Thorson's rule (named after
Gunnar Thorson by S. A. Mileikovsky in 1971)
[Mileikovsky, S. A. 1971. ''Types of larval development in marine bottom invertebrates, their distribution and ecological significance: a reevaluation.'' Marine Biology 19: 193-213] is an
ecogeographical rule
A biological rule or biological law is a generalized law, principle, or rule of thumb formulated to describe patterns observed in living organisms. Biological rules and laws are often developed as succinct, broadly applicable ways to explain co ...
which states that
benthic marine invertebrates
Marine invertebrates are the invertebrates that live in marine habitats. Invertebrate is a blanket term that includes all animals apart from the vertebrate members of the chordate phylum. Invertebrates lack a vertebral column, and some have ev ...
at low latitudes tend to produce large numbers of eggs developing to
pelagic
The pelagic zone consists of the water column of the open ocean, and can be further divided into regions by depth (as illustrated on the right). The word ''pelagic'' is derived . The pelagic zone can be thought of as an imaginary cylinder or w ...
(often planktotrophic
lankton-feeding/nowiki>) and widely dispersing larvae, whereas at high latitudes such organisms tend to produce fewer and larger lecithotrophic (yolk-feeding) eggs and larger offspring, often by viviparity
Among animals, viviparity is development of the embryo inside the body of the parent. This is opposed to oviparity which is a reproductive mode in which females lay developing eggs that complete their development and hatch externally from the ...
or ovoviviparity, which are often brooded.[Thorson, G. 1957 Bottom communities (sublittoral or shallow shelf). In "Treatise on Marine Ecology and Palaeoecology" (Ed J.W. Hedgpeth) pp. 461-534. Geological Society of America.]
Groups involved
The rule was originally established for marine bottom invertebrates, but it also applies to a group of parasitic flatworms
The flatworms, flat worms, Platyhelminthes, or platyhelminths (from the Greek πλατύ, ''platy'', meaning "flat" and ἕλμινς (root: ἑλμινθ-), ''helminth-'', meaning "worm") are a phylum of relatively simple bilaterian, unsegment ...
, monogenean ectoparasites on the gills of marine fish.[Rohde, K. 1985. Increased viviparity of marine parasites at high latitudes. Hydrobiologia 127: 197-201.]
Most low-latitude species of Monogenea
Monogeneans are a group of ectoparasitic flatworms commonly found on the skin, gills, or fins of fish. They have a direct lifecycle and do not require an intermediate host. Adults are hermaphrodites, meaning they have both male and female repro ...
produce large numbers of ciliated
The cilium, plural cilia (), is a membrane-bound organelle found on most types of eukaryotic cell, and certain microorganisms known as ciliates. Cilia are absent in bacteria and archaea. The cilium has the shape of a slender threadlike project ...
larva
A larva (; plural larvae ) is a distinct juvenile form many animals undergo before metamorphosis into adults. Animals with indirect development such as insects, amphibians, or cnidarians typically have a larval phase of their life cycle.
...
e. However, at high latitudes, species of the entirely viviparous family Gyrodactylidae, which produce few nonciliated offspring and are very rare at low latitude
In geography, latitude is a coordinate that specifies the north– south position of a point on the surface of the Earth or another celestial body. Latitude is given as an angle that ranges from –90° at the south pole to 90° at the north pol ...
s, represent the majority of gill Monogenea
Monogeneans are a group of ectoparasitic flatworms commonly found on the skin, gills, or fins of fish. They have a direct lifecycle and do not require an intermediate host. Adults are hermaphrodites, meaning they have both male and female repro ...
, i.e., about 80–90% of all species at high northern latitudes, and about one third of all species in Antarctic and sub-Antarctic waters, against less than 1% in tropical waters. Data compiled by A.V. Gusev in 1978 indicates that Gyrodactylidae may also be more common in cold than tropical freshwater systems, suggesting that Thorson's rule may apply to freshwater invertebrates.[Gusev, A.V. 1978. Monogenoidea of freshwater fish. Principles of systematics, analysis of the world fauna and its evolution. Parasitologicheskij Sbornik 28: 96-198 (in Russian).]
There are exceptions to the rule, such as ascoglossan snail
A snail is, in loose terms, a shelled gastropod. The name is most often applied to land snails, terrestrial pulmonate gastropod molluscs. However, the common name ''snail'' is also used for most of the members of the molluscan class G ...
s: tropical ascoglossans have a higher incidence of lecithotrophy and direct development than temperate species.[Krug, P.J. 1998. Poecilogony in an estuarine opisthobranch: planktotrophy, lecithotrophy, and mixed clutches in a population of the ascoglossan Alderia modesta. Marine Biology 132:483-494.]
