The Waukesha Biota (also known as Waukesha Lagerstätte, Brandon Bridge Lagerstätte, or Brandon Bridge fauna) is an important fossil site located in Waukesha County and Franklin, Milwaukee County within the state of Wisconsin. This biota is preserved in certain strata within the Brandon Bridge Formation, which dates to the early Silurian period.[1] It is known for the exceptional preservation of soft-bodied organisms, including many species found nowhere else in rocks of similar age.[2] The site's discovery was announced in 1985, leading to a plethora of discoveries.[1][2][3] This biota is one of the few well studied Lagerstätten (exceptional fossil sites) from the Silurian, making it important in our understanding of the period's biodiversity.[1][2] Some of the species are not easily classified into known animal groups, showing that much research remains to be done on this site.[1][3] Other taxa that are normally common in Silurian deposits are rare here, but trilobites are quite common.[3]
Waukesha Biota | |
---|---|
Stratigraphic range: Telychian-Sheinwoodian ~ | |
Type | Konservat-Lagerstätte |
Unit of | Brandon Bridge Formation |
Area | Two quarries 32 km (20 mi) apart |
Thickness | 12 cm (4.7 in) |
Lithology | |
Primary | Finely laminated interbedded mudstone |
Other | Dolomite |
Location | |
Coordinates | 43°00′42″N 88°13′54″W / 43.01167°N 88.23167°W |
Region | Waukesha County and Franklin, Milwaukee County, Wisconsin |
Country | United States |
Extent | Very localized |
Type section | |
Named for | Waukesha County, Wisconsin; not to be confused with the Waukesha Formation, which overlies the Brandon Bridge Formation |
History and significance
editThe discovery of the Waukesha Biota was first published in 1985 by paleontologists D. G. Mikulic, D. E. G. Briggs, and Joanne Kluessendorf.[1] At the time this site was one of only several known that preserved soft-body parts in fossils. Examples of other sites of this type known at the time were the famous Cambrian aged Burgess shale in British Columbia, and the Carboniferous aged Mazon Creek fossil beds in northern Illinois. This was the only one of its kind known from the Silurian, meaning it was instrumental in the study of early Paleozoic soft-bodied organisms. Since then other Lagerstätten from the Silurian (like the Eramosa lagerstatte) have been found, but none have the same faunal diversity that the Waukesha Biota has.[1][4][3] The exceptional preservation of the fossils of the Waukesha Biota thus provides a window to a significant portion of Silurian life that otherwise may have been undetected and therefore unknown to science.[3]
Stratigraphy and depositional environment
editMost of the Waukesha Biota is preserved within a 12 cm (4.7 in) layer of thinly-laminated, fine-grained, shallow marine sediments of the Brandon Bridge Formation consisting of mudstone and dolomite deposited in a sedimentary trap at the end of an erosional scarp over the eroded dolomites of the Schoolcraft and Burnt Bluff Formations. A separate thin bed containing the biota is also present about 60 cm (24 in) above the 12 cm (4.7 in) interval. Fossils of unambiguous, fully terrestrial organisms are lacking from the Waukesha Biota.[1][5] Most of the Waukesha Biota fossils were found at a quarry in Waukesha County, Wisconsin, owned and operated by the Waukesha Lime and Stone Company. Other fossils were collected from a quarry in Franklin, Milwaukee County, owned and operated by Franklin Aggregate Inc. That quarry lies 32 km (20 mi) south of the quarry in Waukesha. The Franklin fossils were from blasted material apparently originating from a horizon and setting equivalent to that of the Waukesha site. Its biota is similar to that from the Waukesha site, except that it lacks trilobites.[3]
Taphonomy
editTaphonomy is the study of how organisms decay and become fossilized or preserved in the paleontological record. The taphonomy of the Waukesha Biota is unusual in preserving few of the kinds of animals that typically dominate the Silurian fossil record, including in other strata of the same two quarries. Fossils of corals, echinoderms, brachiopods, bryozoans, gastropods, bivalves, and cephalopods are rare or absent from the Waukesha Biota, although trilobites are diverse and common.[1][3] This is because of the preservation bias this site has where soft bodied and lightly skeletonized organisms preserve more often than hard shelled organisms.[1] The complete opposite when compared to the taphonomy of most other fossil sites.[3]
