TaXmeX: Colección bibliográfica sobre taxonomía publicada en México ¡en línea!

TaXmeX: Colección bibliográfica sobre taxonomía publicada en México

¡Ya está disponible en línea!
Coleccion artículos taxonómicos publicados en México durante el siglo XX, esta base contiene cerca del 90% de la información producida sobre taxonomía en México durante el siglo XX y tiene aplicación histórica y taxonómica. Consta de 57 revistas capturadas, 28 revistas examinadas, 1079 volúmenes analizados, 1329 números analizados, 6578 artículos capturados, 6150 artículos analizados, 79,294 páginas totales, 2460 autores capturados, 2331 autores analizados pertenecientes a 44 países y 164 instituciones mexicanas, y 31 tipos de trabajo taxonómico, por mencionar los más importantes.

Ya está cargada el 100% de la información estamos en la fase de validación y normalización. En breve iniciaremos la actualización, fase en la que completaremos la bibliografía publicada a partir del año 2000.

Disponible en:

http://atenea.fciencias.unam.mx:8080/jspui/handle/123456789/37171 http://hydra.fciencias.unam.mx:8080/xmlui/handle/123456789/37171

Mas información:

Michán, L., & Llorente, J. (2003). La taxonomía en méxico durante el siglo XX. Publ. Esp. Mus. Zool , 13 , 1-250.

URL http://sistemas.fciencias.unam.mx/\~layla/2003/tesisdoctoradolayla.pdf

La Taxonomía en México durante el siglo XX

View more presentations from E-investigación bibliográfica, FCUNAM

Workshop on Molecular Evolution, North America 2011

Workshop on Molecular Evolution, North America 2011

Fort Collins, Colorado, USA

24 July - 6 August 2011

Application Deadline: 15 May was the preferred application deadline, after which time people will be admitted to the course following review of applications by the admissions committee. However, later applications are accepted.

http://www.molecularevolution.org/workshops/WME

Michael P. Cummings, Scott A. Handley and Kendra Nightingale, Co-Directors

The Workshop consists of a series of lectures, demonstrations and computer laboratories that cover various aspects of molecular evolution. Faculty are chosen exclusively for their effectiveness in teaching theory and practice in molecular evolution. Included among the faculty are developers and other experts in the use of computer programs and packages such as BEAST, *BEAST, DataMonkey, FigTree, Genealogical Sorting Index, GARLI, HyPhy, LAMARC, MAFFT, MrBayes, and SeaView who provide demonstrations and consultations.

For more information and online application see the Workshop web site -

http://www.molecularevolution.org/workshops/WME

Phylogeny.fr Robust Phylogenetic Analysis For The Non-Specialist

Phylogeny.fr es un servicio en linea para la reconstrucción filogenética con datos moleculares.

Phylogeny.fr procesa y conecta varios programas para reconstruir un árbol filogenético a partir de una matriz de secuencias.

No solo hay la opción "One click", tambien uno puede decidir como hacer cada paso en el alineamiento y la reconstrucción ("Advanced"). Incluso hay una opción para generar una cadena de análisis especial sin los parametros automatizados: "A la Carte" Mode. Por ejemplo, uno puede seleccionar un alineamiento con Muscle, T-Coffee, ProbCons, o ClustalW y seleccionar una de las cuatro opciones disponibles para construccion del arbol: Maximum likelihood con PhyML, Parsimonia con TNT, Distancias con ProtDist/FastDist+BioNJ (o Neighbor) y probabilidades Bayesianas con MrBayes.

No pude resistir la tentación de correr un análisis. Entre directamente a TNT y use la matriz de ejemplo con 16 secuencias Angiospermas y grupos externos. Click, click, click... listo un arbol de consenso, ahí en la ventana de dialogo, en menos de lo que canta un gallo!. Muy sencillo!


Este servicio esta disponible en http://www.phylogeny.fr/

XX Congreso Nacional de Zoología, México

La Sociedad Mexicana de Zoología, A. C., en coordinación con la Universidad Autónoma del Estado de Morelos y la Secretaria de Turismo del Estado de Morelos convocan a la comunidad científica a participar en el

XX Congreso Nacional de Zoología,
Cuernavaca, Morelos,
del 14 al 18 de noviembre de 2011.

