Phagodeterrence by a crude extract of common rue (Ruta chalepensis, Rutaceae) and its partitions on Hypsipyla grandella (Lepidoptera: Pyralidae) larvae. Hypsipyla grandella (Zeller) larva is maybe the main forest pest in Latin America and the Caribbean, as it bores into the main shoot of trees providing precious woods, such as mahoganies (Swietenia spp.) and cedars (Cedrela spp.). In the search for a preventative method for managing it, the crude leaf extract of common rue (Ruta chalepensis L.), as well as four partitions thereof (water, hexane, dichlorometane, and ethyl acetate), were tested for phagodeterrence. Laboratory bioassays involved increasing concentrations of the crude extract (0.1, 0.32, 1.0, 3.20 and 10.0%w/v) as well as each one of the partitions (in accordance to the yield obtained from the partitioning process), plus rutin, a flavone glycosid. A randomized complete block design, with four replicates, was used. H. grandella instar III larvae were exposed for 24 h to cedar (Cedrela odorata) leaf discs dipped into the respective treatment, after which disc consumption was measured. Strong phagodeterrence was detected at concentrations as low as 0.32 and 0.074%w/v for the crude extract and the hexane partitions, respectively; the ethyl acetate (0.24%w/v) and the water partition (for all of its concentrations), as well as the rutin (starting at 0.064%w/v), caused phagodeterrence, too. Moreover, the crude extract was submitted to a phytochemical screening by means of a number of qualitative tests, to determine possible metabolites causing phagodeterrence, the most important being alkaloids, triterpenes, coumarins and rutin. A particular phytochemical screening was carried out for the hexane partition, which was the most active. Rev. Biol. Trop. 58 (1): 1-14. Epub 2010 March 01.
Phagodeterrent activity of the plants Tithonia diversifolia and Montanoa hibiscifolia (Asteraceae) on adults of the pest insect Bemisia tabaci (Homoptera: Aleyrodidae). Bemisia tabaci (Gennadius) is a polyphagous, cosmopolitan and worldwide relevant pest, mainly acting as a virus vector on many crops. A sound preventive approach to deal with it would be the application of repellent or deterrent substances hopefully present in tropical plants, which in turn may contribute to take advantage of the remarkable rich Mesoamerican biodiversity. Therefore, extracts of two wild plants belonging to family Asteraceae, titonia (Tithonia diversifolia) and "tora" (Montanoa hibiscifolia), were tested for phagodeterrence to B. tabaci adults. The crude leaf extract of each one, as well as four fractions thereof (hexane, dichlorometane, ethyl acetate, and methanol) were tested under greenhouse conditions; in addition, the extracts were submitted to a phytochemical screening to determine possible metabolites causing phagodeterrence. Both restricted-choice and unrestricted-choice experiments were conducted. In the former ones, each fraction was tested at four doses (0.1, 0.5, 1.0 and 1.5% v/v), which were compared with four control treatments: distilled water, endosulfan, an agricultural oil (Aceite Agrícola 81 SC), and the emulsifier Citowett. Tomato plants were sprayed and placed inside sleeve cages, where 50 B. tabaci adults were released. The criterion to appraise phagodeterrence was the number of landed adults on plants at 48h. For the unrestricted-choice experiments, only the two highest doses (1.0 and 1.5%) of the crude extracts of each species were tested, and compared to distilled water and the agricultural oil. The titonia and "tora" crude extracts caused phagodeterrence, and for both plant species the methanol fraction stood out. Results suggest that metabolites causing phagodeterrence are several sesquiterpenic lactones, polyphenolic compounds (flavonoids and tannins) and saponins.
The isolation and structure determination of a new eudesmanolide, irazunolide (1), from Hieracium irazuensis is reported. The structure was inferred from nmr and mass spectral data, and the molecular structure of irazunolide was determined by single crystal X-ray diffraction.Because of the limited data on the chemistry of the tribe Lactuceae (Cichorieae) of the family Compositae (1), we wished to learn about the chemical constituents
Phagodeterrent and systemic activity of a fomulation derived from an extract of common rue (Ruta chalepensis, Rutaceae) on Hypsipyla grandella (Lepidoptera: Pyralidae) larvae. A key neotropical pest of mahoganies (Swietenia spp.) and cedars (Cedrela spp.), the larva of Hypsipyla grandella (Zeller) commonly bores into the main shoot of these valuable timber species, causing forking of the stems. Therefore, it would be desirable to count upon a phagodeterrent and systemic product which could readily protect young tissues. Since crude extracts of common rue foliage (Ruta chalepensis L.) have phagodeterrent activity on H. grandella larva, a product was formulated by combining such an extract with a number of coadjuvants, and was assessed on 75-100cm tall Spanish cedar (Cedrela odorata L.) trees, inside a greenhouse. A completely randomized design was used, with 10 trees per each one of the following treatments: the formulated product, an absolute control (distilled water), a relative control (carbofuran, 1%m/v in water), and the relative control without the crude extract. Number of attacks to the main shoot, fallen leaves and frass piles were recorded, as well as tunnel length. Regarding these variables, the formulated product provided excellent protection to treated trees, with only 0.1 attacks to the main shoot, on the average, at the end of the evaluation period. Likewise, when the systemic activity of the crude extract was assessed, substances present in it were able to translocate and get assimilated by the trees, thereafter causing phagodeterrence to larvae. Finally, an espectrophotometry analysis (performed at a wavelength of 355nm) allowed us to determine the concentration (403±1mg/l) and percentage (0.40%) of the flavonoid rutin in the crude extract, which eventually may be used as an analytical marker compound, should an industrial formulation be developed. Rev. Biol. Trop. 58 (1): 15-29. Epub 2010 March 01.
In the recent years technology education has gained importance worldwide. Colombian government has included it in the basic and secondary schools curriculum, but the current teaching-learning strategies and the resources used for technology class have proven to be insufficient. This paper presents a case study for implementing Project-Based learning in a Colombian high school, using Open source Hardware and Software. First, a set of technological competencies are defined for technology class, based on the suggestions of the Ministry of National Education. Then, a project for designing an irrigation system for the school orchard is presented, which will engage students to develop the selected technological competencies. Subsequently, a set of didactic tools for the project are presented, including an electronic platform for the control of the water flux in the irrigation system. The project will be implemented during the following months, and through diagnostic and summative assessment it is expected to measure the improvement of the technological competencies in students.
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