The exceptional preservation of non-biomineralized and lightly sclerotized remains of the Waukesha Biota is generally attributed to a combination of favorable conditions, including the transportation of the organisms to a sediment trap that was hostile to scavengers but favorable to the production of organic films that coated the surfaces of the dead organisms, which inhibited decay, sometimes enhanced by promoting precipitation of a thin phosphatic coating, which is observed on many of the fossils.[1][2][6][7][5][3]
Biota
editAlga
editOne genus of dasycladalean alga is known from the lagerstätte.[8]
Alga | ||||||
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Genus | Phylum | Higher taxon | Abundance | Notes | Images | |
Jimaodanus | Alga | Dasycladales | A genus of dasycladalean alga of the family Triploporellaceae. This genus is notable for showing that dasycladalean algae underwent a massive radiation during the early Paleozoic. Originally named as Heterocladus.[9] |
Hemichordata
editMany of the hemichordates are members of the group Graptolithina.[10][11][12]
Hemichordata | ||||||
---|---|---|---|---|---|---|
Genus | Phylum | Higher taxon | Abundance | Notes | Images | |
Desmograptus | Hemichordata | Graptolithina | A graptolite of the order Dendroidea that is characterized by its unique branching pattern and conical rhabdosomes. | |||
Dictyonema | Hemichordata | Graptolithina | A graptolite of the order Dendroidea. These colonial organisms are characterized by a conical, net-like structure. The colonies (known as rhabdosomes) are branched and may vary from almost discoidal to almost cylindrical. They were stationary planktonic suspension feeders. | |||
Oktavites | Hemichordata | Graptolithina | A graptolite of the order Bireclinata that formed a spiral-like pattern. | |||
Thallograptus? | Hemichordata | Graptolithina | A graptolite of the order Dendroidea that formed branching structures, and often incrusted other organisms. |
Porifera
editPoriferans, also known as sea sponges, are rare in this locality, with only one specimen known.[13]
Porifera | ||||||
---|---|---|---|---|---|---|
Genus / Taxon | Phylum | Higher taxon | Abundance | Notes | Images | |
To be determined | Porifera | To be determined | 1 specimen (known as UWGM 3126) | One specimen of a poriferan, or sea sponge, has been found in this locality. It has a mesh-like skeleton consisting of longitudinal strands. These characteristics suggest a possible placement with either the vauxiids or the anthaspidellids. |
Cnidaria
editThe cnidarians of the site are mainly represented by conulariids, but coral are also known.[11]
Cnidaria | ||||||
---|---|---|---|---|---|---|
Genus / Taxon | Phylum | Higher taxon | Abundance | Notes | Images | |
Metaconularia | Cnidaria | Staurozoa | A genus of conulariid, which are a somewhat enigmatic group that are now considered possible members of the group Staurozoa.
In this image, figures A and B show specimens of Metaconularia. |
|||
Conularia | Cnidaria | Staurozoa | Conularia is the type genus of the conulariid group, and the main species found at this site is Conularia niagarensis. | |||
Sphenothallus | Cnidaria | Staurozoa | A problematic genus lately attributed to the holdfasts (attachment points) of conulariids. This fossil is found throughout rocks of the Paleozoic. | |||
Tabulata | Cnidaria | Anthozoa | Fossils of undetermined tabulate corals are rare in this biota, but their poor preservation prevents precise identification. |
Echinodermata
editEchinoderm fossils are rare at the site, but crinoids have been found here.[11]
Echinodermata | ||||||
---|---|---|---|---|---|---|
Genus / Taxon | Phylum | Higher taxon | Abundance | Notes | Images | |
Crinoidea | Echinodermata | Crinozoa | Crinoid fossils are rare at the site, but at least one complete decalcified specimen is known from the site. |
Brachiopoda
editLike many of the hard shelled organisms known from this site, the brachiopods found here are poorly preserved and rare.[11][12]
Brachiopoda | ||||||
---|---|---|---|---|---|---|
Genus / Taxon | Phylum | Higher taxon | Abundance | Notes | Images | |
Rhynchonellida | Brachiopoda | Rhynchonellida | Fossils of articulate brachiopods that have been found at the site have been tentatively assigned to the still living group Rhynchonellida. | |||
