Abstract
Planktonic foraminifera are heterotrophic sexually reproducing marine protists with an exceptionally complete fossil record that provides unique insights into long-term patterns and processes of evolution. Populations often exhibit strong biases towards either right (dextral) or left (sinistral) shells. Deep-sea sediment cores spanning millions of years reveal that some species show large and often rapid fluctuations in their dominant coiling direction through time. This is useful for biostratigraphic correlation but further work is required to understand the population dynamical processes that drive these fluctuations. Here we address the case of coiling fluctuations in the planktonic foraminifer genus Pulleniatina based on new high-resolution counts from two recently recovered sediment cores from either side of the Indonesian through-flow in the tropical west Pacific and Indian Oceans (International Ocean Discovery Program Sites U1486 and U1483). We use single-specimen stable isotope analyses to show that dextral and sinistral shells from the same sediment samples can show significant differences in both carbon and oxygen isotopes, implying a degree of ecological separation between populations. In one case we detect a significant difference in size between dextral and sinistral specimens. We suggest that major fluctuations in coiling ratio are caused by cryptic populations replacing one another in competitive sweeps, a mode of evolution that is more often associated with asexual organisms than with the classical ‘biological species concept’.
Highlights
Populations of most species of planktonic foraminifera are distributed globally at very high abundance within broad climatic zones, forming a major part of open marine ecosystems [1]
Initial shipboard data and coiling plots are available in the individual site reports for International Ocean Discovery Program (IODP) Sites U1482, U1483, U1486, U1487, U1488, U1489, and U1490 [50,51,52,53,54,55,56]
Left-right asymmetry is very common in biology and generally has a heritable genetic basis [61], but the co-occurrence of both enantiomorphs of a chiral body-form in a single species is quite rare in nature [61, 62]
Summary
Populations of most species of planktonic foraminifera are distributed globally at very high abundance within broad climatic zones, forming a major part of open marine ecosystems [1]. They are carried passively by the ocean current systems, including through the gateways that link the major ocean basins. Each organism secretes a shell of calcium carbonate composed of inter-connected chambers. Most species add their chambers in a trochospiral (expanding helical) arrangement, thereby defining a coiling direction.
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