Search

Your search keyword '"Correa, Sandra Bibiana"' showing total 43 results
Start Over Author "Correa, Sandra Bibiana"
43 results on '"Correa, Sandra Bibiana"'

1. Artificial water-level fluctuation modulates trophic niches of benthic fish assemblages in one of the world's largest reservoirs

Author

Liao, Chuansong, Wang, Jiacheng, Correa, Sandra Bibiana, Yu, Jixin, Yang, Rui, Yuan, Jing, Li, Wei, Ye, Shaowen, Guo, Chuanbo, and Liu, Jiashou

Subjects
Fishes -- Environmental aspects, Food chains (Ecology) -- Environmental aspects, Benthos (Aquatic organisms) -- Environmental aspects, Niche (Ecology) -- Research
Abstract

The impoundment of the Yangtze River and construction of the Three Gorges Dam and Reservoir created an unnatural flow regime with a 30 m water-level fluctuation and four artificial seasons that differ from the river's natural flow- regime timing. Using stable isotopes, we selected 15 common benthic fish species representing five trophic guilds to analyze seasonal variation in production sources, trophic niche width, and niche overlap. We hypothesized that, similarly to a natural flow regime, artificial hydrological seasons effectively influence fish trophic niches. We found consistency in seasonal shifts in the contribution of aquatic and terrestrial producers to fish biomass. [delta][sup.13]C and [delta][sup.15]N depicted seasonal changes in intra-guild trophic niche width and intra- and inter-guild niche overlap. Considering that the Three Gorges Reservoir's flow regime is artificially regulated, our findings suggest that water-level fluctuation is one of the key mechanisms driving such trophic shifts and allowing multiple species to coexist. Given the increased cascaded large reservoir construction and the concomitant creation of unnatural flow regimes in large rivers worldwide, these findings are timely. Our findings contribute to improving water-level management by optimizing rhythmicity while balancing flood control and fish protection. Key words: Three Gorges Reservoir, diet shift, niche width, niche overlap, flow regime, Introduction In large river floodplain systems with natural flow regimes, seasonal flood-pulse dynamics affect many ecological and environmental processes by laterally connecting the river channel to adjacent terrestrial and floodplain [...]

Published
2023
Full Text
View/download PDF

5. Capítulo 4: Biodiversidad y Funcionamiento Ecológico en la Amazonía

Author

Moraes R., Mónica, additional, Correa, Sandra Bibiana, additional, Rodrigues da Costa Doria, Carolina, additional, Duponchelle, Fabrice, additional, Miranda, Guido, additional, Montoya, Mariana, additional, Phillips, Oliver L, additional, Salinas, Norma, additional, Silman, Miles, additional, Ulloa Ulloa, Carmen, additional, Zapata-Ríos, Galo, additional, Arieira, Julia, additional, and ter Steege, Hans, additional

Published
2022
Full Text
View/download PDF

6. Capítulo 23: Impactos de la deforestación y el cambio climático sobre la biodiversidad, los procesos ecológicos y la adaptación ambiental

Author

Artaxo, Paulo, primary, Fonseca de Almeida-Val, Vera Maria, additional, Bilbao, Bibiana, additional, Brando, Paulo M, additional, Bustamante, Mercedes, additional, Coe, Michael T, additional, Correa, Sandra Bibiana, additional, Cuesta, Francisco, additional, Costa, Marcos H, additional, Miralles-Wilhem, Fernando, additional, Salinas, Norma, additional, Silvério, Divino Vicente, additional, and Val, Adalberto Luis, additional

Published
2022
Full Text
View/download PDF

8. The Andes–Amazon–Atlantic pathway: A foundational hydroclimate system for social–ecological system sustainability

Author

Beveridge, Claire F., primary, Espinoza, Jhan-Carlo, additional, Athayde, Simone, additional, Correa, Sandra Bibiana, additional, Couto, Thiago B. A., additional, Heilpern, Sebastian A., additional, Jenkins, Clinton N., additional, Piland, Natalia C., additional, Utsunomiya, Renata, additional, Wongchuig, Sly, additional, and Anderson, Elizabeth P., additional

Published
2024
Full Text
View/download PDF

9. Chapter 4: Amazonian ecosystems and their ecological functions

Author

Moraes R., Mónica, primary, Correa, Sandra Bibiana, additional, Rodrigues da Costa Doria, Carolina, additional, Duponchelle, Fabrice, additional, Miranda, Guido, additional, Montoya, Mariana, additional, Phillips, Oliver L, additional, Salinas, Norma, additional, Silman, Miles, additional, Ulloa Ulloa, Carmen, additional, Zapata-Ríos, Galo, additional, Arieira, Julia, additional, and ter Steege, Hans, additional