Orbiculoidea | Brachiopoda | Lingulida | Inarticulate brachiopods from this site have been confidentially assigned to the genus Orbiculoidea. |
Cephalopoda
editNormally common in Silurian deposits, nautiloid cephalopods are known from only a handful of specimens from the Waukesha biota.[11][12][14]
Cephalopoda | ||||||
---|---|---|---|---|---|---|
Genus | Phylum | Higher taxon | Abundance | Notes | Images | |
To be determined | Mollusca | Kionoceratinae | A cephalopod shell found at the site has been interpreted as belonging to the family Kionoceratinae based on its structure and appearance. | |||
To be determined | Mollusca | To be determined | Another cephalopod shell is known, but due to it being an internal mold, and being poorly preserved, it has been not assigned to any specific families. |
"Worms"
editMultiple soft bodied fossils of "worms" and other vermiform animals are known from the site.[12][11]
"Worms" | ||||||
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Genus | Phylum | Higher taxon | Abundance | Notes | Images | |
To be determined | Annelida | Polychaeta | Many fossils of multiple polychaete worms are known from the site, and represent many different groups. Some fossils represent members of the family Aphroditidae, and others have bodies covered in spines. | |||
To be determined | Palaeoscolecida | To be determined | Specimens of vermiform nature from the site have been found and interpreted as members of the palaeoscolecida grouping (which were extinct ecdysozoan worms resembling armoured priapulids). These are some of the most common worms from this locality, with up to 30 fossils known. | |||
To be determined | Lobopodia | To be determined | Lobopodians are not "traditional" worms, but are instead panarthropods with stubby legs. Some of these fossils were at one point attributed to myriapods. Over 40 specimens are known, which show that the animal was around 4 cm long, and possessed short legs. Based on known fossil material, it seems that there are multiple different species known. | |||
To be determined | Uncertain | Cycloneuralia | At least one specimen | An annulated worm. It was thought that it might represent a leech, which if true would make this specimen the earliest known leech in the fossil record, although available characters are limited so it is hard to identify.[15] Shcherbakov et al. (2020) considered it to be a cycloneuralian, possibly a member of the family Ancalagonidae.[16] The specimen was found with a circular structure at one end interpreted as a sucker; however, Braddy, Gass & Tessler (2023) reinterpreted the purported suckered end as a breakage, and consider the specimen to be a molt of a member of Cycloneuralia of uncertain affinities, possibly a priapulid.[17] Its large size, at up to 24-mm wide suggests a predatory lifestyle.[13] |
Arthropoda
editArthropods dominate the fauna of the Waukesha biota in both number of specimens and diversity. A wide variety including crustaceans, trilobites, chelicerates, and less familiar groups like thylacocephalans, cheloniellids and marrellomorphs are known. Also found are enigmatic arthropods whose taxonomy has puzzled paleontologists since the sites discovery.[14][11][12]
Arthropoda | ||||||
---|---|---|---|---|---|---|
Genus | Phylum | Higher taxon | Abundance | Notes | Images | |
Waukeshaaspis | Arthropoda | Trilobita | Waukeshaaspis eatonae is a dalmanitid trilobite commonly found with its dorsal exoskeleton intact. It is sometimes seen in such large numbers that they cover immense surfaces of sediments. It is one of the most abundant arthropods from the site. Other trilobite taxa found in this biota include: Stenopareia, Meroperix, Leonaspis, Scotoharpes, Arctinurus, Distyrax, a calymenid, a phacopid, an otarionid, a cheirurid, and a proetid. | |||
To be determined | Arthropoda | Cheloniellida | A fossil of a possible cheloniellid (a group of arthropods close to trilobites) has been found in the Waukesha biota. This and other fossils were given the name of "Latromirus tridens" in 2014, but the name was not accepted by the ICZN due to its naming not complying with its guidelines. Later on, all but one of those fossils were reassigned to unrelated genera from this site, leaving only one fossil (UWGM 2439) as a possible cheloniellid. | |||
