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Plants plants

Component planting planting planting planting planting planting... [Pg.415]

Chemical ecology. It has been generally accepted that many of the so-called "secondary metabolites" play a role in the interrelationship of plant - plants, plant - microbes, and plant - herbivores (20-23). In a series of experiments we have sought to determine whether lupin alkaloids are important in an ecological context. [Pg.525]

The nature of allelochemicals the mechanisms and rates of their emission from the aggressive plant their fate in the soil and their uptake, translocation, and mode of action within the receptive plant are all processes that should be studied. These processes will be discussed in the plant-plant, plant-microorganism, plant-insect, and plant-animal sections of this book. In describing the allelopathic phenomenon, understanding how the aggressive plant (the donor) avoids autotoxicity is also essential. [Pg.613]

The isolation of JH III from C. iria and C. aromaticus, the high concentrations found in C. iria throughout development and the extraction of structurally similar compounds from closely related species as well as other plant species suggests that this compound may play an important biological function(s) in these plants. At this point, the nature of this role is speculative however, it is possible that JH III may be involved in plant-insect, plant-plant, plant-nematode or plant-fungal interactions. [Pg.400]

Lignans are widespread secondary metabolites in plant kingdom. They occur in many parts of plants especially wood, resin and bark trees [11]. They are also found in many roots, leaves, flowers, fruits and seeds [61]. There is an evidence that lignans play a major role in plant-plant, plant-insect and plant-fungus interactions [11]. The chemical structures of... [Pg.503]

Percent of Delivered-Equipment Cost for Solids Solids-fluids Huids Processing Processing Processing Plant Plant Plant ... [Pg.501]

Temp. plant plant plant (mm) rate flower... [Pg.120]

Engine Axle Tranemleelon Plant Plant Plant... [Pg.76]

The demand for DRI varies depending on local market conditions. In industrialized countries, DRI primarily is used as a supplement to scrap for controlling residual elements in electric arc furnace steelmaking. In regions where scrap is scarce, DRI is used as a replacement in production of all grades of steel. In 1993, Latin America produced 9.4 X 10 t (39.3%) of the world s DRI. Middle East/North Africa produced 6.1 X 10 t (25.6%), Asia/Oceania produced 4.4 X 10 t (18.4%), and CIS/Eastem Europe produced 1.7 x 10 t (7.1%). North America produced 1.2 x 10 t (5.0%) Africa, 0.9 x 10 t (3.8%) and Western Europe, 0.2 x 10 t (0.8%) (1). Nearly 79% of the DRI produced is consumed in steel mills adjacent to the DR plants called captive plants. Plants which are designed to sell and ship DRI on the open market are called merchant plants. [Pg.431]

In addition to the isolation of steroid raw materials from whole plants, plant tissue cultures have been iavestigated as an alternative source of these steroids. Despite many advances (128), there are no iadustrial appHcatioas of plant cell cultures for the production of steroids (129,130). [Pg.427]

Kletz, T. A. (1985). Inherently Safer Plants. Plant/Of>erations Progress 4, 3 (July), 164-67. [Pg.142]

Smith, B.N. and Epstein, S. 1971 Two categories of ratios for higher plants. Plant... [Pg.87]

Jones, H.G. (1983). Estimation of an effective soil water potential at the root surface of transpiring plants. Plant, Cell and Environment, 6, 671-4. [Pg.91]

Bryant, J.A. (1988). Putting genes into plants. Plants Today, 1, 23-8. [Pg.152]

Altschuler, M. Mascarenhas, J.P. (1982). Heat shock proteins and effects of heat shock in plants. Plant Molecular Biology, 1, 103-15. [Pg.174]

Roberts, J.K.M., Andrade, F.H. Anderson, I.C. (1985). Further evidence that cytoplasmic acidosis is a determinant of flooding intolerance in plants. Plant Physiology, 77, 492-4. [Pg.179]

Plant uptake is one of several routes by which an organic contaminant can enter man s food chain. The amount of uptake depends on plant species, concentration, depth of placement, soil type, temperature, moisture, and many other parameters. Translocation of the absorbed material into various plant parts will determine the degree of man s exposure—i.e., whether the material moves to an edible portion of the plant. Past experience with nonpolar chlorinated pesticides suggested optimal uptake conditions are achieved when the chemical is placed in a soil with low adsorptive capacity e.g., a sand), evenly distributed throughout the soil profile, and with oil producing plants. Plant experiments were conducted with one set of parameters that would be optimal for uptake and translocation. The uptake of two dioxins and one phenol (2,4-dichlorophenol (DCP)) from one soil was measured in soybean and oats (7). The application rates were DCP = 0.07 ppm, DCDD 0.10 ppm, and TCDD = 0.06 ppm. The specific activity of the com-... [Pg.109]

ISAACSON T, RONEN G, ZAMIR D and HIRSCHBERG J (2002) Cloning of tangerine from tomato reveals a carotenoid isomerase essential for production of 3-carotene and xanthophyUs in plants . Plant Cell, 14, 333-42. [Pg.276]

Dressel. J. Qual. Plant.-Plant Foods Hum. Nutr. 1976. 25. [Pg.148]

Tan, Y.A., Low, K.S., and Chong, C.L., Rapid determination of chlorophylls in vegetable oils by laser-based fluorometry, J. Sci. Food Agric., 66, 479, 1994. Bhattacharya, D. and Medlin, L., Algal phylogeny and the origin of land plants, Plant Physiol., 116, 9, 1998. [Pg.46]

Suzuki, Y. and Shioi, Y, Detection of chlorophyll breakdown products in the senscent leaves of higher plants. Plant Cell Physiol, 40, 909, 1999. [Pg.47]

Isaacson, T. et al.. Analysis in vitro of the enzyme CRTISO establishes a poly-cis-carotenoid biosynthesis pathway in plants. Plant Physiol. 136, 4246, 2004. [Pg.391]

Bird CR, Smith CJS, Ray JA, Moureau P, Bevan MJ, Birds AS, Hughes S, Morris PC, Grierson D, Schuch W (1988) The tomato polygalacturonase gene and ripening specific expression in trangenic plants. Plant Mol Biol 11 651-662... [Pg.396]


See other pages where Plants plants is mentioned: [Pg.211]    [Pg.406]    [Pg.69]    [Pg.147]    [Pg.304]    [Pg.1]    [Pg.263]    [Pg.2]    [Pg.791]    [Pg.381]    [Pg.161]    [Pg.197]    [Pg.29]    [Pg.555]    [Pg.185]    [Pg.2269]    [Pg.162]    [Pg.68]    [Pg.35]    [Pg.114]    [Pg.295]    [Pg.295]    [Pg.173]    [Pg.352]   
See also in sourсe #XX -- [ Pg.91 ]




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