<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" xmlns:dcterms="http://purl.org/dc/terms/">
<rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5391">
    <dcterms:title><![CDATA[<strong>Comparison of standard DFT and Hubbard-DFT methods in structural and electronic properties of TiO 2 polymorphs and H-titanate ultrathin sheets for DSSC application</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[DIOXIDO DE TITANIO]]></dcterms:subject>
    <dcterms:subject><![CDATA[HIDROGENO]]></dcterms:subject>
    <dcterms:subject><![CDATA[DFT]]></dcterms:subject>
    <dcterms:subject><![CDATA[PROPIEDADES ELECTRONICAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Fusarium head blight (FHB) is a destructive disease of cereals crops worldwide and a major food safety concern due to grain contamination with trichothecenes and other mycotoxins. Fusarium graminearum, a member of the Fusarium graminearum species complex (FGSC) is the dominant FHB pathogen in many parts of the world. However, a number of other Fusarium species, including other members of the FGSC, may also be present for example in Argentina, New Zealand, Ethiopia, Nepal, Unites States in cereals such as wheat and barley. Proper species identification is critical to research aimed at improving disease and mycotoxin control programs. Identification of Fusarium species is are often unreliable by traditional, as many species are morphologically cryptic. DNA sequence-based methods offer a reliable means of species identification, but can be expensive when applied to the analyses of population samples. To facilitate identification of the major causative agent of FHB, this work describes an easy and inexpensive method to differentiate F. graminearum from the remaining species within the FGSC and from the other common Fusarium species causing FHB in cereals. The developed method is based on a PCR-RFLP of the transcription elongation factor (TEF 1-&alpha;) gene using the restriction enzyme BsaHI.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>German, Estefan&iacute;a</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=fc7cd71892b1a9968ee19230dafdbd01" target="_self"><strong>Faccio, Ricardo.</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=31ed37f6d0196c1ca18c1b4dfab6de76" target="_self"><strong>Mombr&uacute;, &Aacute;lvaro W.</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Applied Surface Science&nbsp; V. 428, 2018. -- P. 118-123]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor </strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong> ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Artículo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.fm.2017.08.020]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5390">
    <dcterms:title><![CDATA[<strong>Hidatidosis - echinococcus : inmunolog&iacute;a de la relaci&oacute;n hu&eacute;sped par&aacute;sito, vacunas antiidiot&iacute;picas</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>HIDATIDOSIS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>ECHINOCOCCUS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>INMUNOLOGIA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>RELACION HUESPED-PARASITO</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>VACUNAS ANTIIDIOTIPICAS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>ANTI-IDIOTYPIC VACCINE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CESTODES</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>IDIOTYPE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>HELMINTHS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>HYDATIDOSIS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>HOST-PARASITE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>METACESTODE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>VACCINE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>ZOONOSIS</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1987]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1978-1987]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5389">
    <dcterms:title><![CDATA[<strong>Extracci&oacute;n y determinaci&oacute;n de hidrocarburos arom&aacute;ticos polinucleados en agua y en sedimento</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>HIDROCARBUROS AROMATICOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>EXTRACCION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>AGUA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>SUELOS SEDIMENTARIOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CROMATOGRAFIA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PNAH</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>DETERMINATION BY GLC/GC O TLC</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>SEPARATION AND EXTRACTION TECHNIQUES</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1987]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1980-1986]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5388">
    <dcterms:title><![CDATA[<strong>Siliconas : su uso como protector de la piel</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>SILICONAS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PROTECCION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PIEL (ANATOMIA)</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>DIME SILOXANE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>DIMETHICONE</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1987]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1954-1978]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5387">
    <dcterms:title><![CDATA[<strong>Study of the reasons for the consumption of each type of vegetable within a population of school-aged children</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[COMPORTAMIENTO DEL CONSUMIDOR]]></dcterms:subject>
    <dcterms:subject><![CDATA[VEGETALES]]></dcterms:subject>
    <dcterms:subject><![CDATA[NI&Ntilde;OS]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Background Several studies have evaluated the existence of factors that influence the consumption of vegetables in children, such as family environment, daily exposure to one or several vegetables, parents&rsquo; consumption and consumption pattern and the way in which vegetables are prepared in the household, among others. The objective of this study was to investigate the reasons for consumption associated with each vegetable in school-aged children through a survey designed to be answered by the parents. Methods A preliminary study with 162 parents was carried out on the consumption of vegetables in children aged 6 to 12 years. Based on the information obtained, a survey was designed with 14 phrases to investigate the reasons for the low consumption of each type of vegetable among school-aged children, which was answered online by 419 parents. Results The results obtained allowed us to categorise the vegetables into 6 groups. Group A consisted of tomatoes, corn, pumpkin and carrots as the vegetables that children like to eat most. Group B contains the vegetables that are consumed mostly camouflaged in other preparations, such as onions and red peppers. Group C contains only cauliflower, which was negatively associated with senses, such as colour, smell and taste. This vegetable was never offered to children by a high percentage of parents. Group D consists of green vegetables: zucchini, spinach, chard and peas. Vegetables of this group are added to other foods and the child usually ingests them camouflaged or obliged. Group E consists of beetroot, lettuce and broccoli. Beetroot and lettuce were the vegetables parents reported were most often rejected by their children. This rejection, they stated, was due to sensory aspects, such as colour, texture and taste. Conclusions The reasons for consumption among school-aged children depend on each type of vegetable and cannot be generalized. The sensory characteristics of the vegetable (mainly colour and flavour) and the habits of consumption in the family environment play a major role in children&rsquo;s acceptance or rejection of vegetables. Keywords Vegetables Consumption Children Background Globalization and new lifestyles have led to major changes in eating patterns, which together with reduced physical activity have led to a significant increase in noncommunicable diseases (NCDs) [1]. NCDs are also known as chronic diseases because they are long lasting and usually evolve slowly. The main NCDs are obesity, cardiovascular diseases, cancer, chronic respiratory diseases and diabetes [2]. One of the main risk factors for NCDs, which is modifiable, is diet [3]. As part of a healthy diet, which should be low in fat, sugars and sodium, WHO suggests consuming at least 400 g of F&amp;V per day [4]. In addition, fruits and vegetables are a rich source of vitamins and minerals, dietary fibre and other beneficial substances, such as phytosterols, flavonoids and other antioxidants [5]. Numerous investigations have shown the positive effects on the reduction of risk factors for NCDs associated with daily vegetable consumption in the recommended amounts [6, 7]. According to WHO data, an estimated 6.7 million deaths were due to inadequate intake of F&amp;V in 2013 [8]. Worldwide, the 5 portions of fruits and vegetables recommended by WHO are not achieved [9, 10, 11]. The consumption in children and adolescents is also worrisome [12]. Children and adolescents in the United States consume 1 serving of fruit and 1.3 servings of vegetables per day [13]. In Germany, the average consumption of these foods in children between the ages of 3 and 17 years is below the recommended quantity. Only 12.2% of girls and 9.4% of boys consume the recommended 5 servings of fruits and vegetables per day [14]. In the UK, only 9% of children between 11 and 18 years of age are consuming the recommended quantities of fruits and vegetables every day, with vegetable consumption being especially low, with an average of one serving per day [15]. In Uruguay, only 24.4% of children and adolescents consume fruits and vegetables 5 or more times a day [16]. This low consumption of fruits and vegetables is consistent with that observed in the general population of the country in other surveys. During the first years of a person&rsquo;s life, the consumption of vegetables is very important. Their consumption in adequate amounts has been related to a healthier weight in childhood [17, 18] and in adulthood [19]. Secondly, healthy eating habits acquired during childhood tend to persist into adulthood [20, 21, 22]. Previous studies have evaluated the existence of factors that influence the consumption of food and in particular the consumption of vegetables. Some of the factors are knowledge, beliefs, cost, convenience and the sensory characteristics of vegetables [23, 24, 25, 26, 27, 28, 29, 30]. In children, besides the factors mentioned, it should be added that their consumption is directly related to the family environment, daily exposure to one or several vegetables, parents&rsquo; consumption and consumption pattern and the way in which vegetables are prepared in the household, among others [31, 32, 33, 34, 35]. And in turn, the experience of trying new foods generates fear due to association with a negative sensory experience, and this could be especially important in the case of vegetables, since many of them have bitter tastes [36]. All the research works carried out to date study the factors linked to the consumption of vegetables by children in a generic way, considering vegetables as a homogeneous group of foods. The innovation in the present work is that each vegetable is studied individually, since the factors associated with consumption can differ between one vegetable and another. The objective of this study was to go deeper into the reasons for consumption associated with each vegetable in school-aged children, through a survey designed to be answered by the parents. Methods Preliminary study 406 online invitations were sent to parents of children aged 6 to 12 years old. A total of 185 parents opened the survey and 162 complete it.The parents were recruited in eight educational centres in the city of Montevideo and its surroundings by means of an invitation sent to them from the school itself. The study was approved by the Human Beings Ethics Committee of the Facultad de Qu&iacute;mica, Universidad de la Rep&uacute;blica. Written informed consent was obtained from each parent prior to data collection, and each parent was offered a copy of the consent form. The parents who agreed to participate provided a contact email to which they were sent a link to the survey. The online questionnaire was developed using SurveyMonkey.com. The use of online questionnaires has been tested and found to be useful because of the ability to collect information from geographically distributed respondents, and because of the low cost compared with personal surveys. Another important feature is the convenience of the tool that allows access to the survey at any time [37]. A questionnaire with a list of the 18 most-consumed vegetables in the national market (tomatoes, lettuce, carrots, beetroot, eggplant, zucchini, onions, cucumber, pumpkin, spinach, chard, red peppers, cabbage, broccoli, cauliflower, green beans, peas and corn) was sent to the parents who agreed to participate in the survey [38]. They were asked to indicate their own consumption and their child&rsquo;s consumption of each vegetable on the list by means of a structured scale of 7 points (1&thinsp;=&thinsp;never, 2&thinsp;=&thinsp;less than once a month, 3&thinsp;=&thinsp;once or twice a month, 4&thinsp;=&thinsp;several times a month, 5&thinsp;=&thinsp;once or twice a week, 6&thinsp;=&thinsp;several times a week, 7&thinsp;=&thinsp;every day). For those vegetables which they replied their children &lsquo;never consumed&rsquo;, they were asked, through an open-ended question, to explain the reasons they believed their child did not consume them. At the end, the socioeconomic data of each parent (age, sex, marital status, education level, number of persons in the household, number of children in the household and age of the child) were collected. Design of the survey on reasons for vegetable consumption Based on the information obtained in the preliminary study, a survey was designed to investigate the reasons for the low consumption of each type of vegetable among school-aged children (6 to 12 years old), consisting of 14 phrases (Table 1). For the construction of the phrases, no complicated terms or rare words were used. Short words were also used, making the questionnaire accessible. Table 1 Phrases used in the survey to explore the reasons for the consumption of each type of vegetable Phrase 1 My child usually eats: Phrase 2 My child only eats camouflaged/disguised in other preparations: Phrase 3 My child just eats when forced: Phrase 4 My child used to eat it, but does not eat it now: Phrase 5 I offered it to my child, but he/she never wanted to try it: Phrase 6 My child does not eat it because I never offered it to him/her: Phrase 7 My child does not eat it because he/she does not like its colour/appearance: Phrase 8 My child does not eat it because he/she does not like its texture: Phrase 9 My child does not eat it because he/she does not like its smell: Phrase 10 My child does not eat it because he/she does not like its taste: Phrase 11 I don&rsquo;t know why my child does not like it: Phrase 12 At home, we do not eat it because someone in the family does not like it: Phrase 13 At home, we do not eat it because someone in the family has a health problem: Phrase 14 At home, we do not eat it because I don&rsquo;t know how to prepare/cook it: To study whether the information obtained through the parents was representative of the children, individual face-to-face interviews were previously conducted with 15 families where the survey was applied. The children of the families interviewed were between 7 and 12 years old. In each family, the child and the parent were surveyed independently. The survey was conducted in their own home, which allowed the creation of an atmosphere of trust. It was requested that the parent who answered the survey was the one who was most present in the child&rsquo;s meal instances (lunch/dinner) and/or the one who prepared the meals for the child. Of the 14 phrases, phrases 6, 11 and 14, were eliminated in the interviews made to children because it was not appropriate to ask them such questions. In the same way, the questionnaire was tested until an adapted final version was approved by the researchers. Survey on the reasons for the consumption of vegetables The survey was sent online to the 185 parents to whom the exploratory survey had been sent and also distributed through social networks. The list of contacts included the parents who were invited to the preliminary study and also the staff (officials and teachers) of different faculties of the Universidad de la Rep&uacute;blica. In total, 602 people opened the survey sent. At the beginning of the survey, it was stated that only parents of children between the ages of 6 and 12 years old should answer it and, if they had more than one child, they should answer it for only one of their children. The online questionnaire was developed using SurveyMonkey.com and consisted of the 14 phrases shown in Table 1. For each phrase, the parents received the list of the 18 vegetables used in the preliminary study, with the following cue: &ldquo;CHECK ALL THE VEGETABLES YOU CONSIDER THIS PHRASE APPLIES TO&rdquo;. At the end, the socioeconomic data of each parent (age, sex, marital status, education level, number of persons in the household, number of children in the household and age of the child) were collected. Statistical analysis Preliminary study An analysis of variance (ANOVA) was conducted on the parent&rsquo;s consumption and child&rsquo;s consumption data regarding the vegetables, the parent and child and their interaction as variation sources. The Tukey test was used to determine statistically significant (p &le; 0.05) differences. The answers obtained in the preliminary study of the open-ended question about the reasons the child &lsquo;never&rsquo; consumed a certain type of vegetable were analyses qualitatively. According to Bengtsson, 2016 [39] and Erlingsso &amp; Brysiewicz, 2017 [40], the analysis procedure of the raw data from the open-ended question of the surveys were transcribed to form categories or themes is a process of further abstraction of data at each step of the analysis; from the manifest and literal content to latent meanings. Analyses were performed individually by each of the members of the research team and the results generated were discussed further in detail by the research team before the final phrases were finally agreed upon by consensus. Survey The Chi square test was performed to determine significant differences (p &le; 0.05) in the frequency distribution of socio-demographic variables between the participants of the preliminary study and the survey. The frequency of mention of each vegetable was determined for each of the 14 phrases, counting the number of times each vegetable was selected for each phrase. Cochran&rsquo;s Q test was carried out to identify significant differences among vegetables for each of the phrases [41]. A correspondence analysis (CA) was performed on the frequency table considering chi-square distances. CA can be defined as a variant of principal components analysis, better suited for categorical data and especially contingency and frequency tables [42]. A hierarchical cluster analysis was performed on the answers obtained for each phrase to group the vegetables with similar answers. The formation of clusters was based on Ward&rsquo;s aggregation criterion and Euclidean distances [42]. Statistical analyses were performed using XL-Stat 2017 software (Addinsoft, NY). Results Preliminary study One hundred sixty-two parent complete the survey of the preliminary study. Table 2 shows the socioeconomic data of the parents who participated in the preliminary study. Most of the participants are between 30 and 45 years old and have a partner, which corresponds to the profile of parents with school-aged children. Table 2 Socio-demographic data among respondents Preliminary study n&thinsp;=&thinsp;162 Survey n&thinsp;=&thinsp;419 p-value According to Chi.square test Parent&rsquo;s age Mean 41&thinsp;&plusmn;&thinsp;6 42&thinsp;&plusmn;&thinsp;6 0.184 18&ndash;30 years 6% 3% 30&ndash;45 years 88% 89% over 51 years 6% 8% Gender Male 11% 17% 0.072 Female 89% 83% Marital status Lives in partnership 80% 83% 0.397 Lives alone 20% 17% Level of education University professionals 57% 58% 0.827 Tertiary education unfinished 43% 42% Persons in the household 2 5% 9% 0.243 3&ndash;4 69% 68% 5 or more 26% 23% Children in the household 1 47% 45% 0.664 2 or more 53% 55% Child&rsquo;s age Mean 9&thinsp;&plusmn;&thinsp;2 9&thinsp;&plusmn;&thinsp;2 Table 3 shows the consumption of each type of vegetable of the parents and their children. A significant difference (p &le; 0.05) was found in the frequency of consumption of the different vegetables, both in parents and in children. Parent consumption was significantly higher in 17 of the 18 vegetables studied. Corn was the only vegetable where the consumption of parents and children was similar. However, there is a great coincidence between the most and least consumed vegetables by both groups. The age and gender of the children did not significantly influence the consumption of vegetables, for which these results are not presented. Table 3 Average values of the frequency of consumption of each type of vegetable for parent and children Vegetable Average parent consumption (7-point scale) Average child consumption (7-point scale) p-value Cauliflower 1.6 a A 1.4 a,b B 0.0106 Cucumber 2.2 b A 1.8 b,c B 0.0011 Eggplant 2.5 b,c A 1.7 a,b,c B &lt;&thinsp;0.0001 Green beans 2.5 b,c A 2.0 c B &lt;&thinsp;0.0001 Broccoli 2.6 b,c,d A 2.2 c B 0.0023 Beetroot 2.7 b,c,d A 2.0 c B &lt;&thinsp;0.0001 Cabbage 2.7 b,c,d A 2.0 c B &lt;&thinsp;0.0001 Chard 3.1 d,e A 2.7 d B 0.0178 Peas 3.5 e,f A 3.1 d,e B 0.0035 Spinach 3.6 f,g A 3.1 d,e B 0.0004 Zucchini 3.8 f,g,h A 3.2 d,e,f B &lt;&thinsp;0.0001 Corn 3.9 f,g,h,i A 3.8 g,h A 0.2582 Carrot 4.0 g,h,i A 3.5 e,f,g B 0.0001 Pumpkin 4.2 h,i,j A 3.8 g,h,i B 0.0143 Pepper 4.3 i,j,k A 3.6 f,g,h B &lt;&thinsp;0.0001 Lettuce 4.6 j,k A 3.0 d B &lt;&thinsp;0.0001 Onion 4.7 k,l A 4.1 h,i B &lt;&thinsp;0.0001 Tomatoes 5.1 l A 4.3 i B &lt;&thinsp;0.0001 p-value &lt;&thinsp;0.0001 &lt;&thinsp;0.0001 For each column (parent or child consumption), the average followed by the same lowercase