Assessing Bayesian Phylogenetic Information Content of Morphological Data Using Knowledge from Anatomy Ontologies

Morphology remains a primary source of phylogenetic information for many groups of organisms, and the only one for most fossil taxa. Organismal anatomy is not a collection of randomly assembled and independent "parts", but instead a set of dependent and hierarchically nested entities resulting from ontogeny and phylogeny. How do we make sense of these dependent and at times redundant characters? One promising approach is using ontologies---structured controlled vocabularies that summarize knowledge about different properties of anatomical entities, including developmental and structural dependencies. Here we assess whether the proximity of ontology-annotated characters within an ontology predicts evolutionary patterns. To do so, we measure phylogenetic information across characters and evaluate if it is hierarchically structured by ontological knowledge---in much the same way as phylogeny structures across-species diversity. We implement an approach to evaluate the Bayesian phylogenetic information (BPI) content and phylogenetic dissonance among ontology-annotated anatomical data subsets. We applied this to datasets representing two disparate animal groups: bees (Hexapoda: Hymenoptera: Apoidea, 209 chars) and characiform fishes (Actinopterygii: Ostariophysi: Characiformes, 463 chars). For bees, we find that BPI is not substantially structured by anatomy since dissonance is often high among morphologically related anatomical entities. For fishes, we find substantial information for two clusters of anatomical entities instantiating concepts from the jaws and branchial arch bones, but among-subset information decreases and dissonance increases substantially moving to higher-level subsets in the ontology. We further applied our approach to addressing particular evolutionary hypotheses with an example of morphological evolution in miniature fishes. While we show that ontology does indeed structure phylogenetic information, additional relationships and processes, such as convergence, likely play a substantial role in explaining BPI and dissonance, and merit future investigation. Our work demonstrates how complex morphological datasets can be interrogated with ontologies by allowing one to access how information is spread hierarchically across anatomical concepts, how congruent this information is, and what sorts of processes may structure it: phylogeny, development, or convergence.

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Why Do So Many Firms Issue Private Equity Repeatedly? On the Information Content of Multiple Pipe Offerings

SSRN Electronic Journal ◽

10.2139/ssrn.1656419 ◽

2010 ◽

Cited By ~ 1

Author(s):

Ioannis V. Floros ◽

Travis Sapp

Keyword(s):

Information Content ◽

Private Equity ◽

Do So

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Visualizing differences in phylogenetic information content of alignments and distinction of three classes of long-branch effects

BMC Evolutionary Biology ◽

10.1186/1471-2148-7-147 ◽

2007 ◽

Vol 7 (1) ◽

pp. 147 ◽

Cited By ~ 79

Author(s):

Johann Wägele ◽

Christoph Mayer

Keyword(s):

Information Content ◽

Phylogenetic Information

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Dividend Policy in Tunisia: A Signalling Approach

International Journal of Economics and Finance ◽

10.5539/ijef.v10n4p84 ◽

2018 ◽

Vol 10 (4) ◽

pp. 84 ◽

Cited By ~ 1

Author(s):

Taleb Lotfi

Keyword(s):

Information Content ◽

Event Study ◽

Stock Price ◽

Abnormal Return ◽

Dividend Policy ◽

Signaling Theory ◽

Supporting Evidence ◽

Dividend Announcements ◽

Stock Price Reaction ◽

Do So

The main objective of this study was to establish the stock price reaction to dividend announcements of firms quoted at the Tunisian Securities exchange (TSE). To do so, we develop a traditional event study. Two robust results emerge: First, when we observe the 196 announcements of dividends between years 1996-2004, the result is inconsistent with signaling theory, as long as, no abnormal return was observed on the announcement day (event period). Second, When the overall sample is divided into three sub-group (dividend increase, dividend-no-change and dividend), we observe a significant and abnormal return about -1.242 percent and -1.697 percent respectively on day D(t0-4) and D(t0+4) around the dividend announcement day (Dt0) only for the sub-group of firms that decreases their dividend. This result corroborates prior research in Tunisian context [Ben Naceur and al. (2006); Guizani and Kouki (2011)] that confirm, by using a different approach, the Lintner’s (1956) conclusions which states that Tunisian’ firms generally tend to avoid a dividend decrease (or cuts) and can constitute a supporting evidence of the dividend information content hypothesis in TSE.

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Morphological evolution of the murine rodent Paraethomys in response to climatic variations (Mio-Pleistocene of North Africa)

Paleobiology ◽

10.1017/s0094837300021333 ◽

1999 ◽

Vol 25 (3) ◽

pp. 369-382 ◽

Cited By ~ 30

Author(s):

Sabrina Renaud ◽

Mouloud Benammi ◽

Jean-Jacques Jaeger

Keyword(s):

North Africa ◽

Environmental Conditions ◽

Morphological Evolution ◽

Middle Pleistocene ◽

Metabolic Adaptation ◽

Subsequent Increase ◽

Evolutionary Patterns ◽

The North ◽

Murine Rodent ◽

Evolutionary Response

The North African murine rodent Paraethomys evolved as an anagenetic lineage from the late Miocene until its extinction in the late—middle Pleistocene. A Fourier analysis of the outlines of the first upper and lower molars of this rodent was used to quantify the evolutionary patterns of this lineage and to compare evolutionary patterns to the climatic record. Morphological evolution and long-term environmental variations are strongly correlated. A change in molar shape, which may be related to the development of a more grass-eating diet, corresponds to the global cooling beginning around 3 Ma and the subsequent increase in aridity in North Africa. Concurrently, size increased, which may be related to increased masticatory efficiency or to metabolic adaptation to the cooler environmental conditions according to Bergmann's rule. This adaptive response to changing environmental conditions corresponds to an acceleration of evolutionary rates in the lineage. The modalities of the evolutionary response in size and shape are probably controlled by intrinsic factors such as different genetic determinisms for both characters.

