{"id":2221,"date":"2023-10-21T23:05:07","date_gmt":"2023-10-22T05:05:07","guid":{"rendered":"https:\/\/cenoteando.mx\/?page_id=2221"},"modified":"2024-02-12T15:41:14","modified_gmt":"2024-02-12T21:41:14","slug":"articles","status":"publish","type":"page","link":"https:\/\/cenoteando.mx\/en\/articles\/","title":{"rendered":"Articles"},"content":{"rendered":"<div class=\"wpb-content-wrapper\"><p>[vc_row full_width=&#8221;stretch_row&#8221; bg_type=&#8221;bg_color&#8221; bg_color_value=&#8221;#00534c&#8221;][vc_column]<div id=\"ultimate-heading-687169d7a24935515\" class=\"uvc-heading ult-adjust-bottom-margin ultimate-heading-687169d7a24935515 uvc-1255 \" data-hspacer=\"no_spacer\"  data-halign=\"left\" style=\"text-align:left\"><div class=\"uvc-heading-spacer no_spacer\" style=\"top\"><\/div><div class=\"uvc-main-heading ult-responsive\"  data-ultimate-target='.uvc-heading.ultimate-heading-687169d7a24935515 h3'  data-responsive-json-new='{\"font-size\":\"desktop:25px;\",\"line-height\":\"\"}' ><h3 style=\"font-weight:bold;color:#ffffff;margin-bottom:25px;\">List of published articles<\/h3><\/div><\/div>[\/vc_column][\/vc_row][vc_row][vc_column][vc_empty_space height=&#8221;30px&#8221;][\/vc_column][\/vc_row][vc_row full_width=&#8221;stretch_row&#8221;][vc_column]<div id=\"advanced-tabs-desc-wrap-5138\" class=\"ult_tabs \" style=\" \" data-tabsstyle=\"style2\"\n data-titlebg=\"#1b2c3a\" data-titlecolor=\"#ffffff\" data-fullheight=\"off\"\n data-titlehoverbg=\"#006785\" data-titlehovercolor=\"#ffffff\"\n data-rotatetabs=\"0\" data-responsivemode=\"Both\" data-animation=\"Fade\"\ndata-activetitle=\"#ffffff\" data-activeicon=\"\" data-activebg=\"#00534c\"  data-respmode=\"Tabs\" data-respwidth=\"400\" data-scroll = \"on\" data-activeindex=\"1\"><ul id=advanced-tabs-wrap-1858 class=\"ult_tabmenu style2 \" style=\"color:transparent;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-width:0px;\"><li class=\"ult_tab_li  \" data-iconcolor=\"#74777b\" data-iconhover=\"#ffffff\" style=\"\">\n\t\t\t\t\t<a href=\"#1706125369491-27d02-2be1\"  id=\"1706125369491-27d02-2be1\"  style=\"color:#ffffff;background-color:#1b2c3a;border-top-left-radius:8px;;   \" class=\"ult_a  \">\n\t\t\t\t\t     <span class=\"ult_tab_main Both \">\n\t\t\t\t\t \t\t <span class=\"ult_tab_section\">\n\t\t\t\t\t   \t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_tab_display_text ult-responsive\" style=\";\">2023<\/span>\n\t\t\t\t\t   \t\t<\/span>\n\t\t\t\t\t\t<\/span>\n\t\t\t\t\t<\/a>\n\t\t\t\t\t<\/li><li class=\"ult_tab_li  \" data-iconcolor=\"#74777b\" data-iconhover=\"#ffffff\" style=\"\">\n\t\t\t\t\t<a href=\"#1706125369604-57d02-2be1\"  id=\"1706125369604-57d02-2be1\"  style=\"color:#ffffff;background-color:#1b2c3a;;   \" class=\"ult_a  \">\n\t\t\t\t\t     <span class=\"ult_tab_main Both \">\n\t\t\t\t\t \t\t <span class=\"ult_tab_section\">\n\t\t\t\t\t   \t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_tab_display_text ult-responsive\" style=\";\">2022<\/span>\n\t\t\t\t\t   \t\t<\/span>\n\t\t\t\t\t\t<\/span>\n\t\t\t\t\t<\/a>\n\t\t\t\t\t<\/li><li class=\"ult_tab_li  \" data-iconcolor=\"#74777b\" data-iconhover=\"#ffffff\" style=\"\">\n\t\t\t\t\t<a href=\"#1706125585120-2-27d02-2be1\"  id=\"1706125585120-2-27d02-2be1\"  style=\"color:#ffffff;background-color:#1b2c3a;;   \" class=\"ult_a  \">\n\t\t\t\t\t     <span class=\"ult_tab_main Both \">\n\t\t\t\t\t \t\t <span class=\"ult_tab_section\">\n\t\t\t\t\t   \t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_tab_display_text ult-responsive\" style=\";\">2021<\/span>\n\t\t\t\t\t   \t\t<\/span>\n\t\t\t\t\t\t<\/span>\n\t\t\t\t\t<\/a>\n\t\t\t\t\t<\/li><li class=\"ult_tab_li  \" data-iconcolor=\"#74777b\" data-iconhover=\"#ffffff\" style=\"\">\n\t\t\t\t\t<a href=\"#1706125587162-3-17d02-2be1\"  id=\"1706125587162-3-17d02-2be1\"  style=\"color:#ffffff;background-color:#1b2c3a;;   \" class=\"ult_a  \">\n\t\t\t\t\t     <span class=\"ult_tab_main Both \">\n\t\t\t\t\t \t\t <span class=\"ult_tab_section\">\n\t\t\t\t\t   \t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_tab_display_text ult-responsive\" style=\";\">2020<\/span>\n\t\t\t\t\t   \t\t<\/span>\n\t\t\t\t\t\t<\/span>\n\t\t\t\t\t<\/a>\n\t\t\t\t\t<\/li><li class=\"ult_tab_li  \" data-iconcolor=\"#74777b\" data-iconhover=\"#ffffff\" style=\"\">\n\t\t\t\t\t<a href=\"#1706125609120-4-77d02-2be1\"  id=\"1706125609120-4-77d02-2be1\"  style=\"color:#ffffff;background-color:#1b2c3a;;   \" class=\"ult_a  \">\n\t\t\t\t\t     <span class=\"ult_tab_main Both \">\n\t\t\t\t\t \t\t <span class=\"ult_tab_section\">\n\t\t\t\t\t   \t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_tab_display_text ult-responsive\" style=\";\">2019<\/span>\n\t\t\t\t\t   \t\t<\/span>\n\t\t\t\t\t\t<\/span>\n\t\t\t\t\t<\/a>\n\t\t\t\t\t<\/li><li class=\"ult_tab_li  \" data-iconcolor=\"#74777b\" data-iconhover=\"#ffffff\" style=\"\">\n\t\t\t\t\t<a href=\"#1706125610152-5-47d02-2be1\"  id=\"1706125610152-5-47d02-2be1\"  style=\"color:#ffffff;background-color:#1b2c3a;border-top-right-radius:8px;;   \" class=\"ult_a  \">\n\t\t\t\t\t     <span class=\"ult_tab_main Both \">\n\t\t\t\t\t \t\t <span class=\"ult_tab_section\">\n\t\t\t\t\t   \t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_tab_display_text ult-responsive\" style=\";\">2018<\/span>\n\t\t\t\t\t   \t\t<\/span>\n\t\t\t\t\t\t<\/span>\n\t\t\t\t\t<\/a>\n\t\t\t\t\t<\/li><\/ul><div  data-ultimate-target='#advanced-tabs-desc-wrap-5138 .ult_tabcontent .ult_tab_min_contain  p'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}' class=\"ult_tabcontent ult-responsive style2\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\"><div class=\"ult_tab_min_contain \" >\n\t\t\t<div  class=\"ult_tabitemname\"  >\n\t\t\t\t[vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;1851&#8243; img_size=&#8221;medium&#8221; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Linking radiocarbon and throphic webs in karstic groundwater ecosystems in the Yucatan Peninsula, Mexico.&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;C Sol\u00eds, E M Ch\u00e1vez-Sol\u00eds, M Rodr\u00edguez-Ceja, C G M\u00e9ndez-Garc\u00eda, E Ort\u00edz, C Canto, M A Mart\u00ednez-Carrillo y M Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;January 17, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Stable isotopes have been used historically to track food webs. Our approach used a combination of \u03b413C and radiocarbon (14C) dating to identify carbon sources in cave shrimp within caves of the Karstic Yucatan Peninsula, Mexico. Three sister species of stygobitic Typhlatya shrimps were collected from the cenote pool (cenote hereafter), cavern and cave hydro regions. New and previously reported 14C and \u03b413C values of whole tissues from the organisms were determined at the AMS laboratory (LEMA) of the Institute of Physics of the Universidad Nacional Aut\u00f3noma de M\u00e9xico. This new set of isotopic values of biomass and potential sources were incorporated into the Bayesian Mixing Modeling Software SIAR. In two hypothetical scenarios, the contribution from each feeding source among three species of the Typhlatya genus was determined. Slight differences were also observed between isotopic values of two groups of the same species collected in two distant cenote pools, suggesting this species may feed on a wider array of sources than previously found, and that the oligotrophic environment may have a strong influence on cave shrimp diet.