Built site for gh-pages

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listings.json

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-    "href": "index.html",
-    "title": "How does aerobiology behave in a neotropical city?",
+    "objectID": "alzate-guarin_etal/index.html",
+    "href": "alzate-guarin_etal/index.html",
+    "title": "P.0384 Ethnobotany and taxonomy of plants from the Emberá tribe of Colombia",
+    "section": "",
+    "text": "The Emberá Amerindian people are a tribe found in northern South America and Panama. This ethnic group has some sacred sites in the Serranía de Abibe, the northwestern end of the Andes Mountain range, an area of tropical forest almost unexplored due to social and political reasons. In field work carried out, the flora of three sacred sites for this people, located in the Abibe mountain range, Colombia, was collected, described, and characterized, and the taxonomy and nomenclature used by these communities for the plants in their environment is described and presented. The characterization includes the inventory of a selected sample of the flora associated with these sites and an explanation of their ecological characteristics and cultural importance. Emphasis is placed on the nature of the knowledge that the jaibaná (traditional healers), has about plants and the ways in which they are used in the community. The botanical samples were obtained, pressed, and described for subsequent taxonomic identification in the herbarium of the University of Antioquia (HUA). The information on the use given in the community to the collected species was given by the jaibaná and other members of the indigenous community. 36 of the plants collected have names in the Emberá language, where several of these names are used at the same time to call different species, eight are named after animals and three names refer to parts of the human body. The Emberá language does not have a generic name for all plants, as it does for all animals (ninduru). For the Emberá, plants are considered female or male, depending on whether they produce fruit, and some grammatical radicals are usually added to the name that refer to characters such as timber (zarea), or toxic (neara), depending on the species."
+  },
+  {
+    "objectID": "alzate-guarin_etal/index.html#abstract",
+    "href": "alzate-guarin_etal/index.html#abstract",
+    "title": "P.0384 Ethnobotany and taxonomy of plants from the Emberá tribe of Colombia",
+    "section": "",
+    "text": "The Emberá Amerindian people are a tribe found in northern South America and Panama. This ethnic group has some sacred sites in the Serranía de Abibe, the northwestern end of the Andes Mountain range, an area of tropical forest almost unexplored due to social and political reasons. In field work carried out, the flora of three sacred sites for this people, located in the Abibe mountain range, Colombia, was collected, described, and characterized, and the taxonomy and nomenclature used by these communities for the plants in their environment is described and presented. The characterization includes the inventory of a selected sample of the flora associated with these sites and an explanation of their ecological characteristics and cultural importance. Emphasis is placed on the nature of the knowledge that the jaibaná (traditional healers), has about plants and the ways in which they are used in the community. The botanical samples were obtained, pressed, and described for subsequent taxonomic identification in the herbarium of the University of Antioquia (HUA). The information on the use given in the community to the collected species was given by the jaibaná and other members of the indigenous community. 36 of the plants collected have names in the Emberá language, where several of these names are used at the same time to call different species, eight are named after animals and three names refer to parts of the human body. The Emberá language does not have a generic name for all plants, as it does for all animals (ninduru). For the Emberá, plants are considered female or male, depending on whether they produce fruit, and some grammatical radicals are usually added to the name that refer to characters such as timber (zarea), or toxic (neara), depending on the species."
+  },
+  {
+    "objectID": "alzate-guarin_etal/index.html#citation",
+    "href": "alzate-guarin_etal/index.html#citation",
+    "title": "P.0384 Ethnobotany and taxonomy of plants from the Emberá tribe of Colombia",
+    "section": "Citation",