Ceratiocaris | Arthropoda | Phyllocarida | Phyllocarids are a group of primitive crustaceans that first appeared in the Cambrian period and survived to the present day.[18] Three species of phyllocarids are part of the Waukesha Biota, consisting of Ceratiocaris macroura, C. papilio, and C. pusilla. Although these bivalved crustaceans are not new to science, their fossils preserve the delicate appendages and further show the diversity of the lightly biomineralized fossils of the Waukesha Biota.[19] | |||
Multiple species | Arthropoda | Leperditicopida | The most abundant arthropods from this site are unnamed leperditicopids that are often preserved as splayed valves. At least two species are present, with the larger of the two reaching about 12-mm in length. | |||
Venustulus | Arthropoda | Chelicerata | Eight specimens | Venustulus is a genus of synziphosurine, a paraphyletic group of fossil chelicerate arthropods. Venustulus was regarded as part of the clade Prosomapoda. This arthropod appears to be blind due to the lack of eyes on its carapace, suggesting it lived either in deep water or buried in the sediments. Unlike modern horseshoe crabs, the prosomal appendages of Venustulus covered less of the total carapace length. The animal's carapace is semi-circular in shape and has a procurved posterior area. | ||
To be determined | Arthropoda | Chelicerata | There is another possible synziphosurine known from these deposits, but because of the fragmentary state of the remains, they cannot be confidently described as a separate genus from Venustulus. | |||
Thylacares | Arthropoda | Thylacocephala | Six specimens | Thylacares is a genus of thylacocephalan (a grouping of primitive mandibulate arthropods) that most likely lived as a nektonic predator. This animal shares many features with other thylacocephalans (like raptorial appendages, a bivalved carapace, and compound eyes). Thylacares means "Small pouch" in reference to the small eyes and stomach seen in the species. The species' trunk is composed of about 22 segments. Originally this genus was thought to have been the oldest known thylacocephalan. | ||
To be determined | Arthropoda | Incertae sedis | At least one specimen
(UWGM 2450) |
A rare vermiform arthropod is known from the biota. It is around 10 cm in length, and possesses a pair of antenniform appendages on its head. | ||
Acheronauta | Arthropoda | Mandibulata | Twenty-three specimens | Acheronauta is a vermiform arthropod that has a multisegmented trunk region, a cephalic carapace, raptorial appendages, a pair of antennae, and two compound eyes. This animal was interpreted as a sister taxa to the thylacocephalans. Acheronauta has also been assessed as a possible basal mandibulate, which are distinguished from other arthropods due to the presence of mandibles. While its specific placement in the mandibulate family tree has not been fully known, it is accepted to occupy a position near the base of the grouping. | ||
To be determined | Arthropoda | Myriapoda? | There are several arthropod fossils known from the biota that have been questionably assigned as myriapods (the grouping including centipedes and millipedes). If the fossils do turn out to be myriapods, then it would make them the first known terrestrial fossils from the site. | |||
Parioscorpio | Arthropoda | incertae sedis | Parioscorpio is an enigmatic arthropod from this site that has stirred up scientific debate since it was first discovered in 1985, decades before it was named. The groups that this creature has been included in are (remipedia, branchiopoda, cheloniellida, and arachnida). This creature's name stems from its initial description in 2020 when it was described as a primitive scorpion. The animal reached a length of around 1.6–4.5 cm (0.63–1.77 in) long. It is characterized by a trapezoidal head with a pair of eyes located antero-medially, a pair of enlarged raptorial appendages (previously thought to be scorpion's clawed pedipalps), as well as another pair of small appendages. Central to the head was a mouth-covering hypostome and a pair of muscular blocks articulated to the raptorial appendages. Based on its gnathobases, it seems that it hunted prey like trilobites and worms.[13] | |||
