Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada. / Gibling, Martin R.; Bashforth, Arden Roy; Falcon-Lang, Howard J.; Allen, Jonathan P.; Fielding, Christopher R.

In: Journal of Sedimentary Research, Vol. 80, No. 3, 2010, p. 268-287.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Gibling, MR, Bashforth, AR, Falcon-Lang, HJ, Allen, JP & Fielding, CR 2010, 'Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada', Journal of Sedimentary Research, vol. 80, no. 3, pp. 268-287. https://doi.org/10.2110/jsr.2010.024

APA

Gibling, M. R., Bashforth, A. R., Falcon-Lang, H. J., Allen, J. P., & Fielding, C. R. (2010). Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada. Journal of Sedimentary Research, 80(3), 268-287. https://doi.org/10.2110/jsr.2010.024

Vancouver

Gibling MR, Bashforth AR, Falcon-Lang HJ, Allen JP, Fielding CR. Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada. Journal of Sedimentary Research. 2010;80(3):268-287. https://doi.org/10.2110/jsr.2010.024

Author

Gibling, Martin R. ; Bashforth, Arden Roy ; Falcon-Lang, Howard J. ; Allen, Jonathan P. ; Fielding, Christopher R. / Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada. In: Journal of Sedimentary Research. 2010 ; Vol. 80, No. 3. pp. 268-287.

Bibtex

@article{aa397880cfa911df825b000ea68e967b,
title = "Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada",
abstract = "Accumulations of logs and flood sediment frequently block modern channels and may trigger avulsion, but these effectsare difficult to demonstrate for the ancient record. Braided-fluvial channels in the Pennsylvanian South Bar Formation of Atlantic Canada contain sandstone successions up to 6 m thick of sigmoidal cross-beds, plane beds, and antidunes, deposited rapidly at highflow-stage. These strata are commonly capped by accumulations up to 2.5 m thick of flattened, coalified logs and coal intraclasts (originally peat fragments), many of which are overlain by mudstone laid down in abandoned channels. The logs include lycopsids, calamiteans, tree ferns, pteridosperms and cordaitaleans, inferred to have grown on inactive braided tracts near the channels. A compaction estimate suggests that one log accumulation was originally more than four times its present thickness. Most accumulations are interpreted as stable {\textquoteleft}{\textquoteleft}transport log jams{\textquoteright}{\textquoteright} formed during floods, although some may have been {\textquoteleft}{\textquoteleft}unstable jams{\textquoteright}{\textquoteright} stranded on bars during peak-flow recession. Associated with the logs are extrabasinal gravel and intraclasts of mudstone and coal, which suggest that floods in sediment-choked channels undercut banks of gravelly sand capped by mud and forested peat, widened the channels, and toppled riparian vegetation. An estimated blockage ratio of 8% for one accumulation (ratio of the cross-sectional areas of the log jam and host channel) is close to the 10% value considered to cause substantial blockage in some modern rivers. In two instances, a radical change in paleoflow between pre- and post-abandonment channels is consistent with an interpretation that log jams and flood sediment buildup promoted channel-belt avulsion. Although large trees had evolved by Middle to Late Devonian times, it is unlikely that riparian plants occurred in stands that were sufficiently dense to exert a major influence on river dynamics until the Pennsylvanian. Thus, we report some of the earliest evidence for the effects of woody debris on ancient fluvial systems.",
author = "Gibling, {Martin R.} and Bashforth, {Arden Roy} and Falcon-Lang, {Howard J.} and Allen, {Jonathan P.} and Fielding, {Christopher R.}",
year = "2010",
doi = "10.2110/jsr.2010.024",
language = "English",
volume = "80",
pages = "268--287",
journal = "Journal of Sedimentary Research",
issn = "1527-1404",
publisher = "Society for Sedimentary Geology (S E P M)",
number = "3",

}

RIS

TY - JOUR

T1 - Log jams and flood sediment buildup caused channel avulsion in the Pennsylvanian of Atlantic Canada

AU - Gibling, Martin R.

