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Development floral

Cutler and his group (247) have also isolated cytochalasin H (or paspalin PI) from a parasite fungus, (Phomopsis sp. (Diaporthe is the perfect state of the fungus) which is often associated with leaf spot and diebark conditions of certain plants. This compound showed marked inhibition of growth and floral development of tobacco plants at concentrations of 10 and 10 M. [Pg.188]

Table II. Delay in Floral Development of Several Plant Species Exposed Daily to 0.0 and 10 ppm of Ozone for the Complete Growing Period of Each Plant Species... Table II. Delay in Floral Development of Several Plant Species Exposed Daily to 0.0 and 10 ppm of Ozone for the Complete Growing Period of Each Plant Species...
Barabe D. and Lacroix C. (2001) Aspects of floral development in Philodendron Grandifolium and Philodendron megalo-phyllum (Araceae). Int. J. Plant Sci. 162(1), 47-57. [Pg.4042]

Finally Louis Ronse De Craene (Chapter 12) demonstrates on floral developmental evidence that petals of Napoleonaea (Lecythidaceae) represent a true corolla and not staminodes as previously suggested. This study also shows the value of comparative floral development in interpreting morphological structures. [Pg.6]

Tandre, K., Albert, V. A., Sundas, A. and Engstrom, P. (1995). Conifer homologues to genes that control floral development in angiosperms. Plant Molecular Biology, 27,69-78. [Pg.44]

Endress, P. K. (2003). Early floral development and nature of the calyptra in Eupomatiaceae (Magnoliales). International Journal of Plant Sciences, 164,489-503. [Pg.115]

Iwamoto, A., Shimizu, A. and Ohba, H. (2003). Floral development and phyUotactic variation in Ceratophyllum demersum (CeratophyUaceae). American Journal of Botany, 90,1124-1130. [Pg.116]

Doust, A. N. and Drinnan, A. N. (2004). Floral development and molecular phylogeny support the generic status of Tasmannia (Winteraceae). American Journal of Botany, 91,321-331. [Pg.134]

Floral development and morphology of Vochysiaceae. I. The structure of the gynoecium. American Journal of Botany, 90,1533-1547. [Pg.137]

Prenner, G. (2004). Floral development in Polygala myrtifolia (Polygalaceae) and its similarities with Leguminosae. Plant Systematics and Evolution, 249, 67-76. [Pg.138]

Prenner, G. and KUtgaard, B. B. (2008). Towards unlocking the deep nodes of Leguminosae Floral development... [Pg.138]

Cheung, M. and Sattler, R. (1967). Early floral development of Lythrum salicaria. Canadian Journal of Botany, 45,1609-1618. [Pg.151]

Erbar, C. and Leins, P. (1997). Different patterns of floral development in whorled flowers, exemplified by Apiaceae and Brassicaceae. International Journal of Plant Sciences, 158, S49-S64. [Pg.152]

Hill, J. P. and Lord, E. M. (1989). Floral development in Arabidopsis thaliana a comparison of the wild type and the homeotic pistiUata mutant. Canadian Journal of Botany, 67,2922-2936. [Pg.152]

Prenner, G. (2004a). Floral development in Daviesia cordata (Leguminosae Papilionoideae MirbeUeae) and its systematic implications. Australian Journal of Botany, 52,285-291. [Pg.153]

Sattler, R. (1972b). Centrifugal primordial inception in floral development. Advances in Plant Morphology, 1972, 170-178. [Pg.154]

Tucker, S. C. (1984). Evolutionary lability of symmetry in early floral development. International Journal of Plant Sciences, 160 (6 Supplement), S25-S39. [Pg.154]

Special mucilage cells (for term, see Matthews and Endress, 2006) are present in sepals, petals and gynoecium (Fig 8.9H, I). Because of the poor preservation of the herbarium material used, it is unclear whether they are in the epidermal or subepidermal or even deeper cell layers of the perianth organs. Dining floral development these cells appear successively, from the sepals to the ovules. In the gynoecium they are present only after anthesis and last in the outer integument of the developing seeds (compare Fig 8.9H and I). [Pg.200]

E. (1991). Morphological studies in Zygophyllaceae. I. The floral development and vascular anatomy of Nitraria retusa. American Journal of Botany, 78,1438-1448. [Pg.215]

Schonenberger, J. and Grenhagen, A. (2005). Early floral development and androecium organization in Fouquieriaceae (Ericales). Plant Systematics and Evolution, 254, 233-249. [Pg.216]

D. A. (2004). Comparative floral development and androecium structure in Malvoideae (Malvaceae... [Pg.216]

Juncosa, A. M. (1988). Floral development and character evolution in Rhizophoraceae. pp. 83-101 in Leins R, Tucker S. C. and Endress P. K. (eds.), Aspects of Floral Development. Berlin, Stuttgart, Vaduz, Liechtenstein Cramer. [Pg.235]

Freuden stein, ]. V. (2006). Patterns of anomalous floral development in the Asian Passiflora (subgenus Decaloba supersection Disemmd). American Journal of Botany, 93, 620-636. [Pg.235]

Orlovich, D. A., Drinnan, A. N. andLadiges, P. Y. (1999). Floral development in Melaleuca and Callistemon (Myrtaceae). Australian Systematic Botany, 11,689-710. [Pg.235]

G6mez-Acevedo, S. L., Magalldn, S. and Rico-Arce, L. (2007). Floral development in three species of Acacia (Leguminosae, Mimosoideae). Australian Journal of Botany, 55,30-41. [Pg.275]

See other pages where Development floral is mentioned: [Pg.3]    [Pg.451]    [Pg.20]    [Pg.36]    [Pg.505]    [Pg.423]    [Pg.277]    [Pg.100]    [Pg.353]    [Pg.540]    [Pg.100]    [Pg.2806]    [Pg.41]    [Pg.132]    [Pg.138]    [Pg.142]    [Pg.153]    [Pg.154]    [Pg.176]    [Pg.177]    [Pg.198]    [Pg.230]    [Pg.268]   
See also in sourсe #XX -- [ Pg.3 , Pg.6 , Pg.25 , Pg.142 , Pg.176 , Pg.198 , Pg.200 , Pg.204 , Pg.220 , Pg.230 , Pg.239 , Pg.244 , Pg.258 , Pg.268 , Pg.282 , Pg.292 , Pg.293 ]



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