letter did not differed by Tukey test at 5% of probability For each vegetable, the average followed by the same capital letter in the same line did not differed by Tukey test at 5% of probability Table 4 shows examples of the answers obtained in the open-ended question about the reasons the child did not consume that particular vegetable. For the vegetable pumpkin, there were no answers to the question about the reasons for non-consumption. Table 4 Examples of answers to the open-ended question: Why does your child &lsquo;never&rsquo; eat this vegetable? Tomato &ldquo;because he does not want to try it&rdquo; Lettuce &ldquo;he says he cannot swallow it&rdquo;, &ldquo;it has no taste&rdquo;, &ldquo;because it is green&rdquo;, &ldquo;he has not developed a taste for it&rdquo;, &ldquo;because of its colour and texture&rdquo; Carrot &ldquo;It is not something we usually consume&rdquo;, &ldquo;I don&rsquo;t often offer it to him because I don&rsquo;t like it&rdquo;, &ldquo;only camouflaged with pumpkin&rdquo; Beetroot &ldquo;because of its taste&rdquo;, &ldquo;because of its strong taste&rdquo;, &ldquo;the colour makes him reject it&rdquo;, &ldquo;the family does not eat it&rdquo; Eggplant &ldquo;we do not usually eat it&rdquo;, &ldquo;I know only a few preparations that include it&rdquo;, &ldquo;because it is bitter&rdquo;, &ldquo;only in &lsquo;milanesas&rsquo;&rdquo;, &ldquo;its taste is a little spicy&rdquo; Zucchini &ldquo;he does not accept green vegetables&rdquo;, &ldquo;he cannot find its taste&rdquo;, &ldquo;camouflaged, sometimes&rdquo;, &ldquo;we do not eat it&rdquo; Onion &ldquo;because of its strong smell&rdquo;, &ldquo;because of its taste&rdquo;, &ldquo;only in recipes&rdquo;, &ldquo;we do not eat it&rdquo;, &ldquo;if he sees it, he does not eat it&rdquo; Cucumber &ldquo;because of its appearance&rdquo;, &ldquo;it is not included in family meals&rdquo;, &ldquo;we do not eat it&rdquo;, &ldquo;because of lack of habit&rdquo; Spinach &ldquo;he does not like green ones&rdquo;, &ldquo;we do not usually eat it at home&rdquo; Chard &ldquo;I do not buy it because it produces gas and it&rsquo;s bitter&rdquo;, &ldquo;we do not usually eat it&rdquo;, &ldquo;we do not like its taste&rdquo;, &ldquo;just camouflaged as an ingredient in recipes&rdquo; Pepper &ldquo;strong taste&rdquo;, &ldquo;bitterness&rdquo;, &ldquo;only in recipes&rdquo;, &ldquo;he eats it by obligation&rdquo; Cabbage &ldquo;we do not eat it&rdquo;, &ldquo;very different taste&rdquo;, &ldquo;someone in the family does not like it&rdquo;, &ldquo;because it&rsquo;s green&rdquo; Broccoli &ldquo;it&rsquo;s not included in the diet&rdquo;, &ldquo;because of its taste&rdquo;, &ldquo;my daughter used to eat it frequently until she got tired of it&rdquo;, &ldquo;he does not like it&rdquo; Green beans &ldquo;because of its taste&rdquo;, &ldquo;we do not eat it&rdquo;, &ldquo;because of its appearance&rdquo;, &ldquo;he has not adapted to it yet&rdquo;, &ldquo;it is green&rdquo; Peas &ldquo;I do not buy canned food&rdquo; Corn &ldquo;because it is sweet&rdquo;, &ldquo;only in recipes&rdquo; Cauliflower &ldquo;we do not eat it&rdquo;, &ldquo;he dislikes its smell and taste&rdquo;, &ldquo;I do not know how to prepare it&rdquo;, &ldquo;he does not like its taste or its smell&rdquo; Survey In the face-to-face interviews with the 15 families, in order to test the comprehension of the phrases and verify that the parents&rsquo; responses were representative of the children, more than 95% agreement was obtained between parents&rsquo; and children&rsquo;s responses. The survey was opened by 602 parents, and fully answered by 419 parents (69.6%). Table 1 shows the socioeconomic data of the parents who participated in the survey. These participants were also mostly women, between 30 and 45 years old, in a relationship and with university studies finished. According to the Chi square test, no significant difference (p&thinsp;&gt;&thinsp;0.05) was found between the socioeconomic data of the parents who participated in the preliminary study and those who did it in the survey. All the phrases except number 13 received responses greater than 10% on at least one of the vegetables. Phrase 13 (&ldquo;at home we do not eat it because someone in the family has a health problem&rdquo;), was eliminated from the analysis due to its low number of answers (less than 2%). The results obtained in the survey are described below. The data in parentheses indicate the percent of respondents that marked that vegetable for a particular phrase. For the group of parents surveyed, their children usually consume tomatoes (70%), carrots (53%), pumpkins (59%) and corn (67%) because they like it. Red peppers (37%), onions (41%), zucchini (25%), carrots (24%), spinach (22%) and chard (16%) are consumed if the children are not aware that they are eating those vegetables. Zucchini and carrots are included in this category, but with a lower contribution (25%). Zucchini (10%) was considered as the only vegetable that the children ate because their parents forced them. There was a very low response rate to this phrase. One might conclude that &ldquo;obliging&rdquo; a child to eat a vegetable is frowned upon in today&rsquo;s society, so parents may not have used this phrase much to explain the consumption of some vegetables. As for those vegetables that their children consumed in the past, but no longer consume, we can find green vegetables, such as zucchini (13%), spinach (12%) and broccoli (10%), as well as pumpkin (14%). The vegetables that children were offered, but never wanted to try were beetroot (25%), eggplant (24%), cucumber (22%) and a broad list of green vegetables, such as lettuce (20%), green beans (20%), broccoli (19%), cabbage (17%) and peas (13%). Among the vegetables that parents never offered their children, we find cauliflower (43%), cabbage (23%), cucumber (21%), eggplant (18%), green beans (17%) and broccoli (16%). This is related to those that one of the parents does not consume or does not know how to prepare (phrases 12 and 14). The vegetables that are not consumed because of their colour are eggplant (22%), cauliflower (19%), beetroot (17%) and broccoli (17%), followed by green ones, such as green beans (14%), lettuce, spinach and chard (13%), cabbage (12%), zucchini and cucumber (11%). Of those that are not consumed because of texture, only lettuce appears in 12% of answers. Those that are disliked because of their smell are cauliflower (22%) and broccoli (17%). Those disliked because of their taste are eggplant (19%), beetroot (17%), cauliflower (16%), broccoli, cabbage (15%), pepper and cucumber (14%). The parents surveyed provided a low response rate for phrase 14. It was only stated that they do not know how to cook cauliflower (12%), which agrees with the fact that it is one of the vegetables that was never offered by the parents (43%) and someone in the family does not like it (40%). For a better visualization of the relationship between vegetables and each phrase, a correspondence analysis was performed. Correspondence analysis decomposes the overall inertia (the correlation between the data points of the variables in the analysis) by identifying a small number of dimensions that represent all the locations of the data point&rsquo;s well [41]. In practice a two-dimensional solution (dimension 1 and dimension 2) will represent the data well. The results are presented in Fig. 1. Dimension 1 and dimension 2 explained 81.42% of the variance. Subsequently, a hierarchical cluster analysis was applied to the answers obtained for each phrase, which allowed the categorising of the vegetables into 6 groups. Fig. 1 Fig. 1 Results of the correspondence analysis (CA). The first two dimensions (dim1 and dim2) of the CA accounted for 81.4% of the variance of the experimental data Group A consisted of tomatoes, corn, pumpkin and carrots. These are the vegetables that children like to eat most. In spite of this, pumpkin is also one of the most mentioned vegetables as the one they used to eat, but do not eat now. This shows signs of the evolution in children&rsquo;s consumption habits during growth. There is no mention of rejection due to colour, which suggests that children like the colour orange. In addition, carrot is another vegetable that children like to eat although it is also one of those added in recipes and ingested &lsquo;camouflaged&rsquo;. Group B contains the vegetables that are consumed mostly &lsquo;camouflaged&rsquo; in other recipes, such as onions and red peppers. Parents relate their rejection with sensory characteristics, such as taste and colour. Group C includes only cauliflower, which was negatively associated with the senses because of its colour, smell and taste. This vegetable was never offered to children by a high percentage of parents while in other cases, it was offered, but children never wanted to try it. Both reasons are strongly associated with the high percentage of parents who said that one family member did not like it. In addition, they reported not knowing how to cook it. Group D consists of green vegetables: zucchini, spinach, chard and peas. Of this group, zucchini, spinach and chard are added in recipes and the child usually ingests them &lsquo;camouflaged&rsquo;. In addition, zucchini was the only one that was declared to be consumed out of force. In turn, zucchini and spinach were considered to be vegetables that children used to consume before, but no longer consume. They relate this rejection with sensory aspects, mainly colour and taste. Chard is rejected because of its colour, and peas are rejected because of their taste. Group E consists of beetroot, lettuce and broccoli. Beetroot and lettuce are the main vegetables reported by parents which were most offered to their children that they did not want to try. This rejection, they stated, is due to sensory aspects such as colour and taste for beetroot. In the case of lettuce, the parents believed that their children did not want to try it mainly for sensory reasons, such as colour, texture and taste. Broccoli is a vegetable that according to parents is not consumed for several reasons: children used to consume it and now they do not, it was offered to them, but they never wanted to try it, it was offered to them and it is rejected because of sensory factors like colour, smell and taste. Group F consists of eggplant, cucumber, cabbage and green beans. This group of vegetables stands out because these vegetables have never been offered to children by a high percentage of parents, mainly because someone in the family did not like them. Eggplant was reported by parents as the vegetable they most offered their children that they did not want to try. Also, children did not eat it because it was not offered to them. Reasons for rejection are related to sensory aspects, such as taste and colour. As for the cucumber, its low consumption is explained by its colour and taste, but also because someone in the family did not like it. Many parents declare that they offered their son/daughter cabbage, but he/she did not want to try it. There are sensory aspects that generate such rejection such as the colour and taste. Green beans were offered, but the children never wanted to try them, just like the vegetables of this group. This is due to sensory aspects that