Geographical Distribution Research Articles

Molecular phylogeny, morphology and distribution of Amphitetras antediluviana Ehrenberg from the Black Sea and the Sea of Azov

The intriguing large-celled species of Amphitetras antediluviana Ehrenberg was originally described as a fossil species (Ehrenberg, 1840), but later noted in a living state in various regions of the World ocean. Our recent studies revealed that the species has been found for the last decade in significant numbers in many habitats along the coast of the Azov-Black Sea basin. Two strains—the large valves from Laspi Bay, the Black Sea (BL-5_12092019) and the small valves from the Sea of Azov (AZ-12_24122019)—were isolated and analyzed using light and scanning electron microscopy along with molecular-genetic investigation. Specimens of the two populations differ in valve sizes and structure, however, their belonging to the same species was confirmed with the help of molecular analysis. Taxonomic positions of the strains of A. antediluviana isolated from two marine waterbodies were clarified. In addition, we provided a detailed morphological diagnosis of the species with a description of the valve ultrastructure and its elements, as well as geographical distribution and taxonomic history.

Rediscovery and redescription of Ixalus garo Boulenger, 1919, and Ixalus kempiae Boulenger, 1919, with a reassessment of the taxonomic status of Raorchestes cangyuanensis Wu, Suwannapoom, Xu, Murphy & Che, 2019 and the description of a new species from the Garo Hills of Meghalaya

Bush frogs from Garo and Khasi Hills were collected, and a thorough examination based on morphology and geographic distribution revealed that two of the populations sampled from Garo Hills during this study agree with the holotypes and descriptions of the taxa Ixalus garo and I. kempiae, described more than a century ago. The original description lacked information on several morphological characters, genetic material, and photographs of the species in life. The absence of such information posed challenges in field identification of these species. Our phylogeny shows them to be nested within the Raorchestes clade, and therefore, we allocate these two species to this genus and formally announce their rediscovery. We also redescribe these two species here based on additional adult vouchers and report geographic range extensions from new localities. Based on molecular and morphological analysis, we reassess the status of the recently described Raorchestes cangyuanensis, resulting in its placement under the subjective junior synonymy of R. kempiae. We also describe a morphologically distinct new species from this region. This paper bridges an important gap in the knowledge of the genus Raorchestes in this part of India and highlights the importance of systematic surveys in documenting and understanding amphibian diversity in the region.

Abstract IA025: Targeting the gut microbiome for cancer immunotherapy

Abstract Growing evidence suggests that the gut microbiota modulates the efficacy and toxicity of cancer therapy, most notably immunotherapy and its immune-related adverse effects. The impaired response to immunotherapy in patients treated with antibiotics supports this role of the microbiota. Until recently, results pertaining to the identification of the microbial species responsible for these effects were incongruent, and relatively few studies analyzed the underlying mechanisms. Gut microbial communities (microbiotypes) with non-uniform geographic distribution were associated with favorable and unfavorable outcomes, contributing to discrepancies between cohorts Now, a better understanding of the taxonomy of the species involved and of their mechanisms of action has been achieved. Defined bacterial species have been shown to promote a response to immune checkpoint inhibitors through the production of different products or metabolites, although a suppressive effect of Gram(-) bacteria may be dominant in some unresponsive patients. Machine learning approaches trained on patients’ microbiota composition can predict the ability of patients to respond to immunotherapy with some accuracy. Thus, the interest in modulating the microbiota composition to improve patients’ responsiveness to therapy has been mounting. Our data of a fecal microbiota transfer clinical trial in anti-PD1 refractory melanoma patients has provided clinical proof of concept of the possibility to target the gut microbiota composition in cancer therapy. Also, both in clinical studies and in experimental animals, diets rich in fibers improve the response to immunotherapy by modifying the gut microbiome suggesting the possibility of dietary approaches to target the microbiota composition in cancer therapy. However, while many early clinical studies have analyzed the association of the microbiota composition with the response to anti-PD-1 in cancer patients, emerging evidence suggests that the association may be context dependent and different types of mono or combination immunotherapies may be differentially regulated by the microbiota, Thus, a more personalized approach depending original gut microbiota composition of the patients and the type of immunotherapy protocol selected may be necessary for optimal clinical results. Citation Format: Giorgio Trinchieri. Targeting the gut microbiome for cancer immunotherapy [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Tumor-body Interactions: The Roles of Micro- and Macroenvironment in Cancer; 2024 Nov 17-20; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2024;84(22_Suppl):Abstract nr IA025.