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Paleozoic dipnoan phylogeny: functional complexes and evolution without parsimony

Paleobiology ◽

10.1017/s0094837300009854 ◽

1990 ◽

Vol 16 (2) ◽

pp. 143-169 ◽

Cited By ~ 53

Author(s):

K. S. W. Campbell ◽

R. E. Barwick

Keyword(s):

Western Australia ◽

Upper Devonian ◽

Morphological Data ◽

Evolutionary Relationships ◽

New Genera ◽

Evolutionary Patterns ◽

Dermal Bones

Attempts at understanding evolutionary relationships among Paleozoic Dipnoi (lungfish) using cladistic methodology have proved totally unsatisfactory (Miles 1977; Marshall 1987). We attempt to reconstruct the relationships between the better known genera using a method that involves the recognition of lineages based on evolving functional complexes, particularly those involved with food reduction and respiration. Within these broadly defined lineages, we have defined sub-lineages based on evolutionary patterns shown by structures that have been stratigraphically dated; such patterns are found inter alia in the roofing bones and the external dermal bones of the mandible. A number of new suborders and families are recognised; genera for which further morphological data are required before they can be assigned to a higher taxon are indicated; two generic synonyms are recognised.In appendices, short descriptions are given of two new genera—Pillararhynchus from the Gogo Formation (Upper Devonian) of Western Australia, and Sorbitorhynchus from the Emsian of Guangxi, China.

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Morphological evolution of the bivalvePtychomyathrough the Lower Cretaceous of Argentina

Paleobiology ◽

10.1017/pab.2017.32 ◽

2018 ◽

Vol 44 (1) ◽

pp. 101-117

Author(s):

Pablo S. Milla Carmona ◽

Darío G. Lazo ◽

Ignacio M. Soto

Keyword(s):

Time Series ◽

Morphological Variation ◽

Morphological Evolution ◽

The Other ◽

Upward Trend ◽

Shell Size ◽

Evolutionary Patterns ◽

Upper Hauterivian ◽

Patterns And Processes ◽

Early Late

AbstractThe complex morphological evolution of the bivalvePtychomyathroughout the well-studied Agrio Formation in the Neuquén Basin (west-central Argentina, lower/upper Valanginian–lowest Barremian) constitutes an ideal opportunity to study evolutionary patterns and processes occurring at geological timescales. Ptychomyais represented in this unit by four species, the morphological variation of which needs to be temporally assessed to obtain a thorough picture of the evolution of the group. Here we use geometric morphometrics to measure variation in shell outline, ribbing pattern, and shell size in these species. We bracket the ages of our samples using a combination of ammonoid biostratigraphy and absolute ages and study the anagenetic pattern of evolution of each trait by means of paleontological time-series analysis and change tracking. We find that evolution inPtychomyais mostly speciational, as the majority of traits show stasis, with the exceptions of shell size inP. coihuicoensisand shell outline inP. windhauseni, which seem to evolve directionally toward larger and higher shells, respectively.Ptychomyadisplays changes in its average morphology and disparity, which are the result of a mixture of taxonomic turnover and mosaic evolution of traits. Pulses of speciation would have been triggered by ecological opportunity, as they occur during the recovery of shallow-burrowing bivalve faunas after dysoxic events affecting the basin. On the other hand, the presence of directional patterns of evolution inP. coihuicoensisandP. windhauseniseems to be the result of a general shallowing-upward trend observed in the basin during the upper Hauterivian–lowest Barremian, as opposed to the cyclical paleoenvironmental stability inferred for the early/late Valanginian–early Hauterivian, which would have prompted stasis inP. koeneniandP. esbelta.

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Do Coral Reefs Promote Morphological Diversification? Exploration of Habitat Effects on Labrid Pharyngeal Jaw Evolution in the Era of Big Data

Integrative and Comparative Biology ◽

10.1093/icb/icz103 ◽

2019 ◽

Vol 59 (3) ◽

pp. 696-704 ◽

Cited By ~ 5

Author(s):

Kory M Evans ◽

Keiffer L Williams ◽

Mark W Westneat

Keyword(s):

Coral Reef ◽

Coral Reefs ◽

Morphological Evolution ◽

Morphological Data ◽

Shape Evolution ◽

Micro Computed Tomography ◽

Functional Variation ◽

Morphological Diversification ◽

Marine Habitats ◽

Pharyngeal Jaw

Abstract Coral reefs are complex marine habitats that have been hypothesized to facilitate functional specialization and increased rates of functional and morphological evolution. Wrasses (Labridae: Percomorpha) in particular, have diversified extensively in these coral reef environments and have evolved adaptations to further exploit reef-specific resources. Prior studies have found that reef-dwelling wrasses exhibit higher rates of functional evolution, leading to higher functional variation than in non-reef dwelling wrasses. Here, we examine this hypothesis in the lower pharyngeal tooth plate of 134 species of reef and non-reef-associated labrid fishes using high-resolution morphological data in the form of micro-computed tomography scans and employing three-dimensional geometric morphometrics to quantify shape differences. We find that reef-dwelling wrasses do not differ from non-reef-associated wrasses in morphological disparity or rates of shape evolution. However, we find that some reef-associated species (e.g., parrotfishes and tubelips) exhibit elevated rates of pharyngeal jaw shape evolution and have colonized unique regions of morphospace. These results suggest that while coral reef association may provide the opportunity for specialization and morphological diversification, species must still be able to capitalize on the ecological opportunities to invade novel niche space, and that these novel invasions may prompt rapid rates of morphological evolution in the associated traits that allow them to capitalize on new resources.

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