generate rejection, mainly colour and taste. Discussion Preliminary study According to the socioeconomic data of the parents who participated in the preliminary survey, high percentage of women answered the survey. In the Uruguayan culture, it is usually the mother who prepares the meals for the child. Similar results were reported [43] out of a total of 582 parents surveyed on their mealtime actions, their children&rsquo;s food intake and the characteristics of the family meals. Eighty five percent of respondents were the mothers. For the UK households, a comparative participation of women was reported [44]. Survey A similar correlation between parents&rsquo; and children&rsquo;s responses was found in [45], as we found in the face-to-face interviews with the 15 families. A total of 69,6% of the parent that opened the survey, answer it. So we have a much higher response compared with reported by other authors [37, 38, 39, 40, 41, 42, 43, 44, 45, 46]. Regarding the data on the consumption of vegetables obtained in the preliminary study, the coincidence between the groups of vegetables most consumed by the parents and by the children stands out. Similar results were reported [27], in which the consumption between parent and child correlated with a higher consumption rate in those children whose parents consume more of this type of food. As has been emphasized by numerous publications, parents play an important role in child and adolescent eating behaviour, and also peer influence is highlighted [47, 48]. In the same way, it has been found that the food preferences and eating patterns that develop in early childhood and adolescence do not increase later in adulthood, so it is very important to have healthy preferences and a high consumption of healthy foods incorporated from early ages [49, 50, 51]. The results obtained from the survey designed on the reasons for this low consumption of vegetables showed a low response for the phrase related to &ldquo;forcing them to eat certain vegetables&rdquo; and also for my child only consumes &lsquo;camouflaged&rsquo; in other recipes, resulting in both situations being seen as something socially negative. Forcing children to eat has been associated with aversion [52] and a reduced intake of these foods [53, 54]. Furthermore, the context of consumption of certain foods influences their total intake [55]. In particular for vegetables, the context should be as enjoyable as possible and forcing a child to consume a certain food will not encourage consumption. According to results obtained [27], children of parents who tend to put stronger pressure on their children to eat vegetables or who act as negative role models more often ate fewer vegetables. In view of the results obtained, it is encouraging to know that a low amount of vegetables was associated with the phrases &lsquo;my child only eats when forced&rsquo; and &lsquo;my child only eats when disguised&rsquo; preventing the future development of a negative relationship with the consumption of such vegetables. Food rejection in children is presented in two forms: Food neophobia and picky/fussy eating behaviour. These two forms of food rejection are age-related and temporary behaviours, so they are important to consider since our surveyed children are between 6 and 12 years old [56, 57]. According to some authors, &lsquo;pickiness&rsquo; normally reaches its peak when the child is between 3.5 and 5.5 years old and then it decreases gradually [58]. However, the range of pickiness among children is large, and almost 20% of children between 8 and 12 years of age can still be considered picky eaters, meaning that the variety of their diets may be considered insufficient [56, 59]. Pickiness has disadvantages because it is related to insufficient vegetable and fruit intake, and a healthy diet requires varied food intake [60]. This vegetable rejection behaviour explains the answers obtained from the phrase &lsquo;my child used to eat it, but he/she does not do it now&rsquo; (phrase 4), especially for the group of green vegetables. The vegetables mentioned for the phrases &ldquo;I offered it to him/her, but he/she never wanted to try it&rdquo; (phrase 5) and &ldquo;my son used to eat it, but he does not do it now&rdquo; (phrase 4) has reasons strongly associated with sensory aspects, colour in particular. The palatability and taste of the food are said to be shaped by the colour of the food [61]. From the frequency of vegetable consumption of parents and children and the response to the phrase &lsquo;my child usually eats it&rsquo;, we discover that the most consumed vegetables by children are those which are red and orange, and also have a sweeter taste, such as tomatoes, carrots, pumpkins and corn. The importance of the relationship between parents and children in the consumption by children of certain types of vegetables (such as cucumber, broccoli, cauliflower and green beans) is evidenced through the answers obtained from the phrases &lsquo;my child does not eat it because I never offered it to him/her&rsquo;, &lsquo;at home we do not eat it because I do not know how to prepare it/cook it&rsquo; and &lsquo;at home we do not eat it because someone in the family doesn&rsquo;t like it&rsquo;. According to a model presented, the factors that affected in a postitive way the intake of vegetables were availability and accessibility [62]. When parents have more fruits and vegetables available in the home, child consumption improves [63]. The reason they never offered their children certain vegetables may be because they were unaware of the nutritional benefits of their consumption [64]. If parents as well as caregivers had such information, they could teach them and create an opportunity for children to be informed consumers so that they could make decisions about their own nutrition [65]. The concept of responsible parenting, particularly in relation to food, is reflected in the relationship between the caregiver and the child. This is one way healthy habits can be promoted [66, 67]. The most obvious reason children do not want to eat a certain food is because they do not like the taste of it [68]. However, children do not only reject food because of the flavour, they can also dislike the texture, colour/appearance and smell of the food. That is why these sensory aspects were evaluated in independent phrases (phrases 7, 8, 9 and 10) in order to accurately assess the sensory reasons children rejected certain vegetables. The results obtained aligned with those obtained by other researchers for the vegetables in general. There is a widespread rejection of the green colour and bitter tastes found in most vegetables [61]. In addition, it was reported that the low preference has been attributed to our innate aversion to bitter tastes [69]. The texture of vegetables was also mentioned as a major reason for the acceptance or rejection in children [30, 70], and the modifications suffered by the texture of vegetables according to their cooking methods [31]. These researchers reported that the sensory reasons children do not prefer vegetables are flavour (sour/acid), texture and appearance. Knowing certain preparation techniques and how to cook the vegetables has been studied by several authors [31, 71, 72, 73]. Some of the most used techniques with vegetables are blending, mixing, mashing or seasoning, and it has been seen that knowing how to apply them properly by the parents increases the consumption of vegetables. Parents surveyed reported a low response level for phrase 14 (&ldquo;I do not know how to prepare them&rdquo;). Only 12% stated that they did not know how to cook cauliflower, which is consistent with the fact that it is one of the vegetables that was never offered by the parents (43%) and someone in the family did not like it (40%). Finally, some limitations of this study should be considered. First, data collection was done through online surveys, so socially correct responses could have influenced the results. Secondly, we used a convenience sample comprising parents who agreed to participate, therefore selection bias could be a problem. Only the 18 most consumed vegetables in the local market were considered for the study. Other vegetables (such as arugula, radish, celery, artichoke, turnip, watercress, avocado, etc.) were not included in this study. Conclusions The present study shows that the reasons for consumption among school-aged children depend on each type of vegetable and cannot be generalized. The sensory characteristics of the vegetable (mainly colour and taste) and the habits of consumption in the family environment play a major role in school-aged children&rsquo;s acceptance or rejection of vegetables. Actions to increase vegetable consumption among children should aim to encourage parents to act as role models and to raise awareness of strategies to change their child&rsquo;s eating behaviour. Future studies should aim to determine the reasons for consumption of each type of vegetable in other populations in order to investigate the results obtained and also to study if changes in the determinants of vegetable intake in the parents could affect the behavior of the child. Declarations Acknowledgements The authors want to thank all the families that voluntary participate. Funding LR is PhD student at PEDECIBA QU&Iacute;MICA &ndash; UDELAR and received financial support for this research. Availability of data and materials The dataset supporting the conclusions of this article is available in the OSFHOME repository. Raggio, L. (2017, November 25). Reasons for the consumption of each type of vegetable. Retrieved from osf.io/kd4ue. Authors&rsquo; contributions LR processed data of the surveys, performed the personal surveys and was a major contributor in writing the manuscript. Together analyzed and interpreted the data. AG supervised the statistical analyzed the data and the writing of the manuscript. Both authors read and approved the final manuscript. Ethics approval and consent to participate The manuscript was generated as part of the research project called &lsquo;Study of the motivators of and barriers to vegetable consumption in early childhood&rsquo;. The project was a collaboration between the School of Nutrition and the School of Chemistry of the Universidad de la Rep&uacute;blica; Ethics approval was obtained from the Ethics Committee of the School of Chemistry. The parents were recruited in several educational centres in the city of Montevideo and its surroundings by means of an invitation sent to them from the school itself. Written informed consent was obtained from each parent prior to data collection, and each parent was offered a copy of the consent form. The parents who agreed to participate provided a contact email to which they were sent a link to the survey. The families who agreed to participate in the part of the investigation that involved test of questionnaire, were informed of the investigation and written informed consent was obtained from each parent prior to data collection. Consent for publication An explanation of the investigation and the steps, ending in a publication was informed of those parent who demonstrated interest in participate. Those who wanted to participate, answered the surveys. Competing interests The authors declare that they have no competing interests. Publisher&rsquo;s Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. 