vol.54, pp.6765-75

P. Plaza, M. Sanchis, N. Teixido, and I. Vinas, Effect of water activity and temperature on germination and growth of Penicillium digitatum, P. italicum and Geotrichum candidum, J. Appl. Microbiol, vol.94, pp.549-554, 2003.

C. Prakitchaiwattana, G. Fleet, and G. Heard, Application and evaluation of denaturing gradient gel electrophoresis to analyse the yeast ecology of wine grapes, FEMS Yeast Res, vol.4, pp.865-877, 2004.

I. S. Pretorius, Tailoring wine yeast for the new millennium: novel approaches to the ancient art of winemaking, Yeast, vol.16, pp.675-729, 2000.

P. Raspor, D. M. Milek, J. Polanc, S. S. Mozina, and C. N. , Yeasts isolated from three varieties of grapes cultivated in different locations of the Dolenjska vine growing region, Slovenia. Int. J. Food Microbiol, vol.109, pp.97-102, 2006.

A. Rementeria, J. A. Rodriguez, A. Cadaval, R. Amenabar, J. R. Muguruza et al., Yeast associated with spontaneous fermentations of white wines from the "Txakoli de Bizkaia" region, North Spain). Int. J. Food Microbiol, vol.86, pp.201-207, 2003.

S. Rousseau and B. Doneche, Effects of water activity (aw)on the growth of some epiphytic microorganisms isolated from grape berry, Vitis, vol.40, pp.75-78, 2001.

A. Santos, A. Sánchez, and D. Marquina, Yeasts as biological agents to control Botrytis cinerea, Microbiol. Res, vol.159, pp.331-338, 2004.

F. Schmid, G. Moser, H. Müller, and G. Berg, Functional and Structural Microbial Diversity in Organic and Conventional Viticulture: Organic Farming Benefits Natural Biocontrol Agents, Appl Environ. Microbiol, vol.77, pp.2188-2191, 2011.

W. J. Scott, Water relations of food spoilage microorganisms, Adv. Food Res, vol.7, pp.83-127, 1957.

M. E. Setati, D. Jacobson, U. C. Andong, and F. Bauer, The Vineyard Yeast Microbiome, a Mixed Model Microbial Map, PLoS ONE, vol.7, p.52609, 2012.

M. Sipiczki, Metschnikowia Strains Isolated from Botrytized Grapes Antagonize Fungal and Bacterial Growth by Iron Depletion, Appl. Environ. Microbiol, vol.72, pp.6716-6724, 2006.

C. J. Smith, B. S. Danilowicz, A. K. Clear, F. J. Costello, B. Wilson et al., T-Align, a web-based tool for comparison of multiple terminal restriction fragment length polymorphism profiles, FEMS Microbiol. Ecol, vol.54, pp.375-380, 2005.

W. H. Sperber, Influence of Water Activity on Foodborne Bacteria -A Review, J. Food Protectioll, vol.46, pp.142-150, 1983.

A. Stephan, A. H. Meyer, and B. Schmid, Plant diversity affects culturable soil bacteria in experimental grassland communities, J. Ecol, vol.88, pp.988-998, 2000.

M. Tasin, C. Sicher, A. Zekiri, V. Simeone, and I. Pertot, Double role of Metschnikowia fructicola: biocontrol agent of Botrytis cinerea and repellent to Lobesia botrana, IOBCWPRS Bull, vol.43, pp.263-266, 2009.

M. W. Taylor, P. Tsai, N. Anfang, H. A. Ross, and M. R. Goddard, Pyrosequencing reveals regional differences in fruit-associated fungal communities, Environ. Microbiol, vol.16, 2014.

R. Torres, J. Usall, N. Teixido, M. Abadias, and I. Vinas, Liquid formulation of the biocontrol agent Candida sake by modifying water activity or adding protectants, J. Appl. Microbiol, vol.94, pp.330-339, 2003.

Y. Wang and P. Y. Qian, Conservative Fragments in Bacterial 16S rRNA Genes and Primer Design for 16S Ribosomal DNA Amplicons in Metagenomic Studies, PLoS ONE, vol.4, p.7401, 2009.

J. M. Whipps, Microbial interactions and biocontrol in the rhizosphere, J. Exp. Bot, vol.52, pp.487-511, 2001.

R. E. Wrolstad, T. E. Acree, E. A. Decker, M. H. Penner, D. S. Reid et al., Handbook of Food Analytical Chemistry, Water, Proteins, Enzymes, Lipids, and Carbohydrates, vol.1, 2005.

K. Zott, C. Miot-sertier, O. Claisse, A. Lonvaud-funel, and I. Masneuf-pomarede, Dynamics and diversity of non-Saccharomyces yeasts during the early stages in winemaking, Int. J. Food Microbiol, vol.125, pp.197-203, 2008.