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.cambridge.org\/core\/journals\/radiocarbon\/article\/linking-radiocarbon-and-trophic-webs-in-karstic-groundwater-ecosystems-in-the-yucatan-peninsula-mexico\/1DC677AB946918A65EDBB14BDD9CDFE8\" ><button type=\"button\" id=\"ubtn-2090\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938531\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-2090'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;6&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1848&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Morphology of the feeding apparatus of cave shrimp of the genus Typhlatya (Decapoda: Atyidae) from the Yucatan Peninsula and comparison with epigean species&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Ivonne Trejo-Ventura, Gema Armend\u00e1riz, Jos\u00e9 Luis Villalobos, Fernando \u00c1lvarez&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;May 23, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Using micrographs obtained from SEM, the arrangement of the bristles on the dactyle and propodium of pereiopods 1 and 2, defined here as the feeding apparatus, of 3 species of cave shrimp of the genus Typhlatya (T. mitchelli, T. .pearsei, T.dzilamensis) from the Yucat\u00e1n Peninsula. The mushrooms were classified according to their morphology and position on the propodium and dactyl, resulting in 6 main types. The 3 Typhlatya species differed slightly in the number of each type of mushroom and showed some morphological variations, especially in the central setae. A comparison of the setal arrangement of Typhlatya spp. with that of the epigean species Potimirim mexicana and P. glabra, showed important differences probably generated by specialization to a certain habitat.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/revista.ib.unam.mx\/index.php\/bio\/article\/view\/5230\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7737\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a2493858e\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7737'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;6&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1857&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Use of Microbiological and Chemical Data to Evaluate the Effects of Tourism on Water Quality in Karstic Cenotes in Yucatan&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Flor Arcega-Cabrera, Karina Le\u00f3n-Aguirre, Fernando Ense\u00f1at-Soberanis, Germ\u00e1n Gi\u00e1coman-Vallejos, Gabriela Rodr\u00edguez-Fuentes, Ismael Oceguera-Vargas, Elizabeth Lamas-Cos\u00edo &amp; Nuno Simoes&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;June 23, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Cenotes are spectacular karst formations in Yucatan, Mexico, often used for recreation. However, their impact on water quality has yet to be explored in detail. Therefore, during Easter, water samples were collected from four cenotes to identify variations in water quality associated with the presence of tourists. PCO of water quality, before (PH) and during Holy Week (HW) in 2019, explained 49.02% of the total variation. The indicators contributing to the first principal coordinate\u2019s variation were Sr, K, sulfate, and chloride (0.89). Whereas, alkalinity, temperature, conductivity, nitrate, and ORP contributed to the second PC. PERMANOVA indicated a significant interaction between \u201ccenote\u201d and \u201ccondition\u201d factors, and post hoc paired comparisons indicated significant differences between PH and HW conditions. Significant correlations varied among the four cenotes as the result of hydrogeological differences. Whereas, numbers of visitors were correlated with at least one fecal-matter indicator, demonstrating anthropogenic influence on the cenotes\u2019 water quality.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/link.springer.com\/article\/10.1007\/s00128-023-03761-1\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-2074\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a249385e5\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-2074'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;6&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2989&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Extravisual opsins in the blind shrimp Creaseria morleyi: presence and expression&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:center|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Jos\u00e9 R. P\u00e9rez-Calder\u00f3n, Jorge A. P\u00e9rez-Le\u00f3n, Nuno Sim\u00f5es, Marisela Aguirre-Ram\u00edrez, Roxana E. Malpica-Calder\u00f3n, Alejandro Botello&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;November 10, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]The presence of a long-wavelength sensitive (LWS) opsin gene was demonstrated in the stygobitic crustacean Creaseria morleyi (Creaser, 1936) by PCR readings from genomic DNA. In order to find the expression of this gene in extraocular tissue, shrimps were collected and placed in a tank to expose them to light\/dark conditions for a period of 72 hours, and immediately after, sacrificed and sampled for RNA in the eyes, cephalothorax, abdomen, and sixth abdominal segment plus uropods. The transcripts of the LWS opsin gene were found in the eyes and abdomen of individuals exposed to light. The expression of these opsins could be involved in extravisual functions such as synchronization of their biological processes with environmental cycles related to diurnal vertical migration.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"http:\/\/10.0.6.54\/2358-2936e2023024\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-3728\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a2493863d\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-3728'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t<\/div>\n\t\t\t<div  class=\"ult_tabitemname\"  >\n\t\t\t\t[vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2993&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;New distribution records of subterranean crustaceans from cenotes in Yucatan (Mexico).&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal, Efra\u00edn M. Ch\u00e1vez-Sol\u00eds, Luis A. Li\u00e9vano-Beltr\u00e1n, Benjam\u00edn Maga\u00f1a, Nuno Sim\u00f5es, Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 12, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This study demonstrates the need for integrative\/interdisciplinary approaches when conducting biodiversity assessments in complex and poorly studied aquifers. This first integrative evaluation (i.e., molecular, morphological, broad geographic and type locality sampling, and environmental data) of Yucata\u0301n Typhlatya reveals considerable species identity conflict in prior phylogenetic assessments, broad species ranges, syntopy within cave systems, and five genetic lineages.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/doi.org\/10.3897\/zookeys.911.47694\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7529\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938952\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7529'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1860&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;An integrative re\u2010evaluation of Typhlatya shrimp within the karst aquifer of the Yucata\u0301n Peninsula, Mexico&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Lauren Ballou &#8211; David Brankovits &#8211; Efrai\u0301n M. Cha\u0301vez\u2010Soli\u0301s &#8211; Jose\u0301 M. Cha\u0301vez Di\u0301az &#8211; Brett C. Gonzalez &#8211; Shari Rohret &#8211; Alexa Salinas &#8211; Arielle Liu &#8211; Nuno Simo\u0303es &#8211; Fernando A\u0301lvarez &#8211; Maria Pia Miglietta &#8211; Thomas M. Iliffe &#8211; Elizabeth Borda&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;March 29, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This study demonstrates the need for integrative\/interdisciplinary approaches when conducting biodiversity assessments in complex and poorly studied aquifers. This first integrative evaluation (i.e., molecular, morphological, broad geographic and type locality sampling, and environmental data) of Yucata\u0301n Typhlatya reveals considerable species identity conflict in prior phylogenetic assessments, broad species ranges, syntopy within cave systems, and five genetic lineages.