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Consistent dietary patterns identified from childhood to adulthood: the cardiovascular risk in young Finns study. Br J Nutr. 2005;93(6):923&ndash;31. https://doi.org/10.1079/BJN20051418. View Article PubMed Google Scholar Northstone K, Emmett PM. Are dietary patterns stable throughout early and mid-childhood? A birth cohort study. Br J Nutr. 2008;100(5):1069&ndash;76. https://doi.org/10.1017/S0007114508968264. View Article PubMed PubMed Central Google Scholar Batsell WR, Brown AS, Ansfield ME, Paschall GY. You will eat all of that! A retrospective analysis of forced consumption episodes. Appetite. 2002;38(3):211&ndash;9. https://doi.org/10.1006/appe.2001.0482. View Article PubMed Google Scholar Nicklaus S. The role of food experiences during early childhood in food pleasure learning. Appetite. 2016;104:3&ndash;9. https://doi.org/10.1016/j.appet.2015.08.022. View Article PubMed Google Scholar Johnson SL, Goodell LS, Williams K, Power TG, Hughes SO. Getting my child to eat the right amount. Mothers&rsquo; considerations when deciding how much food to offer their child at a meal. Appetite. 2015;88:24&ndash;32. https://doi.org/10.1016/j.appet.2014.12.004. View Article PubMed Google Scholar de Wild VWT, de Graaf C, Boshuizen HC, Jager G. Influence of choice on vegetable intake in children: an in-home study. Appetite. 2015;91:1&ndash;6. https://doi.org/10.1016/j.appet.2015.03.025. View Article PubMed Google Scholar Dovey TM, Staples PA, Gibson EL, Halford JC. Food neophobia and &ldquo;picky/fussy&rdquo; eating in children. A review. Appetite. 2008;50(2&ndash;3):181&ndash;93. https://doi.org/10.1016/j.appet.2007.09.009. View Article PubMed Google Scholar McFarlane T, Pliner P. Increasing willingness to taste novel foods: effects of nutrition and taste information. Appetite. 1997;28(3):227&ndash;38. https://doi.org/10.1006/appe.1996.0075. View Article PubMed Google Scholar Nederkoorn C, Jansen A, Havermans RC. Feel your food. The influence of tactile sensitivity on picky eating in children. Appetite. 2015;84:7&ndash;10. https://doi.org/10.1016/j.appet.2014.09.014. View Article PubMed Google Scholar Jacobi C, Schmitz G, Agras WS. Is picky eating an eating disorder? Int J Eat Disord. 2008;41(7):626&ndash;34. https://doi.org/10.1002/eat.20545. View Article PubMed Google Scholar Jacobi C, Agras WS, Bryson S, Hammer LD. Behavioral validation, precursors, and concomitants of picky eating in childhood. J Am Acad Child Adolesc Psychiatry. 2003;42(1):76&ndash;84. https://doi.org/10.1097/00004583-200301000-00013. View Article PubMed Google Scholar de Wild VWT, de Graaf C, Jager G. Use of different vegetable products to increase preschool-aged Children&rsquo;s preference for and intake of a target vegetable: a randomized controlled trial. J Acad Nutr Diet. 2017;117(6):859&ndash;66. https://doi.org/10.1016/j.jand.2016.11.006. View Article PubMed Google Scholar Wyse R, Campbell E, Nathan N, Wolfenden L. Associations between characteristics of the home food environment and fruit and vegetable intake in preschool children. A cross-sectional study. BMC Public Health. 2011;11:938&ndash;47. https://doi.org/10.1186/1471-2458-11-938. View Article PubMed PubMed Central Google Scholar Blanchette L, Brug J. Determinants of fruit and vegetable consumption among 6&ndash;12-year-old children and effective interventions to increase consumption. J Hum Nutr Diet. 2005;18(6):431&ndash;43. View Article Google Scholar Rakhshanderou S, Ramezankhani A, Mehrabi Y, Ghaffari M. Determinants of fruit and vegetable consumption among Tehranian adolescents: a qualitative research. J Res Med Sci : The Official Journal of Isfahan University of Medical Sciences. 2014;19(6):482&ndash;9. Google Scholar Vaughn, A. E., Ward, D. S., Fisher, J. O., Faith, M. S., Hughes, S. O., Kremers, S. P. J., Power, T. G. Fundamental constructs in food parenting practices : a content map to guide future research. Nutr Rev 2016, 74 (2), 98&ndash;117. https://doi.org/10.1093/nutrit/nuv061. View Article Google Scholar Hunsaker, S. L., &amp; Jensen, C. D. Effectiveness of a Parent Health Report in Increasing Fruit and Vegetable Consumption Among Preschoolers and Kindergarteners. Journal of Nutrition Education and Behavior. 2017, 49 (5), 380&ndash;386.e1. https://doi.org/10.1016/j.jneb.2017.01.002. View Article Google Scholar Paul IM, Williams JS, Anzman-Frasca S, Beiler JS, Makova KD, Marini ME, et al. The intervention nurses start infants growing on healthy trajectories (INSIGHT) study. BMC Pediatr. 2014;14(184). https://doi.org/10.1186/1471-2431-14-184. Gibson EL, Wardle J, Wattss CJ. Fruit and vegetable consumption, nutritional knowledge and beliefs in mothers and children. Appetite. 1998;31(2):205&ndash;28. https://doi.org/10.1006/appe.1998.0180. View Article PubMed Google Scholar Baxter IA, Schroder MJA. Vegetable consumption among Scottish children: a review of the determinants and proposed strategies to overcome low consumption. Br Food J. 1997;99(10):380&ndash;7. https://doi.org/10.1108/00070709710195167. View Article Google Scholar Martins Y, Pliner P. &ldquo;Ugh ! That &rsquo; s disgusting !&rdquo;: identification of the characteristics of foods underlying rejections based on disgust. Appetite. 2006;46(1):75&ndash;85. https://doi.org/10.1016/j.appet.2005.09.001. View Article PubMed Google Scholar Ahern SM, Caton SJ, Bouhlal S, Hausner H, Olsen A, Nicklaus S, et al. Eating a rainbow. Introducing vegetables in the first years of life in 3 European countries. Appetite. 2013;71:48&ndash;56. https://doi.org/10.1016/j.appet.2013.07.005. View Article PubMed Google Scholar Caton SJ, Ahern SM, Hetherington MM. Vegetables by stealth. An exploratory study investigating the introduction of vegetables in the weaning period. Appetite. 2011;57(3):816&ndash;25. https://doi.org/10.1016/j.appet.2011.05.319. View Article PubMed Google Scholar Poelman AAM, Delahunty CM, de Graaf C. Vegetable preparation practices for 5&ndash;6 years old Australian children as reported by their parents; relationships with liking and consumption. Food Qual Prefer. 2015;42:20&ndash;6. https://doi.org/10.1016/j.foodqual.2015.01.005. View Article Google Scholar Copyright &copy; The Author(s). 2018 Download PDF Section Health behavior, health promotion and society Metrics Article accesses: 658 Citations: 0 more information Altmetric Attention Score: 4 Altmetric Attention Score Share this article See updates Other Actions]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Raggio, Laura</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=c2b879ed74672c10135cd7d40d21e3aa" target="_self"><strong>G&aacute;mbaro Garc&iacute;a, Adriana</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[BMC Public Health v. 18, 2018. -- 11p.--e 1163]]></dcterms:source>
    <dcterms:publisher><![CDATA[BioMed Central Ltd]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong>La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1186/s12889-018-6067-4]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5386">
    <dcterms:title><![CDATA[Phenolic Profiling and Antioxidant Capacity of Eugenia uniflora L. (Pitanga) Samples Collected in Different Uruguayan Locations]]></dcterms:title>
    <dcterms:abstract><![CDATA[The use of nutrient-rich foods to enhance the wellness, health and lifestyle habits of consumers is globally encouraged. Native fruits are of great interest as they are grown and consumed locally and take part of the ethnobotanic knowledge of the population. Pitanga is an example of a native fruit from Uruguay, consumed as a jelly or an alcoholic beverage. Pitanga has a red-violet pigmentation, which is a common trait for foods that are a good source of antioxidants. Hence, fruits from different Uruguayan regions were analyzed via miniaturized sample preparation method, HPLC-DAD-ESI/MSn and RP-HPLC-DAD techniques to identify and quantify phenolic compounds, respectively. The antioxidant capacity was evaluated via DPPH and ORAC (Oxygen Radical Absorbance Capacity) assays. A multivariate linear regression was applied to correlate the observed antioxidant capacity with the phenolic content. Furthermore, Principal Components Analysis was performed to highlight characteristics between the various samples studied. The main results indicated differences between northern and southern Uruguayan samples. Delphinidin-3-hexoside was present in southern samples (mean of 293.16 &micro;mol/100 g dry weight (DW)) and absent in the sample collected in the north (sample 3). All the samples contain high levels of cyanidin-3-hexoside, but a noticeable difference was found between the northern sample (150.45 &micro;mol/100 g DW) and the southern sample (1121.98 &micro;mol/100 g DW). The antioxidant capacity (mean ORAC of 56370 &micro;mol Trolox&reg;/100 g DW) were high in all the samples compared to the Food and Drug Administration (FDA) database of similar berry-fruits. The results of this study highlight the nutraceutical value of a native fruit that has not been exploited until now.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[Migues, Ignacio]]></dcterms:creator>
    <dcterms:source><![CDATA[Foods v. 7, 2018. -- 12p.--e67]]></dcterms:source>
    <dcterms:publisher><![CDATA[MDPI]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[Informaci&oacute;n sobre Derechos de Autor (Por favor lea este aviso antes de abrir los documentos u objetos) La legislaci&oacute;n uruguaya protege el derecho de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006) ADVERTENCIA - La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Artículo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.3390/foods7050067]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5385">
    <dcterms:title><![CDATA[Genomic analysis of the first isolate of KPC-2-producing Klebsiella pneumoniae from Uruguay]]></dcterms:title>
    <dcterms:subject><![CDATA[GENOMA]]></dcterms:subject>
    <dcterms:subject><![CDATA[URUGUAY]]></dcterms:subject>
    <dcterms:subject><![CDATA[ANALISIS GENOMICO]]></dcterms:subject>
