Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/ecological-society-of-america/niche-partitioning-among-frugivorous-fishes-in-response-to-fluctuating-uf0usze7kQ
References (80)
-
A. Duque, K. Winemiller (2003)
Dietary segregation among large catfishes of the Apure and Arauca Rivers, VenezuelaJournal of Fish Biology, 63
-
P. Abrams (1991)
Life History and the Relationship Between Food Availability and Foraging EffortEcology, 72
-
M Goulding (1980)
The fishes and the forest: Explorations in the Amazonian natural historyAmerican Naturalist
-
E. Pianka (1973)
The structure of lizard communitiesAnnual Review of Ecology, Evolution, and Systematics, 4
-
J. Carnicer, P. Abrams, P. Jordano (2008)
Switching behavior, coexistence and diversification: comparing empirical community-wide evidence with theoretical predictions.Ecology letters, 11 8
-
S. Venner, Pierre-François Pélisson, M. Bel‐Venner, F. Débias, Etienne Rajon, F. Menu (2011)
Coexistence of Insect Species Competing for a Pulsed Resource: Toward a Unified Theory of Biodiversity in Fluctuating EnvironmentsPLoS ONE, 6
-
R. Macarthur, R. Levins (1967)
The Limiting Similarity, Convergence, and Divergence of Coexisting SpeciesThe American Naturalist, 101
-
K. Drewe, M. Horn, K. Dickson, A. Gawlicka (2004)
Insectivore to frugivore: ontogenetic changes in gut morphology and digestive enzyme activity in the characid fish Brycon guatemalensis from Costa Rican rain forest streamsJournal of Fish Biology, 64
-
N. K Lujan, D. P German, K. O Winemiller (2011)
Do wood-grazing fishes partition their niche? Morphological and isotopic evidence for trophic segregation in Neotropical LoricariidaeProceedings of the National Academy of Sciences USA, 25
-
T. Defler, Sara Defler (1996)
Diet of a group ofLagothrix Lagothricha Lagothricha in southeastern ColombiaInternational Journal of Primatology, 17
-
P. Parolin, O. Simone, K. Haase, D. Waldhoff, S. Rottenberger, U. Kuhn, J. Kesselmeier, B. Kleiss, Wolfgang Schmidt, M. Piedade, W. Junk (2004)
Central Amazonian floodplain forests: Tree adaptations in a pulsing systemThe Botanical Review, 70
-
R. Macarthur (1958)
Population Ecology of Some Warblers of Northeastern Coniferous ForestsEcology, 39
-
J. Montoya, D. Roelke, K. Winemiller, J. Cotner, J. Snider (2006)
Hydrological seasonality and benthic algal biomass in a Neotropical floodplain river, 25
-
P. Petry, P. Bayley, D. Markle (2003)
Relationships between fish assemblages, macrophytes and environmental gradients in the Amazon River floodplainJournal of Fish Biology, 63
-
Emer Pizango-Paima, M. Pereira-Filho, Maria Oliveira-Pereira (2001)
Composição corporal e alimentar do Matrinxã, Brycon cephalus (Günther, 1869), na Amazônia centralActa Amazonica, 31
-
M. Horn, S. Correa, P. Parolin, B. Pollux, Jill Anderson, C. Lucas, P. Widmann, Albertus Tjiu, M. Galetti, M. Goulding (2011)
Seed dispersal by fishes in tropical and temperate fresh waters: The growing evidenceActa Oecologica-international Journal of Ecology, 37
-
J Melack, E. M. L. M Novo, B. R Forsberg, M. T. F Piedade, L Maurice (2009)
Amazonia and global changeProceedings of the National Academy of Sciences USA
-
K. McKaye, A. Marsh (1983)
Food switching by two specialized algae-scraping cichlid fishes in Lake Malawi, AfricaOecologia, 56
-
S. Correa, W. Crampton, L. Chapman, J. Albert (2008)
A comparison of flooded forest and floating meadow fish assemblages in an upper Amazon floodplainJournal of Fish Biology, 72
-
E. Pianka (1974)
Niche overlap and diffuse competition.Proceedings of the National Academy of Sciences of the United States of America, 71 5
-
D. Waldhoff, L. Alencar (2000)
Production and chemical composition of fruit from trees in floodplain forests of Central Amazonia and their importance for fish production. -
