Agriculture Reference
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[98] Southey J M., Archer E. The effect of rootstock cultivar on grapevine root distribution
and density. In: VAN ZYL, J.L. The grapevine root and its environment 1988. Dep.Ag‐
ric. Water Supply, Pretoria, South Africa, 57-73.
[99] Stevens R M., Harvey G. Aspanall D. Grapevine growth of sholte and fruit linearly
correlate with water stress indices based on root-weighted soil matric potential.
Australian Journal of Grape and Wine Research 1995; 1(1) 58-66.
[100] Swanepoel J J., Southey J M. The Influence of Rootstock on the Rooting Pattern of the
Grapevine. South African Journal of Enology and Viticulture 1989; 10 (1) 23-28.
[101] Tagliavini M., Rombola A D. Iron deficiency and chlorosis in orchard and vineyard
ecosystems. European Journal of Agronomy 2001; 15 (2) 71-92.
[102] Tomás M., Medrano H., Pou A., Escalona J M., Martorell S., Ribsa-Carbo M., Flexas J.
Water-use efficiency in grapevine cultivar grown under controlled comditions: effects
of water stress at the leaf and whole plant level. Australian Journal of Grape and Wine
Research 2012; 18 (2) 164-172.
[103] Vandeleur R K., Mayo G., Shelden M C., Ciliham M., Kaiser B N., Tyerman S D. The
role of PIP aquaporins in water transport through roots: diurnal and drought stress
responses reveal different strategies between isohydric and anisohydric cultivars of
grapevine. Plant Physiology 2009; 149 445-460.
[104] Van Leeuwen C., Tregoat O., Choné X., Bois B., Pernet D., Gaudillére J-P. Vine water
status is a key factor in grape ripening and vintage quality for red Bordeaux wine. How
can it be assessed for vineyard management purpose? Journal International Science de
la Vigne et du Vin 2009; 43 (3) 121-134.
[105] Varanini Z., Maggioni A. Iron reduction and uptake by grapevine roots. Journal of Plant
Nutrition 1982; 5 (4-7) 521-529.
[106] White R E. Understanding vineyards soils. New York: Oxford University Press; 2009
pp. 230.
[107] Williams L E., Smith R.J. The effect of rootstock on the partitioning of dry weight,
nitrogen and potassium, and root distribution of Cabernet Sauvignon grapevines.
American Journal of Enology and Viticulture 1991; 42 (2) 118-121.
[108] Winter S R., Musick J T., Porter K B. Evaluation of screeing techniques for breeding
drought resistant winter wheat. Crop Science 1988; 28 (3) 512-516.
[109] Zhang G M., Luo G G., Wang R H., Wang J., Himerlick D G. Growth and developmental
responses of seeded and seedless grape berries to shoot girdling. Journal of American
Society of Horticultural Science 2003; 128 316-323.
[110] Zlatev Z., Lidon F C. An overview on drought induced changes in plant growth, water
relations and photosynthesis. Emirates Journal of Food and Agriculture 2012; 24 (1)
57-72.
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