MPOX (Monkeypox): Current Epidemiology, Clinical Manifestations, and Advances in Treatment and Prevention Strategies

MPOX (formerly known as monkeypox) has emerged as a significant public health concern in recent years, necessitating a comprehensive understanding of its epidemiology, clinical manifestations, treatment options, prevention strategies, and global health impact. This literature review synthesizes the latest data on the spread and incidence of MPOX, with a focus on geographic distribution, affected populations, and emerging trends in transmission. The clinical presentation of MPOX, including symptoms, disease progression, and complications, is explored, with particular attention to variations across different demographics. Recent advances in the treatment of MPOX are analyzed, covering current antiviral therapies, the role of supportive care, and the potential of new treatments under investigation. Prevention strategies are also examined, highlighting the effectiveness of vaccination efforts, public health measures, and containment and control strategies. The review further considers the broader impact of MPOX on global health, discussing its implications for public health policy and pandemic preparedness. Through this comprehensive analysis, the review aims to provide a robust foundation for understanding MPOX and inform future research, clinical practice, and public health initiatives.

Widely acclaimed but poorly named: Phylogeny and systematics of the African daisy genus Dimorphotheca (Asteraceae, Calenduleae)

AbstractPhylogenetic relationships in the South African daisy genus Dimorphotheca have long been uncertain, with the taxonomy of the genus relying on a few morphological traits, most prominently capitulum sexual system (e.g., cypsela type) and ray colour, which may not be evolutionarily conserved. Here we present the first well‐sampled molecular phylogeny of Dimorphotheca, based on nuclear ribosomal (ITS, ETS) and plastid trnL‐trnF region DNA sequences from multiple accessions per species. Although the relationships suggested by these markers are broadly congruent, we do find some instances of incongruence which we resolve using a combined decomposition and deletion approach. Using our best estimate of phylogenetic relationships, we reconstruct the evolution of capitulum fertility and ray colour to assess the evolutionary conservatism of these traits and their taxonomic utility. We find support for the monophyly of Dimorphotheca, excluding the recently segregated Osteospermum polypterum, and our data thus support the modern, enlarged circumscription of the genus incorporating the former genus Castalis and Osteospermum sect. Acanthotheca and O. sect. Blaxium. Major subclades within Dimorphotheca are largely cohesive in terms of geographic distribution and morphological traits such as growth form and cypsela structure. While many species are resolved as monophyletic, the polyphyly of a few species suggests a need for taxonomic re‐evaluation. On the basis of both morphological and molecular data, we describe one new species, and elevate one variety to species level. A full taxonomic key to the enlarged genus is presented for the first time. Ancestral reconstructions show that capitulum sexual system and ray lamina colour are not evolutionarily conserved and that neither can therefore be used to delimit major lineages within Dimorphotheca. While our findings resolve some taxonomic problems, they also highlight the need for further species‐level taxonomic work on Dimorphotheca.

Geographical Distribution of Atmospheric Nitrogen Deposition in China and Its Response to Emission Control Policy

Geographical Distribution of Atmospheric Nitrogen Deposition in China and Its Response to Emission Control Policy

OsIAA23 Promotes Heading by Directly Downregulating Ghd7 in rice.

Ghd7 is a central regulator to multiple growth and development processes in rice. While it is not clear how Ghd7 is regulated by upstream factors. To identify its upstream regulator, the truncated Ghd7 promoter fragments were used to screen cis elements binding to rice total nuclear proteins. Electrophoretic mobility shift assays screened one truncated fragment f3 binding to the proteins. Subsequently, the fragment f3 was employed to screen a yeast one-hybrid library, and a transcription factor OsIAA23 was screened as a direct upstream regulator of Ghd7. Dual-luciferase transient assay demonstrated the transcriptional repression effect of OsIAA23 on the activity of Ghd7, and the location of the cis elements binding to OsIAA23 in the region 1264 to 1255bp upstream of ATG. Genetic analysis between the wild type Ghd7-OsIAA23 and single/double mutants further verified that OsIAA23 downregulated Ghd7 expression and led to a delayed heading under long day conditions. Moreover, natural variations in fragment f3 were associated with heading and geographic distribution in rice. This study sheds light on the direct regulatory mechanism of OsIAA23 on Ghd7, which enriches the understanding of the Ghd7 involved flowering regulatory network in rice.