W. J Junk, M. T. F Piedade (2010)
Central Amazonian floodplain forests: ecophysiology, biodiversity, and sustainable managementOecologia
-
K. Esteves, P. Galetti (1995)
Food partitioning among some characids of a small Brazilian floodplain lake from the Paraná River basinEnvironmental Biology of Fishes, 42
-
K. Winemiller (1989)
Ontogenetic diet shifts and resource partitioning among piscivorous fishes in the Venezuelan ilanosEnvironmental Biology of Fishes, 26
-
K. E McCluney, J Belnap, S. L Collins, A. L Gonzalez, E. L Hagen, J. N Holland, B. P Kotler, F. T Maestre, S. D Smith, B. O Wolf (2012)
Shifting species interactions in terrestrial dryland ecosystems under altered water availability and climate changeFisheries Management and Ecology, 87
-
M Goulding, M. L Carvalho, E. G Ferreira (1988)
Rio Negro, rich life in poor waterJournal of Fish Biology
-
O Hammer, D. A. T Harper, P. D Ryan (2001)
PAST: Paleontological statistical software package for education and data analysisFunctional Ecology, 4
-
M. J O'Callaghan, D. M Hannah, I Boomer, M Williams, J. P Sadler (2013)
Responses to river inundation pressures control prey selection of riparian beetlesAmerican Naturalist, 8
-
P. McIntyre, A. Flecker (2006)
Rapid turnover of tissue nitrogen of primary consumers in tropical freshwatersOecologia, 148
-
A. R McCune, J. B Grace (2002)
Analysis of ecological communitiesBotanical Review
-
B. d Mérona, J Rankin-de-Mérona (2004)
Food resource partitioning in a fish community of the central Amazon floodplainActa Amazonica, 2
-
R. H Lowe-McConnell (1987)
Ecological studies in tropical fish communitiesJournal of the North American Benthological Society
-
S. Nakano, M. Murakami (2001)
Reciprocal subsidies: dynamic interdependence between terrestrial and aquatic food webs.Proceedings of the National Academy of Sciences of the United States of America, 98 1
-
J. Melack, E. Novo, B. Forsberg, M. Piedade, L. Maurice (2013)
Floodplain Ecosystem Processes, 186
-
T. Schoener (1974)
Resource Partitioning in Ecological CommunitiesScience, 185
-
P. Abrams (2010)
Implications of flexible foraging for interspecific interactions: lessons from simple modelsFunctional Ecology, 24
-
N Gotelli, G. L Entsminger (2010)
EcoSim: Null models software for ecologyPaleontologica Electronica
-
P. Abrams (2006)
The Effects of Switching Behavior on the Evolutionary Diversification of Generalist ConsumersThe American Naturalist, 168
-
D. Post (2002)
USING STABLE ISOTOPES TO ESTIMATE TROPHIC POSITION: MODELS, METHODS, AND ASSUMPTIONSEcology, 83
-
R. Reis (2013)
Conserving the freshwater fishes of South AmericaInternational Zoo Yearbook, 47
-
Ø. Hammer, D. Harper, P. Ryan (2001)
PAST: PALEONTOLOGICAL STATISTICAL SOFTWARE PACKAGE FOR EDUCATION AND DATA ANALYSISPalaeontologia Electronica, 4
-
Christopher Barger, A. Kitaysky (2012)
Isotopic segregation between sympatric seabird species increases with nutritional stressBiology Letters, 8
-
P. Abrams (1983)
The theory of limiting similarityAnnual Review of Ecology, Evolution, and Systematics, 14
-
T. R Defler, S. B Defler (1996)
Diet of a group of Lagothrix lagothricha in southeastern ColombiaInternational Journal of Primatology, 17
-
J. M Melack, B. R Forsberg (2001)
The biogeochemistry of the Amazon BasinAnnual Review of Ecology and Systematics
-
W. J Junk, M. G. M Soares, U Saint-Paul (1997)
The central Amazon floodplain, ecology of a pulsing systemOecologia
-
K. Winemiller, E. Pianka (1990)
Organization in Natural Assemblages of Desert Lizards and Tropical FishesEcological Monographs, 60
-
L Legendre, L Legendre (2012)
Numerical ecology. Third English editionNeotropical Ichthyology
-
E. J Hyslop (1980)
Stomach content analysis: a review of methods and their applicationBiological Reviews, 17
-
