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Triticum

Graswurzel, /. couch grass Agropyron repent)" Pharm.) triticum grass root. [Pg.193]

Triticum vulgere Wheat bran phenol 5-nonadecylresorcinol N.W. Australia... [Pg.420]

Triticum aestivum TC151917 X56011 243fdKqyyhnllnKKglltsdq269 238fdnayytnlmsqKgllhsdq257 (http // PO. isb-sib.ch/) (Rebmann et al., 1991)... [Pg.209]

Salt treatment (mol m" ) Triticum aestivum cv. Chinese Spring Amphidiploid Triticum aestivum cv. Ciano 79 Thinopyrum bessarabicum"... [Pg.109]

Amphidiploid Triticum aestivum cv. Chinese Spring x Thinopyrum bessarabicum. "Leaves of the perennial are not strictly comparable with those of the annuals. [Pg.109]

Gorham, J., Forster, B.P., Budrewich, E., Wyn Jones, R.G., Miller, T.E. Law, C.N. (1986). Salt tolerance in the triticaceae - solute accumulation and distribution in an amphidiploid derived from Triticum aestivum c.v. Chinese Spring and Thinopyrum bessarabicum. Journal of Experimental Botany, 37, 1435-49. [Pg.112]

Jones, H., Tomos, A.D., Leigh, R.A. Wyn Jones, R.G. (1983). Water relation parameters of epidermal and cortical cells in the primary root of Triticum aestivum L. Planta, 158, 230-6. [Pg.112]

Fig. 4. K/Na ratios and (Na + K) concentrations in sap from leaves of disomic D genome substitution lines in Triticum turgidum cv. Langdon grown in NaCl (150 mol m plus CaCl2 at 7.5 mol m ). Data of Gorham etal. (1987)... Fig. 4. K/Na ratios and (Na + K) concentrations in sap from leaves of disomic D genome substitution lines in Triticum turgidum cv. Langdon grown in NaCl (150 mol m plus CaCl2 at 7.5 mol m ). Data of Gorham etal. (1987)...
Forster, B.P. Miller, T.E. (1985). 5B deficient hybrid between Triticum aestivum and Agropyron junceum. Cereal Research Communications, 13, 93-5. [Pg.232]

Schafer W, H Sandermann (1988) Metabolism of pentachlorophenol in cell suspension cultures of wheat (Triticum aestivum L.). Tetrachlorocatecol as a primary product. J Agric Food Chem 36 370-377. [Pg.617]

U. Basu, A. Basu, and G. J. Taylor, Differential exudation of polypeptides by roots of aluminum-resistant and aluminum-sensitive cultivars of Triticum aestivum L. in re.spon.se to aluminum stress. Plant Physiol. 706 151 (1994). [Pg.35]

E. Delhaize, P. R. Ryan, and P. J. Randall, Aluminum tolerance in wheat (Triticum aestivum L.) 11. Aluminum-stimulated excretion of malic acid from root apices. Plant Physiol. 103 695 (1993). [Pg.91]

Y. C. Chang, J. F. Ma, and H. Matsumoto, Mechanisms of Al-induced iron chlorosis in wheat (Triticum ae.stivum). Al-inhibited biosynthesis and. secretion of phyto-siderophore. Physiol. Plant. 102 9 (1998). [Pg.92]

Another limitation to the studies in Table 1 is the small number of plant species tested. Primarily monocotyledonous plants have been studied, although McClure et al. (26) found ferulic acid inhibitory in soybean. The restriction of studies to monocots is probably because the mechanism of mineral absorption has been more fully elucidated with monocots. Harper and Balke (32) reported some minor differences in the inhibition of K+ absorption by salicylic acid among oats (Avena sativa L.), wheat (Triticum aestlvum L.), barley, and maize roots. [Pg.168]

Rye (Secale cereale L.) and Wheat Triticum aestivum L.) Mulch The Suppression of Certain Broadleaved Weeds and the Isolation and Identification of Phytotoxins... [Pg.243]

Secale cereale (rye) Zea mays (maize) Sorghum bicolor (sorghum) Triticum aestivum (wheat)... [Pg.302]

Material required OCT and OCM setups, pulsed GMF with pulse duration 0.1 s and maximum amplitude 5 mT, wheat seeds (Triticum L.) Moskovskaya-35, barley seeds (Hordeum L.) Zaozersky-85, long-fibred flax seeds (Linum usitatissimum L.) and cucumber seeds (Cucumis sativus L.) Kustovoy. ... [Pg.99]

Only four plant species, i.e., Vicia faba, Allium cepa, Pisum sativum and Triticum turgidum, responded adequately to the Feulgen procedure, and were considered for use in the successive experiments. These species, together with the corresponding mutagenic compounds used and the mutagenicity tests adopted (see below in Sect. 2.4.) are listed in Table 4. [Pg.283]

The proteins that are of most interest in baking are the proteins from wheat. The wheat that is normally used is Triticum aestivum not Triticum durum which is used to make pasta. The distinguishing property of wheat proteins is that some of them can develop into the viscoelastic mass known as gluten. The only other grain that has... [Pg.32]

Wheat, Triticum aestivum from sludge-amended soil (19.4 mg Ni/kg DW soil) vs. nonsludge amended soil Lowbush blueberry, Vaccinium angustifolium leaf various distances from nickel smelter... [Pg.472]

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Allelopathic interactions of Triticum aestivum

From Triticum aestivum

Triticum BBI

Triticum BBIs

Triticum Tritin

Triticum aestivum

Triticum aestivum L.

Triticum dicoccoides

Triticum dicoccum

Triticum durum

Triticum medicago

Triticum monococcum

Triticum sativum

Triticum species

Triticum spelta

Triticum spp

Triticum tauschii

Triticum turgidum

Triticum vulgare

Triticum vulgaris

Triticum vulgaris lectin

Wheat Triticum aestivum

Wheat Triticum durum

Wheat Triticum spp

Wheat Triticum vulgare

Wheat germ, Triticum vulgaris, lectin

Wheat, Triticum

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