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Mormyroidea
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Comparable Ages for the Independent Origins of Electrogenesis in ... journals.plos.org 42 facts
measurementLavoué et al. estimated the age of the crown group Mormyroidea to be either 85.2 Mya or 136.0 Mya, and the origin of the stem group Mormyroidea to be either 104.2 Mya or 159.7 Mya, depending on the calibration method used.
measurementUsing reconstruction #1 with strong maximum age constraints, the age of the crown-group Notopteroidei is estimated at 110.3 Mya (95% CI = 91.7–127.2 Mya), and the age of the crown-group Mormyroidea is estimated at 93.7 Mya (95% CI = 74.3–112.9 Mya).
measurementThe interval between the appearance of electroreception and the origin of myogenic electric organs in both Gymnotiformes and Mormyroidea is estimated to be between 16 and 19 million years or 22 and 26 million years, depending on the calibration method used.
claimThe mean ages of the Mormyroidea and the Gymnotiformes are very similar, with less than a 15% difference under both calibration strategies and largely overlapping credibility intervals.
claimThe study sampled Mormyroidea representatives including Gymnarchus niloticus (Gymnarchidae) and 19 representatives of the Mormyridae.
imageIn the maximum likelihood tree of the Teleostei generated by the study, the Mormyroidea (African weakly electric fishes) and the Gymnotiformes (South American weakly electric fishes) are highlighted.
claimAfrican Notopteridae and Siluriformes are passively electroreceptive, whereas Gymnotiformes and Mormyroidea independently evolved specialized electric organs for producing weak electric discharges and high-frequency tuberous electroreceptors tuned to those signals.
referenceJ.P. Sullivan, S. Lavoué, M.E. Arnegard, and C.D. Hopkins published 'AFLPs resolve phylogeny and reveal mitochondrial introgression within a species flock of African electric fish (Mormyroidea : Teleostei)' in Evolution in 2004, using AFLP markers to study the phylogeny of African electric fish.
claimIn the superfamily Mormyroidea, the family Gymnarchidae (represented by Gymnarchus niloticus) is the sister taxon of the family Mormyridae, with 100% bootstrap support.
claimThe origin and diversification of crown group Gymnotiformes and Mormyroidea began at the dawn of the independent histories of South America and Africa in the early Late Cretaceous.
claimMaximum likelihood (ML) analyses consistently show that Gymnotiformes and Mormyroidea are each monophyletic groups to the exclusion of all other teleosts, with a bootstrap proportion of 100%.
measurementKumazawa and Nishida estimated the age of the stem Mormyroidea to be 241 +/- 23 Mya.
measurementReconstruction #2 for the origin of the Gymnotiformes and the Mormyroidea crown groups infers their ages to be 143.5 Mya and 124.8 Mya, respectively, which corresponds to the period before the complete separation of Africa and South America.
claimIn both Gymnotiformes and Mormyroidea, a similar duration of time elapsed between the initial origin of electroreception and the subsequent origin of electrogenesis, which was accompanied by the evolution of more complex electroreceptive systems.
referenceThe study titled 'Comparable Ages for the Independent Origins of Electrogenesis in Teleosts' analyzed a single molecular dataset including representatives of South American Gymnotiformes and African Mormyroidea to infer the ages of their independent origins of electrogenesis.
referenceSullivan JP, Lavoué S, and Hopkins CD (2000) developed a molecular systematics study of African electric fishes (Mormyroidea: Teleostei) and proposed a model for the evolution of their electric organs.
claimMormyroidea and Gymnotiformes are used as comparative vertebrate systems for evolutionary neurobiology research.
claimMormyroidea are African weakly electric fishes, and Gymnotiformes are South American weakly electric fishes.
measurementAlves-Gomes estimated the age of the stem Mormyroidea to be 61–72 Mya and the age of the Gymnotiformes to be 79–117 Mya.
procedureThe study re-examined the evolutionary ages of weakly electric teleost fish groups using complete mitochondrial genomes, an extensive taxonomic sampling of 27 species of Mormyroidea and Gymnotiformes, and a relaxed-clock Bayesian method for inferring phylogenetic relationships and divergence times.
procedureThe researchers employed two distinct calibration strategies to estimate the divergence times of the Gymnotiformes and Mormyroidea on a phylogenetic tree, evaluating how absolute age estimates vary based on the calibration constraint methodology.
measurementUsing reconstruction #2 with soft maximum age constraints, the estimated ages are 147.5 Mya (95% CI = 117.9–177.9 Mya) for Notopteroidei, 124.8 Mya (95% CI = 97.5–155.7 Mya) for crown-group Mormyroidea, 169.1 Mya (95% CI = 140.5–197.3 Mya) for Characiphysae, and 143.5 Mya (95% CI = 115.8–171.8 Mya) for crown-group Gymnotiformes.