Published
2021
Full Text
View/download PDF

10. Chapter 23: Impacts of deforestation and climate change on biodiversity, ecological processes, and environmental adaptation

Author

Artaxo, Paulo, primary, Fonseca de Almeida-Val, Vera Maria, additional, Bilbao, Bibiana, additional, Brando, Paulo M, additional, Bustamante, Mercedes, additional, Coe, Michael T, additional, Correa, Sandra Bibiana, additional, Cuesta, Francisco, additional, Costa, Marcos H, additional, Miralles-Wilhem, Fernando, additional, Salinas, Norma, additional, Silvério, Divino Vicente, additional, and Val, Adalberto Luis, additional

Published
2021
Full Text
View/download PDF

12. Defaunation shadow on mutualistic interactions

Author

Costa-Pereira, Raul, Lucas, Christine, Crossa, Marcelo, Anderson, Jill T., Albuquerque, Bianca Weiss, Dary, Eurizângela P., Piedade, Maria T. F., Demarchi, Layon O., Rebouças, Elizabeth R., da S. Costa, Gilvan, Galetti, Mauro, and Correa, Sandra Bibiana

Published
2018

16. Fishes (Actinopterygii) of the rapids and associated environments in the lower Vaupés River Basin: an undiscovered Colombian Amazon diversity.

Author

Urbano-Bonilla, Alexander, Garcia-Melo, Jorge E., Peña-Bermudez, Mateo Esteban, Melo-Ortiz, Omar Eduardo, Ordoñez, Oscar Stiven, Correa, Sandra Bibiana, Carvalho, Tiago P., and Maldonado-Ocampo, Javier A.

Subjects
RAPIDS, WATERSHEDS, ACTINOPTERYGII
Abstract

The Vaupés River stands out as one of the few within the Amazon basin due to its numerous rapids. These riverine fast-flowing sections not only provide habitat to highly specialized fishes but also function as natural barriers hindering the movement of fish along its course. During a fish-collecting expedition in the lower Vaupés River basin in Colombia, 95 species were registered belonging to 30 families and seven orders. Despite recent inventories in the region, our comprehensive sampling efforts particularly focused on the rapids and associated rheophilic fauna, allowing us to contribute the first records of four fish species in Colombia (Myloplus lucienae Andrade, Ota, Bastos & Jégu, 2016, Tometes makue Jégu, Santos & Jégu, 2002, also first record of the genus, Leptodoras praelongus (Myers & Weitzman, 1956), and Eigenmannia matintapereira Peixoto, Dutra & Wosiacki, 2015) and six presumably undescribed species (i.e., Jupiaba sp., Moenkhausia sp., Phenacogaster sp., Bunocephalus sp., Hemiancistrus sp., and Archolaemus sp.). In this study, a commented list of the ichthyofauna of these environments is presented, as well as a photographic catalog of fish species integrated into the CaVFish Project – Colombia. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

22. The effects of temperature and salinity on the blood chemistry and survival of juvenile Atlantic tarpon Megalops atlanticus.

Author

Coffill‐Rivera, Manuel E., Paez Mendez, Yvanna D., Little, Logan, Graham, Patrick M., Franks, James S., Correa, Sandra Bibiana, Neal, J. Wesley, and Allen, Peter J.

Subjects
PHYSIOLOGICAL effects of temperature, TEMPERATURE effect, OSMOREGULATION, SALINITY, ERYTHROCYTES, EFFECT of temperature on fishes, LOW temperatures
Abstract

Atlantic tarpon Megalops atlanticus are highly migratory sportfish that support recreational fisheries throughout their range. In US waters, juveniles can be found in coastal and estuarine habitats along the Gulf of Mexico and Atlantic seaboard, with temperature limiting their northern latitudinal distribution. Juveniles may overwinter in these areas during the first several years of life. Low temperatures are known to cause mortality in adults, but the challenges of temperature are less understood for juveniles. Furthermore, salinity, which can change dramatically in these habitats, may have a synergistic effect with temperature. To examine the physiological effects of temperature and salinity on juvenile tarpon, wild fish were acclimated to a range of conditions that potentially occur in the northern range of their estuarine habitats. The haematology of juvenile tarpon was examined in two salinity (≤2 and ≥30 ppt) and temperature (15 and 25°C) treatments, followed by a low‐temperature tolerance test. After 2 weeks in treatment conditions, blood samples were analysed for haematocrit, pH, red blood cell concentration, haemoglobin content and plasma osmolality. Increased plasma osmolality was observed in fish at low temperature (15°C compared to 25°C) and at high salinity (≥30 ppt compared to ≤2 ppt). Blood pH was increased at 15°C compared to 25°C, with the highest pH at 15°C and low salinity. Haemoglobin, haematocrit and red blood cell concentration were higher at 25°C than 15°C, with haemoglobin lowest at 15°C and low salinity. For the low‐temperature tolerance test, all fish were acclimated to 15°C for 2 weeks, then transferred to separate tanks where temperature was gradually decreased at 0.9 ± 0.1°C/h until fish lost equilibrium. Fish at low salinity lost equilibrium more rapidly (1 ppt, 12.65 ± 0.46°C) than fish at high salinity (30 ppt, 11.26 ± 0.14°C). The results indicate juvenile tarpon are susceptible to low temperature, which is exacerbated by low salinity, findings useful in the assessment of juvenile tarpon overwintering habitat. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