K. McCluney, J. Belnap, S. Collins, Angélica González, E. Hagen, J. Holland, Burt Kotler, F. Maestre, Stanley Smith, B. Wolf (2012)
Shifting species interactions in terrestrial dryland ecosystems under altered water availability and climate changeBiological Reviews, 87
-
Jill Anderson, Joe Rojas, A. Flecker (2009)
High-quality seed dispersal by fruit-eating fishes in Amazonian floodplain habitatsOecologia, 161
-
R MacArthur, R Levins (1967)
The limiting similarity, convergence and divergence of coexisting speciesPLoS One, 101
-
Gad Perry, E. Pianka (1997)
Animal foraging: past, present and future.Trends in ecology & evolution, 12 9
-
J. Cotner, J. Montoya, D. Roelke, K. Winemiller (2006)
Seasonally variable riverine production in the Venezuelan llanos, 25
-
U. saint-Paul, J. Zuanon, M. Correa, Marcelo García, N. Fabré, U. Berger, W. Junk (2000)
Fish Communities in Central Amazonian White- and Blackwater FloodplainsEnvironmental Biology of Fishes, 57
-
C. Rueffler, T. Dooren, J. Metz (2006)
The Interplay between Behavior and Morphology in the Evolutionary Dynamics of Resource SpecializationThe American Naturalist, 169
-
P. Chesson (2000)
Mechanisms of Maintenance of Species DiversityAnnual Review of Ecology, Evolution, and Systematics, 31
-
B. Robinson, D. Wilson (1998)
Optimal Foraging, Specialization, and a Solution to Liem's ParadoxThe American Naturalist, 151
-
P. Chesson, N. Huntly (1997)
The Roles of Harsh and Fluctuating Conditions in the Dynamics of Ecological CommunitiesThe American Naturalist, 150
-
S. B Correa, K Winemiller, H López-Fernández, M Galetti (2007)
Evolutionary perspectives on seed consumption and dispersal by fishes: evolutionary perspectivesBioScience, 57
-
D. German, R. Miles (2010)
Stable carbon and nitrogen incorporation in blood and fin tissue of the catfish Pterygoplichthys disjunctivus (Siluriformes, Loricariidae)Environmental Biology of Fishes, 89
-
E. Hyslop (1980)
Stomach contents analysis—a review of methods and their applicationJournal of Fish Biology, 17
-
S. Correa, K. Winemiller, H. López-Fernández, M. Galetti (2007)
Evolutionary Perspectives on Seed Consumption and Dispersal by Fishes, 57
-
T. Boujard, D. Sabatier, R. Rojas-Beltran, M. Prévost, J. Renno (1990)
The food habits of three allochthonous feeding Characoids in French GuianaRevue d'Écologie (La Terre et La Vie)
-
P. Chesson, R. Gebauer, S. Schwinning, N. Huntly, K. Wiegand, Morgan Ernest, A. Sher, A. Novoplansky, J. Weltzin (2004)
Resource pulses, species interactions, and diversity maintenance in arid and semi-arid environmentsOecologia, 141
-
D. Post, C. Layman, D. Arrington, G. Takimoto, J. Quattrochi, Carman Montaña (2007)
Getting to the fat of the matter: models, methods and assumptions for dealing with lipids in stable isotope analysesOecologia, 152
-
C. Wagner, P. McIntyre, K. Buels, D. Gilbert, E. Michel (2009)
Diet predicts intestine length in Lake Tanganyika’s cichlid fishesFunctional Ecology, 23
-
P. Stevenson, Ivonne Vargas (2008)
Sample size and appropriate design of fruit and seed traps in tropical forestsJournal of Tropical Ecology, 24
-
B. Mérona, J. Rankin-De-Merona (2004)
Food resource partitioning in a fish community of the central Amazon floodplainNeotropical Ichthyology, 2
-
L. Nico, D. Taphorn (1988)
Food habits of piranhas in the low llanos of VenezuelaBiotropica, 20
-
M. Deniro, S. Epstein (1977)
Mechanism of carbon isotope fractionation associated with lipid synthesis.Science, 197 4300
-
Americans Naturalist (1959)
Homage to Santa Rosalia or Why Are There So Many Kinds of Animals?The American Naturalist, 93
-
Y. Benjamini, Y. Hochberg (1995)
Controlling the false discovery rate: a practical and powerful approach to multiple testingJournal of the royal statistical society series b-methodological, 57
-
N Gotelli, G Graves (1996)