    <dcterms:subject><![CDATA[KLEBSIELLA PNEUMONIAE]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Objectives Since KPC-2-producing Klebsiella pneumoniae are associated with successful dissemination of a major clone, defined as sequence type 258 (ST258), the aim of this study was to perform whole-genome sequencing (WGS) of the first colistin-resistant K. pneumoniae strain (Kpn666) carrying blaKPC-2 identified in Uruguay in 2011 in order to identify genomic and phylogenetic traits. Methods WGS of strain Kpn666 isolated from an asymptomatic urinary tract infection was performed using Illumina MiSeq, and de novo assembly was performed using SPADES v.3.11. Contigs were re-ordered using the ST258 reference genome NJST258_1 (GenBank CP006923) and were oriented with the MAUVE Contig Mover. Twenty complete genomes of K. pneumoniae identified as ST258 using the Pasteur MLST site were downloaded from GenBank (May 2017). A maximum-likelihood tree was created using MEGA7 based on core single nucleotide polymorphisms (SNPs) from whole-genome alignment obtained with SNP sites (https://github.com/sanger-pathogens/snp-sites). Results WGS analysis revealed a genome of 5 448 179 bp (5232 CDS, 108 RNAs). Phylogenetic analysis identified that Kpn666 belonged to clade I lineage of ST258. Further studies also identified IncR, IncFIB(K) and IncFII(K) plasmid replicons and 11 transferable associated antimicrobial resistance genes (ARGs) comprising four drug classes. The mgrB gene involved in colistin resistance was shown to be disrupted by insertion of an IS5-like element. Conclusions The first isolate of KPC-2-producing K. pneumoniae]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Alvarez, Ver&oacute;nica E</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Campos, Josefina</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Galiana, Antonio</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Borthagaray, Graciela</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Centr&oacute;n, Daniela</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=833f8df87d0d318b23e4fdb727522b43" target="_self"><strong>M&aacute;rquez Villalba, Carolina</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Journal of Global Antimicrobial Resistance&nbsp; v. 15, 2018. -- p.109-110]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong> ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.jgar.2018.09.001]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5384">
    <dcterms:title><![CDATA[<strong>Number of terms to use in temporal check-all-that-apply studies (TCATA and TCATA Fading) for sensory product characterization by consumers</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[COMPORTAMIENTO DEL CONSUMIDOR]]></dcterms:subject>
    <dcterms:subject><![CDATA[EVALUACION SENSORIAL]]></dcterms:subject>
    <dcterms:subject><![CDATA[CATA]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Temporal Check-All-That-Apply (TCATA), and its variant TCATA Fading, are extensions of Check-All-That-Apply (CATA) questions that can deliver detailed descriptions of the dynamics of the sensory characteristics of samples throughout consumption. This research contributes to establishing guidelines for best practice of TCATA methods and focuses on the number of terms to include in the attribute list. In four consumer studies (n = 492), the influence of list length was assessed by comparing lists containing 9 and 15 terms (&ldquo;short&rdquo; and &ldquo;long&rdquo; lists, respectively). Specifically, results obtained for the 9 sensory attributes common to both lists were compared with respect to: citation proportions, dynamic sensory profiles, sample discrimination, and consumers&rsquo; task perceptions. The key findings pertaining to list length were that: (i) increasing the number of terms was not detrimental in terms of sample discrimination, (ii) consumers were able to use all the 15 terms to discriminate among samples, and (iii) lists of 15 terms provided good data quality in both TCATA and TCATA Fading. The influence of list length on the results was similar for TCATA and TCATA Fading, although there was some evidence pointing to a slight superiority of TCATA Fading over TCATA when long lists of terms are used.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Jaeger, Sara R.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Alcaire, Florencia</strong>.]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Hunter, Denise C.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Jin, David</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Castura, John C</strong>]]></dcterms:creator>
    <dcterms:source><![CDATA[Food Quality and Preference&nbsp; v. 64, 2018. -- p. 154-159]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong>La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.foodqual.2017.09.013]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5383">
    <dcterms:title><![CDATA[<strong>Mechanisms employed by Debaryomyces hansenii in biological control of anthracnose disease on papaya fruit</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[PAPAYA]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIOCONTROL]]></dcterms:subject>
    <dcterms:subject><![CDATA[ENFERMEDADES POSTCOSECHA]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[The mechanisms of action associated with the biocontrol capacity of Debaryomyces hansenii against Colletotrichum gloeosporioides, causal agent of anthracnose in papaya, were studied by means of in vitro and in situ assays. In vitro the yeast exhibited a variety of different antagonistic mechanisms against the phytopathogenic fungus including: volatile organic compounds (VOCs) production, &beta;-1, 3 glucanase and protease activity, inhibition of spore germination, and the competition for saccharose, glucose, fructose and total carbohydrates. Results in situ indicated that disease incidence and lesion diameter of anthracnose on papaya var. Maradol fruit was significantly reduced with a higher concentration of D. hansenii. Our study indicates that D. hansenii is an excellent agent of control to anthracnose disease on papaya var. Maradol fruit.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Hern&aacute;ndez Montiel, Luis G.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Gutierrez Perez, Eric D.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Murillo Amador, Bernardo</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=2ee2943f561ea4e269669831d86e6b58" target="_self"><strong>Vero, Silvana.</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Chiquito Contreras, Roberto G.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Rinc&oacute;n Enriquez, Gabriel</strong>]]></dcterms:creator>
    <dcterms:source><![CDATA[Postharvest Biology and Technology&nbsp; v. 139, 2018. -- p. 31-37]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Articulo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.postharvbio.2018.01.015]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5382">
    <dcterms:title><![CDATA[<strong>Development of a PCR-RFLP method based on the transcription elongation factor 1-a gene to differentiate Fusarium graminearum from other species within the Fusarium graminearum species complex</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[MICOTOXINAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[CEBADA]]></dcterms:subject>
    <dcterms:subject><![CDATA[TRIGO]]></dcterms:subject>
    <dcterms:subject><![CDATA[FUSARIUM GRAMINEARUM]]></dcterms:subject>
    <dcterms:subject><![CDATA[ENFERMEDAD DE LOS CULTIVOS]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Fusarium head blight (FHB) is a destructive disease of cereals crops worldwide and a major food safety concern due to grain contamination with trichothecenes and other mycotoxins. Fusarium graminearum, a member of the Fusarium graminearum species complex (FGSC) is the dominant FHB pathogen in many parts of the world. However, a number of other Fusarium species, including other members of the FGSC, may also be present for example in Argentina, New Zealand, Ethiopia, Nepal, Unites States in cereals such as wheat and barley. Proper species identification is critical to research aimed at improving disease and mycotoxin control programs. Identification of Fusarium species is are often unreliable by traditional, as many species are morphologically cryptic. DNA sequence-based methods offer a reliable means of species identification, but can be expensive when applied to the analyses of population samples. To facilitate identification of the major causative agent of FHB, this work describes an easy and inexpensive method to differentiate F. graminearum from the remaining species within the FGSC and from the other common Fusarium species causing FHB in cereals. The developed method is based on a PCR-RFLP of the transcription elongation factor (TEF 1-&alpha;) gene using the restriction enzyme BsaHI.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Garmendia, Gabriela</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Umpi&eacute;rrez Failache, Mariana.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Ward, Todd J.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=2ee2943f561ea4e269669831d86e6b58" target="_self"><strong>Vero, Silvana.</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Food Microbiology&nbsp; v. 70, 2018. -- p. 28-32]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong> ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI:10.1016/j.fm.2017.08.020]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5381">
    <dcterms:title><![CDATA[<strong>Species composition, toxigenic potential and aggressiveness of Fusarium isolates causing Head Blight of barley in Uruguay</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[MICROBIOLOGIA]]></dcterms:subject>
    <dcterms:subject><![CDATA[MICOTOXINAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[CEBADA]]></dcterms:subject>
    <dcterms:subject><![CDATA[FUSARIUM]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Fusarium Head Blight (FHB) is a major constraint to barley production that substantially reduces yield and grain quality. FHB is also a major food safety concern because FHB pathogens contaminate grain with trichothecenes and other mycotoxins. DNA sequence-based analyses and in-vitro toxin assessments were used to characterize the species and trichothecene chemotype composition of FHB pathogens on barley in Uruguay. F. graminearum was the dominant species (89.7%), and three other members of the F. graminearum species complex (FGSC) were identified as FHB pathogens of barley in Uruguay for the first time. Other minor contributors to FHB species diversity included F. poae, F. avenaceum, F. pseudograminearum and an unnamed species from the F. incarnatum-equiseti species complex (FIESC). Most isolates (89.7%) had the 15-acetyldeoxynivalenol (15-ADON) trichothecene type. However, the results expanded the known area of occurrence within Uruguay for the nivalenol (NIV) toxin type, which was observed among isolates from three species of the FGSC, F. pseudograminearum, and F. poae. Isolates with the 3-acetyldeoxynivalenol (3-ADON) or NX-2 toxin types were not observed, although a previously published multilocus genotyping assay was updated to identify NX-2 strains. Analyses of population structure and comparisons with FHB isolates from wheat in Uruguay indicated that F. graminearum constitutes a single genetic population with no evidence of population differentiation related to the sampled hosts. Inter and intraspecific differences were observed in aggressiveness toward four barley genotypes with different levels of resistance to FHB, and in general nivalenol producers were the least aggressive isolates. Sensitivity to metconazole was approximately 10 times higher than was detected for tebuconazole. This is the first report regarding tebuconazole and metconazole sensitivity for Fusarium species causing FHB in barley in Uruguay, and constitutes an important starting point for monitoring temporal or spatial changes in FGSC sensitivity, which is critical to define FHB management practice]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Garmendia, Gabriela</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Pattarino, Luciana</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Negr&iacute;n, Camila</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Mart&iacute;nez Silveira, Adalgisa</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Pereyra, Silvia.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Ward, Todd J.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=2ee2943f561ea4e269669831d86e6b58" target="_self"><strong>Vero, Silvana.</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Food Microbiology&nbsp; v. 76, 2018. -- p. 426-433]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.fm.2018.07.005]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5380">
