Relationships of the Cambrian Protomonaxonida (Porifera)

Botting, Joseph P.; Muir, Lucy A.; Lin, Jih‐Pai

doi:10.26879/339

Cited by 16 publications

(41 citation statements)

References 32 publications

(54 reference statements)

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“…If true, the presence of hexactine-based spicules is not a synapomorphy differentiating hexactinellids from demosponges . Recently, the discovery of possible hexagonal axial canals in hexactine-based spicules of Cyathophycus and the presence of hexactine-based spicules in some members of the order Protomonaxonida (Botting et al, 2014a), which is traditionally regarded as demosponges (Finks et al, 2004), is consistent with the view that hexactine-based spicules may have evolved in stem-group siliceans and subsequently lost in crowngroup demosponges. This new view, however, needs to be tested through a comprehensive cladistic analysis.…”

Section: Discussionsupporting

confidence: 54%

“…Protospongiids are characterized by non-fused stauractine spicules, thus they are easily disarticulated upon death and degradation. The new fossils, along with articulated protospongiids previously reported from lower and middle Cambrian Lagerstätten (Walcott, 1920;Rigby, 1978Rigby, , 1983Rigby and Collins, 2004;Xiao et al, 2005;Rigby et al, 2010), help us to better understand the evolutionary significance of protospongiids (Mehl, 1991) and the early evolution of hexactinellids and siliceans (Botting and Butterfield, 2005;Botting et al, 2012Botting et al, , 2014a.…”

Section: Introductionmentioning

confidence: 73%

“…However, as discussed under the systematic paleontology, the family Protospongiidae currently includes genera with diverse morphologies, some with regularly arranged and ranked stauractines forming regularly nested quadrules, others with irregularly arranged and poorly ranked stauractines forming local sub-quadrules, and still others that may not have quadrules or stauractines (e.g., Quadrolaminiella and Saetaspongia). Thus, although the Protospongiidae has been traditionally classified in the class Hexactinellida (Finks et al, 2004;Carrera and Botting, 2008), it is possible that this family as currently defined may be paraphyletic and may include both hexactinellids and stemgroup siliceans, particularly if hexactine-based spicules are not a unique feature of hexactinellids (Botting and Butterfield, 2005;Botting and Zhang, 2013;Botting et al, 2014a). A more thorough systematic evaluation of this family may result in its breakup into several families.…”

Section: Discussionmentioning

confidence: 99%

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New articulated protospongiid sponges from the early Cambrian Chengjiang biota

et al. 2015

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Section: Discussionsupporting

confidence: 54%

Section: Introductionmentioning

confidence: 73%

Section: Discussionmentioning

confidence: 99%

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New articulated protospongiid sponges from the early Cambrian Chengjiang biota

et al. 2015

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“…In particular, faunas preserved through pyritisation that are now intensively weathered (such as the Chengjiang and Fezouata biotas; Gabbott et al, 2004;Van Roy et al, 2010) would not be expected to yield sufficient detail to describe species-level differences. In contrast, the Burgess Shale complex does preserve remarkable detail of at least the spicule arrangements, and this has led to the recognition of a diverse suite of apparently endemic species, especially in Hazelia (Rigby and Collins, 2004;Botting et al, 2013b). Many of these species are based at least partly on details of the arrangement of the fine spicules, which would be invisible if preserved as weathered pyrite.…”

Section: Discussionmentioning

confidence: 99%

“…In the latter group, the body wall thickness is a significant proportion of the diameter of the sponge, and individual spicules are generally much more robust; this group may include stemgroup hexactinellids and stem-group siliceans. The other groups used in this analysis are protomonaxonids (Group 1 of Botting et al, 2013b, but including the systematically uncertain Xylochos Botting, 2004), demosponges (crown-group; in this study consisting of 'keratosan' groups and anthaspidellid lithistids; Group 2 of Botting et al, 2013b), and heteractinids (presumed stem-group Calcarea and perhaps stem-group Porifera; Botting and Butterfield, 2005). In a few cases, relevant only to the total diversity discussed below, there are sponges that are not easily assignable to one of the above groups at this stage.…”

Section: Methodsmentioning

confidence: 99%

An outline of the distribution and diversity of Porifera in the Ordovician Builth Inlier (Wales, UK)

Muir¹,

Botting

2015

Palaeoworld

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Early Cambrian sponges of the Sirius Passet Biota, North Greenland

Botting

Peel

2016

Papers in Palaeontology

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The Sirius Passet Biota of the Buen Formation in North Greenland is one of the key Burgess Shale‐type faunas, as it represents the only diverse early Cambrian (Stage 2, Series 3) biota from Laurentia. The sponges are one of the major components of the fauna, although they appear to be much less abundant than arthropods, based on the available collections. At least 13 species are described here, including the new taxa Hamptonia limatula sp. nov., Lenica perversa sp. nov., Saetaspongia procera sp. nov., Constellatispongia canismajorii gen. et sp. nov. and Crassicoactum cucumis gen. et sp. nov. An additional new species, Ratcliffespongia freuchenensis sp. nov., is described from the upper part of the Buen Formation. The assemblage is dominated by a major lineage of protomonaxonids, together with rarer reticulosans and demosponges. Some taxa, such as the anthaspidellid lithistid Fieldospongia bellilineata, were previously known only from Laurentian faunas; others, such as Saetospongia densa, Solactiniella cf. plumata and Lenica unica, were previously recognized from South China and/or Siberia. The described assemblage confirms the cosmopolitan distribution of Cambrian sponges generally, and suggests that the differences between Laurentian and Chinese assemblages are due more to a taxonomic overturn during Cambrian Series 2, Stage 4, than to the geographical separation. Furthermore, crown‐group demosponges appear to have occupied shallow‐water (perhaps dominantly platform) environments at this time, and may have been much more diversified and widespread than is currently recognized during the early Cambrian.

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Relationships of the Cambrian Protomonaxonida (Porifera)

Cited by 16 publications

References 32 publications

New articulated protospongiid sponges from the early Cambrian Chengjiang biota

New articulated protospongiid sponges from the early Cambrian Chengjiang biota

An outline of the distribution and diversity of Porifera in the Ordovician Builth Inlier (Wales, UK)

Early Cambrian sponges of the Sirius Passet Biota, North Greenland

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