Objetivos:
Reunir a investigadores, profesores y estudiantes interesados en el estudio, manejo y conservación de la fauna con la finalidad de intercambiar, analizar, evaluar y difundir los avances realizados en el conocimiento sobre zoología en México.

Entre los varios temas se incluye: Sistemática y Biogeografía.

MAS INFORMACION >>>

Applications open for the WHS phylogenetics workshop in Xalapa, 2011

Announcement # 2:

Applications are now open for the WHS Twelfth International workshop in Phylogenetic Methods to be held in Xalapa (México) on May 23-27, 2011. This one week course is sponsored by the Graduate Program, INECOL and The Willi Hennig Society.

Students, researchers, and professors interested or working with or about phylogeny and systematics are invited to submit applications for admission. The workshop is open to any student/professional based in México or Internationally.

The workshop will be limited to 25 participants. Complete applications will be evaluated competitively by an ad hoc committee.

Registration will be open only for accepted participants. Registration fee for the workshop is: Students US$300, professionals US$400. Fellowships will be offered by the WHS on a competitive basis to cover registration fee.

An application consists of

1. A completed "Application form",
2. a current CV for the applicant, and (if the case),
   
3. a letter from the student’s advisor regarding the relevance of the course to the student’s career goals.

Visit this web page for further instructions and for downloading the "Application form".

Please note that all applications for admission must be received by Friday March 4, 2011.

We look forward to receiving your application.

For more information on the course content, registration cost, fellowships, accommodations in Xalapa, travel advice, etc, please visit the web site for the workshop:

http://www.filogenetica.org/cursos/WHSworkshop/

Help us to distribute this announcement by printing and posting a one page pamphlet (PDF) in your institution.

WHS 12th International workshop in Phylogenetic Methods, Xalapa, México

The Willi Hennig Society 12th International workshop in Phylogenetic Methods

23 to 27 May, 2011.

Posgrado,
Instituto de Ecología, AC.
Xalapa, Ver (México).

---
Announcement # 1:
I am glad to announce dates for the WHS workshop in Xalapa (México).
This course will be possible thanks to the support from INECOL and WHS.
---

The Willi Hennig Society (WHS) has organized several international workshops on cladistics (Finland, Czech Republic, US). In Latin-America one has been offered in Argentina (2002) and two in Brazil (2008, 2010). This will be the first held in Mexico.

Lecturers:
The workshop will be presented by a combination of at least four or five professors, all members of WHS.

• John W. Wenzel (Carnegie Museum of Natural History, coordinator).

Syllabus:

Day 1: Introduction

• Logic and history of phylogenetics
• Optimization and tree search
• Ambiguity, Weighting, Support
• Using WinClada, Nona
• Advanced search strategy, TNT

Day 2: Morphology

• Morphological character coding
• Cladistic character coding
• More powerful searches
• Diagnosing troublesome results

Day 3: DNA sequence data

• Handling DNA sequences (GenBank, Muscle)
• Alignment

Day 4: Dynamic Homology

• Dynamic homology
• Direct Optimization and Alignment

Day 5: Likelihood and Bayesian methods

• Model-based phylogenetics
• Model-based Exercises, Garli, MrBayes

Participants:
This workshop is open to participants from Mexico, Latinamerican countries, but also to students from the US/Canada, Europe, and elsewhere. Essentially this is offered in substitution of the famous "OSU workshop on phylogenetic methods", which no longer will be offered there.
Lectures will be in English. It is expected that participating students are already familiar with basic phylogenetic methods.

Cost:
Cost for the workshop is us $300. This only includes registration fee. It does not include transportation, accommodations or food.

Fellowships:
A limited number of Fellowships will be offered by the WHS on a competitive basis. WHS Fellowships will cover registration cost only. Enrollees will be responsible for cost of transportation, accommodation and meals.

Admission:
The workshop will be limited to 25 participants.
All complete applications will be evaluated by an ad hoc committee. Registration will be open only for accepted participants. [update: link to list of admitted participants added March 18].

Further information:
Announcement of dates for the reception of an "Application form" (January 2011), notification of acceptance (March 2011), course registration (April), and additional details of the course and travel advice will be posted later in this blog and a web site for the workshop at the Filogenetica.org server.
Meanwhile, if you have any inquiry, please post a "comment" to this "Entry".