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.nature.com\/articles\/s41598-022-08779-9\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-8301\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a249389af\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-8301'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1855&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Physiological characterization of Typhlatya cave shrimps: linking habitat with aerobic metabolism&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Efra\u00edn M. Ch\u00e1vez-Sol\u00eds, Fernando D\u00edaz, Kurt Paschke, Denise Re, Carlos Rosas, Gabriela Rodr\u00edguez-Fuentes, Nelly Tremblay y Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;July 29, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Here we describe physiological aspects of three of the most abundant and widespread Typhlatya species that thrive in the fresh and marine groundwater habitats of the anchialine ecosystem of the Yucatan Peninsula.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.frontiersin.org\/articles\/10.3389\/fmars.2022.892274\/full\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-9122\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938a08\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-9122'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1853&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Benthic species assemblages change through a freshwater cavern-type cenote in the Yucat\u00e1n Peninsula, Mexico&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal, Sergio Cohuo , Jos\u00e9 Manuel Castro-P\u00e9rez, Maite Mascar\u00f3, Carlos Rosas&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;August 11, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]We studied benthic assemblages through X-Bat\u00fan, a continental freshwater cenote and its associated submerged cave located in San Antonio Mulix (Yucat\u00e1n, Mexico). Using cave diving techniques, we collected sediment samples at four zones of the system. We extracted and counted individuals of benthic species in three replicates of 5 grams of wet sediment at each site. The biological composition was integrated by 15 species from eight higher taxonomic groups. Non-metric multidimensional scaling distinguished four assemblages that coincided with surface, open water, cavern and cave zones. ANOSIM test revealed significant differences between the assemblages. In the deeper zones of the cenote characterized by twilight and total darkness, Ostracoda and Gastropoda show the highest diversity and abundance, with practical absence in surface sediments. This pattern may suggest ecological interactions with chemosynthetic bacterial activity. Surface shows an assemblage typical of epigean environments. Environmental variables along the cenote varied little from the upper layers to bottom. Linear correlation and detrended canonical analysis revealed that light is the main driver of benthic species assemblages. Temperature, pH, and dissolved oxygen exert higher influence at individual biological benthic assemblage in X-Bat\u00fan.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/subtbiol.pensoft.net\/article\/77980\/\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-5604\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938a5d\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-5604'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2991&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Editorial: The effects of environmental change on anchialine ecosystems&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Mej\u00eda-Ort\u00edz, Luis M, Ch\u00e1vez-Sol\u00eds, Efra\u00edn M, Brankovits, David&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;September 14, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This Research Topic was established with the aim to bring together the most recent outcomes and advances from a variety of scientific disciplines that link spatial and temporal changes in the environment to biogeochemical, ecological, and physiological changes at different biological scales in anchialine ecosystems, from microbes and macrofauna to habitat level. We have received contributions from disciplines spanning paleoecology, microbiology, biogeochemistry, and ecophysiology from four geographical regions around the world (Australia, Bermuda, The Bahamas, and the Yucatan Peninsula). Specifically, these studies aimed at characterizing the limits of physiological adaptations of cave-adapted crustaceans, the drivers of organic matter inputs over time, and how organic matter availability regulates microbial community structure and meiofauna assemblages. These contributions expand our understanding of anchialine ecosystem functioning and enable better predictions of future ecological changes within these coastal aquifer habitats.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/doi.org\/10.3389\/fmars.2022.1029027\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-6437\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938ab6\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-6437'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;]\n\t\t\t<\/div>\n\t\t\t<div  class=\"ult_tabitemname\"  >\n\t\t\t\t[vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2399&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Subterranean Waters of Yucat\u00e1n Peninsula, Mexico RevealEpigean Species Dominance and Intraspecific Variability inFreshwater Ostracodes (Crustacea: Ostracoda)&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Laura Macario-Gonz\u00e1lez &#8211; Sergio Cohuo &#8211; Dorottya Angyal &#8211; Liseth P\u00e9rez &#8211; Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;January 24, 2021&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]In order to gain insights into the biological evolution of the subterranean environments of the Yucatan Peninsula, we evaluated the ostracode species composition of caves and cenotes in five independent sampling campaigns (2008, 2013, 2017\u20132019).[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.mdpi.com\/1424-2818\/13\/2\/44\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-1315\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938c7d\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-1315'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2396&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Updated Distribution of the Mysid Antromysis cenotensis (Crustacea: Peracarida), a Protected Key Species in Yucatan Peninsula Cenotes&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Luis Arturo Li\u00e9vano-Beltr\u00e1n &#8211; Nuno Sim\u00f5es&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;March 21, 2021&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]We present 52 new geographic location records for the peracarid crustacean Antromysis cenotensis Creaser, 1936, endemic in cenotes of the Yucatan Peninsula, Mexico. This species is currently considered threatened and, therefore, is protected by Mexican law.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.mdpi.com\/1424-2818\/13\/4\/154\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-5592\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938cd3\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-5592'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t<\/div>\n\t\t\t<div  class=\"ult_tabitemname\"  >\n\t\t\t\t[vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2789&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;A new locality and phylogeny of the stygobitic Typhlatya shrimps for the Yucatan Peninsula&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Luis Espinasa &#8211; Efrai\u0301n M. Cha\u0301vez Soli\u0301s &#8211; Maite Mascaro\u0301 &#8211; Carlos Rosas &#8211; Nuno Simoes &#8211; Gregory Violette&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 12, 2020&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]<em>Typhlatya\u00a0<\/em>is a genus of small, stygobitic shrimp in the family Atyidae. Species in this genus are found in subterranean anchialine habitats, and they span salt, brackish and fresh waters. None have been reported in the open sea (Botello et al. 2013).