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Your search keyword '"JACQUET, SARAH M."' showing total 6 results
Start Over Author "JACQUET, SARAH M." Publisher naturhistoriska riksmuseet, enheten for paleobiologi
6 results on '"JACQUET, SARAH M."'

1. Fossil evidence unveils an early Cambrian origin for Bryozoa

Author

Zhang, Zhiliang, Zhang, Zhifei, Ma, Junye, Taylor, Paul D., Strotz, Luke C., Jacquet, Sarah M., Skovsted, Christian, Chen, Feiyang, Han, Jian, Brock, Glenn, A., Zhang, Zhiliang, Zhang, Zhifei, Ma, Junye, Taylor, Paul D., Strotz, Luke C., Jacquet, Sarah M., Skovsted, Christian, Chen, Feiyang, Han, Jian, and Brock, Glenn, A.

Abstract

Bryozoans (also known as ectoprocts or moss animals) are aquatic, dominantly sessile, filter-feeding lophophorates that construct an organic or calcareous modular colonial (clonal) exoskeleton. The presence of six major orders of bryozoans with advanced polymorphisms in lower Ordovician rocks strongly suggests a Cambrian origin for the largest and most diverse lophophorate phylum. However, a lack of convincing bryozoan fossils from the Cambrian period has hampered resolution of the true origins and character assembly of the earliest members of the group. Here we interpret the millimetric, erect, bilaminate, secondarily phosphatized fossil Protomelission gatehousei from the early Cambrian of Australia and South China as a potential stem-group bryozoan. The monomorphic zooid capsules, modular construction, organic composition and simple linear budding growth geometry represent a mixture of organic Gymnolaemata and biomineralized Stenolaemata character traits, with phylogenetic analyses identifying P. gatehousei as a stem-group bryozoan. This aligns the origin of phylum Bryozoa with all other skeletonized phyla in Cambrian Age 3, pushing back its first occurrence by approximately 35 million years. It also reconciles the fossil record with molecular clock estimations of an early Cambrian origination and subsequent Ordovician radiation of Bryozoa following the acquisition of a carbonate skeleton.

Published
2021
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2. Fossil evidence unveils an early Cambrian origin for Bryozoa

Author

Zhang, Zhiliang, Zhang, Zhifei, Ma, Junye, Taylor, Paul D., Strotz, Luke C., Jacquet, Sarah M., Skovsted, Christian, Chen, Feiyang, Han, Jian, Brock, Glenn, A., Zhang, Zhiliang, Zhang, Zhifei, Ma, Junye, Taylor, Paul D., Strotz, Luke C., Jacquet, Sarah M., Skovsted, Christian, Chen, Feiyang, Han, Jian, and Brock, Glenn, A.

Abstract

Bryozoans (also known as ectoprocts or moss animals) are aquatic, dominantly sessile, filter-feeding lophophorates that construct an organic or calcareous modular colonial (clonal) exoskeleton. The presence of six major orders of bryozoans with advanced polymorphisms in lower Ordovician rocks strongly suggests a Cambrian origin for the largest and most diverse lophophorate phylum. However, a lack of convincing bryozoan fossils from the Cambrian period has hampered resolution of the true origins and character assembly of the earliest members of the group. Here we interpret the millimetric, erect, bilaminate, secondarily phosphatized fossil Protomelission gatehousei from the early Cambrian of Australia and South China as a potential stem-group bryozoan. The monomorphic zooid capsules, modular construction, organic composition and simple linear budding growth geometry represent a mixture of organic Gymnolaemata and biomineralized Stenolaemata character traits, with phylogenetic analyses identifying P. gatehousei as a stem-group bryozoan. This aligns the origin of phylum Bryozoa with all other skeletonized phyla in Cambrian Age 3, pushing back its first occurrence by approximately 35 million years. It also reconciles the fossil record with molecular clock estimations of an early Cambrian origination and subsequent Ordovician radiation of Bryozoa following the acquisition of a carbonate skeleton.