27. Biotic Indicators for Ecological State Change in Amazonian Floodplains

Author

Correa, Sandra Bibiana, Van Der Sleen, Peter, Siddiqui, Sharmin F., Bogotá-Gregory, Juan David, Arantes, Caroline C., Barnett, Adrian A., Couto, Thiago B.A., Goulding, Michael, Anderson, Elizabeth P., Correa, Sandra Bibiana, Van Der Sleen, Peter, Siddiqui, Sharmin F., Bogotá-Gregory, Juan David, Arantes, Caroline C., Barnett, Adrian A., Couto, Thiago B.A., Goulding, Michael, and Anderson, Elizabeth P.

Abstract

Riverine floodplains are biologically diverse and productive ecosystems. Although tropical floodplains remain relatively conserved and ecologically functional compared to those at higher latitudes, they face accelerated hydropower development, climate change, and deforestation. Alterations to the flood pulse could act synergistically with other drivers of change to promote profound ecological state change at a large spatial scale. State change occurs when an ecosystem reaches a critical threshold or tipping point, which leads to an alternative qualitative state for the ecosystem. Visualizing an alternative state for Amazonian floodplains is not straightforward. Yet, it is critical to recognize that changes to the flood pulse could push tropical floodplain ecosystems over a tipping point with cascading adverse effects on biodiversity and ecosystem services. We characterize the Amazonian flood pulse regime, summarize evidence of flood pulse change, assess potential ecological repercussions, and provide a monitoring framework for tracking flood pulse change and detecting biotic responses.

Published
2022

30. Implications of overfishing of frugivorous fishes for cryptic function loss in a Neotropical floodplain

Author

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Eppley Foundation for Research, National Geographic Society, Sesc Pantanal, University of Georgia, Mississippi State University, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Waterland Research Institute, Ministério da Ciência, Tecnologia e Inovação (Brasil), Mendes Araujo, Joisiane, Correa, Sandra Bibiana, Penha, Jerry, Anderson, Jill, Traveset, Anna, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Eppley Foundation for Research, National Geographic Society, Sesc Pantanal, University of Georgia, Mississippi State University, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Waterland Research Institute, Ministério da Ciência, Tecnologia e Inovação (Brasil), Mendes Araujo, Joisiane, Correa, Sandra Bibiana, Penha, Jerry, Anderson, Jill, and Traveset, Anna

Abstract

Many frugivorous animals act simultaneously as seed predators and dispersers, and shifts in the abundance and mean phenotype of the frugivore population can alter the prevalence of antagonistic versus mutualistic interactions with seeds. Here, we evaluated how a reduction in the abundance and species richness of large-bodied frugivorous fishes affects their interactions with plants in a Neotropical floodplain. Fisheries selectively harvest large frugivorous fishes, which are the most effective seed dispersers. Thus, functional extinctions of fish mutualists can cascade to secondary extinctions of plants and their biotic associates, and ecosystem-level change. We evaluated functional responses of wetland communities to changes in fish body size by modelling the robustness of plant–frugivore networks to different extinction scenarios, using fish body size as a functional trait influencing seed dispersal and seed predation. We built ecological networks for frugivory, seed dispersal and seed predation. All networks lacked modularity and showed reduced nestedness compared with randomized networks. The three networks indicated that frugivorous fish have wide niches and low to intermediate degree of specialization. Network robustness to extinction of frugivorous fish decreased with selective loss of large individuals. Synthesis and applications. We predict that reductions in the abundance of large-bodied fish species will enhance the dominance of plant species with small seeds and decrease plant diversity. The functionally most important species in our networks are the most susceptible to overfishing. Therefore, sustainable management in these ecosystems needs to contribute to protecting interactions and, consequently, ecological and evolutionary processes related to maintaining biodiversity in vast wetland forests.