+    "text": "Citation\n\n\n\nAlzate-Guarin, F. A., Turbay-Ceballos, S. M., Rosique-García, J., & Rojas-Mora, S. H. (2024). P.0384 Ethnobotany and taxonomy of plants from the Emberá tribe of Colombia. In XX International Botanical Congress IBC 2024, Spain. Book of Abstracts. Posters. (pp. 211–212). Fase 20 Ediciones. https://ibcmadrid2024.com/docs/secciones/24.pdf"
+  },
+  {
+    "objectID": "espinosa-correa_&_alzate-guarin/index.html",
+    "href": "espinosa-correa_&_alzate-guarin/index.html",
+    "title": "P.0077 How does aerobiology behave in a neotropical city?",
     "section": "",
     "text": "Aerobiology in the tropics is still a science in development, where sampling and analysis are needed to understand the dynamics that occur there. Airborne pollen concentrations in the city of Medellín were measured using a Hirst-type sampler and correlated with meteorological parameters (relative humidity, rainfall, temperature, and wind speed) and air pollutants (PM2.5, PM10, NOx). Sampling was conducted over three years from (2019-2022), and pollen grains were detected on all days of sampling. The annual pollen integral (APIn) was 46,826, 51,536, and 43,608 pollen * day/m3 for each of the three sampling years. A total of 26 pollen types were identified, with Cecropia, Urticaceae, Fraxinus, Moraceae, Cupressaceae, Myrtaceae, Pinus, and Arecaceae being the most abundant. The highest pollen concentrations were observed from December to January and in July-August, corresponding to the months with the lowest rainfall. The Main Pollen Season (MPS) ranged from 247 to 301 days in duration. During all sampling days, aerovagant pollen was found present in the atmosphere of the city of Medellín. The highest hourly pollen concentrations occurred around noon, whilst something very different and rarely reported occurs with Cecropia, which is much more abundant at night, from 20:00 to 1:00 h. Relative humidity and rainfall showed negative correlations, while temperature and wind speed exhibited positive correlations, which has also been observed in different samples around the world. PM2.5 and NOx display significant negative correlations, whereas PM10 exhibits significant positive correlations. These results underscore the influence of atmospheric variables on airborne pollen in a tropical city. Furthermore, they suggest the potential use of pollen as an indicator of air quality in the urban environment.\nKey words: Aeropalinology; Air Quality; Annual Pollen Integral; Main Pollen Season; Urban ecosystems"
   },
   {
-    "objectID": "index.html#abstract",
-    "href": "index.html#abstract",
-    "title": "How does aerobiology behave in a neotropical city?",
+    "objectID": "espinosa-correa_&_alzate-guarin/index.html#abstract",
+    "href": "espinosa-correa_&_alzate-guarin/index.html#abstract",
+    "title": "P.0077 How does aerobiology behave in a neotropical city?",
     "section": "",
     "text": "Aerobiology in the tropics is still a science in development, where sampling and analysis are needed to understand the dynamics that occur there. Airborne pollen concentrations in the city of Medellín were measured using a Hirst-type sampler and correlated with meteorological parameters (relative humidity, rainfall, temperature, and wind speed) and air pollutants (PM2.5, PM10, NOx). Sampling was conducted over three years from (2019-2022), and pollen grains were detected on all days of sampling. The annual pollen integral (APIn) was 46,826, 51,536, and 43,608 pollen * day/m3 for each of the three sampling years. A total of 26 pollen types were identified, with Cecropia, Urticaceae, Fraxinus, Moraceae, Cupressaceae, Myrtaceae, Pinus, and Arecaceae being the most abundant. The highest pollen concentrations were observed from December to January and in July-August, corresponding to the months with the lowest rainfall. The Main Pollen Season (MPS) ranged from 247 to 301 days in duration. During all sampling days, aerovagant pollen was found present in the atmosphere of the city of Medellín. The highest hourly pollen concentrations occurred around noon, whilst something very different and rarely reported occurs with Cecropia, which is much more abundant at night, from 20:00 to 1:00 h. Relative humidity and rainfall showed negative correlations, while temperature and wind speed exhibited positive correlations, which has also been observed in different samples around the world. PM2.5 and NOx display significant negative correlations, whereas PM10 exhibits significant positive correlations. These results underscore the influence of atmospheric variables on airborne pollen in a tropical city. Furthermore, they suggest the potential use of pollen as an indicator of air quality in the urban environment.\nKey words: Aeropalinology; Air Quality; Annual Pollen Integral; Main Pollen Season; Urban ecosystems"