[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.nsm.buffalo.edu\/Research\/SPELEOBIOLOGY_NOTES\/index.php\/Speleo\/article\/view\/91\/108\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-9207\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938ee6\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-9207'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2384&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Distribution patterns, carbon sources and niche partitioning in cave shrimps (Atyidae: Typhlatya)&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Efr\u00e1in Ch\u00e1vez-Sol\u00eds, Corina Sol\u00eds, Nuno Sim\u00f4es, Maire Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;July 30, 2020&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Cave shrimps of the Typhlatya genus are common and widespread in fresh, brackish and marine groundwater throughout the Yucatan Peninsula (Mexico). These species are ideal models to test niche partitioning within sympatric species in oligotrophic systems.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.nature.com\/articles\/s41598-020-69562-2\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-4013\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938f43\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-4013'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2394&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Uptaded checklist, historical overview and illustrated guide to the stygobiont Malacostraca (Arthropoda: Crustacea) species of Yucatan (Mexico)&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal &#8211; Nuno Simoes &#8211; Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;November 30, 2020&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This study provides an updated checklist and an illustrated guide to the 17 currently known stygobiont Malacostraca species of the state of Yucatan (Yucatan Peninsula, Mexico)[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/subtbiol.pensoft.net\/article\/53558\/\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-2315\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24938f9a\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-2315'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t<\/div>\n\t\t\t<div  class=\"ult_tabitemname\"  >\n\t\t\t\t[vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2386&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;First record of subterranean freshwater gastropods (Mollusca, Gastropoda, Cochliopidae) from the cenotes of Yucat\u00e1n state&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Jozef Grego &#8211; Dorottya Angyal &#8211; Luis Arturo Li\u00e9vano Beltr\u00e1n&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 18, 2019&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]The biospeleological investigations of several cenotes in the eastern region of Yucat\u00e1n state, Mexico, during January 2018 yielded, among other invertebrates, two new truncatelloid gastropod species described here in as Mexicenotica xochii gen. n. et sp. n. and Pyrgophorus thompsoni sp. n. Both species represent the first record of stygobiont gastropod species from the cenotes of Yucat\u00e1n indicating the high biodiversity potential of the studied area.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/subtbiol.pensoft.net\/article\/32779\/\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7995\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a249390e7\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7995'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t<\/div>\n\t\t\t<div  class=\"ult_tabitemname\"  >\n\t\t\t\t[vc_empty_space height=&#8221;40px&#8221;][vc_row_inner][vc_column_inner][vc_single_image image=&#8221;2392&#8243; alignment=&#8221;center&#8221; style=&#8221;vc_box_shadow_border&#8221;][vc_custom_heading text=&#8221;Predatory behavior of the cave shrimp Creaseria morleyi (Creaser, 1936) (Caridea: Palaemonidae), the blind hunter of the Yucata\u0301n cenotes, Mexico&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Efrai\u0301n M. Cha\u0301vez-Soli\u0301s &#8211; Luis M. Meji\u0301a-Orti\u0301z &#8211; Nuno Simo\u0303es&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;January 7, 2018&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]<span data-sheets-formula-bar-text-style=\"font-size:13px;color:#1155cc;font-weight:normal;text-decoration:underline;font-family:'Arial';font-style:normal;text-decoration-skip-ink:none;\">The predatory behavior of C. morleyi is here described for the first time, verifying its classification as a predator. A variety of prey targets, including the atyid shrimp Typhlatya sp., were used to demonstrate predation and saprophagous feeding behavior in C. morleyi using <\/span><a class=\"waffle-rich-text-link\" data-sheets-formula-bar-text-link=\"https:\/\/www.youtube.com\/watch?v=0Uv1soOSLLo\" data-sheets-formula-bar-text-style=\"font-size:13px;color:#1155cc;font-weight:normal;text-decoration:underline;font-family:'Arial';font-style:normal;text-decoration-skip-ink:none;\">in vitro and in situ observations.<\/a>[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/academic.oup.com\/jcb\/article\/38\/1\/1\/4706304\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-8967\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a249392cc\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-8967'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2388&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Mayaweckelia troglomorpha, a new subterranean amphipod species from Yucata\u0301n state, Me\u0301xico (Amphipoda, Hadziidae)&#8221; font_container=&#8221;tag:h2|font_size:20|text_align:left|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal &#8211; Efrai\u0301n Cha\u0301vez Soli\u0301s &#8211; Benjami\u0301n Magan\u0303a &#8211; Gergely Bala\u0301zs &#8211; Nuno Simoes&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 6, 2018&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]A detailed description of a new stygobiont species of the amphipod family Hadziidae, Mayaweckelia troglomorpha Angyal, sp. n. is given, based on material collected in four cenotes of Yucata\u0301n federal state, Me\u0301xico.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/zookeys.pensoft.net\/articles.php?id=21164\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-8477\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24939324\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-8477'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[\/vc_column_inner][\/vc_row_inner]\n\t\t\t<\/div><\/div><\/div><\/div><div class=\"ult_acord advanced-tabs-desc-wrap-5138\">\n   <div class=\"ult-tabto-accordion \" style=\"width:;\"\n    data-titlecolor=\"#ffffff\"  data-titlebg=\"#1b2c3a\"\n     data-titlehoverbg=\"#006785\" data-titlehovercolor=\"#ffffff\" data-animation=\"Fade\"\n     data-activetitle=\"#ffffff\" data-activeicon=\"\" data-activebg=\"#00534c\" data-scroll = \"on\" data-activeindex=\"1\" >\n     <dl><dt class=\"\">\n\t        \t<a class=\"ult-tabto-actitle withBorder ult_a \" id=\"1706125369491-27d02-2be1\" style=\"color:#ffffff;;background-color:#1b2c3a;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;\" href=\"#1706125369491-27d02-2be1\">\n\t        \t\t<i class=\"accordion-icon\"><\/i>\n\t        \t\t\t<span class=\"ult_tab_main ult_ac_main ult_noacordicnBoth\">\n\n\t\t\t\t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_acordian-text ult-responsive\" style=\";color:inherit \" >2023<\/span>\n\t\t\t\t\t\t<\/span><\/a><\/dt>\n\t            \t\t<dd class=\"ult-tabto-accordionItem ult-tabto-accolapsed\">\n\t\t\t\t            <div class=\"ult-tabto-acontent\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\">\n\t\t\t\t               [vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;1851&#8243; img_size=&#8221;medium&#8221; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Linking radiocarbon and throphic webs in karstic groundwater ecosystems in the Yucatan Peninsula, Mexico.