doi:10.15472/j5wiyc
f96de520-5afe-456b-bf62-781a9aca5b62
https://ipt.biodiversidad.co/sib/resource?r=pazdeariporo_savannas_ichthyofauna
Fishes of the flooded savannas of Paz de Ariporo, Meta River, Orinoco basin
Alexander
Urbano-Bonilla
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
bio.ictiologia@gmail.com
Alejandro
Mendez-López
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
ml.alejandro.aml@gmail.com
Camilo Andres
Roa-Fuentes
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
camilo.roa@gmail.com
Edgar Esteban
Herrera-Collazos
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
edgarestebanhc@gmail.com
edgar-esteban-herrera-collazos-71540638
Edgar Esteban
Herrera-Collazos
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Bogotá
Bogotá
CO
edgarestebanhc@gmail.com
edgar-esteban-herrera-collazos-71540638
2021-03-19
spa
Floodplains are strategic and poor known ecosystems, despite of his ecologic, biologic and economic significance. We characterized Fish community in floodplains in 13 stations and two climatic periods (ascending waters and descending waters), by the combination and standardization of different fishing arts. This dataset represents such characterization of the ichthyofauna of Paz de Ariporo, Meta River, Orinoco basin and different environmental variables measured.
Occurrence
GBIF Dataset Type Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_type.xml
Observation
GBIF Dataset Subtype Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_subtype.xml
Artificial lagoons
Colombia
Casanare
predation
seasonal variation
environmental variables
Orinoco
N/A
This work is licensed under a Creative Commons Attribution Non Commercial (CC-BY-NC) 4.0 License.
Our study site was located in Paz de Ariporo floodplains, at left side of Meta river and between lower Guachiría river and La Hermosa stream basins, Casanare department, Colombia. This area corresponds to alluvial and eolic floodplains, which undergo a sinking, process during Pleistocene caused by a fault on which Meta river flow currently (Mora-Fernández et al., 2013, Osorio-Peláez et al., 2015).
-71.412
-70.708
5.737
5.419
2015-12-15
2016-12-28
In the 13 environments evaluated, 180 different species we recorded. The species were distributed in seven 7 orders, 34 families and 116 genera.
family
Acestrorhynchidae
family
Achiridae
family
Anostomidae
family
Apteronotidae
family
Auchenipteridae
family
Bryconidae
family
Callichthyidae
family
Chalceidae
family
Characidae
family
Chilodontidae
family
Cichlidae
family
Crenuchidae
family
Curimatidae
family
Cynodontidae
family
Doradidae
family
Erythrinidae
family
Gasteropelecidae
family
Gymnotidae
family
Heptapteridae
family
Hypopomidae
family
Iguanodectidae
family
Lebiasinidae
family
Loricariidae
family
Pimelodidae
family
Potamotrygonidae
family
Prochilodontidae
family
Pseudopimelodidae
family
Rhamphichthyidae
family
Sciaenidae
family
Serrasalmidae
family
Sternopygidae
family
Synbranchidae
family
Trichomycteridae
family
Triportheidae
unkown
Alexander
Urbano-Bonilla
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
bio.ictiologia@gmail.com
Alejandro
Mendez-López
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
ml.alejandro.aml@gmail.com
Camilo Andrés
Roa-Fuentes
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
camilo.roa@gmail.com
Edgar Esteban
Herrera-Collazos
Laboratorio de Ictiología, Departamento de Biología, Facultad de Ciencias, Pontificia Universidad Javeriana
Carrera 7 N° 43-82
Bogotá
Bogotá
CO
edgarestebanhc@gmail.com
edgar-esteban-herrera-collazos-71540638
Standardized samples were applied for both periods and study sites (Fig. 1): sampling included a 100 m transect, making five passes of a fence (7 m long, 2 m high and 0.1 cm mesh), 20 cast net shots (4 m diameter and 2.5 cm mesh) and fishing with hooks for three hours (hooks and lines of different sizes and types of bait). Two "stationary" gillnets (23 m long, 2 m high and 5 cm mesh) were used for 4 hours, and were revised every hour. After captured, fish were fixed in 10% formalin, and then transferred to 70% ethanol. The taxonomic list follows the classification system proposed by Reis et al. (2003) with recent modifications proposed by Oliveira et al. (2011) (characiform families), Thomaz et al. (2015) (Stevardiinae) and Betancur-R et al. (2016) (for osteichthyans in general), and valid species names were confirmed through queries on the Catalog of Fishes of the California Academy of Sciences (Eschmeyer et al., 2017). The species recorded were categorized as threatened (Mojica et al., 2012), migratory (Usma et al., 2013), endemic (DoNascimiento et al., 2017), and species subject of conservation (González et al., 2015).
Before fish sampling, in a 100-meter transect, environmental variables (sustrate, submerged vegetation, riparian vegetation and stream morphology) were measured following the protocols established in Rankin (2006). In each site, parameters were taken in-situ such as: dissolved oxygen, water temperature, pH and conductivity with previously calibrated apparatus (Hanna HI 9811-5). Likewise, a representative water sample was taken according to standard protocols for the analysis of the following chemical parameters: total nitrogen, total coliforms, total phosphorus and total solids.
Our study site was located in Paz de Ariporo floodplains, at left side of Meta river and between lower Guachiría river and La Hermosa stream basins, Casanare department, Colombia (Fig. 1). This area corresponds to alluvial and eolic floodplains, which undergo a sinking, process during Pleistocene caused by a fault on which Meta river flow currently (Mora-Fernández et al., 2013, Osorio-Peláez et al., 2015).