To be determined | Arthropoda | Marrellomorpha | In 2015, paleontologists announced the discovery of a marrelomorph, a bizarre grouping of arthropods that first originated in the Cambrian whose taxonomic relationships are currently uncertain, from the biota. About five specimens are known with each having a varying level of completion, with some preserving the cephalic and trunk regions of the body. Certain characteristics of the fossils suggest a possible relation with "Furca mauretanica" from the Fezouata biota in Morocco. Appendages are rare, but some of the specimens seem to preserve antennae and trunk appendages. | |||
To be determined | Arthropoda | incertae sedis | One of the more mysterious organisms from this site is a currently unnamed bivalved arthropod. This creature has been given the nickname of the "Butterfly animal" by some subsequent studies on the sites fauna.[14] This is due to the appearance this creature has to the completely unrelated lepidopteran insects. The largest known specimens have a width of around 20 centimeters (7.8 inches) in width. One of the more supported hypotheses that paleontologists have made on this arthropod's taxonomy is that it is some kind of crustacean, with some suggesting it could be related to phyllocarids, but whether these similarities are just superficial is still being studied.[12] Most specimens known preserve the "Open-valve position", but one specimen does preserve the lateral view.[13] |
Chordata
editMultiple chordate fossils (possibly belonging to conodonts) are known from this site.[14][12]
Chordata | ||||||
---|---|---|---|---|---|---|
Genus | Phylum | Higher taxon | Abundance | Notes | Images | |
Panderodus | Chordata | Conodonta | A bedding plane assemblage of Panderodus conodont elements and associated soft tissues including myomeres was found in the Waukesha Biota. Grooves on the elements were suggested to possibly accommodate the flow of venom, but this function is not supported by other evidence. At the time of its discovery, the Waukesha Biota was only the second occurrence known to produce the soft parts of a conodont. The fossil belonged to the species P. unicostatus, and revealed that this species was most likely a macrophagous predator. | |||
To be determined | Chordata | Conodonta? | Numerous, well-preserved chordate fossils that may also be conodont animals were later found in the Waukesha Biota at Franklin Quarry. |
See also
edit- Eramosa lagerstätte, a middle Silurian aged lagerstätte in Ontario, Canada
- Soom Shale lagerstätte, an Upper Ordovician aged lagerstätte in South Africa
References
edit- ^ a b c d e f g h i j Mikulic, Donald G.; Briggs, D.E.G.; Kluessendorf, Joanne (1985). "A new exceptionally preserved biota from the Lower Silurian of Wisconsin, U.S.A." Philosophical Transactions of the Royal Society of London B. 311 (1148): 75–85. Bibcode:1985RSPTB.311...75M. doi:10.1098/rstb.1985.0140. JSTOR 2396972.
- ^ a b c d Jones, Wade T.; Feldman, Rodney M.; Schweitzer, Carrie E. (2015). "Ceratiocaris from the Silurian Waukesha Biota, Wisconsin". Journal of Paleontology. 89 (6): 1007–1021. doi:10.1017/jpa.2016.22. S2CID 131127241.
- ^ a b c d e f g h i Wendruff, Andrew J.; Babcock, Loren E.; Kluessendorf, Joanne; Mikulic, Donald G. (2020). "Paleobiology and Taphonomy of exceptionally preserved organisms from the Waukesha Biota (Silurian), Wisconsin, USA". Palaeogeography, Palaeoclimatology, Palaeoecology. 546: 109631. Bibcode:2020PPP...54609631W. doi:10.1016/j.palaeo.2020.109631. S2CID 212824469.
- ^ Kluessendorf, Joanne (1994). "Predictability of Silurian Fossil-Konservat-Lagerstätten in North America". Lethaia. 27 (4): 337–344. doi:10.1111/j.1502-3931.1994.tb01584.x.
- ^ a b Wendruff, Andrew J.; Babcock, Loren E.; Wirkner, Christian S.; Kluessendorf, Joanne; Mikulic, Donald G. (2020). "A Silurian ancestral scorpion with fossilised internal anatomy illustrating a pathway to arachnid terrestrialisation". Scientific Reports. 10 (14): 14. Bibcode:2020NatSR..10...14W. doi:10.1038/s41598-019-56010-z. PMC 6965631. PMID 31949185.
- ^ Moore, Rachel A.; Briggs, D.E.G.; Braddy, Simon J.; Anderson, Lyall I.; Mikulic, Donald G.; Kluessendorf, Joanne (2005). "A new synziphosurine (Chelicerata: Xiphosura) from the Late Llandovery (Silurian) Waukesha Lagerstätte, Wisconsin, USA". Journal of Paleontology. 79 (2): 242–250. doi:10.1666/0022-3360(2005)079<0242:ANSCXF>2.0.CO;2. S2CID 56570105.
- ^ Wilson, H.M.; Briggs, D.E.G.; Mikulic, Donald G.; Kluessendorf, Joanne (2004). Affinities of the Lower Silurian Waukesha 'Myriapod'. 2004 annual meeting of the Geological Society of America.