    <dcterms:title><![CDATA[<strong>Maproptilina : informaci&oacute;n anal&iacute;tica y de formulaci&oacute;n de la droga</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>MAPROPTILINA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>ANTIDEPRESORES</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>FORMULACION</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1987]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1964-1981]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5379">
    <dcterms:title><![CDATA[<strong>Extracci&oacute;n de alcaloides del Claviceps purp&uacute;rea (cornezuelo de centeno) : dosificaci&oacute;n de alcaloides de Claviceps purp&uacute;rea, detecci&oacute;n y extracci&oacute;n de forrajes (afrechillo, etc.)</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>ALCALOIDES</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CLAVICEPS PURPUREA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>HONGOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CORNEZUELO</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CENTENO (PLANTA)</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>DOSIFICACION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>DETECCION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>EXTRACCION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>ALIMENTOS PARA ANIMALES</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1987]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:language><![CDATA[Espa&ntilde;ol]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1934-1950]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5378">
    <dcterms:title><![CDATA[<strong>Proceso de elaboraci&oacute;n, m&eacute;todo de extracci&oacute;n, an&aacute;lisis (bio-assay), purificaci&oacute;n de gonadotrofina s&eacute;rica de yegua pre&ntilde;ada</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>GONADOTROPINAS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CABALLOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PRE&Ntilde;EZ</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>TECNICAS DE PRODUCCION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>EXTRACCION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PURIFICACION</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PREGNANT MARE'S SERUM GONADOTROPIN (PMSG)</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1987]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1956-1983]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5377">
    <dcterms:title><![CDATA[<strong>Novel Solid Solution of the Antiretroviral Drugs Lamivudine and Emtricitabine</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[FARMACOS ANTIRRETROVIRALES]]></dcterms:subject>
    <dcterms:subject><![CDATA[LAMIVUDINA]]></dcterms:subject>
    <dcterms:subject><![CDATA[EMTRICITABINA]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Solid solutions could represent a viable alternative to better understand and control structure&ndash;property relationships of drugs, in order to optimize their properties for practical applications. Lamivudine (3TC) and emtricitabine (FTC) are nucleoside analogue reverse transcriptase inhibitor antiretroviral drugs, which have similar molecular structures, differing by a single fluorine atom, which is only present in the FTC molecule. Due to these similarities in structure and molecular resemblances, lamivudine and emtricitabine are good candidates for producing a solid solution with physicochemical properties controlled by the stoichiometry. Following this hypothesis, the formation of a nonconventional solid solution was verified, whose crystalline structure is not defined by any of the individual constituents but by the one of the lamivudine hydrate with emtricitabine as a solute. The crystalline structures of two members of the solid solution were determined showing a nonuniform distribution of the solute among the independent molecules of the asymmetric unit of the lamivudine hydrate structure. Thermal analysis investigations confirmed that physicochemical properties could be controlled through the variation of the emtricitabine content.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>de Castro Fonseca, J&eacute;ssica</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Tenorio Clavijo, Juan Carlos</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Alvarez, Natalia</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Ellena, Javier</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Ayala, Alejandro Pedro</strong>]]></dcterms:creator>
    <dcterms:source><![CDATA[Crystal Growth and Design v. 18, 2018. -- p. 3441-3448]]></dcterms:source>
    <dcterms:publisher><![CDATA[American Chemical Society]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong>La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong> ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1021/acs.cgd.8b00164]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5376">
    <dcterms:title><![CDATA[<strong>Pyramen, Piracetam : caracter&iacute;sticas farmcol&oacute;gicas, farmacodin&aacute;micas, toxicol&oacute;gicas, terap&eacute;uticas</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>PYRAMEN</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PIRACETAM</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>FARMACOLOGIA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>TOXICOLOGIA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>TERAPEUTICA</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1986]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1979-1985]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5375">
    <dcterms:title><![CDATA[<strong>Determinaci&oacute;n de &aacute;cido salic&iacute;lico en cremas</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>ACIDOS BENZOICOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PRODUCTOS FARMACEUTICOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CREMAS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1957-1985]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5374">
    <dcterms:title><![CDATA[<strong>TiO2(B) and Anatase Angstrom-Scale Wires : A Theoretical Study</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[DIOXIDO DE TITANIO]]></dcterms:subject>
    <dcterms:subject><![CDATA[ESCALA ANGSTROM]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[In this work, we model TiO2(B) angstrom-scale wires derived from TiO2(B) (001) ultrathin sheets. By means of density functional theory (DFT) calculations, we study their structural, electronic and thermodynamic properties, comparing with anatase angstrom scale wire with z as growing direction, of which there is experimental evidence. We found locally stable structures. TiO2(B) atomic wire oriented along y direction exhibits significantly lower formation energy (0.33 eV) than the other studied systems (1.05 eV for TiO2(B) wire oriented along x- and 0.88 eV for anatase wire oriented along z-direction). Additionally, we present the simulated X-ray powder diffraction diagrams in order to help the experimental identification of this potential titanium dioxide polymorph&rsquo;s nanostructures. These results could be interesting for their potential applications, such as energy storage and photovoltaic applications, and for fundamental studies as well.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Fern&aacute;ndez Werner, Luciana.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Gonz&aacute;lez, Estela A.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=fc7cd71892b1a9968ee19230dafdbd01" target="_self"><strong>Faccio, Ricardo.</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=31ed37f6d0196c1ca18c1b4dfab6de76" target="_self"><strong>Mombr&uacute;, &Aacute;lvaro W.</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Journal of Physical Chemistry C v. 122, 2018. -- p. 3363-3370]]></dcterms:source>
    <dcterms:publisher><![CDATA[American Chemical Society]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong>La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1021/acs.jpcc.7b10418]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5373">
    <dcterms:title><![CDATA[<strong>A Diels-Alder reaction / oxa-Michael addition / acyloin rearrangement cascade on tropolonic substrates</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[ACILOINA]]></dcterms:subject>
    <dcterms:subject><![CDATA[REACCION EN CASCADA]]></dcterms:subject>
    <dcterms:subject><![CDATA[SUSTRATOS TROPOLONICOS]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[We describe a novel pericyclic/anionic cascade reaction on tropolonic substrates that combines a Diels-Alder reaction, an oxa-Michael addition, and an acyloin rearrangement to afford tricyclic &alpha;-hydroxy-&beta;-methoxyketones. Spectroscopic, crystallographic, and mechanistic studies indicate that the process requires stabilization of reaction intermediates through intramolecular H-bonding to take place, and suggest that the conjugate addition step involves a catalytic cycle with initial formation of an ammonium enolate and sustained by an alkoxide ion pair. Given the rich functionality and structural complexity generated in a single step, the process could be exploited in the preparation of natural product-like compound libraries.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Eugui, Macarena</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Rasquin, Katerine</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>L&oacute;pez Radcenco, Andr&eacute;s</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=8b1a957170f0b5988597d2cc3d6f732b" target="_self"><strong>Suescun, Leopoldo</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=0933731a43508cea8800ee7ee13daf0a" target="_self"><strong>Moyna, Guillermo</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Tetrahedron Letters v. 59, 2018. -- p. 1560-1563]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong>La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.tetlet.2018.03.022]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5372">
    <dcterms:title><![CDATA[<strong>Occurrence of pesticide residues in fish from south American rainfed agroecosystems</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[PESTICIDAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[RESIDUOS DE PESTICIDAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[ESPECTROMETRIA DE MASAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[AMERICA DEL SUR]]></dcterms:subject>