Null models in ecologyActa Oecologica
-
A. Oliveira, L. Martinelli, M. Moreira, M. Soares, J. Cyrino (2006)
Seasonality of energy sources of Colossoma macropomum in a floodplain lake in the Amazon-lake Camaleão, Amazonas, BrazilFisheries Management and Ecology, 13
-
Marti Anderson (2006)
Distance‐Based Tests for Homogeneity of Multivariate DispersionsBiometrics, 62
-
N. Lujan, D. German, K. Winemiller (2011)
Do wood‐grazing fishes partition their niche?: morphological and isotopic evidence for trophic segregation in Neotropical LoricariidaeFunctional Ecology, 25
-
S. Correa (2008)
Fish assemblage structure is consistent through an annual hydrological cycle in habitats of a floodplain-lake in the Colombian AmazonNeotropical Ichthyology, 6
-
M. O'Callaghan, D. Hannah, I. Boomer, Mike Williams, J. Sadler (2013)
Responses to River Inundation Pressures Control Prey Selection of Riparian BeetlesPLoS ONE, 8
-
D. Calcagnotto, S. Schaefer, R. DeSalle (2005)
Relationships among characiform fishes inferred from analysis of nuclear and mitochondrial gene sequences.Molecular phylogenetics and evolution, 36 1
- Publisher
- Ecological Society of America
- Copyright
- Copyright © 2014 by the Ecological Society of America
- Subject
- Articles
- ISSN
- 0012-9658
- DOI
- 10.1890/13-0393.1
- Publisher site
- See Article on Publisher Site
Abstract
In response to temporal changes in the quality and availability of food resources, consumers should adjust their foraging behavior in a manner that maximizes energy and nutrient intake and, when resources are limiting, minimizes dietary overlap with other consumers. Floodplains of the Amazon and its lowland tributaries are characterized by strong, yet predictable, hydrological seasonality, seasonal availability of fruits, seeds, and other food resources of terrestrial origin, and diverse assemblages of frugivorous fishes, including morphologically similar species of several characiform families. Here, we investigated how diets of frugivorous fishes in the Amazon change in response to fluctuations in food availability, and how this influences patterns of interspecific dietary overlap. We tested predictions from classical theories of foraging and resource competition by estimating changes in diet breadth and overlap across seasons. We monitored fruiting phenology to assess food availability, and surveyed local fish populations during three hydrological seasons in an oligotrophic river and an adjacent oxbow lake in the Colombian Amazon. We analyzed stomach contents and stable isotope data to evaluate temporal and interspecific relationships for dietary composition, breadth, and overlap. Diets of six species of characiform fishes representing three genera changed according to seasonal fluctuations in food availability, and patterns of diet breadth and interspecific overlap during the peak flood pulse were consistent with predictions of optimal foraging theory. During times of high fruit abundance, fishes consumed items to which their functional morphological traits seemed best adapted, potentially enhancing net energy and nutritional gains. As the annual flood pulse subsided and availability of forest food resources in aquatic habitats changed, there was not a consistent pattern of diet breadth expansion or compression. Nonetheless, shifts in both diet composition and stable isotope ratios of consumer tissues during this period resulted in trophic niche segregation in a pattern consistent with competition theory.
Journal
Ecology – Ecological Society of America
Published: Jan 1, 2014
Keywords: Key words : Amazon River ; Apaporis River, Colombia ; Characidae ; flooded forest ; frugivory ; fruiting phenology ; hydrology ; Serrasalmidae ; species coexistence ; switching ; trophic ecology .