Published
2021
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5. Watsonella crosbyi from the lower Cambrian (Terreneuvian, Stage 2) Normanville Group in South Australia

Author

Jacquet, Sarah, M., Brougham, Thomas, Skovsted, Christian, Jago, James, B., Laurie, John, R., Betts, Marissa, J., Topper, Timothy, P., Brock, Glenn, A., Jacquet, Sarah, M., Brougham, Thomas, Skovsted, Christian, Jago, James, B., Laurie, John, R., Betts, Marissa, J., Topper, Timothy, P., and Brock, Glenn, A.

Abstract

Correlation of lower Cambrian strata is often confounded by provincialism of key fauna. The widespread occurrence of themicromollusc Watsonella crosbyi Grabau, 1900 is therefore an important biostratigraphic signpost with potential for international correlation of lower Cambrian successions. Previous correlations of W. crosbyi from Australia (Normanville Group) suggested an Atdabanian- to Botoman-equivalent age. However, in the upper part of the Mount Terrible Formation, stratigraphic ranges of W. crosbyi and Aldanella sp. cf. golubevi overlap prior to the incoming of vertically burrowed ‘piperock’, which is indicative of an age no earlier than Cambrian Stage 2. The stratigraphic range of W. crosbyi in the Normanville Group, South Australia correlates with the ranges of the taxon in China, France, Mongolia and Siberia (though not Newfoundland). The new Australian data add further support for considering the first occurrence of W. crosbyi a good potential candidate for defining the base of Cambrian Stage 2. The stratigraphic range of W. crosbyi through the lower Cambrian Normanville Group has been determined based on collections from measured sections. Although rare, W. crosbyi is part of an assemblage of micromolluscs including Bemella sp., Parailsanella sp. cf. murenica and a sinistral form of Aldanella (A. sp. cf. A. golubevi). Other fauna present include Australohalkieria sp., Eremactis mawsoni, chancelloriids and Cupitheca sp.

Published
2016
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6. Watsonella crosbyi from the lower Cambrian (Terreneuvian, Stage 2) Normanville Group in South Australia

Author

Jacquet, Sarah, M., Brougham, Thomas, Skovsted, Christian, Jago, James, B., Laurie, John, R., Betts, Marissa, J., Topper, Timothy, P., Brock, Glenn, A., Jacquet, Sarah, M., Brougham, Thomas, Skovsted, Christian, Jago, James, B., Laurie, John, R., Betts, Marissa, J., Topper, Timothy, P., and Brock, Glenn, A.

Abstract

Correlation of lower Cambrian strata is often confounded by provincialism of key fauna. The widespread occurrence of themicromollusc Watsonella crosbyi Grabau, 1900 is therefore an important biostratigraphic signpost with potential for international correlation of lower Cambrian successions. Previous correlations of W. crosbyi from Australia (Normanville Group) suggested an Atdabanian- to Botoman-equivalent age. However, in the upper part of the Mount Terrible Formation, stratigraphic ranges of W. crosbyi and Aldanella sp. cf. golubevi overlap prior to the incoming of vertically burrowed ‘piperock’, which is indicative of an age no earlier than Cambrian Stage 2. The stratigraphic range of W. crosbyi in the Normanville Group, South Australia correlates with the ranges of the taxon in China, France, Mongolia and Siberia (though not Newfoundland). The new Australian data add further support for considering the first occurrence of W. crosbyi a good potential candidate for defining the base of Cambrian Stage 2. The stratigraphic range of W. crosbyi through the lower Cambrian Normanville Group has been determined based on collections from measured sections. Although rare, W. crosbyi is part of an assemblage of micromolluscs including Bemella sp., Parailsanella sp. cf. murenica and a sinistral form of Aldanella (A. sp. cf. A. golubevi). Other fauna present include Australohalkieria sp., Eremactis mawsoni, chancelloriids and Cupitheca sp.

Published
2016
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