Decision aids and systematic information processing increase disaster preparedness intentions

ABSTRACT Across the world and fueled by climate change, natural disasters are increasing in their geographic distribution and intensity. The purpose of this study was to use theory, including the heuristic-systematic model, to inform how decision aids may influence persuasion about hurricane preparedness. Results indicate that decision aid selection can serve as a behavioral outcome of systematic information processing and amplify attitude and behavior change effects beyond systematic processing alone. Overall, results suggest that exposure to decision aids can facilitate persuasion about hurricane preparedness.

Harnessing AI for advancing pathogenic microbiology: a bibliometric and topic modeling approach

IntroductionThe integration of artificial intelligence (AI) in pathogenic microbiology has accelerated research and innovation. This study aims to explore the evolution and trends of AI applications in this domain, providing insights into how AI is transforming research and practice in pathogenic microbiology.MethodsWe employed bibliometric analysis and topic modeling to examine 27,420 publications from the Web of Science Core Collection, covering the period from 2010 to 2024. These methods enabled us to identify key trends, research areas, and the geographical distribution of research efforts.ResultsSince 2016, there has been an exponential increase in AI-related publications, with significant contributions from China and the USA. Our analysis identified eight major AI application areas: pathogen detection, antibiotic resistance prediction, transmission modeling, genomic analysis, therapeutic optimization, ecological profiling, vaccine development, and data management systems. Notably, we found significant lexical overlaps between these areas, especially between drug resistance and vaccine development, suggesting an interconnected research landscape.DiscussionAI is increasingly moving from laboratory research to clinical applications, enhancing hospital operations and public health strategies. It plays a vital role in optimizing pathogen detection, improving diagnostic speed, treatment efficacy, and disease control, particularly through advancements in rapid antibiotic susceptibility testing and COVID-19 vaccine development. This study highlights the current status, progress, and challenges of AI in pathogenic microbiology, guiding future research directions, resource allocation, and policy-making.

A taxonomic notes on Mouriri (Olisbeoideae, Melastomataceae): Clarifying two little-known species from the Brazilian Atlantic Forest, with three new synonyms

Based on new samples from the Atlantic Forest between northern São Paulo and southern Bahia, Brazil, we clarify taxonomic relationships in two little-known species of Mouriri. As a result, we synonymize M. megasperma and M. sellowiana under M. arborea, and M. bahiensis under M. regeliana. We designate a lectotype for M. sellowiana, as the holotype was destroyed during World War II. In addition, we present updated morphological descriptions, data on geographic distribution, conservation status assignments, illustrations, and comments on taxonomic and nomenclatural aspects of M. arborea and M. regeliana. Photographs based on fresh material of M. arborea are presented.

Advancements in ecological assets and ecological product supply: in-depth insights from Karst World Heritage sites

AbstractEcological assets (EA) are fundamental to the supply of ecological products (EP). They underpin the provision of ecological functions by ecosystems, their existence, and health. However, a comprehensive assessment of EA and the supply of EP remains lacking. This study employs the Systematic Literature Review (SLR) method and identifies 215 relevant articles from the Scopus database. The study: (1) Analyzes selected literature by publication years, research themes, geographical distribution, affiliations, and stages. (2) Summarizes key advances and significant achievements in domestic and international research. (3) Formulates six critical scientific questions and provides recommendations based on the current status and characteristics of EA and the supply of EP in Karst World Heritage (WH) Sites. This study furnishes research insights for practitioners and policymakers in the field, contributing to the sustainable development of ecosystems in Karst WH Sites.

Genomic characteristics of Salmonella enterica serovar Blockley.