Dr. Efraín De Luna
Workshop organizer.
Biodiversidad y Sistemática, INECOL
Xalapa, Ver. México.

Aunque ud no lo crea... parsimonia es superior

La tendencia reciente señala que la popularidad de los métodos de verosimilitud y Bayesianos va en aumento, a juzgar por el número de cursos o talleres, usuarios y el de artículos publicados. A que se debe esta popularidad? Una de las ideas centrales es la preocupacion por las tasas de cambio de los caracteres. Se razona que para tomar en cuenta estas propiedades de los datos deben usarse "modelos explicitos de cambio" para los analisis de reconstrucción de la filogenia, especialmente en el caso de secuencias de DNA.

En la comparación de los atributos de los métodos de parsimonia o verosimilitud, los respectivos promotores han intentado persuadir que uno u otro enfoque es mejor bajo distintas condiciones teóricas y metodológicas. Uno de los argumentos más aludidos es el de desempeño o “consistencia” de los métodos al recuperar filogenias “correctas”.

La idea de “consistencia” es que si un método esta libre de errores de estimación, este converge hacia el resultado “correcto”, sobre todo cuando los datos son abundantes. En la teoría estadística, un estimador (por ejemplo, el promedio) es “consistente” respecto a un modelo especifico ( por ejemplo, el modelo Normal) cuando la dispersión (por ejemplo, la varianza) disminuye alrededor del valor “verdadero” (por ejemplo, mu) conforme el tamaño de la muestra se incrementa.
En la teoría filogenética, un método es “consistente” si las hipótesis que produce bajo las condiciones de un modelo particular convergen hacia una filogenia "correcta" de referencia . Con este propósito, se ha intentado comparar el desempeño de los métodos de parsimonia y los probabilísticos en su habilidad de reconstruir la filogenia. Cuando se evalúa la habilidad de una balanza para estimar el peso correcto, el marco de referencia es el kilo “Patrón” y la variación permitida por una “Norma”. El problema es evidente en el caso de la estimación de la “dispersión” alrededor de la filogenia “correcta” pues los únicos marcos de referencia posibles son los escenarios evolutivos elaborados mediante simulaciones.

Uno de los primeros exámenes de la habilidad de los métodos se basó en una peculiar combinación de datos y modelos (“long branch attraction”) con lo que supuestamente se demostró que parsimonia es “inconsistente”, pues el método no recuperó la topología generada por los datos (Felsenstein, 1978; Kim, 1996). En contraposición, diferentes condiciones simuladas sugirieron que los métodos de verosimilitud también pueden ser “inconsistentes” en su desempeño al estimar la filogenia (Chang, 1996; Farris, 1999; Kolaczkowski & Thornton, 2004; Siddall, 1998). Los intentos de la calificación de métodos en estudios más elaborados solo han llegado a la conclusión de que diseñar simulaciones para medir “consistencia” es un problema muy complejo en el que interactúan tipos de tasas de cambio de los caracteres, tipos de modelos simples o complejos y tipos de topologías simétricas o asimétricas (Goloboff, 2003, Yang, 1996, 1997). Otros, han sugerido que los métodos de parsimonia bajo ciertos modelos son equivalentes a los de verosimilitud (de Queiroz & Poe, 2001, 2003; Steel & Penny, 2000; Tuffey & Steel, 1997).
Ahora desde el punto de vista empirico el artículo de Rindal y Brower (2010) examinan la pregunta logica: Hay coherencia entre las filogenias inferidas por métodos de parsimonia vs probabilísticos? Que tan frecuente es el caso que parsimonia se "equivoca"?

Do model-based phylogenetic analyses perform better than parsimony? A test with empirical data
de Cladistics Early on line de Andrew V. Z. Brower
http://onlinelibrary.wiley.com/doi/10.1111/j.1096-0031.2010.00342.x/abstract
Abstract

The use of model-based methods to infer a phylogenetic tree from a given data set is frequently motivated by the truism that under certain circumstances the parsimony approach (MP) may produce incorrect topologies, while explicit model-based approaches are believed to avoid this problem. In the realm of empirical data from actual taxa, it is not known (or knowable) how commonly MP, maximum-likelihood or Bayesian inference are inaccurate. To test the perceived need for “sophisticated” model-based approaches, we assessed the degree of congruence between empirical phylogenetic hypotheses generated by alternative methods applied to DNA sequence data in a sample of 1000 recently published articles. Of 504 articles that employed multiple methods, only two exhibited strongly supported incongruence among alternative methods. This result suggests that the MP approach does not produce deviant hypotheses of relationship due to convergent evolution in long branches. Our finding therefore indicates that the use of multiple analytical methods is largely superfluous. We encourage the use of analytical approaches unencumbered by ad hoc assumptions that sap the explanatory power of the evidence. © The Willi Hennig Society 2010.