A study in 2001 indicated that two factors are important for Thorson's rule to be valid for marine gastropods: 1) the habitat must include rocky substrates, because soft-bottom habitats appear to favour non-pelagic development; and 2) a diverse assemblage of taxa
In biology, a taxon (back-formation from ''taxonomy''; plural taxa) is a group of one or more populations of an organism or organisms seen by taxonomists to form a unit. Although neither is required, a taxon is usually known by a particular nam ...
need to be compared to avoid the problem of phyletic constraints, which could limit the evolution of different developmental modes.[Gallardo, C.S. and Penchaszadeh, P.E. 2001. Hatching mode and latitude in marine gastropods: revisiting Thorson's paradigm in the southern hemisphere. Marine Biology 138 547-552]
Application to deep-sea species
The temperature gradient from warm surface waters to the deep sea
The deep sea is broadly defined as the ocean depth where light begins to fade, at an approximate depth of 200 metres (656 feet) or the point of transition from continental shelves to continental slopes. Conditions within the deep sea are a combin ...
is similar to that along latitudinal gradients. A gradient as described by Thorson's rule may therefore be expected. However, evidence for such a gradient is ambiguous;
Explanations
Several explanations of the rule have been given. They include:
# Because of the reduced speed of development at low temperatures, most species cannot complete development during the short time of phytoplankton bloom, on which planktotrophic species depend;
# Most species cannot synchronize hatching with the phytoplankton bloom;
# Slower development increases the risk of predation on pelagic larvae;
# Non-pelagic larvae can settle close to the parent, i.e. in a favourable environment;
# Small pelagic larvae may have osmotic difficulties in Arctic and Antarctic summers, due to the melting ice;
# Small larvae may not be able to survive at very low temperatures;
# Cold temperature may select for large size at the beginning of development, resulting in non-pelagic larvae; and
# In cold waters it is more difficult to precipitate dissolved calcium, which results in reduced body size of animals supported by calcium skeletons, leading to viviparity.
Most of these explanations can be excluded for the Monogenea, whose larvae are never planktotrophic (therefore eliminating explanations 1 and 2), their larvae are always short-lived (3), Gyrodactylidae are most common not only close to melting ice but in cold seas generally (5). Explanation 6 is unlikely, because small organisms are common in cold seas, Gyrodactylidae are among the smallest Monogenea (7), and Monogenea do not possess calcareous skeletons (8). The conclusion is that the most likely explanation for the Monogenea (and by implication for other groups) is that small larvae cannot locate suitable habitats at low temperatures, where physiological including sensory processes are slowed, and/or that low temperatures prevent the production of sufficient numbers of pelagic larvae, which would be necessary to find suitable habitats in the vast oceanic spaces.
Implications for Rapoport's rule
Rapoport's rule
Rapoport's rule is an ecogeographical rule that states that latitudinal ranges of plants and animals are generally smaller at lower latitudes than at higher latitudes.
Background
Stevens (1989) named the rule after Eduardo H. Rapoport, who had e ...
states that latitudinal ranges of species are generally smaller at low than at high latitudes. Thorson's rule contradicts this rule, because species disperse more widely at low than at high latitudes, supplementing much evidence against the generality of Rapoport's rule and for the fact that tropical species often have wider geographical ranges than high latitude species.[Rohde, K., Heap M. and Heap, D. 1993. Rapoport's rule does not apply to marine teleosts and cannot explain latitudinal gradients in species richness. American Naturalist 142: 1-16.][Rohde, K. 1999. Latitudinal gradients in species diversity and Rapoport's rule revisited: a review of recent work, and what can parasites teach us about the causes of the gradients? Ecography 22: 593-613. Also published In ''Ecology 1999 - and tomorrow'' (Ed T Fenchel), pp. 73-93. (Ecology Institute: University of Lund, Sweden).
]
See also
* Ecology
Ecology () is the study of the relationships between living organisms, including humans, and their physical environment. Ecology considers organisms at the individual, population, community, ecosystem, and biosphere level. Ecology overl ...
* Latitudinal gradients in species diversity
Species richness, or biodiversity, increases from the poles to the tropics for a wide variety of terrestrial and marine organisms, often referred to as the latitudinal diversity gradient. The latitudinal diversity gradient is one of the most widel ...
References
Sources
* Aenaud, P.M. 1977. "Adaptations within the Antarctic marine benthic ecosystem. In: Adaptations within Antarctic ecosystems". Proceedings 3rd SCAR Symposium Antarctic Biology (Ed. Llana, G.), pp. 135–157.
* Jablonski, D. and Lutz, R.A. 1983. "Larval ecology of marine benthic invertebrates: Palaeobiological implications". Biological Reviews 58: 21–89.
* Laptikhovsky, V. 2006. "Latitudinal and bathymetric trends in egg size variation: a new look at Thorson's and Rass's rules". Marine Ecology 27: 7–14.
* Pearse, J.S. 1994. "Cold-water echinoderms break 'Thorson's rule'". In: Reproduction, larval biology, and recruitment in deep-sea benthos ( Ed.Ecklebarger, K.J, Young, C.M.) pp 26–43. Columbia University Press, New York.
* Picken, G.B. 1980. "Reproductive adaptations in Antarctic invertebrates". Biological Journal of the Linnean Society 14: 67–75.
* Rohde, K. 2002. "Ecology and biogeography of marine parasites". Advances in Marine Biology 43: 1–86.
* Rohde, K. 2005. "Latitudinal. Longitudinal and depth gradients". In: ''Marine Parasitology'' (Ed. K. Rohde) pp. 348–351. CSIRO Publishing, Melbourne and CABI, Wallingford, Oxon.
* Simpson, R.D. 1900. "The reproduction of some littoral molluscs from Macquarie Island (Sub-Antarctic)". Marine Biology 44: 125–142.
* Stanwell-Smith, D., Peck, L.S. Clarke, A., Murray, A.W.A. and Todd, C.D. 1999. "The distribution, abundance and seasonality of pelagic marine invertebrate larvae in the maritime Antarctic". Philosophical Transactions of the Royal Society B: Biological Sciences 354: 471–484.
{{aquatic ecosystem topics
Biogeography
Ecogeographic rules