&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;C Sol\u00eds, E M Ch\u00e1vez-Sol\u00eds, M Rodr\u00edguez-Ceja, C G M\u00e9ndez-Garc\u00eda, E Ort\u00edz, C Canto, M A Mart\u00ednez-Carrillo y M Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;January 17, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Stable isotopes have been used historically to track food webs. Our approach used a combination of \u03b413C and radiocarbon (14C) dating to identify carbon sources in cave shrimp within caves of the Karstic Yucatan Peninsula, Mexico. Three sister species of stygobitic Typhlatya shrimps were collected from the cenote pool (cenote hereafter), cavern and cave hydro regions. New and previously reported 14C and \u03b413C values of whole tissues from the organisms were determined at the AMS laboratory (LEMA) of the Institute of Physics of the Universidad Nacional Aut\u00f3noma de M\u00e9xico. This new set of isotopic values of biomass and potential sources were incorporated into the Bayesian Mixing Modeling Software SIAR. In two hypothetical scenarios, the contribution from each feeding source among three species of the Typhlatya genus was determined. Slight differences were also observed between isotopic values of two groups of the same species collected in two distant cenote pools, suggesting this species may feed on a wider array of sources than previously found, and that the oligotrophic environment may have a strong influence on cave shrimp diet.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.cambridge.org\/core\/journals\/radiocarbon\/article\/linking-radiocarbon-and-trophic-webs-in-karstic-groundwater-ecosystems-in-the-yucatan-peninsula-mexico\/1DC677AB946918A65EDBB14BDD9CDFE8\" ><button type=\"button\" id=\"ubtn-2961\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a2493693c\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-2961'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;6&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1848&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Morphology of the feeding apparatus of cave shrimp of the genus Typhlatya (Decapoda: Atyidae) from the Yucatan Peninsula and comparison with epigean species&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Ivonne Trejo-Ventura, Gema Armend\u00e1riz, Jos\u00e9 Luis Villalobos, Fernando \u00c1lvarez&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;May 23, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Using micrographs obtained from SEM, the arrangement of the bristles on the dactyle and propodium of pereiopods 1 and 2, defined here as the feeding apparatus, of 3 species of cave shrimp of the genus Typhlatya (T. mitchelli, T. .pearsei, T.dzilamensis) from the Yucat\u00e1n Peninsula. The mushrooms were classified according to their morphology and position on the propodium and dactyl, resulting in 6 main types. The 3 Typhlatya species differed slightly in the number of each type of mushroom and showed some morphological variations, especially in the central setae. A comparison of the setal arrangement of Typhlatya spp. with that of the epigean species Potimirim mexicana and P. glabra, showed important differences probably generated by specialization to a certain habitat.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/revista.ib.unam.mx\/index.php\/bio\/article\/view\/5230\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7670\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a2493699a\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7670'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;6&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1857&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Use of Microbiological and Chemical Data to Evaluate the Effects of Tourism on Water Quality in Karstic Cenotes in Yucatan&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Flor Arcega-Cabrera, Karina Le\u00f3n-Aguirre, Fernando Ense\u00f1at-Soberanis, Germ\u00e1n Gi\u00e1coman-Vallejos, Gabriela Rodr\u00edguez-Fuentes, Ismael Oceguera-Vargas, Elizabeth Lamas-Cos\u00edo &amp; Nuno Simoes&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;June 23, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Cenotes are spectacular karst formations in Yucatan, Mexico, often used for recreation. However, their impact on water quality has yet to be explored in detail. Therefore, during Easter, water samples were collected from four cenotes to identify variations in water quality associated with the presence of tourists. PCO of water quality, before (PH) and during Holy Week (HW) in 2019, explained 49.02% of the total variation. The indicators contributing to the first principal coordinate\u2019s variation were Sr, K, sulfate, and chloride (0.89). Whereas, alkalinity, temperature, conductivity, nitrate, and ORP contributed to the second PC. PERMANOVA indicated a significant interaction between \u201ccenote\u201d and \u201ccondition\u201d factors, and post hoc paired comparisons indicated significant differences between PH and HW conditions. Significant correlations varied among the four cenotes as the result of hydrogeological differences. Whereas, numbers of visitors were correlated with at least one fecal-matter indicator, demonstrating anthropogenic influence on the cenotes\u2019 water quality.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/link.springer.com\/article\/10.1007\/s00128-023-03761-1\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-9794\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a249369f2\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-9794'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;6&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2989&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Extravisual opsins in the blind shrimp Creaseria morleyi: presence and expression&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:center|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Jos\u00e9 R. P\u00e9rez-Calder\u00f3n, Jorge A. P\u00e9rez-Le\u00f3n, Nuno Sim\u00f5es, Marisela Aguirre-Ram\u00edrez, Roxana E. Malpica-Calder\u00f3n, Alejandro Botello&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;November 10, 2023&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]The presence of a long-wavelength sensitive (LWS) opsin gene was demonstrated in the stygobitic crustacean Creaseria morleyi (Creaser, 1936) by PCR readings from genomic DNA. In order to find the expression of this gene in extraocular tissue, shrimps were collected and placed in a tank to expose them to light\/dark conditions for a period of 72 hours, and immediately after, sacrificed and sampled for RNA in the eyes, cephalothorax, abdomen, and sixth abdominal segment plus uropods. The transcripts of the LWS opsin gene were found in the eyes and abdomen of individuals exposed to light. The expression of these opsins could be involved in extravisual functions such as synchronization of their biological processes with environmental cycles related to diurnal vertical migration.