- ^ LoDuca, S.T.; Kluessendorf, J.; Mikulic, D.G. (2003). "A new noncalcified dasycladalean alga from the Silurian of Wisconsin". Journal of Paleontology. 77 (6): 1152–1158. doi:10.1666/0022-3360(2003)077<1152:ANNDAF>2.0.CO;2. S2CID 130113745.
- ^ Huang, Pu (2024-05-27). "Jimaodanus, a replacement name for the algal genus Heterocladus LoDuca, Kluessendorf, and Mikulic, 2003". Journal of Paleontology: 1–2. doi:10.1017/jpa.2024.19. ISSN 0022-3360.
- ^ Mitchell, Charles E.; Michael J. Melchin; Chris B. Cameron; Jörg Maletz (2012). "Phylogenetic analysis reveals that Rhabdopleura is an extant graptolite". Lethaia. 46: 34–56. doi:10.1111/j.1502-3931.2012.00319.x. ISSN 0024-1164.
- ^ a b c d e f g Wendruff, A.J.; Babcock, L.E.; Kluessendorf, J.; Mikulic, D.G. (2020). "Paleobiology and Taphonomy of exceptionally preserved organisms from the Waukesha Biota (Silurian), Wisconsin, USA". Palaeogeography, Palaeoclimatology, Palaeoecology. 546: 109631. Bibcode:2020PPP...546j9631W. doi:10.1016/j.palaeo.2020.109631. S2CID 212824469.
- ^ a b c d e f g Mikulic, D.G.; Briggs, D.E.G.; Kluessendorf, J. (1985). "A new exceptionally preserved biota from the Lower Silurian of Wisconsin, U.S.A." Philosophical Transactions of the Royal Society of London B. 311 (1148): 75–85. Bibcode:1985RSPTB.311...75M. doi:10.1098/rstb.1985.0140.
- ^ a b c d Gass, Kenneth C.; Braddy, Simon J. (2023). "The Waukesha Biota: a wonderful window into early Silurian life". Geology Today. 39 (5): 169–176. doi:10.1111/gto.12447. ISSN 0266-6979.
- ^ a b c d Meyer, Ronald C.; Gunderson, Gerald O. (November 1, 1986). "Discovering a New Silurian Soft-Bodied Fauna". Rocks & Minerals. 61 (6): 310–319. doi:10.1080/00357529.1986.11768462. ISSN 0035-7529.
- ^ Prevec, Rosemary; Nel, André; Day, Michael O.; Muir, Robert A.; Matiwane, Aviwe; Kirkaldy, Abigail P.; Moyo, Sydney; Staniczek, Arnold; Cariglino, Bárbara; Maseko, Zolile; Kom, Nokuthula; Rubidge, Bruce S.; Garrouste, Romain; Holland, Alexandra; Barber-James, Helen M. (2022-10-30). "South African Lagerstätte reveals middle Permian Gondwanan lakeshore ecosystem in exquisite detail". Communications Biology. 5 (1): 1154. doi:10.1038/s42003-022-04132-y. ISSN 2399-3642. PMC 9618562. PMID 36310243.
- ^ Shcherbakov, Dmitry; Tarmo, Timm; Tzetlin, Alexander B.; Vinn, Olev; Zhuravlev, Andrey (2020). "A probable oligochaete from an Early Triassic Lagerstätte of the southern Cis-Urals and its evolutionary implications". Acta Palaeontologica Polonica. 65 (2): 219–233. doi:10.4202/app.00704.2019. S2CID 219097612.
- ^ Braddy, Simon J.; Gass, Kenneth C.; Tessler, Michael (2023). "Not the first leech: An unusual worm from the early Silurian of Wisconsin". Journal of Paleontology. 97 (4): 799–804. doi:10.1017/jpa.2023.47.
- ^ P. J. F. Davie (2001). "Subclass: Phyllocarida, Introduction". Crustacea: Malacostraca: Phyllocarida, Hoplocarida, Eucarida (Part 1). Zoological catalogue of Australia. Vol. 19.3A. CSIRO Publishing. p. 24. ISBN 978-0-643-06791-2.
- ^ Jones, W.T.; Feldman, R.M.; Schweitzer, C.E. (2015). "Ceratiocaris from the Silurian Waukesha Biota, Wisconsin". Journal of Paleontology. 89 (6): 1007–1021. doi:10.1017/jpa.2016.22. S2CID 131127241.