Diet of the black-chinned siskin (<i>Carduelis barbata</i>) during autumn

Se analizó el contenido estomacal de 28 individuos de Cabecitanegra Austral (<i>Carduelis barbata</i>) colectados durante el otoño en el norte de la Patagonia. Todos los estómagos contuvieron alimento, cuyo peso promedio fue de 0.209 g. Se identificaron 11 ítems (7 de origen vegetal y 4 de origen animal). Las plantas predominaron en la dieta (85.8% en peso) y pertenecieron a las familias Asteraceae, Brassicaceae, Chenopodiaceae y Solanaceae. Las semillas más abundantes fueron de Camelina microcarpa y Sisymbrium sp. La fracción animal estuvo representada solo por insectos (14.2%) de los órdenes Diptera (larvas) y Homoptera (familias Psyllidae y Aphididae). Los Aphididae estuvieron representados en gran cantidad de muestras por <i>Pterocomma populeum</i>. Los gastrolitos aparecieron en todas las muestras, con un peso promedio de 0.093 g. Es destacable el alto porcentaje de insectos que el Cabecitanegra Austral incluye en su dieta, teniendo en cuenta que pertenece a una familia típicamente granívora.The contents of 28 stomachs of the Black-chinned Siskin (<i>Carduelis barbata</i>) were analyzed from an autumn collection from the north of Patagonia. All stomachs contained food. The mean mass was 0.209 g. Eleven items (seven vegetal and four animal) were identified in the samples. The plant fraction was predominant (85.8% in weight) and corresponded to the families Asteraceae, Brassicaceae, Chenopodiaceae and Solanaceae. <i>Camelina microcarpa</i> and <i>Sisymbrium sp</i>. were the more abundant seeds. The animal fraction was represented only by insects (14.2%) in the orders Diptera (larvae) and Homoptera (families Psyllidae and Aphididae). Aphididae was represented by <i>Pterocomma populeum</i> in many samples. Gastroliths were present in all samples, with a mean mass of 0.093 g. The high proportion of insects in the diet of the Black-chinned Siskin is striking considering that it belongs to a family of seed-eater

Application of Headspace Solid-Phase Microextraction for Determination of Chloro-Organic Compounds in Sewage Samples

Solid phase microextraction (SPME) has been optimized and applied to the determination of the volatile halogenated compounds (VHCs) and semi-volatile halogenated compounds (SVHCs). Three types of SPME fiber coated with different stationary phases (PDMS–100 μm, CAR/PDMS-75 μm, PDMS/DVB–65 μm) were used to examine their extraction efficiencies for the compounds tested. Experimental parameters such as the selection of SPME coatings, extraction time, and addition of salts were studied. The carboxen-polydimethylsiloxane (CAR/PDMS) fiber appears to be the most suitable for the determination of VHCs. Analytical parameters such as linearity, limit of detection, and precision were also evaluated. Application of ECD detector for the determination of VHCs and SVHCs allows their determination on the low concentration level, ranging from 0.005 to 0.8 μg/L−1. The HS-SPME-GC/ECD procedure gave good analytical precision expressed as relative standard deviation (RSD) (ranged from 5.08% to 8.07%) for a concentration level of 5 μg/L−1 and good linearity (r2 > 0.98) in a wide calibration range. The applied HS-SPME-GC/ECD method was found to be a quick and effective technique for the determination of microtrace amounts of volatile and semi-volatile halogenated compounds in samples containing high amounts of various organic compounds

Occurrence and distribution of soil Fusarium species under wheat crop in zero tillage

The presence of Fusarium species in cultivated soils is commonly associated with plant debris and plant roots. Fusarium species are also soil saprophytes. The aim of this study was to examine the occurrence and distribution of soil Fusarium spp. at different soil depths in a zero tillage system after the wheat was harvested. Soil samples were obtained at three depths (0-5 cm, 5-10 cm and 10-20 cm) from five crop rotations: I, conservationist agriculture (wheat-sorghum-soybean); II, mixed agriculture/livestock with pastures, without using winter or summer forages (wheat-sorghum-soybean-canola-pastures); III, winter agriculture in depth limited soils (wheat-canola-barley-late soybean); IV, mixed with annual forage (wheat-oat/Vicia-sunflower); V, intensive agriculture (wheat-barley-canola, with alternation of soybean or late soybean). One hundred twenty two isolates of Fusarium were obtained and identified as F. equiseti, F. merismoides, F. oxysporum, F. scirpi and F. solani. The most prevalent species was F. oxysporum, which was observed in all sequences and depths. The Tukey’s test showed that the relative frequency of F. oxysporum under intensive agricultural management was higher than in mixed traditional ones. The first 5 cm of soil showed statistically significant differences (p=0.05) with respect to 5-10 cm and 10-20 cm depths. The ANOVA test for the relative frequency of the other species as F. equiseti, F. merismoides, F. scirpi and F. solani, did not show statistically significant differences (p&lt;0.05). We did not find significant differences (p&lt;0.05) in the effect of crop rotations and depth on Shannon, Simpson indexes and species richness. Therefore we conclude that the different sequences and the sampling depth did not affect the alpha diversity of Fusarium community in this system