Published
2021

36. Isotopic variation among Amazonian floodplain woody plants and implications for food-web research

Author

Correa, Sandra Bibiana, Winemiller, Kirk, and Cárdenas, Dairon

Subjects
Frutas, Red trófica, Mixing model, Várzea, Food web, Isótopos estables, Igapó, Stable isotopes, Fruits, Modelos de mezcla
Abstract

Isotopic variation within food sources adds uncertainty to models intended to reconstruct trophic pathways. Understanding this variation is pivotal for planning sampling protocols for food-web research. This study investigates natural variation in C and N stable isotopes among plant species in two western Amazon flooded forests with contrasting watershed biogeochemistry (white-water várzea-forest and black-water igapó-forest). Our objectives were to compare δ13C and δ15N of leaves and fruits between sites; assess the magnitude of within-site variation in δ13C and δ15N of leaves (várzea: 28 spp., igapó: 10 spp.) and fruits (várzea: 22 spp., igapó: 22 spp.); determine within-plant variation in δ13C and δ15N of leaf, wood and fruit tissues; and test whether inter-specific variation in δ13C and δ15N influence the results of a mixing model predicting the contribution of terrestrial C sources to an aquatic consumer. Mean δ13C values of leaves and fruits were not statistically different between the two sites despite regional differences in biogeochemistry and floristic composition. In contrast, mean δ15N of leaves and fruits were significantly lower at the várzea than at the igapó site. The high floristic diversity of both forests was reflected in large within-site interspecific variation in both δ13C and δ15N. Paired comparisons revealed that δ13C of wood and fruits and δ15N of fruits were generally greater than values obtained for leaves from the same plant. The predicted contribution of different carbon sources to the consumer biomass changed between models as a function of source variability. We discuss implications of source variation for designing sampling protocols, interpreting isotopic signatures, and establishing trophic links between plants and consumers. Our findings highlight the importance of in situ sampling to establish reliable primary production baselines for local food webs. La variación isotópica dentro de fuentes alimenticias aãade incertidumbre a los modelos destinados a reconstruir redes tróficas. La comprensión de esta variación es fundamental para la planificación de protocolos de muestreo para la investigación de redes alimentarias. Este estudio investiga la variación natural en isótopos estables de C y N entre especies de plantas en dos bosques inundables de la Amazonía noroccidental con biogeoquímica de cuenca contrastantes (várzea-bosques de aguas blanca e igapó-bosques de aguas negras). Nuestros objetivos fueron comparar las seãales isotópicas de δ13C y δ15N de hojas y frutos entre bosques; evaluar la magnitud de la variación en la composición isotópica de hojas (várzea: 28 spp., Igapó: 10 spp.) y frutas (várzea:. 22 spp, igapó: 22 spp.) a nivel local; determinar la variación en la composición isotópica de madera, hojas y frutas dentro de una planta; y evaluar si la variación inter-específica en los valores de δ13C y δ15N ejerce influencia sobre los resultados de modelos que predicen la contribución de fuentes de alimentos terrestres a un consumidor acuático. Los valores promedio de δ13C en hojas y frutos no fueron estadísticamente diferentes entre los dos tipos de bosque a pesar de las diferencias regionales en biogeoquímica y composición florística. Por el contrario, los valores promedio de δ15N en hojas y frutos fueron significativamente más bajos en la várzea que en el igapó. La alta diversidad florística de los dos bosques se reflejó en una gran variación inter-específica a nivel local en δ13C y δ15N. Comparaciones pareadas revelaron que los valores de δ13C de madera y frutas y δ15N de frutas fueron generalmente mayores que los valores obtenidos para las hojas de la misma planta. Los resultados sobre la contribución de diferentes fuentes de carbono a la biomasa del consumidor cambió de un modelo a otro en función a la variabilidad isotópica en las fuentes alimenticias. Discutimos las implicaciones de la variación en las fuentes alimenticias para el diseão de los protocolos de muestreo, la interpretación de las seãales isotópicas, y el establecimiento de relaciones tróficas entre plantas y consumidores. Nuestros resultados destacan la importancia de la toma de muestras in situ para establecer líneas de base fiables de producción primaria para las redes tróficas locales.

