Sea-level change and rock-record bias in the Cretaceous: a problem for extinction and biodiversity studies

Smith, Andrew B.; Gale, Andrew S.; Monks, Neale

doi:10.1666/0094-8373(2001)027<0241:slcarr>2.0.co;2

Cited by 202 publications

(156 citation statements)

References 32 publications

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“…Indeed, the Late Ordovician mass extinction has been linked directly to a significant fall and rise in eustatic sea level associated with the waxing and waning of a large Gondwanan ice sheet (46), and this record of sea-level change is directly associated with fluctuations in the quantity of sedimentary rock available for study (14). Our results are consistent with a number of recent modeling (47,48) and empirical studies (9,10,13,14) that suggest the need for a reassessment of stratigraphic bias on perceived trends in diversity and taxonomic rates across all mass extinction horizons. Such studies are critical for understanding the full impact of environmental perturbations on biodiversity and the processes of postextinction recovery.…”

Section: Discussionsupporting

confidence: 89%

“…However, it has long been known that variability of sampling through time may exert a strong control on perceptions of Phanerozoic diversity trends (7). Recent studies have begun to evaluate in greater detail sampling biases on diversity by using a variety of methods and databases (8)(9)(10). Some intervals of mass extinction have come under close scrutiny because they tend to have a close association with sea-level changes and drops in rock volume that bias the preserved record of diversity, extinction, and origination (10)(11)(12)(13)(14)(15).…”

mentioning

confidence: 99%

“…This analytical approach should be extended to other Phanerozoic mass extinctions where variations in sampling intensity are of concern. † Data There are many sources of bias inherent in measuring diversity through time, including variations in sampling intensity (8,(17)(18)(19), variations in sampling across environmental gradients (10,20,21), and variations in sampling among geographic regions (22,23). We attempted to minimize these biases in compiling the data for this study.…”

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confidence: 99%

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Rapid recovery from the Late Ordovician mass extinction

Krug

Patzkowsky

2004

Proc. Natl. Acad. Sci. U.S.A.

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Understanding the evolutionary role of mass extinctions requires detailed knowledge of postextinction recoveries. However, most models of recovery hinge on a direct reading of the fossil record, and several recent studies have suggested that the fossil record is especially incomplete for recovery intervals immediately after mass extinctions. Here, we analyze a database of genus occurrences for the paleocontinent of Laurentia to determine the effects of regional processes on recovery and the effects of variations in preservation and sampling intensity on perceived diversity trends and taxonomic rates during the Late Ordovician mass extinction and Early Silurian recovery. After accounting for variation in sampling intensity, we find that marine benthic diversity in Laurentia recovered to preextinction levels within 5 million years, which is nearly 15 million years sooner than suggested by global compilations. The rapid turnover in Laurentia suggests that processes such as immigration may have been particularly important in the recovery of regional ecosystems from environmental perturbations. However, additional regional studies and a global analysis of the Late Ordovician mass extinction that accounts for variations in sampling intensity are necessary to confirm this pattern. Because the record of Phanerozoic mass extinctions and postextinction recoveries may be compromised by variations in preservation and sampling intensity, all should be reevaluated with sampling-standardized analyses if the evolutionary role of mass extinctions is to be fully understood.diversity ͉ Silurian

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Section: Discussionsupporting

confidence: 89%

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confidence: 99%

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confidence: 99%

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Rapid recovery from the Late Ordovician mass extinction

Krug

Patzkowsky

2004

Proc. Natl. Acad. Sci. U.S.A.

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“…This time interval is of interest because it follows the controversial CenomanianTuronian extinction event (e.g., Smith et al 2001). Epibionts may add new data and other perspectives in this regard (cf.…”

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confidence: 99%

Encrustation patterns on Late Cretaceous (Turonian) echinoids from southern Poland

Borszcz

Kukliński

Zatoń

2012

Facies

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This study focuses on sclerobionts from a large collection of epibenthic echinoids ([2,000 specimens) of the genera Conulus and Camerogalerus. Samples were collected from five localities in southern Poland (Polish Jura and Miechów Trough), where Turonian carbonates with terrigenous input are exposed. Low intensity (mean ca. 5 %, maximum ca. 10 %) and slight encrustation (''loosening effect'') exclusively by episkeletozoans probably resulted from low productivity of encrusters while the importance of other factors cannot be excluded unambiguously. Echinoids served as a main substratum and after death formed shellgrounds ('echinoid carpet') offering abundant benthic islands for encrusters in an otherwise soft-bottom environment. The moderate abundance but low-diversity assemblage is represented by bivalves, sedentary polychaetes, foraminifera, bryozoans, corals, and sponges. This assemblage is similar to a nearly contemporaneous assemblage from the Bohemian Basin. The presence of numerous spirorbins offers insights into their early evolution and may indicate that their first peak in abundance after origination was not prior to the earliest Turonian. This is regarded as one of the important ecological steps towards the rise of modern sclerobiont communities. Encruster diversities are independent of their abundance and, as shown in our novel planar projections, lateral parts of tests were preferentially encrusted. This pattern is explained by the combination of largest flat area and stable orientation. Encrusting bivalves and serpulids dominated hard substrate environments in the Turonian of Poland.

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“…Fossil-based estimates of marine diversity can be distorted by heterogeneities in the rock record and changing preservation probabilities within different sedimentary environments through time 8,35,36 . We use subsampling procedures that explicitly account for sampling biases (see Methods), and that should minimize the effects of potential biases on diversity patterns.…”

Section: Resultsmentioning

confidence: 99%

Interdependence of specialization and biodiversity in Phanerozoic marine invertebrates

Nürnberg

Aberhan

2015

Nat Commun

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Studies of the dynamics of biodiversity often suggest that diversity has upper limits, but the complex interplay between ecological and evolutionary processes and the relative role of biotic and abiotic factors that set upper limits to diversity are poorly understood. Here we statistically assess the relationship between global biodiversity and the degree of habitat specialization of benthic marine invertebrates over the Phanerozoic eon. We show that variation in habitat specialization correlates positively with changes in global diversity, that is, times of high diversity coincide with more specialized faunas. We identify the diversity dynamics of specialists but not generalists, and origination rates but not extinction rates, as the main drivers of this ecological interdependence. Abiotic factors fail to show any significant relationship with specialization. Our findings suggest that the overall level of specialization and its fluctuations over evolutionary timescales are controlled by diversitydependent processes-driven by interactions between organisms competing for finite resources.

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Sea-level change and rock-record bias in the Cretaceous: a problem for extinction and biodiversity studies

Cited by 202 publications

References 32 publications

Rapid recovery from the Late Ordovician mass extinction

Rapid recovery from the Late Ordovician mass extinction

Encrustation patterns on Late Cretaceous (Turonian) echinoids from southern Poland

Interdependence of specialization and biodiversity in Phanerozoic marine invertebrates

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