Jellyfish Body Plans Provide Allometric Advantages beyond Low Carbon Content
Jellyfish Body Plans Provide Allometric Advantages beyond Low Carbon Content
Jellyfish form spectacular blooms throughout the world’s oceans. Jellyfish body plans are characterised by high water
and low carbon contents which enables them to grow much larger than non-gelatinous animals of equivalent carbon
content and to deviate from non-gelatinous pelagic animals when incorporated into allometric relationships. Jellyfish
have, however, been argued to conform to allometric relationships when carbon content is used as the metric for
comparison. Here we test the hypothesis that differences in allometric relationships for several key functional
parameters remain for jellyfish even after their body sizes are scaled to their carbon content. Data on carbon and
nitrogen contents, rates of respiration, excretion, growth, longevity and swimming velocity of jellyfish and other
pelagic animals were assembled. Allometric relationships between each variable and the equivalent spherical
diameters of jellyfish and other pelagic animals were compared before and after sizes of jellyfish were standardised for their carbon content. Before standardisation, the slopes of the allometric relationships for respiration, excretion and growth were the same for jellyfish and other pelagic taxa but the intercepts differed. After standardisation, slopes and intercepts for respiration were similar but excretion rates of jellyfish were 10× slower, and growth rates 2× faster than those of other pelagic animals. Longevity of jellyfish was independent of size. The slope of the allometric
relationship of swimming velocity of jellyfish differed from that of other pelagic animals but because they are larger jellyfish operate at Reynolds numbers approximately 10× greater than those of other pelagic animals of comparable carbon content. We conclude that low carbon and high water contents alone do not explain the differences in the intercepts or slopes of the allometric relationships of jellyfish and other pelagic animals and that the evolutionary longevity of jellyfish and their propensity to form blooms is facilitated by their unique body plans.
e72683
Pitt, Kylie A
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Duarte, Carlos M
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Lucas, Cathy H.
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Sutherland, Kelly R
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Condon, Robert H
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Mianzan, Hermes
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Purcell, Jennifer E
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Robinson, Kelly L
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Uye, Shin-ichi
03531e96-8a2b-40fd-afc2-ebb96a720b73
Pitt, Kylie A
93d1ce1a-e26d-4b12-a7d5-2659446ad5c9
Duarte, Carlos M
6039f847-ae56-49a1-ae22-b11b478948b4
Lucas, Cathy H.
521743e3-b250-4c6b-b084-780af697d6bf
Sutherland, Kelly R
751839cd-5451-4f39-b0cf-6c5d3dab35ee
Condon, Robert H
426f5fe5-0147-4960-93dc-96ef2b494c87
Mianzan, Hermes
31cbb01c-f989-4beb-bda7-ba142ad16eae
Purcell, Jennifer E
84da7cf2-58c6-45ae-9f78-418afae60181
Robinson, Kelly L
c49c1490-4ed2-4a6d-b0c7-6707bf218791
Uye, Shin-ichi
03531e96-8a2b-40fd-afc2-ebb96a720b73
Pitt, Kylie A, Duarte, Carlos M, Lucas, Cathy H., Sutherland, Kelly R, Condon, Robert H, Mianzan, Hermes, Purcell, Jennifer E, Robinson, Kelly L and Uye, Shin-ichi
(2013)
Jellyfish Body Plans Provide Allometric Advantages beyond Low Carbon Content.
PLoS ONE, 8 (8), .
(doi:10.1371/journal.pone.0072683).
Abstract
Jellyfish form spectacular blooms throughout the world’s oceans. Jellyfish body plans are characterised by high water
and low carbon contents which enables them to grow much larger than non-gelatinous animals of equivalent carbon
content and to deviate from non-gelatinous pelagic animals when incorporated into allometric relationships. Jellyfish
have, however, been argued to conform to allometric relationships when carbon content is used as the metric for
comparison. Here we test the hypothesis that differences in allometric relationships for several key functional
parameters remain for jellyfish even after their body sizes are scaled to their carbon content. Data on carbon and
nitrogen contents, rates of respiration, excretion, growth, longevity and swimming velocity of jellyfish and other
pelagic animals were assembled. Allometric relationships between each variable and the equivalent spherical
diameters of jellyfish and other pelagic animals were compared before and after sizes of jellyfish were standardised for their carbon content. Before standardisation, the slopes of the allometric relationships for respiration, excretion and growth were the same for jellyfish and other pelagic taxa but the intercepts differed. After standardisation, slopes and intercepts for respiration were similar but excretion rates of jellyfish were 10× slower, and growth rates 2× faster than those of other pelagic animals. Longevity of jellyfish was independent of size. The slope of the allometric
relationship of swimming velocity of jellyfish differed from that of other pelagic animals but because they are larger jellyfish operate at Reynolds numbers approximately 10× greater than those of other pelagic animals of comparable carbon content. We conclude that low carbon and high water contents alone do not explain the differences in the intercepts or slopes of the allometric relationships of jellyfish and other pelagic animals and that the evolutionary longevity of jellyfish and their propensity to form blooms is facilitated by their unique body plans.
Text
Pitt et al 2013 PLoS One.pdf
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e-pub ahead of print date: 13 August 2013
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 356104
URI: http://eprints.soton.ac.uk/id/eprint/356104
ISSN: 1932-6203
PURE UUID: 78b61cf8-3dfb-4c3d-9362-76b04d5173aa
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Date deposited: 28 Aug 2013 12:37
Last modified: 15 Mar 2024 02:47
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Author:
Kylie A Pitt
Author:
Carlos M Duarte
Author:
Kelly R Sutherland
Author:
Robert H Condon
Author:
Hermes Mianzan
Author:
Jennifer E Purcell
Author:
Kelly L Robinson
Author:
Shin-ichi Uye
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