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"http:\/\/10.0.6.54\/2358-2936e2023024\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-4786\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936a49\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-4786'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t\t            <\/div>\n\t        \t\t\t<\/dd><dt class=\"\">\n\t        \t<a class=\"ult-tabto-actitle withBorder ult_a \" id=\"1706125369604-57d02-2be1\" style=\"color:#ffffff;;background-color:#1b2c3a;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;\" href=\"#1706125369604-57d02-2be1\">\n\t        \t\t<i class=\"accordion-icon\"><\/i>\n\t        \t\t\t<span class=\"ult_tab_main ult_ac_main ult_noacordicnBoth\">\n\n\t\t\t\t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_acordian-text ult-responsive\" style=\";color:inherit \" >2022<\/span>\n\t\t\t\t\t\t<\/span><\/a><\/dt>\n\t            \t\t<dd class=\"ult-tabto-accordionItem ult-tabto-accolapsed\">\n\t\t\t\t            <div class=\"ult-tabto-acontent\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\">\n\t\t\t\t               [vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2993&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;New distribution records of subterranean crustaceans from cenotes in Yucatan (Mexico).&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal, Efra\u00edn M. Ch\u00e1vez-Sol\u00eds, Luis A. Li\u00e9vano-Beltr\u00e1n, Benjam\u00edn Maga\u00f1a, Nuno Sim\u00f5es, Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 12, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This study demonstrates the need for integrative\/interdisciplinary approaches when conducting biodiversity assessments in complex and poorly studied aquifers. This first integrative evaluation (i.e., molecular, morphological, broad geographic and type locality sampling, and environmental data) of Yucata\u0301n Typhlatya reveals considerable species identity conflict in prior phylogenetic assessments, broad species ranges, syntopy within cave systems, and five genetic lineages.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/doi.org\/10.3897\/zookeys.911.47694\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-4993\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936b05\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-4993'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1860&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;An integrative re\u2010evaluation of Typhlatya shrimp within the karst aquifer of the Yucata\u0301n Peninsula, Mexico&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Lauren Ballou &#8211; David Brankovits &#8211; Efrai\u0301n M. Cha\u0301vez\u2010Soli\u0301s &#8211; Jose\u0301 M. Cha\u0301vez Di\u0301az &#8211; Brett C. Gonzalez &#8211; Shari Rohret &#8211; Alexa Salinas &#8211; Arielle Liu &#8211; Nuno Simo\u0303es &#8211; Fernando A\u0301lvarez &#8211; Maria Pia Miglietta &#8211; Thomas M. Iliffe &#8211; Elizabeth Borda&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;March 29, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This study demonstrates the need for integrative\/interdisciplinary approaches when conducting biodiversity assessments in complex and poorly studied aquifers. This first integrative evaluation (i.e., molecular, morphological, broad geographic and type locality sampling, and environmental data) of Yucata\u0301n Typhlatya reveals considerable species identity conflict in prior phylogenetic assessments, broad species ranges, syntopy within cave systems, and five genetic lineages.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.nature.com\/articles\/s41598-022-08779-9\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7495\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936b64\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7495'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1855&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Physiological characterization of Typhlatya cave shrimps: linking habitat with aerobic metabolism&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Efra\u00edn M. Ch\u00e1vez-Sol\u00eds, Fernando D\u00edaz, Kurt Paschke, Denise Re, Carlos Rosas, Gabriela Rodr\u00edguez-Fuentes, Nelly Tremblay y Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;July 29, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Here we describe physiological aspects of three of the most abundant and widespread Typhlatya species that thrive in the fresh and marine groundwater habitats of the anchialine ecosystem of the Yucatan Peninsula.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.frontiersin.org\/articles\/10.3389\/fmars.2022.892274\/full\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7992\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936bc0\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7992'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;1853&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Benthic species assemblages change through a freshwater cavern-type cenote in the Yucat\u00e1n Peninsula, Mexico&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal, Sergio Cohuo , Jos\u00e9 Manuel Castro-P\u00e9rez, Maite Mascar\u00f3, Carlos Rosas&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;August 11, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]We studied benthic assemblages through X-Bat\u00fan, a continental freshwater cenote and its associated submerged cave located in San Antonio Mulix (Yucat\u00e1n, Mexico). Using cave diving techniques, we collected sediment samples at four zones of the system. We extracted and counted individuals of benthic species in three replicates of 5 grams of wet sediment at each site. The biological composition was integrated by 15 species from eight higher taxonomic groups. Non-metric multidimensional scaling distinguished four assemblages that coincided with surface, open water, cavern and cave zones. ANOSIM test revealed significant differences between the assemblages. In the deeper zones of the cenote characterized by twilight and total darkness, Ostracoda and Gastropoda show the highest diversity and abundance, with practical absence in surface sediments. This pattern may suggest ecological interactions with chemosynthetic bacterial activity. Surface shows an assemblage typical of epigean environments. Environmental variables along the cenote varied little from the upper layers to bottom. Linear correlation and detrended canonical analysis revealed that light is the main driver of benthic species assemblages. Temperature, pH, and dissolved oxygen exert higher influence at individual biological benthic assemblage in X-Bat\u00fan.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/subtbiol.pensoft.net\/article\/77980\/\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-4024\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936c18\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-4024'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2991&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Editorial: The effects of environmental change on anchialine ecosystems&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Mej\u00eda-Ort\u00edz, Luis M, Ch\u00e1vez-Sol\u00eds, Efra\u00edn M, Brankovits, David&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;September 14, 2022&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This Research Topic was established with the aim to bring together the most recent outcomes and advances from a variety of scientific disciplines that link spatial and temporal changes in the environment to biogeochemical, ecological, and physiological changes at different biological scales in anchialine ecosystems, from microbes and macrofauna to habitat level. We have received contributions from disciplines spanning paleoecology, microbiology, biogeochemistry, and ecophysiology from four geographical regions around the world (Australia, Bermuda, The Bahamas, and the Yucatan Peninsula). Specifically, these studies aimed at characterizing the limits of physiological adaptations of cave-adapted crustaceans, the drivers of organic matter inputs over time, and how organic matter availability regulates microbial community structure and meiofauna assemblages. These contributions expand our understanding of anchialine ecosystem functioning and enable better predictions of future ecological changes within these coastal aquifer habitats.