318
231.
Jung S., Variation antioxidant metabolism of young and
mature leaves of Arabidopsis thaliana subjected to drought //Plant Sci.,
2004, 166, p. 459-466
232.
Kaiser, W.M, Reversible inhibition of the Calvin cycle and
activation of the oxidative pentose phosphate cycle in isolated intact
chloroplasts by hydrogen peroxide // Planta , 1979,145, p. 377-382
233.
Kalefetoğlu T., Ekmekçi Y. The effects of drought on plants
and tolerance mechanisms // G.Ü. Bilimleri Dergisi, 2005, 18 (4), p.
723-740
234.
Kantety R.V., Zeng X., Bennetzen J.L., Zehr-Brent E. As-
sessment of genetic diversity in dent and popcorn (Zea mays L.) inbred
lines using inter-simple sequence repeat (ISSR) amplification // Mol.
Breed., 1995, v.1, p.365-373
235.
Kerepesi I. and Galiba G., Osmotic and salt stres-induced
alteration in soluble carbohydrate content in wheat seedlings // Crop Sci,
2000, 40, p.482-487
236.
Kessler B. Nucleic acids as factors in drought resistance of
higher plants // Recent Advan. Bot., 1961, p.1153-1159
237.
Kozlowski, T.T and Pallardy, S.G, Physiology of Woody
Plants , Academic Press , San Diego, 1997, p.496-498
238.
. Kudryavtsev AM, Martynov SP, Broggio M, Pukhalskiy
VA. Relevance of RAPD analysis for revealing phylogenetic relations-
hips between cultivars of durum wheat Triticum durum Desf //
Russian Journal of Genetics 39, 2003, p. 1043-1051
239.
Kuhlemeier C, Green P.J., Chua N.H. Regulation of
gene expression in higher plants // Annu Rev. Plant Physiol, 1987,
v.38, p.221-257
240.
Kulp K. Handbook of Cereal Science and Technology.
CRC, 2000, 790 p
241.
Kumar M.N.V., Kumar S.S., Ganesh M. Combining
ability studies for oil improvement in maize (Zea mays L.) // Crop
Res., 1999, v.18, p. 93-99
242.
Lambers, H., Chapin, F.S., Pons, T.L. Plant physiolo-
gical ecology. Berlin: Springer Verlag, 1998, 540 p
319
243.
Lasa J.M., Iqartua e., Ciudad F.J. et al. Morpho-
logical and aqronomical diversity patterns in the Spanish barley
core collection // Herdity, 2001, v. 13, p. 217-222
244.
Lauchli, A. Salt exclusion, an adaptation of legumes
for crops and pastures under saline conditions. New York: John
Wiley Publishing, 1984, 187 p
245.
Lee Ho S., Shung Lu H. Identification of heterotic
patterns with inbred line testers in maize // J. Agric. Res.
China, 1995, v.44, p. 242-250
246.
Lee Y., Choi Y.B., Suh J., Lee J. And Assmann
S.M., Abscisic acid – induced phosphoinositide turn over in
guard cell protoplasts of Vicia faba // Plant Physiol, 1996, 110,
p. 987-996
247.
Legesse B.W., Myburg A.A., Pixley K.V., Botha
A.M. Genetic diversity of African maize inbred lines revealed
by SSR markers // Hered., 2006, v. 18, p. 415-423
248.
Levitt J. Responses of plants to evironmental stres.
New York. Acad. Press. 1980, v.2, 607p
249.
Lichtenhaler, H.K., Vegetation stres: an introduction
to the stres concept in plants // J.Plant Physiol., 1996, 148, p.4 -
14
250.
Lima A.L.S., DaMatta, F.M., Pinheiro, H.A.,
Totola M.R. and Loureriro M.E., Photochemical responses
and oxidative stres in two clones of Coffea canephora under
water deficit conditions // Environ Exp. Bot, 2002, 47, p. 239-
247
251.
Lörz H., Wenzel G. Molecular Marker Systems in
Plant Breeding and Crop Improvement (Biotechnology in Agri-
culture and Forestry). Springer, 2007, p 478
252.
Lutts, S. Exogenous glycine betaine reduces sodium
accumulation in salt-stresed rice plants // Rice Res. Notes,
2000, No 25, p. 39-40
253.
Maas, E.V., Plant Growth Satges and Salinity, V.S.
Salinity Lab., USDA, Glenwood Drive, Riverside, 1992, 321 p.
320
254.
Maccaferri M., Sanguineti M.C., Donini P., Tube-
rosa R. Microsatellite analysis reveals a progressive widening
of the genetic basis in the elite durum wheat germplasm //
Theor. Appl. Genet., 2003, v.107, p.783-797
255.
Mani, S., Van de Cotte , B., Montagu, M.V. and Ver-
bruggen, N., Altered levels of praline dehydrogenase cause hyper-
sensitivity to praline and its analogs in Arabidopsis // Plant Physiol,
2002, 128, p.73-83
256.
Mansour, M.M.F., Changes in growth, osmotic potential
and cell permeability of wheat cultivars under salt stres. Literature
Update On Wheat, barley and Triticale // CIMMYT, 1994, vol. 1, 1, p.
515
257.
Mansour, M.M.F., Salama, K.H.A., Al-Mutawa, M.M.
Transport proteins and salt tolerance in plants // Plant Sci., 2003, 164,
p. 891-90
258.
Mansour, M.M.F., Stadelmann, O.Y., Solute Potential
and Cytoplasmic Viscosity in T. aestivum and H. vulgare under Salt
Stres. A comparison of Salt Resistant and Salt Sensitive Lines and
Cultivars // J. Plant Physiol., 1993, p.623-628
259.
Marcelis, L.F.M., Van Hooijdonk, J. Effect of salinity
on growth, water use and nutrient use in radish (Raphanus sativus
L.) // Plant Soil, 1999, No 215, p. 57-64
260.
Martre P., Morillon R., Barrieu F., North G.B. Nobel
P.S. and Chrispeels M.J. “Plasma membrane aquaporins play a
significant role during recovery from water deficit // Plant Physiol,
2002, 130, p. 2101-2110
261.
Maurel C. and Chrispees M.J. Aquaporins: a molecular
entry into plant water relations // Plant Physiol, 2001, v. 125, p.135-
138
262.
McKersie, B.D and Leshem, Y., Stres and Stres Coping in
Cultivated Plants , Kluwer Academic Publishers , Netherlands, 1994
263.
Mendoza M., Oyervides A., Lopez A. New maize cul-
tivars with agronomic potential for the humid tropics // Agronomia
Meso Americana, 2000, v. 11, p. 83-88
Dostları ilə paylaş: |