Agriculture Reference
In-Depth Information
Edelstein, M. (2004). Grafting vegetable crop plants Pros and Cons. Acta Horticulturae 65.
FAO (2001). Climate variability and change A challenge for sustainable agricultural production.
Committee on Agriculture, Sixteenth Session Report, 26-30 March, 2001. Rome, Italy.
FAO (2009). Global Agriculture towards 2050. Issues brief. High level expert forum. Rome,
12-13 October 2009.
www.fao.org/wsfs/forum2050/wsfs-background-documents/hlef-is-
sues-briefs/en/Accessed March 2010.
FAOSTAT (2010). Crop production. faostat. fao. org/site/567/default. aspx#ancor Accessed Au-
gust 2010.
Firon, N., Shaked, R., Peet, M. M., Phari, D. M., Zamsk, E., Rosenfeld, K., Althan, L., & Press-
man, N. E. (2006). Pollen Grains of Heat Tolerant Tomato Cultivars Retain Higher Carbo-
hydrate Concentration Under Heat Stress Conditions. Scientia Horticulturae: 109, 212-217.
Flowers, T. J. (2004). Improving crop salt tolerance. J Exp Bot 55, 307-319.
Foolad, M. R. (2004). Recent advances in genetics of salt tolerance in tomato. Plant Cell Tissue
Organ Culture 76:101-119.
Foolad, M. R., & Jones, R. A. (1991). Genetic analysis of salt tolerance during germination in
Lycopersicon
. Theor. Appl. Genet. 81, 321-326.
Ghassemi, F., Jakeman, A. J. & Nix, H. A. (1995) Salinisation of land and water resources: hu-
man causes, extent management and case studies. Canberra, Australia, the Australian National
University, Wallingford, Oxon, UK: CAB International, Wallingford, England. 526.
Goodstal, F., Kohler, G., Randall, L., Bloom, A., & D St., Clair. (2005). A major QTL intro-
gressed from wild
Lycopersicon hirsutum
confers chilling tolerance to cultivated tomato (
Ly-
copersicon esculentum
). Theoretical and Applied Genetics 111, 898-905.
Hu, W. H., Zhou, Y. D., Du, Y. S., Xia, X. J. & Yu, J. Q. (2006). Differential response of pho-
tosynthesis in greenhouse and field ecotypes of tomato to long-term chilling under low light.
Journal of Plant Physiology163, 1238-1246.
IPCC (2001). Climate change 2001 Impacts, adaptation and vulnerability. Intergovernmental
Panel on Climate Change. New York, USA.
Kawase, M. (1981). Anatomical and morphological adaptation of plants to water logging. Hort
Science 16, 30-34.
Kuo, D. G., Tsay, J. S., Chen, B. W. & Lin, P. Y. (1982). Screening for flooding tolerance in the
genus
Lycopersicon
. Hort Science 17(1), 76-78.
Lutts, S., Kinet, J. M., & Bouharmont, J. (1995). Changes in plant response to NaCl during
development of rice (Oryzasativa L.) varieties differing in salinity resistance. Journal of Ex-
perimental Botany, 46, 1843-1852.
Maldonado, C., Squeo, F. A., & Ibacache, E. (2003). Phenotypic response of
Lycopersicon
chilense
to water deficit. Revista ChilenaHistoria Natural 76, 129-137.
Matsubara, S. (1989). Studies on salt tolerance of vegetables-3. Salt tolerance of rootstocks.
Agric Bull, Okayama Univ 73, 17-25.
Metwally, E., El-Zawily, A., Hassan, N., & Zanata, O. (1996). Inheritance of fruit set and yields
of tomato under high temperature conditions in Egypt. First Egypt-Hung. Hort Conference,
Vol I. 112-122.
Midmore, D. J., Roan, Y. C. & Wu, D. L. (1997). Management practices to improve lowland
subtropical summer tomato production: yields, economic returns and risk. Exptl Agric
33:125-137.