Non-typhoidal Salmonella (NTS) is a significant cause of foodborne illness worldwide, with increasing antimicrobial resistance posing a public health concern. Salmonella enterica serovar Blockley (S. Blockley) is relatively uncommon, and its antimicrobial resistance profile and population structure have been understudied. This study presents a comprehensive genomic analysis of 264 S. Blockley isolates from diverse geographical regions to elucidate antimicrobial resistance patterns and population structure. Bayesian analysis classified these genomes into 10 distinct groups (BAPS A to BAPS J), further categorized into two lineages, R and S. Lineage R comprised six BAPS clusters (BAPSs A-F), predominantly found in Asia and Africa, all of which harbored the azithromycin resistance gene mph(A) and other resistance determinants. In contrast, lineage S, lacking mph(A), comprised the remaining four BAPS clusters, which were primarily found in Europe and the Americas. Several types of mutations in gyrA were found in lineage R, which were specific to BAPS clusters. These BAPS clusters exhibited distinct geographic distributions, with BAPS B, BAPS D, and BAPS E unique to China, Taiwan, and Japan, respectively, while BAPS H and BAPS I were predominantly found in the United States. Temporal phylogenetic analysis suggested that lineage R diverged in the 1980s, with notable microevolutionary changes. The presence of a genomic island with mph(A), aph(3')-Ia, aph(3")-Ib, aph(6)-Id, and tet(A) in lineage R underscores the public health threat, highlighting a need for continuous surveillance.IMPORTANCEAntimicrobial resistance in Salmonella is a global public health concern. In this study, we focused on serovar Blockley, and a whole-genome analysis revealed its global population structure. The results revealed the existence of azithromycin-resistant strains, which were characterized both phylogenetically and geographically. The resistance genes were transmitted via genomic islands, and their micro-scale evolution was also revealed. Our findings are the first to reveal the dissemination of antimicrobial resistance genes, including azithromycin, in serovar Blockley, and provide valuable insights into understanding the spread of antimicrobial resistance.

The Consequences of Reunifications in Chinese History: The Founding of the Sui vs. the Founding of the Song

Although all reunifications in Chinese history can be conceptualized as adhering on the surface to similar patterns, in fact each was the consequence of a complex assortment of contingent circumstances. Moreover, the particularities of the founding years of a dynasty had a wide-ranging impact on subsequent historical development. This article compares the circumstances and process of the founding of the Sui to the circumstances and process of the founding of the Song in order to show how differences between them might explain the very different political cultures of the Sui-Tang period as compared to the Song period. Thus, the pre-dynastic size of the north Chinese elite and patterns of inter-state interactions had repercussions on the subsequent geographic distribution of political power. In addition, distinct strategies of political legitimation at the inception of each of the two dynasties help account for strikingly different attitudes concerning the relationship between the past and the present, as well as the desirability of transformative and fundamental sociopolitical change.

Pollen dispersal distance of Brazilian native tree species: a systematic review

Knowledge of the pollen dispersal distance (PDD) is crucial for delimitating the collection radius of subpopulations in seed collection areas used as germplasm sources for genetic breeding, conservation, and restoration projects. Some studies have reported the PDD of trees, but these are scattered throughout the literature. Therefore, the objective of this study was to systematically review and report as many PDDs as possible found in the literature on native Brazilian tree species. In the present study, we identified the most and least studied species, temporal trends in publications, geographic distribution of studies, mating systems, and pollinator types for each species. A systematic review protocol was established, and the search criteria were improved, resulting in 543 articles. Forty-four articles contained information on native species, and 319 PDD from 41 tree species were extracted. The most investigated species for pollen dispersal were Cariniana estrellensis (Raddi) Kuntze (Jequitibá-branco) and Araucaria angustifolia (Bertol.) Kuntze (Araucária). The PDD values ranged from 9 m to 5229 m, averaging 543.9273 m. The five species with the highest average PDDs were Centrolobium tomentosum Guill. ex Benth. (Araribá), Swietenia macrophylla King (Mogno-brasileiro), Hymenaea courbaril L. (Jatobá), Dipteryx alata Vogel (Baru) and Hymenaea stigonocarpa Mart. Ex-Hayne (Jatobá do Cerrado) at 3191 m, 1472 m, 1450 m, 1215.12 m, and 1086.81 m, respectively. Theobroma cacao L. and Ilex paraguariensis A.St.-Hil. had the shortest PDDs averages at 28 m and 15.9 m, respectively. This work provides a valuable PDD database that will expand the possibilities for new research and guide projects related to seed collection, forest restoration, germplasm conservation, and genetic breeding of native Brazilian trees.

