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Title: Sensu  
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Subject: Scientific terminology, Glossary of scientific naming, Senna (plant), List of sequenced plastomes, Altungulata
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Sensu is a Latin word meaning "in the sense of". It is used in a number of fields including biology, geology, linguistics, and law. Commonly it refers to how strictly or loosely an expression is used in describing any particular concept, but it also appears in expressions that indicate the convention or context of the usage.

Common qualifiers

Sensu is a Latin word meaning "in the sense of". It is the ablative case of the noun sensus, here meaning "sense". It is used in a number of fields including biology, geology, linguistics, semiotics, and law, often accompanied by an adjective (in the same case). Three such phrases are sensu stricto – "in the strict sense", abbreviation s.s.;[1] sensu lato – "in the wide or broad sense", abbreviation s.l.;[2] and sensu amplo – "in a relaxed, generous (or 'ample') sense", a similar meaning to sensu lato.

When appropriate, comparative and superlative adjectives may also be used to convey the meaning of "more" or "most". Thus sensu stricto becomes sensu strictiore ("in the stricter sense" or "more strictly speaking") and sensu strictissimo ("in the strictest sense" or "most strictly speaking").

Variants of phrases using the word sensu
Base phrase Comparative Superlative Meanings
sensu stricto sensu strictiore sensu strictissimo in the strict/stricter/strictest sense
sensu lato sensu latiore sensu latissimo in the broad/broader/broadest sense
sensu amplo sensu ampliore sensu amplissimo in a relaxed/more relaxed/most relaxed sense

Current definitions of the plant kingdom (Plantae) offer a biological example of when such phrases might be used. One definition of Plantae is that it consists of all green plants, all red algae and all glaucophyte algae. A stricter definition excludes the red and glaucophyte algae; the group defined in this way could be called Plantae sensu stricto. An even stricter definition excludes green algae, leaving only land plants; the group defined in this way could be called Plantae sensu strictissimo.[3] Conversely, where convenient, some authors derive expressions such as "sensu non strictissimo", meaning "not in the narrowest possible sense".[4]

Another common usage is to follow sensu by a person's name. Thus "sensu Smith" means "in the sense intended by or used by Smith".[5][6]

Søren Kierkegaard uses the phrase sensu eminenti to mean "in the pre-eminent [or most important or significant] sense".[7]

A similar form is in use to indicate the sense of a particular context, such as "Nonmonophyletic groups are ... nonnatural (sensu cladistics) in that..."[8] or "...computation of a cladogram (sensu phenetics)..."[6]

Qualifiers and contexts

A related convenient usage is in conjunction with a concept author citation ("sec. Smith", or "sensu Smith"), indicating that the intended meaning is the one defined by that author. (Here "sec." is an abbreviation of "secundum", meaning "following" or "in accordance with".) Such an author citation is different from the citation of the nomenclatural "author citation" or "authority citation". In biological taxonomy the author citation following the name of a taxon simply identifies the author who originally published the name and applied it to the type, the specimen or specimens that one refers to in case of doubt about the definition of a species. Given that an author (such as Linnaeus, for example) was the first to supply a definite type specimen and to describe it, it is to be hoped that his description would stand the tests of time and criticism, but even if it does not, then as far as practical the name that he had assigned will apply. It still will apply in preference to any subsequent names or descriptions that anyone proposes, whether his description was correct or not, and whether he had correctly identified its biological affinities or not. This does not always happen of course; all sorts of errors occur in practice. For example, a collector might scoop a netful of small fish and describe them as a new species; it then might turn out that he had failed to notice that there were several (possibly unrelated) species in the net. It then is not clear what he had named, so his name can hardly be taken seriously, either s.s. or s.l.

After a species has been established in this manner, specialist taxonomists may work on the subject and make certain types of changes in the light of new information. In modern practice it is greatly preferred that the collector of the specimens immediately passes them to specialists for naming; it is rarely possible for non-specialists to tell whether their specimens are of new species or not, and in modern times not many publications or their referees would accept an amateur description.