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/doi.org\/10.3389\/fmars.2022.1029027\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-4889\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936c6f\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-4889'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;]\n\t\t\t\t            <\/div>\n\t        \t\t\t<\/dd><dt class=\"\">\n\t        \t<a class=\"ult-tabto-actitle withBorder ult_a \" id=\"1706125585120-2-27d02-2be1\" style=\"color:#ffffff;;background-color:#1b2c3a;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;\" href=\"#1706125585120-2-27d02-2be1\">\n\t        \t\t<i class=\"accordion-icon\"><\/i>\n\t        \t\t\t<span class=\"ult_tab_main ult_ac_main ult_noacordicnBoth\">\n\n\t\t\t\t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_acordian-text ult-responsive\" style=\";color:inherit \" >2021<\/span>\n\t\t\t\t\t\t<\/span><\/a><\/dt>\n\t            \t\t<dd class=\"ult-tabto-accordionItem ult-tabto-accolapsed\">\n\t\t\t\t            <div class=\"ult-tabto-acontent\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\">\n\t\t\t\t               [vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2399&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Subterranean Waters of Yucat\u00e1n Peninsula, Mexico RevealEpigean Species Dominance and Intraspecific Variability inFreshwater Ostracodes (Crustacea: Ostracoda)&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Laura Macario-Gonz\u00e1lez &#8211; Sergio Cohuo &#8211; Dorottya Angyal &#8211; Liseth P\u00e9rez &#8211; Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;January 24, 2021&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]In order to gain insights into the biological evolution of the subterranean environments of the Yucatan Peninsula, we evaluated the ostracode species composition of caves and cenotes in five independent sampling campaigns (2008, 2013, 2017\u20132019).[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.mdpi.com\/1424-2818\/13\/2\/44\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-4291\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936d14\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-4291'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2396&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Updated Distribution of the Mysid Antromysis cenotensis (Crustacea: Peracarida), a Protected Key Species in Yucatan Peninsula Cenotes&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Luis Arturo Li\u00e9vano-Beltr\u00e1n &#8211; Nuno Sim\u00f5es&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;March 21, 2021&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]We present 52 new geographic location records for the peracarid crustacean Antromysis cenotensis Creaser, 1936, endemic in cenotes of the Yucatan Peninsula, Mexico. This species is currently considered threatened and, therefore, is protected by Mexican law.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.mdpi.com\/1424-2818\/13\/4\/154\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-1710\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936d6d\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-1710'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t\t            <\/div>\n\t        \t\t\t<\/dd><dt class=\"\">\n\t        \t<a class=\"ult-tabto-actitle withBorder ult_a \" id=\"1706125587162-3-17d02-2be1\" style=\"color:#ffffff;;background-color:#1b2c3a;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;\" href=\"#1706125587162-3-17d02-2be1\">\n\t        \t\t<i class=\"accordion-icon\"><\/i>\n\t        \t\t\t<span class=\"ult_tab_main ult_ac_main ult_noacordicnBoth\">\n\n\t\t\t\t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_acordian-text ult-responsive\" style=\";color:inherit \" >2020<\/span>\n\t\t\t\t\t\t<\/span><\/a><\/dt>\n\t            \t\t<dd class=\"ult-tabto-accordionItem ult-tabto-accolapsed\">\n\t\t\t\t            <div class=\"ult-tabto-acontent\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\">\n\t\t\t\t               [vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2789&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;A new locality and phylogeny of the stygobitic Typhlatya shrimps for the Yucatan Peninsula&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Luis Espinasa &#8211; Efrai\u0301n M. Cha\u0301vez Soli\u0301s &#8211; Maite Mascaro\u0301 &#8211; Carlos Rosas &#8211; Nuno Simoes &#8211; Gregory Violette&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 12, 2020&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]<em>Typhlatya\u00a0<\/em>is a genus of small, stygobitic shrimp in the family Atyidae. Species in this genus are found in subterranean anchialine habitats, and they span salt, brackish and fresh waters. None have been reported in the open sea (Botello et al. 2013).[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.nsm.buffalo.edu\/Research\/SPELEOBIOLOGY_NOTES\/index.php\/Speleo\/article\/view\/91\/108\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-3054\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936e0e\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-3054'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2384&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Distribution patterns, carbon sources and niche partitioning in cave shrimps (Atyidae: Typhlatya)&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Efr\u00e1in Ch\u00e1vez-Sol\u00eds, Corina Sol\u00eds, Nuno Sim\u00f4es, Maire Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;July 30, 2020&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]Cave shrimps of the Typhlatya genus are common and widespread in fresh, brackish and marine groundwater throughout the Yucatan Peninsula (Mexico). These species are ideal models to test niche partitioning within sympatric species in oligotrophic systems.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/www.nature.com\/articles\/s41598-020-69562-2\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-8877\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936e68\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-8877'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2394&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Uptaded checklist, historical overview and illustrated guide to the stygobiont Malacostraca (Arthropoda: Crustacea) species of Yucatan (Mexico)&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal &#8211; Nuno Simoes &#8211; Maite Mascar\u00f3&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;November 30, 2020&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]This study provides an updated checklist and an illustrated guide to the 17 currently known stygobiont Malacostraca species of the state of Yucatan (Yucatan Peninsula, Mexico)[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/subtbiol.pensoft.net\/article\/53558\/\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7511\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936ebd\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7511'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t\t            <\/div>\n\t        \t\t\t<\/dd><dt class=\"\">\n\t        \t<a class=\"ult-tabto-actitle withBorder ult_a \" id=\"1706125609120-4-77d02-2be1\" style=\"color:#ffffff;;background-color:#1b2c3a;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;\" href=\"#1706125609120-4-77d02-2be1\">\n\t        \t\t<i class=\"accordion-icon\"><\/i>\n\t        \t\t\t<span class=\"ult_tab_main ult_ac_main ult_noacordicnBoth\">\n\n\t\t\t\t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_acordian-text ult-responsive\" style=\";color:inherit \" >2019<\/span>\n\t\t\t\t\t\t<\/span><\/a><\/dt>\n\t            \t\t<dd class=\"ult-tabto-accordionItem ult-tabto-accolapsed\">\n\t\t\t\t            <div class=\"ult-tabto-acontent\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\">\n\t\t\t\t               [vc_empty_space height=&#8221;40px&#8221;][vc_single_image image=&#8221;2386&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;First record of subterranean freshwater gastropods (Mollusca, Gastropoda, Cochliopidae) from the cenotes of Yucat\u00e1n state&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Jozef Grego &#8211; Dorottya Angyal &#8211; Luis Arturo Li\u00e9vano Beltr\u00e1n&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 18, 2019&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]The biospeleological investigations of several cenotes in the eastern region of Yucat\u00e1n state, Mexico, during January 2018 yielded, among other invertebrates, two new truncatelloid gastropod species described here in as Mexicenotica xochii gen. n. et sp. n. and Pyrgophorus thompsoni sp. n. Both species represent the first record of stygobiont gastropod species from the cenotes of Yucat\u00e1n indicating the high biodiversity potential of the studied area.