Download - A Toolkit for Reconciling Multiple Taxonomic Perspectives: Euler/X and the Perelleschus Use Case
A Toolkit for Reconciling
Multiple Taxonomic Perspectives:
Euler/X and the Perelleschus Use Case
Nico Franz1, Mingmin Chen2, Shizhuo Yu2, Shawn Bowers3 & Bertram Ludäscher2
1 School of Life Sciences, Arizona State University 2 Department of Computer Science, UC Davis 3 Department of Computer Science, Gonzaga University
TDWD 2013 Annual Conference, Florence, Italy
Semantics for Biodiversity – Formal Models and Ontologies
November 01, 2013
Slides @ http://taxonbytes.org/tdwg-2013-a-toolkit-for-reconciling-multiple-taxonomic-perspectives
Introduction – the Euler project & Euler/X toolkit
• The project builds on a ~ 25 year history of using taxonomic concepts in the TDWG community; primarily in Australia, Germany, United Kingdom, Japan.
• Prior extensive uses of concept articulations include Koperski et al. (2000); and concatenation of articulations by Berendsohn, Geoffroy & Güntsch (2003).
Homepage:https://sites.google.com/site/eulerdi/homeOpen source:https://bitbucket.org/eulerx/euler-project Overview paper:http://taxonbytes.org/pdf/ChenEtAl2013-EulerToolkit.pdf
Introduction – the Euler project & Euler/X toolkit
• The project builds on a ~ 25 year history of using taxonomic concepts in the TDWG community; primarily in Australia, Germany, United Kingdom, Japan.
• Prior extensive uses of concept articulations include Koperski et al. (2000); and concatenation of articulations by Berendsohn, Geoffroy & Güntsch (2003).
• David Thau's (2006-2010) work on CleanTax prototyped the use of RCC-5 relations in combination for First-Order Logic reasoning over taxonomies.
• The Euler project (2011-) succeeds CleanTax, with performance optimizations, many added functions, and an increasing focus on Answer Set Programming.
Homepage:https://sites.google.com/site/eulerdi/homeOpen source:https://bitbucket.org/eulerx/euler-project Overview paper:http://taxonbytes.org/pdf/ChenEtAl2013-EulerToolkit.pdf
congruence proper inclusion
overlapinverse proper
inclusion
exclusion
Source: Franz & Peet. 2009. Towards a language for mapping relationships among taxonomic concepts. Systematics and Biodiversity 7: 5–20.
Use of "OR" to express uncertainty. Example: C1 == OR > C2
Review: RCC-5 articulations between two concepts C1, C2
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
• Solution: Euler/X reads in 2 concept taxonomies (TCs + T1 + T2) plus a set of initial, expert-made articulations (A). The toolkit then allows for:
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
• Solution: Euler/X reads in 2 concept taxonomies (TCs + T1 + T2) plus a set of initial, expert-made articulations (A). The toolkit then allows for:• Checking for, and identification of, alignment inconsistencies.
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
• Solution: Euler/X reads in 2 concept taxonomies (TCs + T1 + T2) plus a set of initial, expert-made articulations (A). The toolkit then allows for:• Checking for, and identification of, alignment inconsistencies.• Interactive inconsistency repair.
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
• Solution: Euler/X reads in 2 concept taxonomies (TCs + T1 + T2) plus a set of initial, expert-made articulations (A). The toolkit then allows for:• Checking for, and identification of, alignment inconsistencies.• Interactive inconsistency repair.• Generation of the set of mir – maximally informative relations (necessary
and sufficient to yield a complete alignment).
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
• Solution: Euler/X reads in 2 concept taxonomies (TCs + T1 + T2) plus a set of initial, expert-made articulations (A). The toolkit then allows for:• Checking for, and identification of, alignment inconsistencies.• Interactive inconsistency repair.• Generation of the set of mir – maximally informative relations (necessary
and sufficient to yield a complete alignment).• Interactive uncertainty reduction.
Interactive taxonomy alignment: Euler/X toolkit workflow
• Challenge: asserting articulations across 2 taxonomies may lead to ambiguities, inconsistencies, and omissions, resulting in an imperfect alignment.
• Solution: Euler/X reads in 2 concept taxonomies (TCs + T1 + T2) plus a set of initial, expert-made articulations (A). The toolkit then allows for:• Checking for, and identification of, alignment inconsistencies.• Interactive inconsistency repair.• Generation of the set of mir – maximally informative relations (necessary
and sufficient to yield a complete alignment).• Interactive uncertainty reduction.• Visualization of one or more "Possible World" merge taxonomies.
Euler/X is ready1 for real-lifeuse cases – Perelleschus
1 After many iterations of testing/optimization with abstract cases, PW visualizations, and reasoner benchmarking.
1986 2001
Perelleschus use case – overview of 6 classifications/phylogenies
1936 1954
2006 2013
= "carludovicae" (name), cumulative history
Key properties of the Perelleschus concept history use case
• 6 classifications (3 taxonomic, 3 phylogenetic), 54 concepts, from 1936 to 2013
• Complete concept history from 1st concept E. carludovicae sec. Günther (1936) to current phylogenetic arrangement (2013) with 10 species-level concepts.
• All instances of taxonomic incongruence occur above the species level.