In any event, the person who finally classifies and describes a species has the task of taxonomic circumscription. Circumscription means in essence that anyone competent in the matter can tell which creatures are included in the species described, and which are excluded. It is in this process of species description that the question of the sense arises, because that is where the worker produces and argues his view of the proper circumscription. Equally, or perhaps even more strongly, the arguments for deciding questions concerning higher taxa such as families or orders, require very difficult circumscription, where changing the sense applied could totally upset an entire scheme of classification, either constructively or disastrously.

Note that the principles of circumscription apply in various ways in non-biological senses. In biological taxonomy the usual assumption is that circumscription reflects the shared ancestry perceived as most likely in the light of the currently available information; in geology or legal contexts far wider and more arbitrary ranges of logical circumscription commonly apply, not necessarily formally uniformly. However, the usage of expressions incorporating sensu remains functionally similarly intelligible among the fields. In geology for example, in which the concept of ancestry is looser and less pervasive than in biology, one finds usages such as:

  • "This ambiguity ... has led to a ... dual interpretation of the Kimmeridgian Stage; the longer sensu anglico meaning, or the shorter sensu gallico meaning." Here the "anglico" or English meaning referred to interpretations by English geologists, derived from English materials and conditions, whereas "gallico" referred to interpretations by French and German geologists, derived from continental materials and conditions.[9]
  • "...genetic stratigraphic sequences sensu Galloway (1989)" meaning those sequences so referred to by Galloway, much as in the biological usage in referring to the terminology of particular authorities.[9]
  • "The second progradational unit plus PAN-4 are correlatable to the Pontian sensu stricto" ("sensu Sacchi 2001).[10] Here the we have a meta-reference: the Pontian in the sense that Sacchi had applied as it as sensu stricto".


Readers unfamiliar with technical aspects of taxonomy might find it helpful first to think of everyday examples of the principles. When dealing with groups and parts of groups (subgroups) of different types of things, taxonomists sometimes wish to speak of the full set under consideration, and sometimes just a subset, but almost always want to refer to some particular part, to the exclusion of other elements; in issuing an instruction to poll the opinions of twenty-one members of a village community, a competent pollster would not accept the reactions of two heads of households, three infants, four dogs, five cats, six rats, and a tramcar. That would be taking sensu lato beyond good sense.

Instead the instruction should specify which sense should apply, such as sensu stricto (or strictiore):

* "...all the heads of households on the north side of the stream," or "...all the children in hospital with mumps", or "...the men the district attorney questioned this morning," or "Zachiariah Quenton Horton of 221b Baker Street".

or sensu lato (or latiore):

* "... five of the school football team", or "the first few friendly-looking people you find in the street," or "...some of the people in the district."

The important thing is that in each example the instruction circumscribed the appropriate subjects; that means that the interviewer could tell which people were wanted and correspondingly, which were to be left out.

The circumscription could be in terms of very specific criteria:

(...of all the possible people, only those the DA questioned, and of those, only the adult males, or one specific person only)

or the criterion could be very casual, even vague:

( many as you like of the people that looked friendly to you in the street, even if it turns out that the appearance was misleading.)

However simple that may sound, it is fundamental both in formal science and in everyday affairs. Circumscription amounts to the basis for telling things apart, which in turn is the rational basis for all diagnoses, formal or informal.

In biological taxonomy, as the next section describes, the same principles apply, but they deal in various ways with circumscribing living things according to any relevant criterion. In modern biology the criterion usually has something to do with which creature descended from which kind of ancestor, in which ways it changed in the process, and by how much. However, in more general taxonomies, although the principles of circumscription are fundamentally similar, the criteria could be largely different in type as well as in detail.

In short, in every discipline the sense of circumscription in taxonomy must reflect the nature of the subject matter.