Published
2016

43. Floodplain forests drive fruit-eating fish diversity at the Amazon Basin-scale.

Author

Correa SB, Coronado-Franco KV, Jézéquel C, Cantarute Rodrigues A, Evans KO, Granger JJ, Ter Steege H, Leão do Amaral I, de Souza Coelho L, Wittmann F, de Almeida Matos FD, de Andrade Lima Filho D, Salomão RP, Castilho CV, Guevara JE, Veiga Carim MJ, Phillips OL, Fernandez Piedade MT, Demarchi LO, Schöngart J, Cardenas Revilla JD, Pires Martins M, Irume MV, da Silva Guimarães JR, Ferreira Ramos J, Costa Quaresma A, Pitman NCA, Luize BG, Moraes de Leão Novo EM, Martins Venticinque E, Sanna Freire Silva T, Núñez Vargas P, Manzatto AG, Farias Costa Reis N, Terborgh J, Casula KR, Honorio Coronado EN, Montero JC, Monteagudo Mendoza A, Feldpausch TR, Machado Durgante F, Castaño Arboleda N, Marimon BS, Marimon-Junior BH, Killeen TJ, Vasquez R, Mostacedo B, Assis RL, Dantas do Amaral D, Householder JE, Simon MF, Brilhante de Medeiros M, Lima de Queiroz H, Lopes MA, Lima Magalhães JL, Stevenson PR, Barçante Ladvocat Cintra B, Araujo-Murakami A, Baker TR, Oliveira Feitosa Y, Mogollón HF, Duivenvoorden JF, Ferreira LV, de Toledo JJ, Comiskey JA, Lopes A, Damasco G, Vicentini A, Cornejo Valverde F, Gomes VHF, Alonso A, Dallmeier F, P de Aguiar DP, Gribel R, Licona JC, Villa Zegarra BE, Carneiro Guedes M, Cerón C, Thomas R, Milliken W, Campelo W, Albuquerque BW, Klitgaard B, Tello JS, Fuentes Claros A, Rivas-Torres G, Phillips JF, Hildebrand PV, Gonzales T, Vela CIA, Hoffman B, Flores BM, Pombo MM, Rocha M, Holmgren M, Cano A, Umaña MN, Casas LF, Balslev H, Urrego Giraldo LE, Bigorne R, Oberdorff T, Maldonado-Ocampo JA, Ortega H, Hidalgo M, Martens K, Torrente-Vilara G, Zuanon J, Acosta A, Agudelo E, Barrera Maure S, Bastos DA, Bogotá Gregory J, Cabeceira FG, Canto ALC, Carvajal-Vallejos FM, Carvalho LN, Cella-Ribeiro A, Covain R, Dias MS, Donascimiento C, Dória CRC, Duarte C, Ferreira EJG, Galuch AV, Giarrizzo T, Leitão RP, Lundberg JG, Maldonado M, Mojica JI, Montag LFA, Ohara W, Pires THS, Pouilly M, Prada-Pedreros S, Queiroz LJ, Rapp Py-Daniel L, Ribeiro FRV, Ríos Herrera R, Rodrigues Dos Anjos M, Lourenco IH, Sarmiento J, Sousa LM, Stegmann LF, Valdiviezo-Rivera J, Villa F, Yunoki T, and Tedesco PA

Subjects
Animals, Trees, Feeding Behavior physiology, Ecosystem, Fishes physiology, Rivers, Biodiversity, Fruit, Floods, Forests
Abstract

Unlike most rivers globally, nearly all lowland Amazonian rivers have unregulated flow, supporting seasonally flooded floodplain forests. Floodplain forests harbor a unique tree species assemblage adapted to flooding and specialized fauna, including fruit-eating fish that migrate seasonally into floodplains, favoring expansive floodplain areas. Frugivorous fish are forest-dependent fauna critical to forest regeneration via seed dispersal and support commercial and artisanal fisheries. We implemented linear mixed effects models to investigate drivers of species richness among specialized frugivorous fishes across the ~6,000,000 km 2 Amazon Basin, analyzing 29 species from 9 families (10,058 occurrences). Floodplain predictors per subbasin included floodplain forest extent, tree species richness (309,540 occurrences for 2,506 species), water biogeochemistry, flood duration, and elevation, with river order controlling for longitudinal positioning along the river network. We observed heterogeneous patterns of frugivorous fish species richness, which were positively correlated with floodplain forest extent, tree species richness, and flood duration. The natural hydrological regime facilitates fish access to flooded forests and controls fruit production. Thus, the ability of Amazonian floodplain ecosystems to support frugivorous fish assemblages hinges on extensive and diverse seasonally flooded forests. Given the low functional redundancy in fish seed dispersal networks, diverse frugivorous fish assemblages disperse and maintain diverse forests; vice versa, diverse forests maintain more fish species, underscoring the critically important taxonomic interdependencies that embody Amazonian ecosystems. Effective management strategies must acknowledge that access to diverse and hydrologically functional floodplain forests is essential to ensure the long-term survival of frugivorous fish and, in turn, the long-term sustainability of floodplain forests., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2025
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results