Aunque Ud no lo crea las conclusiones del articulo son sencillas .... en mas del 99% de los 1000 estudios examinados los diferentes métodos no producen topologías incongruentes, como se esperaría si realmente los métodos probabilísticos fueran superiores a los de parsimonia. Los autores concluyen: "..... it is apparent that if the different methods produce the same result, then using more than one of them is redundant. Given that this appears to be the case, we think that the analytical speed, methodological clarity and interpretability of its results indicate that the MP approach is practically superior."

-----
Rindal, E., & Brower, A. (2010). Do model-based phylogenetic analyses perform better than parsimony? A test with empirical data Cladistics DOI: 10.1111/j.1096-0031.2010.00342.x
-------
http://onlinelibrary.wiley.com/doi/10.1111/j.1096-0031.2010.00342.x/abstract

2a. Edición del Taller Latinoamericano de Evolución Molecular, 17-28 de Enero 2011

Estimados amigos y colegas evolucionistas,

me complace anunciarles que el próximo mes de Enero se celebrará la segunda edición del "Taller Latinoamericano de Evolución Molecular". Tendrá lugar del 17 al 28 de Enero de 2011 en las instalaciones del Centro de Ciencias Genómicas y de la Licenciatura en Ciencias Genómicas del Campus Morelos (Cuernavaca, México) de la UNAM, .

Se trata de un Taller intensivo y GRATUITO dirigido a alumnos de posgrado e investigadores de cualquier institución académica, con alternancia de sesiones teóricas y prácticas (ver programa del TLEM 2011). El taller cubrirá desde aspectos bioinformáticos tales como búsqueda de secuencias homólogas en bases de datos públicas, parseo de archivos de secuencias con Perl y alineamiento múltiple de las mismas, revisando a fondo métodos de inferencia filogenética (distancias, parsimonia, máxima verosimilitud, inferencia bayesiana), de evolución molecular (fechación de clados, selección a nivel molecular) y de genética de poblaciones.

El taller estará impartido por destacados especialistas mexicanos en el área (profesores del TLEM 2011). Contaremos además con la participación de dos destacados investigadores invitados, el Dr. Sergei Kosakovsky Pond (UCSD, USA; desarrollador de HyPhy) y el Dr. Julio Rozas (Universidad de Barcelona, España; desarrollador de DNAsp).

Podrán inscribirse al curso alumnos de doctorado de cualquiera de los Programas de Posgrado de la UNAM o de otras instituciones nacionales o extranjeras, siempre y cuando puedan demostrar que tengan conocimientos básicos del área. Se expedirá un certificado de asistencia a todos los participantes. Este taller es acreditable como actividad académica semestral en los programas de posgrado de la UNAM.

El pre-registro se abrirá el día 5 de Noviembre de 2010 y se cerrará el 5 de Diciembre, efectuándose a través de la página de pre-registro del TLEM 2011.

Queremos agradecer el apoyo económico recibido por parte del Programa de Posgrado en Ciencias Biomédicas de la UNAM y del Programa de Posgrado en Ciencias Biológicas de la UNAM, para traer a los profesores invitados. Asimismo agradecemos el generoso y entusiasta apoyo al TLEM 2011 recibido por parte de los Drs. David René Romero Camarena y Rafael Palacios del Centro de Ciencias Genómicas y de la Licenciatura en Ciencias Genómicas de la UNAM, y por parte del Dr. César Domínguez del Instituto de Ecología de la UNAM.

A los lectores de "noticias en filogenetica.org" les agradezco la difusión de este mensaje entre sus colegas y estudiantes.

Reciban un cordial saludo desde Cuernavaca, México, esperando verles por aquí el próximo mes de Enero.

