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         <ul class="articles">
            <li>
               <a
                  href="https://academic.oup.com/biolinnean/article-abstract/137/4/700/6764620?login=false"
                  target="_blank">
                  <h2>
                     Update: Assessing the Evolutionary Trajectory of the
                     Apaporis Caiman (<i>Caiman crocodilus apaporiensis</i>,
                     Medem 1955) Via Mitochondrial Molecular Markers.
                  </h2></a
               >
               <aside class="aside-art">
                  <img
                     src="Images/updateArtPNG.PNG"
                     alt="Front page"
                     width="100%" />
               </aside>
               <h3>Abstract</h3>
               <p>
                  The spectacled caiman (<i>Caiman crocodilus</i>) is currently
                  considered to be a species complex due to the relatively high
                  morphological and molecular diversity expressed across its
                  range. One of the populations of interest, inhabiting the
                  Apaporis River (Colombia), was described based on skull
                  features as an incipient species (<i>C. c. apaporiensis</i>)
                  and has been treated by some authors as a full species. Recent
                  molecular work challenged this hypothesis, because relatively
                  low mitochondrial molecular differentiation was found between
                  the morphologically described Apaporis caiman and
                  <i>C. crocodilus</i> (s.s.) Amazonian populations.
                  <a
                     href="https://academic.oup.com/biolinnean/article-abstract/137/4/700/6764620?login=false"
                     target="_blank"
                     >(...)</a
                  >
               </p>
               <h4>Keywords</h4>
               <p class="keywords">
                  Crocodylians · Morphometrics · Phylogenetics · Phylogeography
                  · Population genetics · Systematics.
               </p>
            </li>
            <hr />

            <li>
               <a
                  href="https://www.researchgate.net/publication/341823349_Assessing_the_influence_of_allometry_on_sexual_and_non-sexual_traits_An_example_in_Cicindelidia_trifasciata_Coleoptera_Cicindelinae_using_geometric_morphometrics"
                  target="_blank">
                  <h2>
                     Assessing the Influence of Allometry on Sexual and
                     non-Sexual Traits: An Example in
                     <i>Cicindelidia trifasciata</i>
                     (Coleoptera: Cicindelinae) Using Geometric Morphometrics.
                  </h2></a
               >
               <aside class="aside-art">
                  <img
                     src="Images/cicindela.PNG"
                     alt="Front page"
                     width="100%" />
               </aside>
               <h3>Abstract</h3>
               <p>
                  Based on a quantitative mathematical revolution, the study of
                  morphology has had an important emphasis by developing
                  statistical shape analysis. This made possible the combination
                  of multivariate statistical methods and new ways to visualize
                  a morphological structure. Patterns of allometry (shape
                  influence on size) in sexual and non-sexual traits were
                  examined in adults of
                  <i>Cicindelidia trifasciata Fabricius</i> collected in north
                  Chilean wetland, using geometric morphometric techniques.
                  Abdomen, mandible and wing shapes were analyzed using 16, 12
                  and 19 morphological landmarks. Sexual and non-sexual traits
                  differences were found after a principal component analysis
                  <a
                     href="https://www.researchgate.net/publication/341823349_Assessing_the_influence_of_allometry_on_sexual_and_non-sexual_traits_An_example_in_Cicindelidia_trifasciata_Coleoptera_Cicindelinae_using_geometric_morphometrics"
                     target="_blank"
                     >(...)</a
                  >
               </p>
               <h4>Keywords</h4>
               <p class="keywords">
                  Geometric morphometrics · Sexual shape dimorphism · Tiger
                  beetle · Sexual traits.
               </p>
            </li>
            <hr />

            <li>
               <a
                  href="https://www.researchgate.net/publication/332984271_Unveiling_the_cryptic_morphology_and_ontogeny_of_the_Colombian_Caiman_crocodilus_a_geometric_morphometric_approach"
                  target="_blank"
                  ><h2>
                     Unveiling the Cryptic Morphology and Ontogeny of the
                     Colombian <i>Caiman crocodilus</i>: A Geometric
                     Morphometric Approach.
                  </h2></a
               >
               <aside class="aside-art">
                  <img src="Images/caimanArt.png" alt="Front page" />
               </aside>

