Terpenoids from the Genus Artemisia as Potential Pesticides
About: This article is published in ChemInform.The article was published on 1989-06-20. It has received 50 citations till now. The article focuses on the topics: Artemisia & Genus.
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TL;DR: A new challenge that exists for future plant scientists is to generate additional information on allelochemical mechanisms of release, selectivity and persistence, mode of action, and genetic regulation so as to further protect plant biodiversity and enhance weed management strategies in a variety of ecosystems.
Abstract: Allelopathy can be defined as an important mechanism of plant interference mediated by the addition of plant-produced secondary products to the soil rhizosphere. Allelochemicals are present in all types of plants and tissues and are released into the soil rhizosphere by a variety of mechanisms, including decomposition of residues, volatilization, and root exudation. Allelochemical structures and modes of action are diverse and may offer potential for the development of future herbicides. We have focused our review on a variety of weed and crop species that establish some form of potent allelopathic interference, either with other crops or weeds, in agricultural settings, in the managed landscape, or in naturalized settings. Recent research suggests that allelopathic properties can render one species more invasive to native species and thus potentially detrimental to both agricultural and naturalized settings. In contrast, allelopathic crops offer strong potential for the development of cultivars that are ...
399 citations
TL;DR: Development of capitate glands on the leaves of annual wormwood was monitored with scanning and transmission electron microscopy and osmiophilic product was observed most frequently associated with stacked thylakoids, plastid envelopes, and smooth endoplasmic reticulum, although it was associated with all cell membranes.
Abstract: Development of capitate glands on the leaves of annual wormwood (Artemisia annua L.) was monitored with scanning and transmission electron microscopy. Differentiation of foliar cells into gland cells began in the youngest leaf primordia. After differentiation into a 10-celled biseriate structure of two stalk cells, two basal cells, and three pairs of secretory cells, the cuticle of the six secretory cells separated from the cell walls to form a bilobed sac that eventually splits to release its contents. At every developmental stage, the cells of the the gland contained relatively little vacuolar volume. The secretory cells contained extensive endoplasmic reticulum. The plastids of each cell pair were different. At maturity, the apical cells contained proplastids or leucoplasts with only occasional thylakoids. The cell pair below the apical cell pair contained amorphous chloroplasts without starch grains. The basal cell pair contained proplastids or leucoplasts and the stalk cells contained chloroplasts. T...
253 citations
TL;DR: The tissue localization of the antimalarial sesquiterpenoid compound artemisinin in annual wormwood (Artemisia annua L.) was determined by differential extraction of a glanded biotype and through the use of a glandsless biotype, indicating that artemisine and artemisitene present in foliar tissue are localized entirely in the subcuticular space of capitate glands of A. annua.
Abstract: The tissue localization of the antimalarial sesquiterpenoid compound artemisinin in annual wormwood (Artemisia annua L.) was determined by differential extraction of a glanded biotype and through the use of a glandless biotype. A 5-s dip in chloroform extracted 97% of the artemisinin from glanded A. annua leaf tissue. In addition, all of the detectable artemisitene, an artemisinin analog, was extracted. This extraction method caused collapse of the subcuticular space of the capitate glands on the leaf surface, whereas no other damage to the leaf surface was observed with SEM. Light microscopy and TEM revealed that this extraction method, despite causing some organelle structural changes, did not disrupt cell membranes. An A. annua biotype without glands contained neither artemisinin nor artemisitene. These results indicate that artemisinin and artemisitene present in foliar tissue are localized entirely in the subcuticular space of capitate glands of A. annua.
247 citations
TL;DR: Chromatographic analysis indicated differences in composition between the more toxic DSD oil of A. absinthium and the other two extracts of this plant, indicating that a sesquiterpene (C15H24) compound present in the D SD oil and absent in the other three may enhance the toxicity of the DSDOil.
Abstract: Essential oils of Artemisia absinthium L. and Tanacetum vulgare L. were extracted by three methods, a microwave assisted process (MAP), distillation in water (DW) and direct steam distillation (DSD), and tested for their relative toxicity as contact acaricides to the twospotted spider mite, Tetranychus urticae Koch. All three extracts of A. absinthium and of T. vulgare were lethal to the spider mite but to variable degrees. The LC50 obtained from the DSD oil of A. absinthium was significantly lower (0.04 mg/cm2) than that of the MAP (0.13 mg/cm2) and DW (0.13 mg/cm2) oil of this plant species. DSD and DW extracts of T. vulgare were more toxic (75.6 and 60.4% mite mortality, respectively, at 4% concentration) to the spider mite than the MAP extract (16.7% mite mortality at 4% concentration). Chromatographic analysis indicated differences in composition between the more toxic DSD oil of A. absinthium and the other two extracts of this plant, indicating that a sesquiterpene (C15H24) compound present in the DSD oil and absent in the other two may enhance the toxicity of the DSD oil. Chemical analysis of the T. vulgare extracts indicated that β-thujone is by far the major compound of the oil (>87.6%) and probably contributes significantly to the acaricidal activity of the oil.
221 citations
TL;DR: It was possible to show that both compounds are insecticidal against the two insects, mainly in the contact and/or ingestion action.
220 citations
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28 Nov 1988
19 citations