Examples in practical taxonomy

Sensu is used in the taxonomy of living creatures to specify which circumscription of a given taxon is meant, where more than one circumscription can be defined.


This means more or less that the members of the entire family of plants going under the name Malvaceae (strictly speaking), which comprises over 1000 species, including the closest relatives of cotton and hibiscus, all descend from a shared ancestor, specifically, that they, and no other extant plant taxa, share a notional most recent common ancestor (MRCA).[11] If this is correct, that ancestor might have been a single species of plant, or even possibly a single individual plant. Conversely the assertion also means that the family includes all surviving species descended from that ancestor. Other species of plants that some people might (broadly speaking or s.l.) have included in the family would not have shared that MRCA (or ipso facto they too would have been members of the family Malvaceae s.s. In short, the circumscription s.s. includes all and only plants that have descended from that particular ancestral stock.
Here the circumscription is broader, stripped of some of its constraints by saying sensu lato; that is what speaking more broadly amounts to. Discarding such constraints might be for historical reasons, for example when people usually speak of the polyphyletic taxon because the members were long believed to form a "true" taxon and the standard literature still refers to them together. Alternatively a taxon might include members simply because they form a group that is convenient to work with in practice. In the current example, by adding other groups of plants to the family Malvaceae s.l., including those related to cacao, cola, durian, and jute, the circumscription omits some of the criteria by which the new members previously had been excluded.[11] Now it is no longer clear that all members of the circumscription descended from that one ancestor. Consequently, we say that Malvaceae s.l. form a polyphyletic group, one that does not share any single ancestor that had no other descendants. Then their most recent common ancestor could have lived perhaps tens of millions of years earlier than the most recent common ancestor of the Malvaceae s.s. alone; also there may be other extant species that are not included in the modern Malvaceae s.l..
  • "The 'clearly non-monophyletic' series [12]
This remark specifies Glossary of scientific naming


  1. ^ "Sensu stricto".  
  2. ^ W. Greuter, J. McNeill, F. R. Barrie et al.. Regnum Vegetabile Volume 138.  
  3. ^ Spichiger, R-E; Savolainen, Vincent V.; Figeat, Murielle: Systematic Botany of Flowering Plants. Publisher: Science Publishers 2004 ISBN 978-1-57808-373-2
  4. ^ Villiger, Mark E. "Customary International Law and Treaties (Developments in International Law, 7)" Publisher: Springer 1985 ISBN 978-90-247-2980-7
  5. ^ Sinclair, Bradley J. The Systematics of New World Clinocera. Publisher: National Research Council (Canada) Research Press 2008. ISBN 978-0-660-19800-2
  6. ^ a b Panchen, Alec L. "Classification, Evolution, and the Nature of Biology" Publisher: Cambridge University Press 1992 ISBN 978-0-521-31578-4
  7. ^ The Journals of Søreen Kierkegaard, edited by Alexander Dru, Harper Torchbooks, New York, 1959, page 22
  8. ^ Wheeler, Quentin & Blackwell, Meredith. Fungus-Insect Relationships: Perspectives in Ecology and Evolution. Publisher: Columbia Univ 1984 ISBN 978-0-231-05695-3
  9. ^ a b P. J. Brenchley (1 January 2006). The Geology of England and Wales. Geological Society of London. pp. 331–.  
  10. ^ Tom McCann (1 January 2008). The Geology of Central Europe: Mesozoic and Cenozoic. Geological Society of London. pp. 1102–.  
  11. ^ a b Judd, Walter S. and Manchester, Steven R. Circumscription of Malvaceae (Malvales) as determined by a preliminary cladistic analysis. Brittonia 1997, volume 49,3 pp 384-405. issn:0007-196X [1]
  12. ^ Olde, Peter M. and Marriott, Neil R. One new Banksia and two new Grevillea species (Proteaceae: Grevilleoideae) from Western Australia Nuytsia 15(1):85–99(2002)
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