Endless larval forms most beautiful: what a larva is

The Latin word lārva means evil spirit, ghost or mask1. In the 18th century, the naturalist Carolus Linnaeus was the first to employ the word larva to describe a stage in the life of an animal in which its adult form is still hidden or masked (Linnaeus, 1767, p. 534). An exemplar case of this new biological meaning is the maggot—the larval stage of a fly—whose wormy form and life style truly differs from its flying adult stage.

Not all larvae, however, are masked forms. The larval body of some marine snails2, for example, is very similar to its adult body, except for the dazzling presence of a ciliated velum, used by the larva to swim and gather food (Collier, 1997). In more general terms, larval stages are considered to be a modification of embryonic development usually characterized by a morphology and habitat that are disparate from the adult stage (Hall and Wake, 1999). Because embryonic development can change in a multitude of ways, as evidenced by the great diversity of larval forms in nature (see below), there is no precise definition of larva (Hickman, 1999; Strathmann, 1993). Thus in practice, what a larva is, is defined case by case according to the organism and to one’s research background.

The majority of animals on this planet have a complex life cycle with one or more larval stages. Collectively, marine invertebrates represent a great part of the observed larval diversity. Molluscs have the veliger, a shelled larva with the ciliated velum mentioned above; echinoderms have the pluteus, a spaceship-like larva with eight food-capturing arms, and the brachiolaria, a free-swimming larva driven by body-length dancing arms; bryozoans have the cyphonautes, a paper-thin triangular larva that sails over kelp blades; crustaceans have the zoea, an armored larva that swims as if using a jet pack; nemerteans have the pilidium, a larva with lobes and lappets in the form of a deerstalker cap… and this list goes on. The diversity of larval forms is astonishing.

Sample of the diversity of metazoan larval forms. Larvae are not to scale. Photos from the Cifonauta marine biology image database (Migotto and Vellutini, 2011).
Sample of the diversity of metazoan larval forms. Larvae are not to scale. Photos from the Cifonauta marine biology image database (Migotto and Vellutini, 2011).

Most of these charismatic larval figures were discovered in the 19th century by the naturalist founders of comparative embryology (Hall and Wake, 1999). At the time, the ideas of Karl Ernst von Baer and Ernst Haeckel had great influence on the understanding of embryonic development (Guralnick, 2002; Hall, 2000). Ontogeny was seen as the unfolding of an immutable process that represents the evolutionary history of an organism—an idea known as recapitulation or Haeckel’s biogenetic law: “ontogeny is a rapid and shortened recapitulation of phylogeny.” (Gould, 1977; Haeckel, 1866).

These influential ideas were directly challenged by the mere existence of larvae. Or more generally, challenged by the existence of differentiated developmental stages that are, at the same time, functionally adapted to their environment and morphologically diverse. Such impressive variety of larval forms instigated questions about the relationship between the embryonic development of an individual (ontogeny) and the evolutionary history of a lineage (phylogeny).

Do larvae represent ancestral adult forms? How many times have larvae evolved? Are larval structures homologous or independently evolved? Soon, there was an urge to rationalize the diversity of larval forms into an evolutionary context.

[This text is a section of my PhD thesis]

References

Collier, J.R., 1997. Gastropods, the Snails. In S. F. Gilbert & A. M. Raunio, eds. Embryology: constructing the organism. Sinauer Associates, Inc., pp. 189–217.

Gould, S.J., 1977. Ontogeny and phylogeny, Harvard University Press.

Guralnick, R., 2002. A Recapitulation of the Rise and Fall of the Cell Lineage Research Program: The Evolutionary-Developmental Relationship of Cleavage to Homology, Body Plans and Life History. Journal of the history of biology, 35(3), pp.537–567. Available at: http://link.springer.com/article/10.1023/A%3A1021119112943.

Haeckel, E., 1866. Generelle Morphologie der Organismen, Georg Reimer, Berlin. Available at: http://www.biodiversitylibrary.org/item/181503.

Hall, B.K., 2000. Balfour, Garstang and de Beer: The First Century of Evolutionary Embryology. American zoologist, 40(5), pp.718–728. Available at: http://dx.doi.org/10.1668/0003-1569(2000)040[0718:BGADBT]2.0.CO;2.

Hall, B.K. & Wake, M.H., 1999. Chapter 1 – Introduction: Larval Development, Evolution, and Ecology. In B. K. H. H. Wake, ed. The Origin and Evolution of Larval Forms. San Diego: Academic Press, pp. 1–19. Available at: http://www.sciencedirect.com/science/article/pii/B978012730935450002X.

Hickman, C.S., 1999. Chapter 2 – Larvae in Invertebrate Development and Evolution. In B. K. H. H. Wake, ed. The Origin and Evolution of Larval Forms. San Diego: Academic Press, pp. 21–59. Available at: http://www.sciencedirect.com/science/article/pii/B9780127309354500031.

Linnaeus, C., 1767. Systema Naturæ, Impensis direct. Laurentii Salvii. Available at: http://www.biodiversitylibrary.org/item/137240.

Migotto, A.E. & Vellutini, B.C., 2011. Cifonauta – marine biology image database. Cifonauta, an image database for marine biology. Available at: http://cifonauta.cebimar.usp.br/ [Accessed December 16, 2015].

Sars, M., 1837. Beitrag zur Entwicklungsgeschichte der Mollusken und Zoophyten. Archiv für Naturgeschichte, 3, pp.402–407. Available at: http://www.biodiversitylibrary.org/item/48150#page/404/mode/1up.

Strathmann, R.R., 1993. Hypotheses on the Origins of Marine Larvae. Annual review of ecology and systematics, 24, pp.89–117. Available at: http://www.jstor.org/stable/2097174.

Young, C.M., 1990. Larval ecology of marine invertebrates: A sesquicentennial history. Ophelia, 32(1-2), pp.1–48. Available at: http://dx.doi.org/10.1080/00785236.1990.10422023.

 


  1. American Heritage® Dictionary of the English Language, Fifth Edition. (2011). Accessed November 13 2015 at https://ahdictionary.com/word/search.html?q=larva
  2. Michael Sars, one of the Norwegian biologists giving the name to the Sars Centre, was among the first to describe the development of molluscs from a swimming larva (Sars, 1837; Young, 1990).

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Bruno

Evolutionary biologist interested in embryos and larvae of marine invertebrates.

3 thoughts on “Endless larval forms most beautiful: what a larva is”

  1. Hi Bruno! I was in your larval biology class at Friday Harbor Labs. Thanks for the great article! I’m writing a book on the natural history of southeast Alaska, where I live, and your writing is full of helpful, interesting information to give folks a first introduction to the world of marine larvae. Nice to see your smiling face again. – Heidi

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