Global hotspots and trends in tea anti-obesity research: a bibliometric analysis from 2004 to 2024

BackgroundThe prevalence of obesity and its related ailments is on the rise, posing a substantial challenge to public health. Tea, widely enjoyed for its flavors, has shown notable potential in mitigating obesity. Yet, there remains a lack of exhaustive bibliometric studies in this domain.MethodsWe retrieved and analyzed multidimensional data concerning tea and obesity studies from January 2004 to June 2024, using the Web of Science Core Collection database. This bibliometric investigation utilized tools such as Bibliometrix, CiteSpace, and VOSviewer to gather and analyze data concerning geographical distribution, leading institutions, prolific authors, impactful journals, citation patterns, and prevalent keywords.ResultsThere has been a significant surge in publications relevant to this field within the last two decades. Notably, China, Hunan Agricultural University, and the journal Food and Function have emerged as leading contributors in terms of country, institution, and publication medium, respectively. Zhonghua Liu of Hunan Agricultural University has the distinction of most publications, whereas Joshua D. Lambert of The State University of New Jersey is the most cited author. Analyses of co-citations and frequently used keywords have identified critical focus areas within tea anti-obesity research. Current studies are primarily aimed at understanding the roles of tea components in regulating gut microbiota, boosting fat oxidation, and increasing metabolic rate. The research trajectory has progressed from preliminary mechanism studies and clinical trials to more sophisticated investigations into the mechanisms, particularly focusing on tea’s regulatory effects on gut microbiota.ConclusionThis study offers an intricate overview of the prevailing conditions, principal focus areas, and developmental trends in the research of tea’s role against obesity. It delivers a comprehensive summary and discourse on the recent progress in this field, emphasizing the study’s core findings and pivotal insights. Highlighting tea’s efficacy in obesity prevention and treatment, this study also points out the critical need for continued research in this area.

The Complex Relationship Between Tuberculosis and Hyperglycemia

Hyperglycemia and tuberculosis are dual global pandemics. Each has a propulsive and amplifying effect on the other, and, because of this, we must consider hyperglycemia and tuberculosis together. Hyperglycemia is immunosuppressive and increases the risk of tuberculosis by threefold. It also leads to a more advanced presentation of pulmonary tuberculosis, thus increasing the likelihood of being smear positive and having cavitating lesions, and it impacts the duration and outcomes of treatment, with an increased one year mortality seen in patients with tuberculosis and diabetes. Additionally, any degree of hyperglycemia can have an impact on susceptibility to tuberculosis, and this effect is not limited to poorly controlled diabetes. Conversely, tuberculosis itself is associated with hyperglycemia and worsens hyperglycemia in those with diabetes mellitus. The impact of this relationship varies based on the base rates of each disease in different regions of the world. In order to successfully achieve the World Health Organization’s goals of tuberculosis eradication and adequate glycemic control, we must improve our understanding, co-management, and screening of hyperglycemia and tuberculosis. This review aims to explore the current research investigating the relationship between tuberculosis and diabetes, including the changes in disease susceptibility, presentation, geographic distribution, and effects on treatment.

A New Genus Neotricholomopsis Gen. Nov and Description of Neotricholomopsis globispora Sp. Nov. (Phyllotopsidaceae, Agaricales) from Northwestern China Based on Phylogeny, Morphology, and Divergence Time

While investigating macrofungi diversity in Gansu province, northwestern China, five fresh and fleshy specimens were collected, which are characterized by nearly white to buff hemispherical pileus with waved margins, a disc depressed with coral to brownish red fibrillose scales, adnate to sub-decurrent lamellae with four relatively regular rows of lamellulae, a stipe that is central, hollow, frequently straight to curved; basidiospores that are globose to subglobose, 5.0–6.0 × (3.5−) 4.0–5.0 (−5.5) μm, narrowly clavate cheilocystidia predominantly, pleurocystidia and caulocystidia not observed; and a cutis pileipellis, with hyphae slightly inflated in the KOH. The results of phylogeny analysis indicated that the species forms an independent lineage in Phyllotopsidaceae based on the ITS (ITS5/ITS4) and nLSU (LR0R/LR7) dataset. Molecular clock analyses suggested the common ancestor of Neotricholomopsis emerged later than upper Cretaceous with a mean crown age of 229.36 Mya (95% highest posterior density of 129.63–343.08 Mya). These five specimens were described as an unreported taxon based on the phylogeny analysis combined with morphological examination and ecological and geographical distribution. Detailed descriptions, illustrations, and phylogenetic trees to demonstrate the placement of this species and discussions with its related species are provided.

