Chrysothamnus

Parameter Calotropis procera Euphorbia lathyris Grindelia camporum Chrysothamnus pa... 

Chromolaena (thoroughwort) Chrysactinia (chrysactinia) Chrysoma (chrysoma) Chrysanthemum (daisy) Chrysogonum (chrysogonum) Chrysopsis (golden aster) Chrysothamnus (rabbit brush) Cichorium (chicory)... 

Flavonoid aglycones were identified from leaf surfaces of three species of Chrysothamnus, collected in Oregon (US) [13]. Among the compounds identified were many methoxy- and dimethoxy-flavonoids. It was shown that the flavonoid profiles have diagnostic value for taxonomy at species level, but no evidence was found in favour of inclusion of Chrysothamnus into Ericameria, as proposed from morphological similarities. 

Fresquez PR, Foxx TS, Naranjo L. 1996a. Uptake of strontium by Chamisa (Chrysothamnus nauseosus) shrub plants growing over a former liquid waste disposal site at Los Alamos National Laboratory Proceedings of the HSRCAVERC joint conference on the environment. Los Alamos, NM ... 

Flowers of the three main forage plants in the study site were collected and analyzed for radionuchdes (gamma-emitting nuchdes and tritium). These flowers came from salt cedar (Tamarix ramosissima), white sweet clover Melilotus albus), and rabbit brush Chrysothamnus nauseosus). Results from this study indicated that there were no signiflcant differences in the amounts of radionuclides found in the flowers of these three plants. Figure 8.2 shows a series of boxplots of the floral sample concentrations. Detailed results from these experiments can be found in Flaarmann [23]. 

Figure 8.2 Boxplots of the concentrations of radionuclides in flower samples of three plants Melilotus albus [Meal], Tamarix ramosissima [Tara], and Chrysothamnus nauseosus [Chna]). Each boxplot graphs the individual sample results, the median (shown as the middle horizontal line of the box), interquartile range (enclosed in the box), and twice the interquartile range (whiskers extend to twice the interquartile range).

Fresquez, P.R., Foxx, T.S. and Naranjo, L. (1995). Strontium concentrations in chamisa (Chrysothamnus nauseousus) shrub plants growing in a former liquid waste disposal area in Bayo Canyon. Los Alamos National Laboratory report LA-13050-MS. 

Me ester [54497-59-5]. (E)-Lachnophyllum ester. Occurs in Beilis perennis, Chrysothamnus nauseusuSy C. parryi, Conyza canadensis. Heterotheca grandifloris and Baccharis spp. Cryst. (pet. ether or EtOH). Mp 16-17°. 

Source Gvindelia camporum Greene and Chrysothamnus panioulatus (Gray) Hall... 

Source Chrysothamnus nauseosus (Pall.) Britt Mol. formula 20 22 4 Mol. wt. 336... 

Only a few aldehydes and ketones of this class have so far been met within woody portions of plants. Perillaldehyde (30) has been detected in turpentine oil of Pinus excelsa, Cuminaldehyde (67) has been isolated from the twig oil of Chrysothamnus nauseosa. The presence of menthone (68) in American turpentine oil and piperitone (69) and pulegone (70) in the resin from Shorea maranti have been reported (207, 275 vol. Ill c). Racemic carvone (71) has been found to occur in the heartwood of Bursera graveolens to the extent of 5% (120). From the roots of Pluchea odorata, 5-(angeloyloxy) carvotagetone (72) has been isolated (51). 

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