   },
   {
-    "objectID": "index.html#references",
-    "href": "index.html#references",
-    "title": "How does aerobiology behave in a neotropical city?",
+    "objectID": "espinosa-correa_&_alzate-guarin/index.html#poster",
+    "href": "espinosa-correa_&_alzate-guarin/index.html#poster",
+    "title": "P.0077 How does aerobiology behave in a neotropical city?",
+    "section": "Poster",
+    "text": "Poster\n\n    It seems that you don’t have a PDF plugin for this browser.\n    No problem… you can click here\n    to download the PDF file."
+  },
+  {
+    "objectID": "espinosa-correa_&_alzate-guarin/index.html#references",
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+    "title": "P.0077 How does aerobiology behave in a neotropical city?",
     "section": "References",
     "text": "References\n\n\nAira-Rodríguez, M. J., Almaguer-Chávez, M., Fernández-González, M. D., & Rodríguez-Rajo, F. J. (2018). Pollen diversity in the atmosphere of Havana, Cuba. Aerobiologia, 34(3), 389–403. https://doi.org/10.1007/s10453-018-9521-y\n\n\nAlzate-Guarin, F. A., Quijano-Abril, M. A., Álvarez-Sánchez, A., & Fonnegra-Gómez, R. (2015). Atmospheric pollen and spore content in the urban area of the city of Medellin, Colombia. Hoehnea, 42(1), 9–19. https://doi.org/10.1590/2236-8906-52/2013\n\n\nGalán, C., Alcázar, P., Oteros, J., García-Mozo, H., Aira-Rodríguez, M. J., Belmonte-Soler, J., Diaz de la Guardia, C., Fernández-González, M. D., Gutierrez-Bustillo, M., Moreno-Grau, S., Pérez-Badía, R., Rodríguez-Rajo, F. J., Ruiz-Valenzuela, L., Tormo-Molina, R., Trigo-Pérez, M. del M., & Domínguez-Vilches, E. (2016). Airborne pollen trends in the Iberian Peninsula. Science of The Total Environment, 550, 53–59. https://doi.org/10.1016/j.scitotenv.2016.01.069\n\n\nGalán, C., Cariñanos, P., Alcázar, P., & Domínguez, E. (2007). Manual de calidad y gestión de la Red Española de Aerobiología. Universidad de Córdoba. http://www.redespanoladeaerobiologia.com/metodologia.html\n\n\nGalán, C., Smith, M., Thibaudon, M., Frenguelli, G., Oteros, J., Gehrig, R., Berger, U. E., Clot, B., Brandao, R., & EAS QC Working Group. (2014). Pollen monitoring: minimum requirements and reproducibility of analysis. Aerobiologia, 30(4), 385–395. https://doi.org/10.1007/s10453-014-9335-5\n\n\nHirst, J. M. (1952). An automatic volumetric spore trap. Annals of Applied Biology, 39(2), 257–265. https://doi.org/10.1111/j.1744-7348.1952.tb00904.x\n\n\nHurtado, I., & Alson-Haran, J. (1995). Airborne dispersal of Cecropia peltata L. (Moraceae) pollen, a neotropical species, in the vicinity of Caracas, Venezuela. Aerobiologia, 11(2), 101–103. https://doi.org/10.1007/BF02738274"
+  },
+  {
+    "objectID": "espinosa-correa_&_alzate-guarin/index.html#citation",
+    "href": "espinosa-correa_&_alzate-guarin/index.html#citation",
+    "title": "P.0077 How does aerobiology behave in a neotropical city?",
+    "section": "Citation",
+    "text": "Citation\n\n\n\nEspinosa-Correa, Á., & Alzate-Guarin, F. A. (2024). P.0077 How does aerobiology behave in a neotropical city? In XX International Botanical Congress IBC 2024, Spain. Book of Abstracts. Posters. (pp. 56–57). Fase 20 Ediciones. https://ibcmadrid2024.com/docs/secciones/24.pdf"
+  },
+  {
+    "objectID": "index.html",
+    "href": "index.html",
+    "title": "GEOBOTA at the XX International Botanical Congress",
+    "section": "",
+    "text": "From July 21 to 27, 2024, the XX International Botanical Congress took place in Madrid, Spain. We participated with a couple of research studies.\n\n\n\n\n\n\n\n\n\n\nP.0077 How does aerobiology behave in a neotropical city?\n\n\n\nÁlex Espinosa-Correa, Fernando A. Alzate-Guarin\n\n\n\n\n\n\n\n\n\n\n\n\nP.0384 Ethnobotany and taxonomy of plants from the Emberá tribe of Colombia\n\n\n\nFernando A. Alzate-Guarin, Sandra M. Turbay-Ceballos, Javier Rosique-Gracia, Sneider H. Rojas Mora\n\n\n\n\n\n\n\n\nNo matching items\n\n\n\n\n\n\n Back to top"
   }
 ]

site_libs/quarto-html/quarto.js

@@ -225,7 +225,10 @@ window.document.addEventListener("DOMContentLoaded", function (_event) {
   }
 
   async function findAndActivateCategories() {
-    const currentPagePath = offsetAbsoluteUrl(window.location.href);
+    // Categories search with listing only use path without query
+    const currentPagePath = offsetAbsoluteUrl(
+      window.location.origin + window.location.pathname
+    );
     const response = await fetch(offsetRelativeUrl("listings.json"));
     if (response.status == 200) {
       return response.json().then(function (listingPaths) {