1999
DOI: 10.3354/meps191267
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Turbidity, arthropods and the evolution of perception:toward a new paradigm of marine phanerozoic diversity

Abstract: Geological, paleo-oceanographic and paleoclimatological studies have independently demonstrated that the volume of preserved marine sediments, eustatic sea level, the depth to which the sea was oxygenated, the concentration of atmospheric oxygen and carbon dioxide and the amount of terrestrial rainfall fluctuated in a 400 million yr cycle over Phanerozoic time. These data are used to develop the hypothesis that the level of oceanic turbidity CO-varied with these changes and that turbidity was the motor, plate … Show more

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Cited by 13 publications
(11 citation statements)
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References 76 publications
(95 reference statements)
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“…Eiane et al (1997Eiane et al ( , 1999 hypothesized that decreased visibility in the water column promotes a shift from visual (fish) to tactile (jellies) planktivores. A similar idea, although at an evolutionary rather than at an ecological timescale, has been proposed by Marcotte (1999). He hypothesized that optical alterations, through turbidity changes, were a factor of evolution in Phanerozoic seas.…”
Section: Discussionmentioning
confidence: 66%
“…Eiane et al (1997Eiane et al ( , 1999 hypothesized that decreased visibility in the water column promotes a shift from visual (fish) to tactile (jellies) planktivores. A similar idea, although at an evolutionary rather than at an ecological timescale, has been proposed by Marcotte (1999). He hypothesized that optical alterations, through turbidity changes, were a factor of evolution in Phanerozoic seas.…”
Section: Discussionmentioning
confidence: 66%
“…The potential ease of using morphological traits as opposed to behavior or gut analysis provides a potentially powerful tool for quickly characterizing different feeding guilds and oceanic environments, including difficult to sample microenvironments. As such, key sensory architectures can provide an index into present day conditions or offer insight into paleo-conditions (Marcotte 1999). For sensory biology to generate ecological insights, a firm understanding of sensory mechanisms must be coupled to information on spatial and temporal distributions of animals in relation to the sensory environment.…”
Section: Evolutionarymentioning
confidence: 99%
“…For example, Marcotte (1999) argued that the diversification of visually oriented aquatic animals has been influenced by levels of turbidity in the oceans, but provided no general, quantitative evaluation of the expected pattern. Similarly, Dudley (2000) suggested that high atmospheric O 2 levels promoted the origins and radiations of flying animals by facilitating aerodynamic lift and the maintenance of high metabolic rates, but he gave only weak evidence of the expected evolutionary correlation.…”
Section: The Physical Environment: C 4 Plantsmentioning
confidence: 99%