    <dcterms:subject><![CDATA[PECES]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Environmental sustainability of South American rainfed agroecosystems is of current concern. In this work, we evaluate the occurrence of multiple pesticide residues in muscle tissue of wild fish species from two large rivers in South America (Uruguay and Negro Rivers). Two sampling campaigns (representing summer and winter crops) were performed during 2015 targeting a wide biodiversity of fish species used for human consumption (ranging from migratory to non-migratory and from detritivorous to top-predators). Three different localities associated to rainfed agriculture were assessed, two of them enclosed to a RAMSAR site (National Park “Esteros de Farrapos e Islas del Rio Uruguay”). Pesticide residues occurred in muscle tissue of 143 from 149 sampled fishes (96%). Thirty different pesticides were detected at concentrations from &lt;1 to 194 μg kg−1. Incidence of pesticides in fish were tightly related to: i) features of the contaminant: (Kow, environmental persistence and mobility) and ii) intensity of use of particular pesticides and land dedicated to rainfed agriculture. Trifloxystrobin, metolachlor and pyraclostrobin showed the highest rates of occurrence. Of great concern is that strobirulins have highest toxicity to fish from those detected compounds. From the pattern of pesticides occurring for non-migratory fish species it was possible to trend important spatial differences related to the intensity of rainfed agriculture. Results suggest a regular exposition of aquatic wild biota to sublethal concentrations of multiple semi-polar pesticides.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Ernst Godoy, Federico.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Alonso, Beatriz</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Colazzo, Marcos</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=9edbcd311038cde9474fee1b6a745006" target="_self"><strong>Pareja, Lucia</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=0a105db2a5a7c020d6e14e25180d1b21" target="_self"><strong>Cesio, Mar&iacute;a Ver&oacute;nica.</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Pereira, Alfredo</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>M&aacute;rquez, Alejandro</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Errico, Eugenia</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Segura, Angel Manuel</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=0f8b88f1a07d7ad1bd23900b47efb225" target="_self"><strong>Heinzen, Horacio.</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=63603ce3a998d4e07f478108ea2446ca" target="_self"><strong>P&eacute;rez Parada, Andr&eacute;s</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[Science of the Total Environment&nbsp; v. 631-632, 2018.-- p. 169-179]]></dcterms:source>
    <dcterms:publisher><![CDATA[Elsevier]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1016/j.scitotenv.2018.02.320]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5371">
    <dcterms:title><![CDATA[<strong>Microorganisms reveal what plants do not : wheat growth and rhizosphere microbial communities after Azospirillum brasilense inoculation and nitrogen fertilization under field conditions</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[MICROORGANISMOS]]></dcterms:subject>
    <dcterms:subject><![CDATA[AZOSPIRILLUM BRASILENSE]]></dcterms:subject>
    <dcterms:subject><![CDATA[FERTILIZACION NITROGENADA]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[Aims Azospirillum brasilense is one of plant growth promoting bacteria used to improve plant growth and grain yield of cereal crops. The level of inoculation response is defined by complex plant-microorganism interactions, many of them still unknown. Thus, we evaluated both agronomic response and microbial ecology of wheat crop under A. brasilense inoculation and nitrogen fertilization at field conditions in order to improve inoculation efficiency. Methods Treatments were: control, nitrogen fertilization and inoculation with 40M and 42M strains. Functional and structural diversity of rhizosphere bacterial communities were evaluated by community-level physiological and terminal restriction fragment length polymorphism profiles. Besides, aerial biomass, grain yield and counts of microaerophilic diazotrophic rhizobacteria were determined. Results Plant ontogeny modified the number of culturable microaerophilic diazotrophic rhizobacteria. Although agronomic response did not show differences, plant ontogeny and the agricultural practices modified both physiology and genetic structure of rhizosphere microbial communities. Interestingly, these differences due to the treatments were observed at jointing stage but not at grain-filling stage of wheat. Conclusions Our results demonstrate how different management decisions can change plant- microorganism relationships. While wheat could not show differences between some agricultural treatments, under the soil surface microbial communities could show them.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<strong>Di Salvo, Luciana P.</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Ferrando, Luc&iacute;a</strong>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=6bafda5eaecdd88e5424ba123376c41a" target="_self"><strong>Fern&aacute;ndez Scavino, Ana</strong></a>]]></dcterms:creator>
    <dcterms:creator><![CDATA[<strong>Garc&iacute;a de Salamone, In&eacute;s E.</strong>]]></dcterms:creator>
    <dcterms:source><![CDATA[Plant and Soil&nbsp; v. 424, no. 1-2, 2018. -- p. 405-417]]></dcterms:source>
    <dcterms:publisher><![CDATA[Springer]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong>ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Art&iacute;culo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1007/s11104-017-3548-7]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5370">
    <dcterms:title><![CDATA[<strong>Determinaci&oacute;n de &aacute;cido benzoico en cremas</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>ACIDOS BENZOICOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>PRODUCTOS FARMACEUTICOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CREMAS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1986]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1961-1984]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5369">
    <dcterms:title><![CDATA[<strong>Per&oacute;xido de hidr&oacute;geno (agua oxigenada) : estabilizantes del per&oacute;xido, m&eacute;todo de reconocimiento o medici&oacute;n del poder oxidante del per&oacute;xido en soluciones dilu&iacute;das</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>PEROXIDO DE HIDROGENO</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>ESTABILIZANTES (AGENTES)</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>OXIDANTES</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>SOLUCIONES (LIQUIDOS)</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1986]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1981-1984]]></dcterms:temporal>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5368">
    <dcterms:title><![CDATA[<strong>Theoretical characterization of supramolecular complexes formed by fullerenes and dimeric porphyrins</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[FULLERENOS]]></dcterms:subject>
    <dcterms:subject><![CDATA[PORFIRINAS DIMERICAS]]></dcterms:subject>
    <dcterms:subject><![CDATA[BIBLIOGRAFIA NACIONAL QUIMICA]]></dcterms:subject>
    <dcterms:subject><![CDATA[2018]]></dcterms:subject>
    <dcterms:abstract><![CDATA[We have employed the M06-2X, PBE-D3BJ and B3LYP-D3BJ methods to study the hosting of fullerenes by 15 single, dimeric and trimeric porphyrins. We found a poor correlation between the experimental association constants and the calculated free energy changes in solution. Surprisingly, the correlation between &Delta;E and Image ID:c8nj01467a-t1.gif was also unsatisfactory. The problem could be traced back to the fact that dimeric porphyrins adopt stacked structures in the gas phase, while they present open structures in the supramolecular complex with C60. The inclusion of solvent effects reduced the relative energies between the stacked and open forms of the dimeric porphyrins. Thus, flexible dimeric porphyrins seem to be more efficient than buckybowls in overcoming non bonded interactions, which force hosts to adopt folded structures. For this reason they display larger association constants towards fullerenes. On the basis of these results, we found that a qualitative assessment of the strength of fullerene/porphyrin complexes was possible when diabatic interactions energies were considered, i.e. gas phase binding energies computed using the structures that the receptor and guest present in the supramolecular complex.]]></dcterms:abstract>
    <dcterms:creator><![CDATA[<a title="Curriculum Vitae" href="http://buscadores.anii.org.uy/buscador_sni/exportador/ExportarPdf?hash=330eeda61de9937431a7182c44a5ee24" target="_self"><strong>Denis, Pablo A.</strong></a>]]></dcterms:creator>
    <dcterms:source><![CDATA[New Journal of Chemistry |g v. 42, 2018. -- p. 9956-9964]]></dcterms:source>
    <dcterms:publisher><![CDATA[Royal Society of Chemistry]]></dcterms:publisher>
    <dcterms:date><![CDATA[2018]]></dcterms:date>
    <dcterms:rights><![CDATA[<p><strong>Informaci&oacute;n sobre Derechos de Autor</strong></p>
<p>(Por favor lea este aviso antes de abrir los documentos u objetos)</p>
<p><strong> La legislaci&oacute;n uruguaya protege el derecho</strong> de autor sobre toda creaci&oacute;n literaria, cient&iacute;fica o art&iacute;stica, tanto en lo que tiene que ver con sus derechos morales, como en lo referente a los derechos patrimoniales con sujeci&oacute;n a lo establecido por el derecho com&uacute;n y las siguientes leyes (LEY 9.739 DE 17 DE DICIEMBRE DE 1937 SOBRE PROPIEDAD LITERARIA Y ARTISTICA CON LAS MODIFICACIONES INTRODUCIDAS POR LA LEY DE DERECHO DE AUTOR Y DERECHOS CONEXOS No. 17.616 DE 10 DE ENERO DE 2003, LEY 17.805 DE 26 DE AGOSTO DE 2004, LEY 18.046 DE 24 DE OCTUBRE DE 2006)</p>
<p><strong> ADVERTENCIA -</strong> La consulta de este documento queda condicionada a la aceptaci&oacute;n de las siguientes condiciones de uso: Este documento es &uacute;nicamente para usos privados enmarcados en actividades de investigaci&oacute;n y docencia. No se autoriza su reproducci&oacute;n con fines de lucro. Esta reserva de derechos afecta tanto los datos del documento como a sus contenidos. En la utilizaci&oacute;n o cita de partes debe indicarse el nombre de la persona autora.</p>]]></dcterms:rights>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Artículo]]></dcterms:type>
    <dcterms:identifier><![CDATA[DOI: 10.1039/C8NJ01467A]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://riquim.fq.edu.uy/items/show/5367">
    <dcterms:title><![CDATA[<strong>Molinate - pesticidas : an&aacute;lisis de carbamatos en agua</strong>]]></dcterms:title>
    <dcterms:subject><![CDATA[<strong>MOLINATE</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>RESIDUOS DE PLAGUICIDAS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>QUIMICA ANALITICA</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>CARBAMATOS</strong>]]></dcterms:subject>
    <dcterms:subject><![CDATA[<strong>AGUA</strong>]]></dcterms:subject>
    <dcterms:publisher><![CDATA[Biblioteca-FQ]]></dcterms:publisher>
    <dcterms:date><![CDATA[1986]]></dcterms:date>
    <dcterms:format><![CDATA[Papel]]></dcterms:format>
    <dcterms:format><![CDATA[PDF]]></dcterms:format>
    <dcterms:language><![CDATA[Ingl&eacute;s]]></dcterms:language>
    <dcterms:type><![CDATA[Bibliograf&iacute;a]]></dcterms:type>
    <dcterms:temporal><![CDATA[1968-1980]]></dcterms:temporal>
</rdf:Description></rdf:RDF>