measurementReconstruction #1 for the origin of the Gymnotiformes and the Mormyroidea crown groups favors a post-separation origin, dating them at 100.2 Mya and 93.7 Mya, respectively.
measurementThe most recent common ancestor of the Mormyroidea and the Gymnotiformes is dated to 284.1 million years ago (with a credibility interval of 252.2–313.3 million years ago) under reconstruction #2.
claimThe ability to sense low-frequency, passive electric fields preceded the evolution of electrogenesis in Gymnotiformes and Mormyroidea.
claimThe Gymnotiformes (South American weakly electric fishes) and the Mormyroidea (African weakly electric fishes) independently evolved complex systems for object localization and communication via the generation and reception of weak electric fields, representing a case of convergent evolution.
claimInferences about the temporal context of evolutionary processes in Mormyroidea and Gymnotiformes are limited by the lack of a hypothesis for the timing of their origin and early diversification.
claimThe family Notopteridae is the sister group of the Mormyroidea within the Osteoglossomorpha, a finding supported by a bootstrap proportion of 100%.
claimResearch on Mormyroidea and Gymnotiformes includes studies on reproductive character displacement, the role of communication in speciation, the effects of neural structure evolution on species radiation, and genetic mechanisms underlying evolutionary novelty.
claimThe Gymnotiformes and Mormyroidea lineages evolved electrogenesis independently but contemporaneously, occurring tens of millions of years after their most recent common ancestor.
measurementInoue et al. estimated the age of the crown group Mormyroidea to be 142 Mya and the age of the mormyroid lineage to be 162 Mya.
claimThe Gymnotiformes and Mormyroidea lineages emerged around the time of the final fragmentation of western Gondwana.
imageFigure S1 highlights the Mormyroidea (African weakly electric fishes) and the Gymnotiformes (South American weakly electric fishes) using light grey gradient boxes.
claimThe independent origins of the Mormyroidea and Gymnotiformes occurred at similar times, either slightly postdating or just predating the final separation of Africa and South America by continental drift.
claimThe most recent common ancestor of the Mormyroidea and Gymnotiformes was a non-electrogenic basal teleost that lived more than 85 million years before the origin of these electric fish lineages.
claimThe two clades of weakly electric fishes, Gymnotiformes and Mormyroidea, are nested within two distantly related groups of Teleostei: the Ostariophysi and the Osteoglossomorpha.
measurementThe most recent common ancestor of the Mormyroidea and the Gymnotiformes is dated to 185.7 million years ago (with a credibility interval of 171.4–201.7 million years ago) under reconstruction #1.
referenceLavoué S, Sullivan JP, and Hopkins CD (2003) analyzed the phylogenetic utility of the first two introns of the S7 ribosomal protein gene in African electric fishes (Mormyroidea: Teleostei) and compared these findings with other molecular markers.
claimIn Gymnotiformes and Mormyroidea, electric organs and tuberous electroreceptors facilitate electrical communication and active electrolocation, where objects are located and sensed via distortions in self-generated electric fields.
claimThe fossil record of the Mormyroidea is limited to teeth of †Gymnarchus sp. from the late Eocene (37 Mya) in Egypt and remains of †Hyperopisus sp. from the Plio-Pleistocene (more recent than 5.3 Mya) in Lake Edward and the Semliki River in Congo.
perspectiveThe authors speculate that shared environmental conditions, such as climate during the early Late Cretaceous, may have contributed to the contemporaneous, independent origins of Gymnotiformes and Mormyroidea.
claimWithin teleost fishes, electroreception is restricted to two distantly related groups: the Siluriphysi (Gymnotiformes plus Siluriformes) and the Notopteroidei (Mormyroidea plus Notopteridae).
Electroreception, electrogenesis and electric signal evolution - ADS ui.adsabs.harvard.edu 1 fact
claimTuberous electroreceptors in Mormyroidea and Gymnotiformes facilitate electrocommunication by detecting the electric-organ discharges (EODs) of neighboring fishes.
Electroreception, electrogenesis and electric signal evolution pubmed.ncbi.nlm.nih.gov 1 fact
claimActive electroreception, or electrolocation, occurs only in the teleost lineages Mormyroidea and Gymnotiformes, where the animal generates a weak electric-organ discharge (EOD) of less than 1 volt and detects distortions in the resulting field using high-frequency-tuned tuberous electroreceptors.