Para mayores informes contactar a:
Pablo Vinuesa - coordinador del
Taller Latinoamericano de Evolución Molecular

Computational Molecular Evolution, Cambridge

Computational Molecular Evolution

10-21 April 2011

Wellcome Trust Genome Campus,

Hinxton, Cambridge, UK

Deadline for applications 26 November 2010

Course summary

This joint Wellcome Trust-EMBL-EBI advanced course aims to provide researchers with the theoretical knowledge and practical skills required to carry out molecular evolutionary analysis on their own data, as well as on data drawn from sequence databases. The course will combine basic assumptions and ideas fundamental to the field with discussion of cutting-edge methodologies, and is therefore relevant to researchers with a range of different experience levels.

Topics

• interpretation of molecular phylogenetic trees and sequence alignments
• genomics resources, sequence searching and sequence alignments
• phylogeny reconstruction and models
• hypothesis testing in phylogenetics
• coalescent model and inference from population data.

Course organisers

• Nick Goldman (European Bioinformatics Institute, Hinxton, UK)
• Ziheng Yang (University College London, UK)
• Aidan Budd (European Molecular Biology Laboratory, Heidelberg, Germany)
• Alexandros Stamatakis (Heidelberg Institute for Theoretical Studies)

One-semester fellowships for graduate students at NESCent

NESCent

National Evolutionary Synthesis Center

Graduate Fellowships

The National Evolutionary Synthesis Center is now seeking to include graduate traineeship to our portfolio in facilitating broadly synthetic research to address fundamental questions in evolutionary science. We are offering one-semester fellowships for graduate students to pursue research either with a NESCent sabbatical scholar, working group, or postdoctoral fellow. The research should be in line with the goals of the sabbatical scholar and/or working group and may include integrating datasets, developing databases, performing analyses, programming and software development, etc. Support will not be provided to collect or generate new data. When relevant, graduate students are expected to be full members of working group. Ultimately we expect the graduate student to lead and author aspects of the research.

Read more >>> http://www.nescent.org/science/GraduateFellowships.php

Oportunidad de beca para estudiante de entomologia

Teaching/research assistantship for a M.S. or Ph.D. student at the University of Memphis

A teaching/research assistantship is available for a M.S. or Ph.D. student in the Department of Biological Sciences at the University of Memphis under the supervision of Dr. Duane McKenna, beginning August 2011. Students interested in insect (especially beetle) genomics, molecular phylogenetics, and/or the evolutionary ecology of insect-plant interactions are encouraged to apply. Prior laboratory and field experience preferred.

Interested students may inquire by contacting dmckenna [at] memphis [.] edu. Further information about the Department of Biological Sciences and the Graduate Program can be found at http://www.memphis.edu/biology/graduate.htm

A response to recent proposals for integrative taxonomy

Authors: PADIAL, JOSÉ M.; DE LA RIVA, IGNACIO1

Source: Biological Journal of the Linnean Society, Volume 101, Number 3, November 2010 , pp. 747-756(10)
http://www.ingentaconnect.com/content/bsc/bij/2010/00000101/00000003/art00019

Abstract:
Several proposals have been launched under the new concept `integrative taxonomy' to frame the future development of species discovery and description. We consider that some of those proposals have failed to be truly integrative, by not acknowledging the limitations of operational definitions of species, by defending some kinds of evidence as universally superior, by considering taxonomy to be irreconcilable with population genetics, or by ignoring that the heterogeneity of evolutionary processes often precludes full character congruence in species. Here we defend a taxonomy where species exist, but not in any particular way everyone might want them to exist; a taxonomy open to data and methods from population biology, phylogeography and phylogenetics, as well as any other discipline providing evidence about the origin and evolution of species. This new taxonomy embraces all the consequences of considering species as lineages of reproductive populations, encouraging the use of as many lines of evidence as possible, but without negating that a single line may also be the only one providing evidence for a particular species. Species cannot only be those reproductive populations showing broad character congruence and/or reproductive isolation, due to the different degrees of character congruence, as well as of reproductive isolation, that result from the heterogeneity of evolutionary processes causing lineage splitting and divergence. Also, any kind of character - and not only those established by tradition or fashion - is potentially relevant as evidence of lineage divergence. To conciliate the authors who only see species supported by broad character congruence as good species hypotheses, we explain how a hypothesis can gain corroboration using single or multiple lines of evidence, even in cases of discordance with other lines of evidence. Finally, we propose guidelines to identify the expected degree of stability (preliminary, unstable, and stable) of species hypotheses. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 101, 747-756.

