Agriculture Reference
In-Depth Information
Chone X (2001) Contribution a l'etude des terroirs de Bordeaux: Etude des deficits hydriques
moderes, de l'alimentation en azote et leurs effets sur le potentiel aromatique des raisins de
Vitis vinifera L. cv Sauvignon Blanc. Doctoral Thesis. Universite Victor Segalen Bordeaux 2
Chone X, Treogoat O, Van Leewen C, Dubourdieu D (2000) Vine water deficit: among the 3 ap-
plications of pressure chamber, stem water potential is the most sensitive indicator. J Intl des
Sciencesde la Vigne et du Vin 34(4):169-176
Chone X, Van Leewen C, Dubourdieu D, Gaudillere JP (2001) Stem water potential is a sensitive
indicator of grapevine water status. Ann Bot (Lond) 87:477-483
Cifre J, Bota J, Escalona J, Medrano H, Flexas J (2005) Physiological tools for irrigation sched-
uling in grapevine (
Vitis vinifera
L.). An open gate to improve water-use efficiency? Agric,
Ecosyst Environ 105:159-170
Clarke SJ, Hardie WJ, Rogiers SY (2010) Changes in susceptibility of grape berries to splitting are
related to impaired osmotic water uptake associated with losses in cell vitality. Aust J Grape
Wine Res 16:469-476
Clawson KL, Blad BL (1982) Infrared thermography for scheduling irrigation of corn. Agron J
74:311-316
Comitini F, Ferretti R, Clementi F, Mannazzu I, Ciani M (2005) Interactions between
Saccharo-
myces cerevisiae
and malolactic bacteria: preliminary characterization of a yeast proteinaceous
compound(s) active against
Oenococcus oeni
. J Appl Microbiol 99:105-111
Coombe BG (1973) The regulation of set and development of the grape berry. In: Wellensiek SJ
(ed) Symposium on growth regulators in fruit production. St. Paul, Minnesota & Long Ashton.
ISHS, Bristol, pp 261-273
Coombe BG (1992) Research on development and ripening of the grape berry. Am J Enol Vitic
43 (1):101-110
Davies C, Boss PK, Robinson SP (1997) Treatment of grape berries, a nonclimacteric fruit with a
synthetic auxin, retards ripening and alters the expression of developmentally regulated genes.
Plant Physiol 115(3):1155-1161
Dimkoou E, Ugliano M, Dieval J, Vidal S, Rauhut D, Jung R (2011) Impact of headspace oxygen
and closure on sulfur dioxide, color and hydrogen sulfide levels in a Riesling wine. Am J Enol
Vitic 62:261-269
Dokoozlian NK, Kliewer WM (1996) Influence of light on grape berry growth and composition
varies during fruit development. J Am Soc Hortic Sci 121(5):869-874
dos Santos TP, Lopez CM, Rodrigues ML, de Souza CR, Maroco JP, Pereira JS, Silva JR, Chaves
MM (2003) Partial rootzone drying: effects on growth and fruit quality of field grown grape-
vines (Vitis vinifera). Funct Plant Biol 30(6):663-671
Dry PR, Loveys BR, During H (2000a) Partial root drying of the rootzone of grape. I. Transient
changes in the shoot growth and gas exchange. Vitis 39(1):3-7
Dry PR, Loveys BR, During H (2000b) Partial root drying of the rootzone of grape. II. Changes in
the pattern of rootdevelopment. Vitis 39(1):9-12
du Toit M, Engelbrecht L, Lerm E, Krieger-Weber S (2011)
Lactobacillus
: the next generation of
malolactic fermentation starter cultures—an overview. Food Bioprocess Technol 4(6):876-
906. doi:10.1007/s11947-010-0448-8
Dunn GM, Martin SR (2007) A functional association in Vitis vinifera L. cv. Cabernet Sauvignon
between the extent of primary branching and the number of flowers formed per inflorescence.
Aust J Grape Wine Res 13:95-100
Elmer PAG, Michailides TJ (2004) Epidemiology of
Botrytis cinerea
in orchard and vine crops. In:
Elad Y, Williamson B, Tudzynski P, Delen N (eds) Botrytis: Biology, Pathol Control. Springer,
p 243-272
English JT, Kaps ML, Moore JF, Hill J, Nakova M (1993) Leaf removal for control of Botrytis
bunch rot of wine grapes in the mid western United States. Plant Dis 77(12):1224-1227
Farquhar GD, Ehleringer J, Hubick KT (1989) Carbon isotope discremination and photosynthesis.
Annu Rev Plant Physiol Plant Mol Biol 40:503-537