The Role of Polyploidy in the Genetic Structure and Expansion of Lepisorus clathratus in the Qinghai–Tibetan Plateau and Hengduan Mountains

Polyploidy plays a crucial role in plant evolution, particularly in shaping genetic diversity and geographic distribution. This study investigates the genetic diversity and distribution of Lepisorus clathratus (C. B. Clarke) Ching, a polyploid fern species endemic to the Qinghai–Tibetan Plateau and Hengduan Mountains. We sampled 586 individuals from 66 populations and identified three ploidy levels: diploid, tetraploid, and hexaploid. Flow cytometry and chloroplast DNA sequencing were used to assess ploidy variation and genetic structure. Tetraploid populations dominated the Hengduan Mountains and exhibited wider geographic ranges, while diploids were largely confined to the Qinghai–Tibetan Plateau. Molecular variance analysis revealed significant genetic differentiation among regions, with polyploid populations demonstrating higher cross-region migration rates compared with diploids, as evidenced by the historical gene flow analysis. Ecological niche modeling suggested that polyploids expanded more successfully in post-glacial periods, likely due to their greater ecological flexibility and capacity for long-distance colonization. These findings highlight the critical role of polyploidy in shaping genetic structure and species expansion, contributing to the understanding of plant adaptation in response to historical climatic changes.

Avian influenza A (H5N1) virus in dairy cattle: origin, evolution, and cross-species transmission.

Since the emergence of highly pathogenic avian influenza virus (HPAIV) H5N1 of clade 2.3.4.4b as a novel reassortant virus from subtype H5N8, the virus has led to a massive number of outbreaks worldwide in wild and domestic birds. Compared to the parental HPAIV H5N8 clade 2.3.4.4b, the novel reassortant HPAIV H5N1 displayed an increased ability to escape species barriers and infect multiple mammalian species, including humans. The virus host range has been recently expanded to include ruminants, particularly dairy cattle in the United States, where cattle-to-cattle transmission was reported. As with the avian 2.3.4.4.b H5N1 viruses, the cattle-infecting virus was found to transmit from cattle to other contact animals including cats, raccoons, rodents, opossums, and poultry. Although replication of the virus in cows appears to be mainly confined to the mammary tissue, with high levels of viral loads detected in milk, infected cats and poultry showed severe respiratory disease, neurologic signs, and eventually died. Furthermore, several human infections with HPAIV H5N1 have also been reported in dairy farm workers and were attributed to exposures to infected dairy cattle. This is believed to represent the first mammalian-to-human transmission report of the HPAIV H5N1. Fortunately, infection in humans and cows, as opposed to other animals, appears to be mild in most cases. Nevertheless, the H5N1 bovine outbreak represents the largest outbreak of the H5N1 in a domestic mammal close to humans, increasing the risk that this already mammalian adapted H5N1 further adapts to human-to-human transmission and starts a pandemic. Herein, we discuss the epidemiology, evolution, pathogenesis, and potential impact of the recently identified HPAIV H5N1 clade 2.3.4.4b in dairy cattle in the United States. Eventually, interdisciplinary cooperation under a One Health framework is required to be able to control this ongoing HPAIV H5N1 outbreak to stop it before further expansion of its host range and geographical distribution.

First records and extension of the geographic distribution of Cynomops kuizha (Chiroptera: Molossidae) in the Colombian Caribbean

Abstract The insectivorous bat genus Cynomops belongs to the Neotropical fraction of the family Molossidae, which includes Free-tailed Bats or Mastiff Bats. Currently, nine species are recognized within Cynomops. In this study, we present the first records of Cynomops kuizha for the Colombian Caribbean Region. The two female specimens were recovered in the campus of the Puerta Roja of the University of Sucre, Sucre and represent a significant extension in the geographical and ecological distribution of the species. With these new records, the known distribution of this species is extended approximately 520 km northeast of the nearest previous record in the department of Valle del Cauca, Colombia. Identification of both specimens was carried out through morphological comparisons and analysis of the mitochondrial gene cytochrome-b (Cyt-b). Molecular analyses revealed that the Cyt-b sequences from the Sucre specimens are >99 % similar to those documented for C. kuizha in southwestern Colombia. With these new records, the known distribution of this species is extended approximately 520 km northeast of the nearest previous record in the department of Valle del Cauca, Colombia. Additionally, we discuss some morphological peculiarities observed in our Sucre specimens and their relationship with closely related species present in the area: Cynomops abrasus, Cynomops greenhalli, and Cynomops mastivus.