Keywords: corroboration; lineage; species concept

Document Type: Research article

DOI: 10.1111/j.1095-8312.2010.01528.x

Taxonomía: el valor del toque humano y la cooperación

Compart aquí un par de notas en Nature muy interesantes:

Taxonomy: add a human touch too
http://www.nature.com/nature/journal/v467/n7317/full/467788a.html
Antonio G. Valdecasas & Quentin D. Wheeler
Journal name: Nature Volume: 467 , Page: 788 Date published: (14 October 2010)
DOI: doi:10.1038/467788a

Norman MacLeod and colleagues' call to develop automated species-identification systems is laudable (Nature 467, 154–155; 2010), but let's not forget a core feature of taxonomic work that depends on a scholar's input — the discovery of new characters.

Unexpected evolutionary novelties in morphology and physiology, for example, are what make taxonomic exploration rewarding. Taxonomists set out to discover and track such novelties and their evolutionary history. It is in this sense that taxonomy provides the empirical basis for understanding speciation and phylogeny.

There is a place for automated pattern detection, but it would not work with the 5,000 species of Drosophila, say, which are identified by their many different structures. Taxonomy can independently test and verify identifications without relying on patterns of single characters, as the long list of synonymies in any biological group testifies. The practice of taxonomic revision and publishing detailed monographs ensures that character distributions, species status and phylogenetic relationships are subject to repeated and critical testing.

We should beware the trend to confuse automatic identification tools with those that are useful for discovering new species. The emerging field of cybertaxonomy is an advance only if it is understood as enhancing and enabling theory-rich descriptive taxonomy, not replacing it.

As in many other modern scientific fields, including diagnostic medicine and molecular genetics, a final step involving a human expert is essential.

----------
Taxonomy: include social networking
http://www.nature.com/nature/journal/v467/n7317/full/467788b.html
Jonathan Silvertown
Journal name: Nature Volume: 467 , Page: 788 Date published: (14 October 2010)
DOI: doi:10.1038/467788b

Help with the shortage of professional taxonomists needed to identify organisms (Nature 467, 154–155; 2010) may also come from an unexpected source — social networking on the Internet.

Through social networking, the identification process can be made more efficient while simultaneously spreading real taxonomic knowledge. The facility is available to anyone, unlike other technologies that require specialized equipment.

In its first year of operation, the website iSpot (http://ispot.org.uk) has helped 6,000 users to identify 25,000 sightings of some 2,500 species, from lichens to birds. The website works by linking experts (including amateur experts) with beginners through a sophisticated reputation system that encourages users to help and learn from each other.

Eventually, DNA bar-code matching and image recognition might be added to the tools available. But these will be aids, not replacements, for people learning how to identify species.

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Un monumento a la filogenetica. Cuernavaca, Mexico

Rescaté del "baúl" esta foto tomada en los años 90´s en Cuernavaca, México.
Asistía a un Congreso en la Universidad Autónoma del Estado de Morelos.
La imagen digital la recuperé de una fotografía impresa muy pequeña, la cual tome durante el XIII Congreso Mexicano de Botánica, Cuernavaca, Morelos. Noviembre 5 -11, 1995.
No requiere mucha imaginación ver que es un cladograma, pero en ese entonces nadie sabia realmente en honor a que era esta escultura.
Los colegas de la UAEM o alguien saben la historia?

Why Trees Are Important

Authors

Edward O. Wiley¹

¹Ecology and Evolutionary Biology and Biodiversity Institute, University of Kansas, Lawrence, KS 66045, USA

Abstract

Abstract

The Tree of Life is the result of the interplay of changes in information and speciation. Almost 100 years after publication of Darwin’s Origin, the inception of Phylogenetic Systematics has resulted in a revolution in data inference. I briefly trace the development of this revolution and show examples of how data are interpreted relative to phylogenetic trees. I then provide brief discussions of how to read tree diagrams and the need to access the quality of phylogenetic inference.

Keywords

Phylogenetic systematics, Phylogenetic trees, Cladistic

Tomado de: http://www.metapress.com/content/b5462355045l0h8m/