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Jurassic Sea-Level Variations: A Reappraisal

Bilal U. Haq, Smithsonian Institution, Washington, D.C., 20013; and Institut des Sciences de la Terre, Sorbonne Universités, UPMC,
Paris 75252, France, bhaq@inbox.com

ABSTRACT                                       cyclicity, in the absence of major ice sheets    Jurassic. Climates also paralleled these
                                               in the Jurassic, remains enigmatic.              trends. Faunal and isotopic data imply rela-
  An accurate chronostratigraphy of the                                                         tively warm climates for most of the
timing and magnitude of global sea-level       INTRODUCTION                                     Jurassic, with some exceptions, lacking
trends and their short-term variations is an                                                    credible evidence for widespread glacia-
indispensable tool in high-resolution cor-       A record of sea-level variations of the        tions in much of this period. However, the
relations, exploration, and paleoenviron-      past inferred from the stratigraphy of con-      relative warmth of the Hettangian through
mental and geodynamic models. This             tinental margins and interior basins (where      Toarcian interval seems to have been inter-
paper is a reappraisal of the Jurassic sea-    the movements of the shoreline can be best       rupted by a cooler late Pliensbachian
level history in view of recent updates in     documented) is a key predictive tool in          through early Toarcian (Hinnov and Park,
time scales and a large body of new chro-      hydrocarbon exploration. These data can          1999; Dera et al., 2009; Suan et al., 2010;
nostratigraphic data accrued since 1998,       provide insights into several pre-drill          Korte and Hesselbo, 2011; Korte et al.,
when the last such synthesis was pre-          assessment criteria, including the migra-        2015). Korte and Hesselbo (2011) believe
sented. A review of the Jurassic sea-level     tion of reservoir facies in response to rises    that the Early Jurassic may have fluctuated
history has also been keenly awaited by        and falls of sea level, the frequency and        between greenhouse and icehouse condi-
explorationists given that the Jurassic con-   duration of subaerial exposure during low-       tions. There may also have been some
tinues to be a major exploration target for    stands, and the generation and preservation      cooler intervals in the Aalenian, Bajocian,
the industry. As in previous eustatic mod-     of source rocks during transgressions and        Bathonian, and early Callovian (Rogov
els of this period, the updated Jurassic sea-  highstands. The broad trends in Jurassic         and Zakharov, 2010), as well as a cold spell
level curve remains largely Eurocentric        sea-level variations have been known for         near the Middle–Late Jurassic transition
due to the limitations imposed by biostrati-   some time (Vail et al., 1977; Hallam, 1978,      (in the late Callovian) (Dromart et al.,
graphic correlation criteria (provinciality    2001; Haq et al., 1987, 1988; Hardenbol et       2003). Most of the Late Jurassic is inter-
of ammonite and microfossil zones),            al., 1998; Haq and Al-Qahtani, 2005), but        preted to have been relatively warmer and
though it can now be extended to some          recent updates of time scales and the            equable, experiencing peak warmth in the
parts of the Tethys toward the east. The       accrual of new stratigraphic data from the       Kimmeridgian (Frakes et al., 1992;
updated long-term curve indicates that         period dictate a reappraisal of Jurassic         Zakharov et al., 2006; Brigaud et al.,
there was a general rise of sea level          eustatic history, especially at the third-order  2008). Although actual global tempera-
through the Jurassic that began close to a     (shorter-term) time scales. A reappraisal        tures and atmospheric or oceanic latitudi-
level similar to or below the present-day      of the long- and short-term trends of            nal thermal gradients of the Jurassic are
mean sea level (pdmsl) in the early            the base level would also be useful for          only conjectured, modeling indicates that
Jurassic, culminating in the peak high in      academic research because such informa-          pCO2 levels may have been a minimum of
the late Kimmeridgian–early Tithonian          tion can be the basis of stratigraphic,          four times the present-day levels (see, e.g.,
interval, before stabilizing in the earliest   paleo­ environmental, and geodynamic             Sellwood and Valdes, 2008). The long-
Cretaceous at ~110 m above pdmsl. Within       models. In this communication, a brief           term sea level and climatic trends also
this long-term trend are relative second-      summary of the updated version of the            show an apparent correspondence.
order highs in the Toarcian and Aalenian,      Jurassic sea-level history is presented so
and at Bathonian-Callovian and                 that it can be expediently made available to     JURASSIC TIME SCALE
Kimmeridgian-Oxfordian boundaries.             the research community.
Superimposed are 64 third- and fourth-                                                            Jurassic time scales have been in a sig-
order fluctuations of which 15 are consid-       The Jurassic period is currently esti-         nificant state of flux since the last third-
ered major with base-level falls of more       mated to have lasted some 55.6 m.y.              order sea-level curve for this period was
than 75 m, although precise amplitudes of      (201.3–145.7 Ma) (Ogg et al., 2016). The         published by Haq et al. (1988) or the later
drawdowns are often difficult to establish.    period saw relatively low sea levels in the      update by Hardenbol et al. (1998).
Higher resolution fourth-order cyclicity       Early Jurassic, with the exception of the        Considerable advancements have been
(~410 k.y.) is also observable in many         early Toarcian, which witnessed a relative       made to better delimit the stage boundaries
Jurassic sections whenever sedimentation       high, a variable overall lowstand in the         of the Jurassic, and the most recent effort
rates were high. Causes for the third-order    Middle Jurassic, and a gradual rise there­       to update this time scale was presented by
                                               after that lasted through much of the Late

     GSA Today, v. 28, no. 1, doi: 10.1130/GSATG359A.1. Copyright 2017, The Geological Society of America. CC-BY-NC.

4 GSA Today | January 2018
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