Lau event

Lau event

The Lau event was the last of three [ The Ireviken event and Mulde event, other late Silurian extinction events, were both closely followed by isotopic excursions as was the Lau event.] relatively minor mass extinctions during the Silurian period, having a major effect on the conodont fauna (but barely scathing the graptolites). It coincided with a global low point in sea level, is closely followed by an excursion in geochemical isotopes in the ensuing late Ludfordian faunal stage and a change in depositional regime. (Loydell 2007)

Biotic impact

The Lau event started at the beginning of the late Ludfordian, a subdivision of the Ludlow stage, about Ma|420. Its strata are best exposed in Gotland, Sweden, taking its name from the parish of Lau. Its base is set at the first extinction datum, in the Eke beds, and despite a paucity of data, it is apparent that most major groups suffered an increase in extinction rate during the event; major biotal changes are observed worldwide at correlated rocks, with a "crisis" observed in populations of conodonts and graptolites (Urbanek 1993). More precisely, conodonts suffered in the Lau event, and graptolites in the subsequent isotopic excursion (Loydell 2007). Local extinctions may have played a role in many places, especially the increasingly enclosed Welsh basin; the event's relatively high severity rating of 6.2 (Jeppsson 1998) does not bely the fact that many taxa became re-established shortly after the event, presumably surviving in refugia or in environments that have not been preserved in the geological record. Despite taxa persisting, community structure was permanently altered by the event, with many taxa failing to regain the niches lost in the event (Jeppsson & Aldridge 2000).

Isotopic effects

A peak in delta|13|C, accompanied by fluctuations in other isotope concentrations, is often associated with mass extinctions. Some workers have attempted to explain this event in terms of climate or sea level change — perhaps arising due to a build-up of glaciers (Lehnert "et al". 2006); however, such factors alone do not appear to be sufficient to explain the events (Sambleten "et al". 1996). An alternative hypothesis is that changes in ocean mixing were responsible. An increase in density is required to make water downwell; the cause of this densification may have changed from hypersalinity (due to ice formation and evaporation) to temperature (due to water cooling) (Jeppsson & Aldridge 2000).

However, the delta|13|C curve slightly lags conodont extinctions - hence the two events may not represent the same thing. Hence the term 'Lau event' is used solely for the extinction, not the following isotopic activity, which is named after the time period in which it occurs (Loydell 2007).

Loydell (2007) suggests many causes of the isotopic excursion, including increased carbon burial, increased carbonate weathering, changes in atmospheric and oceanic interactions, changes in primary production, and changes in humidity or aridity. He uses a correlation between the events and glacially-induced global sea level change to suggest that carbonate weathering is the major player, with other factors playing a less significant role.

edimentological impact

Profound sedimentary changes occurred at the beginning of the Lau event; these are probably associated with the onset of sea level rise, which continued through the event, reaching a high point at the time of deposition of the Burgsvik beds, after the event (Calner 2006).

These changes appear to display anachronism, marked by an increase in erosional surfaces and the return of flat-pebbled conglomerates in the Eke beds. This is further evidence of a major blow to ecosystems of the time — such deposits can only form in conditions similar to those of the early Cambrian period, when life as we know it was only just becoming established. Indeed, stromatolites, which rarely form in the presence of abundant higher life forms, are observed during the Lau event and, occasionally, in the overlying Burgsvik beds (Calner 2005); microbial colonies of "Rothpletzella" and "Wetheredella" become abundant. This suite of characteristics is common to the larger end-Ordovician and end-Permian extinctions.

Notes

References

*cite journal
author = Calner, M.
year = 2005
date = 2005-04-01
title = A Late Silurian extinction event and anachronistic period
journal = Geology
volume = 33
issue = 4
pages = 305–308
issn =
doi = 10.1130/G21185.1
url = http://geology.geoscienceworld.org/cgi/content/abstract/33/4/305

*cite journal
author = Calner, M.
coauthors = Eriksson, M.J.
year = 2006
title = Evidence for rapid environmental changes in low latitudes during the Late Silurian Lau Event: the Burgen-1 drillcore, Gotland, Sweden
journal = Geological Magazine
volume = 143
issue = 01
pages = 15–24
doi = 10.1017/S001675680500169X
url = http://journals.cambridge.org/abstract_S001675680500169X
accessdate = 2007-06-30

*cite book
author = Jeppsson, L.
year = 1998
chapter = Silurian oceanic events: summary of general characteristics
title = Silurian Cycles: Linkages of Dynamic Stratigraphy with Atmospheric, Oceanic and Tectonic Changes. James Hall Centennial Volume. New York State Museum Bulletin
volume = 491
editors = Landing, E.; Johnson, M.E.
pages = 239-257

*cite journal
author = Jeppsson, Lennart
coauthors = Aldridge, Richard J.
date = 2000-11-01
title = Ludlow (late Silurian) oceanic episodes and events
journal = Journal of the Geological Society
volume = 157
issue = 6
pages = 1137
issn =
doi =
url = http://jgs.geoscienceworld.org/cgi/content/abstract/157/6/1137
accessdate = 2007-06-26

*DAVID K. LOYDELL. 2007. [http://download.interscience.wiley.com/cgi-bin/fulltext?ID=114285992&PLACEBO=IE.pdf&mode=pdf Early Silurian positive d13C excursions and their relationship to glaciations, sea-level changes and extinction events] . Geol. J. 42: 531–546 (2007) doi:10.1002/gj.1090

*cite conference
author = Lehnert, O.
coauthors = Joachimski, M.M.; Fryda, J.; Buggisch, W.; Calner, M.; Jeppsson, L.; Eriksson, M.E.
year = 2006
title = The Ludlow Lau Event-another Glaciation In The Silurian Greenhouse?
conference = 2006 Philadelphia Annual Meeting
booktitle = Geological Society of America Abstracts with Programs
volume = 38
number = 7
pages = 183
issn =
doi =
url = http://gsa.confex.com/gsa/2006AM/finalprogram/abstract_113842.htm
accessdate = 2007-06-26

*cite journal
author = Samtleben, C.
coauthors = Munnecke, A.; Bickert, T.; Pätzold, J.
year = 1996
title = The Silurian of Gotland (Sweden): facies interpretation based on stable isotopes in brachiopod shells
journal = International Journal of Earth Sciences
volume = 85
issue = 2
pages = 278–292
issn =
doi =
url = http://www.springerlink.com/index/E6857763723729P2.pdf
accessdate = 2007-06-26

*cite journal
author = Urbanek, A.
year = 1993
title = Biotic crises in the history of Upper Silurian graptoloids: a palaeobiological model
journal = Historical Biology

volume = 7
pages = 29–50
issn =
doi =


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