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/subtbiol.pensoft.net\/article\/32779\/\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-3902\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24936f5d\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-3902'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>\n\t\t\t\t            <\/div>\n\t        \t\t\t<\/dd><dt class=\"\">\n\t        \t<a class=\"ult-tabto-actitle withBorder ult_a \" id=\"1706125610152-5-47d02-2be1\" style=\"color:#ffffff;;background-color:#1b2c3a;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;border-bottom-color:transparent;border-bottom-width:0px;border-bottom-style:solid;\" href=\"#1706125610152-5-47d02-2be1\">\n\t        \t\t<i class=\"accordion-icon\"><\/i>\n\t        \t\t\t<span class=\"ult_tab_main ult_ac_main ult_noacordicnBoth\">\n\n\t\t\t\t\t\t<span  data-ultimate-target='#advanced-tabs-wrap-1858 .ult-span-text'  data-responsive-json-new='{\"font-size\":\"desktop:15px;\",\"line-height\":\"\"}'  class=\"ult-span-text no_icon ult_acordian-text ult-responsive\" style=\";color:inherit \" >2018<\/span>\n\t\t\t\t\t\t<\/span><\/a><\/dt>\n\t            \t\t<dd class=\"ult-tabto-accordionItem ult-tabto-accolapsed\">\n\t\t\t\t            <div class=\"ult-tabto-acontent\" style=\"border-style:none; border-radius:3px; border-color:#00534c;color:#74777b;\">\n\t\t\t\t               [vc_empty_space height=&#8221;40px&#8221;][vc_row_inner][vc_column_inner][vc_single_image image=&#8221;2392&#8243; alignment=&#8221;center&#8221; style=&#8221;vc_box_shadow_border&#8221;][vc_custom_heading text=&#8221;Predatory behavior of the cave shrimp Creaseria morleyi (Creaser, 1936) (Caridea: Palaemonidae), the blind hunter of the Yucata\u0301n cenotes, Mexico&#8221; font_container=&#8221;tag:h2|font_size:18|text_align:justify|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Efrai\u0301n M. Cha\u0301vez-Soli\u0301s &#8211; Luis M. Meji\u0301a-Orti\u0301z &#8211; Nuno Simo\u0303es&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;January 7, 2018&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]<span data-sheets-formula-bar-text-style=\"font-size:13px;color:#1155cc;font-weight:normal;text-decoration:underline;font-family:'Arial';font-style:normal;text-decoration-skip-ink:none;\">The predatory behavior of C. morleyi is here described for the first time, verifying its classification as a predator. A variety of prey targets, including the atyid shrimp Typhlatya sp., were used to demonstrate predation and saprophagous feeding behavior in C. morleyi using <\/span><a class=\"waffle-rich-text-link\" data-sheets-formula-bar-text-link=\"https:\/\/www.youtube.com\/watch?v=0Uv1soOSLLo\" data-sheets-formula-bar-text-style=\"font-size:13px;color:#1155cc;font-weight:normal;text-decoration:underline;font-family:'Arial';font-style:normal;text-decoration-skip-ink:none;\">in vitro and in situ observations.<\/a>[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/academic.oup.com\/jcb\/article\/38\/1\/1\/4706304\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-7939\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a2493702c\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-7939'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[vc_separator color=&#8221;custom&#8221; border_width=&#8221;10&#8243; accent_color=&#8221;#00534c&#8221;][vc_single_image image=&#8221;2388&#8243; alignment=&#8221;center&#8221;][vc_custom_heading text=&#8221;Mayaweckelia troglomorpha, a new subterranean amphipod species from Yucata\u0301n state, Me\u0301xico (Amphipoda, Hadziidae)&#8221; font_container=&#8221;tag:h2|font_size:20|text_align:left|color:%23006785&#8243; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;Dorottya Angyal &#8211; Efrai\u0301n Cha\u0301vez Soli\u0301s &#8211; Benjami\u0301n Magan\u0303a &#8211; Gergely Bala\u0301zs &#8211; Nuno Simoes&#8221; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_custom_heading text=&#8221;February 6, 2018&#8243; font_container=&#8221;tag:h2|font_size:14|text_align:left|color:%2300534c&#8221; use_theme_fonts=&#8221;yes&#8221;][vc_empty_space height=&#8221;20px&#8221;][vc_column_text]A detailed description of a new stygobiont species of the amphipod family Hadziidae, Mayaweckelia troglomorpha Angyal, sp. n. is given, based on material collected in four cenotes of Yucata\u0301n federal state, Me\u0301xico.[\/vc_column_text]<div class=\" ubtn-ctn-center \"><a class=\"ubtn-link ult-adjust-bottom-margin ubtn-center ubtn-normal \" href=\"https:\/\/zookeys.pensoft.net\/articles.php?id=21164\" target=\"_blank\" rel=\"noopener\" ><button type=\"button\" id=\"ubtn-2806\"  class=\"ubtn ult-adjust-bottom-margin ult-responsive ubtn-normal ubtn-fade-bg  none  ubtn-shd  ubtn-center  shd-bottom tooltip-69d7a24937087\"  data-hover=\"#ffffff\" data-border-color=\"\" data-bg=\"#1b2c3a\" data-hover-bg=\"#2099a8\" data-border-hover=\"\" data-shadow-hover=\"0 5px #d1d1d1;\" data-shadow-click=\"none\" data-shadow=\"0 5px #686868;\" data-shd-shadow=\"5\"  data-ultimate-target='#ubtn-2806'  data-responsive-json-new='{\"font-size\":\"\",\"line-height\":\"\"}'  style=\"font-weight:normal;border:none;box-shadow: 0 5px #686868;background: #1b2c3a;color: #ffffff;\"><span class=\"ubtn-hover\" style=\"background-color:#2099a8\"><\/span><span class=\"ubtn-data ubtn-text \" >Full article<\/span><\/button><\/a><\/div>[\/vc_column_inner][\/vc_row_inner]\n\t\t\t\t            <\/div>\n\t        \t\t\t<\/dd>\n    \t<\/dl>\n    <!--<div class=\"extraborder\" style=\"background-color:#006785\"><\/div>-->\n<\/div>\n\n<\/div>[\/vc_column][\/vc_row]<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":"<p>[vc_row full_width=&#8221;stretch_row&#8221; bg_type=&#8221;bg_color&#8221; bg_color_value=&#8221;#00534c&#8221;][vc_column][\/vc_column][\/vc_row][vc_row][vc_column][vc_empty_space height=&#8221;30px&#8221;][\/vc_column][\/vc_row][vc_row full_width=&#8221;stretch_row&#8221;][vc_column][\/vc_column][\/vc_row]<\/p>\n","protected":false},"author":3,"featured_media":2101,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-2221","page","type-page","status-publish","has-post-thumbnail","hentry"],"_links":{"self":[{"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/pages\/2221","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/users\/3"}],"replies":[{"embeddable":true,"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/comments?post=2221"}],"version-history":[{"count":6,"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/pages\/2221\/revisions"}],"predecessor-version":[{"id":3430,"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/pages\/2221\/revisions\/3430"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/media\/2101"}],"wp:attachment":[{"href":"https:\/\/cenoteando.mx\/en\/wp-json\/wp\/v2\/media?parent=2221"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}