AU - Bashforth, Arden Roy

AU - Falcon-Lang, Howard J.

AU - Allen, Jonathan P.

AU - Fielding, Christopher R.

PY - 2010

Y1 - 2010

N2 - Accumulations of logs and flood sediment frequently block modern channels and may trigger avulsion, but these effectsare difficult to demonstrate for the ancient record. Braided-fluvial channels in the Pennsylvanian South Bar Formation of Atlantic Canada contain sandstone successions up to 6 m thick of sigmoidal cross-beds, plane beds, and antidunes, deposited rapidly at highflow-stage. These strata are commonly capped by accumulations up to 2.5 m thick of flattened, coalified logs and coal intraclasts (originally peat fragments), many of which are overlain by mudstone laid down in abandoned channels. The logs include lycopsids, calamiteans, tree ferns, pteridosperms and cordaitaleans, inferred to have grown on inactive braided tracts near the channels. A compaction estimate suggests that one log accumulation was originally more than four times its present thickness. Most accumulations are interpreted as stable ‘‘transport log jams’’ formed during floods, although some may have been ‘‘unstable jams’’ stranded on bars during peak-flow recession. Associated with the logs are extrabasinal gravel and intraclasts of mudstone and coal, which suggest that floods in sediment-choked channels undercut banks of gravelly sand capped by mud and forested peat, widened the channels, and toppled riparian vegetation. An estimated blockage ratio of 8% for one accumulation (ratio of the cross-sectional areas of the log jam and host channel) is close to the 10% value considered to cause substantial blockage in some modern rivers. In two instances, a radical change in paleoflow between pre- and post-abandonment channels is consistent with an interpretation that log jams and flood sediment buildup promoted channel-belt avulsion. Although large trees had evolved by Middle to Late Devonian times, it is unlikely that riparian plants occurred in stands that were sufficiently dense to exert a major influence on river dynamics until the Pennsylvanian. Thus, we report some of the earliest evidence for the effects of woody debris on ancient fluvial systems.

AB - Accumulations of logs and flood sediment frequently block modern channels and may trigger avulsion, but these effectsare difficult to demonstrate for the ancient record. Braided-fluvial channels in the Pennsylvanian South Bar Formation of Atlantic Canada contain sandstone successions up to 6 m thick of sigmoidal cross-beds, plane beds, and antidunes, deposited rapidly at highflow-stage. These strata are commonly capped by accumulations up to 2.5 m thick of flattened, coalified logs and coal intraclasts (originally peat fragments), many of which are overlain by mudstone laid down in abandoned channels. The logs include lycopsids, calamiteans, tree ferns, pteridosperms and cordaitaleans, inferred to have grown on inactive braided tracts near the channels. A compaction estimate suggests that one log accumulation was originally more than four times its present thickness. Most accumulations are interpreted as stable ‘‘transport log jams’’ formed during floods, although some may have been ‘‘unstable jams’’ stranded on bars during peak-flow recession. Associated with the logs are extrabasinal gravel and intraclasts of mudstone and coal, which suggest that floods in sediment-choked channels undercut banks of gravelly sand capped by mud and forested peat, widened the channels, and toppled riparian vegetation. An estimated blockage ratio of 8% for one accumulation (ratio of the cross-sectional areas of the log jam and host channel) is close to the 10% value considered to cause substantial blockage in some modern rivers. In two instances, a radical change in paleoflow between pre- and post-abandonment channels is consistent with an interpretation that log jams and flood sediment buildup promoted channel-belt avulsion. Although large trees had evolved by Middle to Late Devonian times, it is unlikely that riparian plants occurred in stands that were sufficiently dense to exert a major influence on river dynamics until the Pennsylvanian. Thus, we report some of the earliest evidence for the effects of woody debris on ancient fluvial systems.

U2 - 10.2110/jsr.2010.024

DO - 10.2110/jsr.2010.024

M3 - Journal article

VL - 80

SP - 268

EP - 287

JO - Journal of Sedimentary Research

JF - Journal of Sedimentary Research

SN - 1527-1404

IS - 3

ER -

ID: 22336400