               <h3>Abstract</h3>
               <p>
                  <i>Caiman crocodilus</i> is an alligatoroid broadly
                  distributed in the neotropics from Mexico to Brazil, where
                  Colombia is the only country that has the complete subspecies
                  complex distributed in its territory. This species has been
                  the focus of many genetic, ecological and morphological
                  studies. However, these studies are limited to traditional
                  morphology methods or have limitations to examine
                  interspecific variation among the four subspecies reported in
                  Colombia. This is the first study of intraspecific variation
                  in the skull of <i>Caiman crocodilus</i> complex distributed
                  in Colombia, using a two-dimensional approach of geometric
                  morphometric on 122 post-hatching ontogenetic cranial series.
                  <a
                     href="https://www.researchgate.net/publication/332984271_Unveiling_the_cryptic_morphology_and_ontogeny_of_the_Colombian_Caiman_crocodilus_a_geometric_morphometric_approach"
                     target="_blank"
                     >(...)</a
                  >
               </p>
               <h4>Keywords</h4>
               <p class="keywords">
                  Geometric morphometrics · <i>Caiman crocodilus</i> · Colombian
                  biodiversity · Cranial variation · Ontogeny.
               </p>
            </li>
            <hr />

            <li>
               <a
                  href="https://www.researchgate.net/publication/224914634_Cultivable_Bacteria_Populations_Associated_with_Leaves_of_Banana_and_Plantain_Plants_and_Their_Antagonistic_Activity_Against_Mycosphaerella_fijiensis"
                  target="_blank"
                  ><h2>
                     Cultivable Bacteria Populations Associated with Leaves of
                     Banana and Plantain Plants and Their Antagonistic Activity
                     Against Mycosphaerella fijiensis
                  </h2></a
               >
               <aside class="aside-art">
                  <img src="Images/bacteriaArt.PNG" alt="Front page" />
               </aside>

               <h3>Abstract</h3>
               <p>
                  <i>Mycosphaerella fijiensis</i> is the etiological agent of
                  Black Sigatoka, a fungal disease that affects production of
                  banana and plantain crops in tropical regions. The sizes of
                  cultivable epiphytic and endophytic bacterial populations,
                  aerobic endospore forming bacteria (AEFB), and antagonist
                  bacteria against <i>M. fijiensis</i> isolated from three
                  <i>Musa</i> spp. cultivars from Urabá (Colombia) were studied,
                  in order to find a suitable screening strategy to isolate
                  antagonistic bacteria. Most of the variability found in the
                  epiphytic and endophytic bacterial community sizes among fruit
                  trees was explained by the cultivar differences.
                  <a
                     href="https://www.researchgate.net/publication/224914634_Cultivable_Bacteria_Populations_Associated_with_Leaves_of_Banana_and_Plantain_Plants_and_Their_Antagonistic_Activity_Against_Mycosphaerella_fijiensis"
                     target="_blank"
                     >(...)</a
                  >
               </p>
               <h4>Keywords</h4>
               <p class="keywords">
                  Endophytic bacterium · Total bacterium · Leaf position ·
                  Indolic compound · Antagonistic bacterium.
               </p>
            </li>
            <hr />

            <li>
               <a
                  href="https://www.researchgate.net/publication/40027837_The_Box-Benkhen_experimental_design_for_the_optimization_of_the_electrocatalytic_treatment_of_wastewaters_with_high_concentrations_of_phenol_and_organic_matter"
                  target="_blank"
                  ><h2>
                     The Box-Benkhen Experimental Design for the Optimization of
                     the Electrocatalytic Treatment of Wastewaters with High
                     Concentrations of Phenol and Organic Matter.
                  </h2></a
               >
               <aside class="aside-art">
                  <img src="Images/aguasArt.PNG" alt="Front page" />
               </aside>

               <h3>Abstract</h3>
               <p>
                  In this work, the Box-Benkhen experimental Design (BBD) was
                  applied for the optimization of the parameters of the
                  electrocatalytic degradation of wastewaters resulting from a
                  phenolic resins industry placed in the suburbs of Medellín
                  (Colombia). The direct and the oxidant assisted
                  electro-oxidation experiments were carried out in a laboratory
                  scale batch cell reactor, with monopolar configuration, and
                  electrodes made of graphite (anode) and titanium (cathode). A
                  multifactorial experimental design was proposed, including the
                  following experimental variables: initial phenol
                  concentration, conductivity, and pH. The direct
                  electro-oxidation process allowed to reach ca. 88% of phenol
                  degradation, 38% of mineralization (TOC), 52% of Chemical
                  Oxygen Demand (COD) degradation, and an increase in water
                  biodegradability of 13%.
                  <a
                     href="https://www.researchgate.net/publication/40027837_The_Box-Benkhen_experimental_design_for_the_optimization_of_the_electrocatalytic_treatment_of_wastewaters_with_high_concentrations_of_phenol_and_organic_matter"
                     target="_blank "
                     >(...)</a
                  >
               </p>
               <h4>Keywords</h4>
               <p class="keywords">
                  Anodic oxidation · Electro-oxidation process · Kinetics ·
                  Phenol.
               </p>
            </li>
         </ul>
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