DOI:10.1080/14772000.2013.806371 (link)
Key properties of the Perelleschus concept history use case
• 6 classifications (3 taxonomic, 3 phylogenetic), 54 concepts, from 1936 to 2013
• Complete concept history from 1st concept E. carludovicae sec. Günther (1936) to current phylogenetic arrangement (2013) with 10 species-level concepts.
• All instances of taxonomic incongruence occur above the species level.
• Franz & Cardona-D. (2013) provide 54 concepts + Trees 1-6 + 76 articulations.
• Only 5 of 54 higher-level concept articulations are unambiguously congruent.
• Articulations take into account membership & diagnostic features.
DOI:10.1080/14772000.2013.806371 (link)
Concept evolution – Günther (1936) to Voss (1954)
Reconciliation appears easy enough; except E. carludovicae sec. Günther (1936; [2]) – a Costa Rican taxon/concept – was placed in Elleschus sec. Günther (1936; [1]) – a European taxon/concept with several other children which the author omitted in his 1936 treatment (issue: incomplete listing of children).
Concept evolution – Günther (1936) to Voss (1954)
Reconciliation appears easy enough; except E. carludovicae sec. Günther (1936; [2]) – a Costa Rican taxon/concept – was placed in Elleschus sec. Günther (1936; [1]) – a European taxon/concept with several other children which the author omitted in his 1936 treatment (issue: incomplete listing of children).
Thus "overlap" (><) is an intuitive articulation among [1] and [3]; however Euler/X would not infer this unless we either:
1. Relax the "coverage assumption" for [1] (coverage means that a parent's extension is fully defined by its children); or
2. Add a child "1 Imp" (implied) to obtain the proper mir and merge.
Concept evolution – Günther (1936) to Voss (1954)
1.1 Imp
Euler/X mergeEuler/X mir
Once "1 Imp" is added, Euler/X yields a consistent merge that is intuitive at all levels.
1954 concepts
1936 concepts
Congruent speciesconcepts '36/'54
Color legend
Overlap (><)
Concept evolution – Wibmer & O'Brien (1986) to Franz & O'Brien (2001)
Euler/X infers a consistent and plausible merge of the 1986 three-species taxonomy and the eight-species 2001 phylogeny.
2001
1986
Congr. '86/'01
Color legend
Euler/X merge
><
Concept evolution – Wibmer & O'Brien (1986) to Franz & O'Brien (2001)
The overlap (><) articulations among 2001 higher-level concepts [14,16,20,…] and Perelleschus sec. W. & O. 1986 [7] are rooted in the inclusion/exclusion of "subcinctus" [10/13] in "Perelleschus" [7/14].
2001
1986
Congr. '86/'01
Color legend
Euler/X merge
><
Concept evolution – Wibmer & O'Brien (1986) to Franz & O'Brien (2001)
2001
1986
Congr. '86/'01
Color legend
Euler/X merge
>< The 2001 authors transferred "subcinctus" into Phyllotrox [12].
Concept evolution – Franz & O'Brien (2001) to Franz & Cardona-D. (2013)
At the surface and beyond, the two phylogenies share many congruent terminals and seemingly also higher-level entities.
However, the 2013 treatment includes two new species/concepts [53,54] and one new clade [52] nested well within the genus-level topology.
Concept evolution – Franz & O'Brien (2001) to Franz & Cardona-D. (2013) Initial merge results: "noisy" due in part because of divergent outgroup assumptions.
Main 2013 higher-level trunk
Main 2001 higher-level tr
unk2001: Derelomini out of position
14 = 2001: Perelleschus
38 = 2013: Perelleschus
2013: Phyllotrogina
Outgroups too much "noise"
Unwanted overlap???
Once the outroups were "stipulated" as congruent and "sealed off" (through application of coverage) from the ingroups, the merge got solidified and simplified.
2013 higher-level concepts
2001 higher-level concepts
2013/2001 congruence
Concept evolution – Franz & O'Brien (2001) to Franz & Cardona-D. (2013)
New 2013 clade
"Clean" merge with overlapping, parallel 2001/2013 mid-level trunks that reflect the addition of a new, nested 2013 clade.
Zoom in onoverlap
A201. Merge view – overlap
2. Zoom view – 2 levels
Level 1:
Level 2:
B47
A20' B47'
><
[3 new labels]
A20' B47'"AB2047"
B52A23A21B45 A22B46
In progress – zooming in on overlap, "combined concept" resolution
"AB2047"
Conclusions & outlook
1. The Euler/X toolkit is moving towards logically sound, interactive, scalable, and visually effective solutions to the challenge of reasoning over concept and classification / phylogeny provenance in real-life use cases.
2. Many agencies and projects aim towards integration of taxonomic names and concepts, including the Global Names Architecture initiative.
3. The Euler concept approach represents a robust and powerful way to achieve this through interactive, semi-automated reasoning and visualization of merge taxonomies.
• TDWG 2013 Symposium organizers – John Deck, Mark Schildhauer, Ramona Walls
• Juliana Cardona-Duque – Universidad de Antioquia, Medellín, Colombia
• NSF Award IIS-1118088. "III: Small: A Logic-Based, Provenance-Aware System for Merging Scientific Data under Context and Classification Constraints."
Acknowledgments
http://taxonbytes.org https://sols.asu.edu
https://sites.google.com/site/eulerdi/home