We characterized Fish community in floodplains in 13 stations and two climatic periods (ascending waters and descending waters), by the combination and standardization of different fishing arts and measure different environmental variables.
Controlled vocabulary adjustment in:
- Record element: type and basisOfRecord;
- Taxonomy elements: scientificName, authorities are documented in the element scientificNameAuthorship.
Estudio de conocimiento Socio-Ecológico para la gestión integral de la biodiversidad y sus servicios ecosistémicos en sabanas inundables de Paz de Ariporo
Alexander
Urbano-Bonilla
principalInvestigator
Ecopetrol S.A and Instituto de Investigación de Recursos Biológicos Alexander von Humboldt-IAvH (Contract Nº 8000000746) who financed the project. To the agreement (No. 16-15-115-009CE) between the IAvH and the Fundación Cunaguaro that allowed the field phase and the data collection.
Our study site was located in Paz de Ariporo floodplains, at left side of Meta river and between lower Guachiría river and La Hermosa stream basins, Casanare department, Colombia.
2017-11-20T00:12:00.663+00:00
dataset
Urbano-Bonilla A, Mendez-López A, Roa-Fuentes C A, Herrera-Collazos E E (2021): Fishes of the flooded savannas of Paz de Ariporo, Meta River, Orinoco basin. v2.4. Asociación Colombiana de Ictiólogos. Dataset/Occurrence. https://doi.org/10.15472/j5wiyc
Betancur-R R, Wiley EO, Arratia G, Acero A, Bailly N, Miya M, Lecointre G, Ortí G. Phylogenetic classification of bony fishes. BMC evolutionary biology. 2017;17(1):162.
DoNascimiento C, Herrera-Collazos EE, Herrera-R GA, Ortega-Lara A, Villa-Navarro F, Usma-Oviedo JS, Maldonado-Ocampo JA. Checklist of the freshwater fishes of Colombia: a Darwin Core alternative to the updating problem. ZooKeys. 2017. 708: 25-138.
Eschmeyer WN, Fricke R, van der Laan R. Catalog of fishes (California Academy of Sciences, San Francisco); 2017; Accessible at http://researcharchive.calacademy.org/research/ichthyology/catalog/fishcatmain.asp
González MF, Díaz-Pulido A, Mesa LM, Corzo G, Portocarrero-Aya M, Lasso C, Chaves ME, M Santamaría (Eds) Catálogo de biodiversidad de la región orinoquense. Volumen 1. Serie Planeación ambiental para la conservación de la biodiversidad en áreas operativas de Ecopetrol. Proyecto Planeación ambiental para la conservación de la biodiversidad en las áreas operativas de Ecopetrol. Bogotá D.C.: Instituto de Investigación de Recursos Biológicos Alexander von Humboldt – Ecopetrol S.A. 2015.
Rankin ET. Methods for assessing habitat in flowing waters: using the qualitative habitat evaluation index (QHEI). Ohio: EPA, Division of Surface Water, Groveport, OH; 2006.
Reis RE, Albert JS, Di Dario F, Mincarone MM, Petry P, Rocha LA. Fish biodiversity and conservation in South America. J Fish Biol 2016;89(1):12-47.
Thomaz AT, Arcila D, Ortí G, Malabarba LR. Molecular phylogeny of the subfamily Stevardiinae Gill, 1858 (Characiformes: Characidae): classification and the evolution of reproductive traits. BMC evolutionary biology; 2015; 15(1):146.
Osorio-Peláez, C., C. A. Lasso y F. Trujillo editors. XIII. Aplicación de criterios bioecológicos para la identificación, caracterización y establecimiento de límites funcionales en humedales de las sabanas inundables de la Orinoquia. Serie Editorial Recursos Hidrobiológicos y Pesqueros Continentales de Colombia. Bogotá, DC Colombia: Instituto de Investigación de Recursos Biológicos Alexander von Humboldt (IavH); 2015. p. 227-249.
Oliveira C, Avelino GS, Abe KT, Mariguela TC, Benine RC, Ortí G, Vari RP, Castro RM. Phylogenetic relationships within the speciose family Characidae (Teleostei: Ostariophysi: Characiformes) based on multilocus analysis and extensive ingroup sampling. BMC Evolutionary Biology; 2011; 11(1):275
Mora-Fernández C, Peñuela-Recio L, Castro-Lima F. Estado del conocimiento de los ecosistemas de las sabanas inundables en la Orinoquia Colombiana. Orinoquia, 2015; 19(2), 253-271.
Mojica JIUO, León JUA and Lasso R. Libro rojo de peces dulceacuícolas de Colombia. Bogotá: CO-BAC; 2012.
Usma JS, Valderrama M, Escobar MD, Ajiaco-Martínez RE, Villa-Navarro F, Castro F, Ramírez-Gil H, Sanabria AI, Ortega-Lara A, Maldonado-Ocampo J, Alonso JC. Peces dulceacuícolas migratorios en Colombia. Plan Nacional de las especies migratorias. Diagnóstico e identificación de acciones para la conservación y el manejo sostenible de las especies migratorias de la biodiversidad en Colombia. Ministro de Ambiente, Vivienda y Desarrollo Territorial y WWF. 2009.
https://statics.sibcolombia.net/sib-resources/images/logos-socios/500px/acictios.jpg
f96de520-5afe-456b-bf62-781a9aca5b62/v2.4.xml