Michael A.M.A.RuggieroMichael A.M.A. i inni, A Higher Level Classification of All Living Organisms, „PLOS One”, 10 (4), 2015, art. nr e0119248, DOI: 10.1371/journal.pone.0119248, PMID: 25923521, PMCID: PMC4418965 [dostęp 2021-02-11](ang.).
ThomasT.Cavalier-SmithThomasT., Ema E.E.E.ChaoEma E.E.E., RhodriR.LewisRhodriR., Multigene phylogeny and cell evolution of chromist infrakingdom Rhizaria: contrasting cell organisation of sister phyla Cercozoa and Retaria, „Protoplasma”, 255 (5), 2018, s. 1517–1574, DOI: 10.1007/s00709-018-1241-1, ISSN0033-183X, PMID: 29666938, PMCID: PMC6133090 [dostęp 2021-02-12].
ThomasT.Cavalier-SmithThomasT., Kingdom Chromista and its eight phyla: a new synthesis emphasising periplastid protein targeting, cytoskeletal and periplastid evolution, and ancient divergences, „Protoplasma”, 255 (1), 2017, s. 297–357, DOI: 10.1007/s00709-017-1147-3, ISSN1615-6102, PMID: 28875267, PMCID: PMC5756292 [dostęp 2021-02-24](ang.).
Anders K.A.K.KrabberødAnders K.A.K. i inni, Single Cell Transcriptomics, Mega-Phylogeny, and the Genetic Basis of Morphological Innovations in Rhizaria, „Molecular Biology and Evolution”, 34 (7), 2017, s. 1557–1573, DOI: 10.1093/molbev/msx075, ISSN0737-4038, PMID: 28333264, PMCID: PMC5455982 [dostęp 2021-03-01].
RenR.RenRenR. i inni, Phylogenetic Resolution of Deep Eukaryotic and Fungal Relationships Using Highly Conserved Low-Copy Nuclear Genes, „Genome Biology and Evolution”, 8 (9), 2016, s. 2683–2701, DOI: 10.1093/gbe/evw196, ISSN1759-6653, PMID: 27604879, PMCID: PMC5631032 [dostęp 2021-03-01].
YasuhideY.NakamuraYasuhideY., NoritoshiN.SuzukiNoritoshiN., Phaeodaria: Diverse Marine Cercozoans of World-Wide Distribution, SusumuS.Ohtsuka i inni red., Tokyo: Springer Japan, 2015, s. 223–249, DOI: 10.1007/978-4-431-55130-0_9, ISBN 978-4-431-55130-0 [dostęp 2021-03-04](ang.).
T.T.IkenoueT.T. i inni, Flux variations and vertical distributions of siliceous Rhizaria (Radiolaria and Phaeodaria) in the western Arctic Ocean: indices of environmental changes, „Biogeosciences”, 12 (6), 2015, s. 2019–2046, DOI: 10.5194/bg-12-2019-2015, Bibcode: 2015BGeo...12.2019I [dostęp 2021-02-19].
Joel BJ.B.DacksJoel BJ.B. i inni, Evidence for Golgi bodies in proposed 'Golgi-lacking' lineages., „Proceedings of the Royal Society B: Biological Sciences”, 270 (Suppl 2), 2003, S168–S171, DOI: 10.1098/rsbl.2003.0058, ISSN0962-8452, PMID: 14667372, PMCID: PMC1809936 [dostęp 2021-02-22].
Barun K. SenB.K.S.GuptaBarun K. SenB.K.S., K.K.BarunK.K., Modern Foraminifera, Springer Science & Business Media, 31 października 1999, ISBN 978-0-412-82430-2 [dostęp 2021-02-23](ang.).brak strony (książka)
harvard.edu
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T.T.IkenoueT.T. i inni, Flux variations and vertical distributions of siliceous Rhizaria (Radiolaria and Phaeodaria) in the western Arctic Ocean: indices of environmental changes, „Biogeosciences”, 12 (6), 2015, s. 2019–2046, DOI: 10.5194/bg-12-2019-2015, Bibcode: 2015BGeo...12.2019I [dostęp 2021-02-19].
Michael A.M.A.RuggieroMichael A.M.A. i inni, A Higher Level Classification of All Living Organisms, „PLOS One”, 10 (4), 2015, art. nr e0119248, DOI: 10.1371/journal.pone.0119248, PMID: 25923521, PMCID: PMC4418965 [dostęp 2021-02-11](ang.).
ThomasT.Cavalier-SmithThomasT., Ema E.E.E.ChaoEma E.E.E., RhodriR.LewisRhodriR., Multigene phylogeny and cell evolution of chromist infrakingdom Rhizaria: contrasting cell organisation of sister phyla Cercozoa and Retaria, „Protoplasma”, 255 (5), 2018, s. 1517–1574, DOI: 10.1007/s00709-018-1241-1, ISSN0033-183X, PMID: 29666938, PMCID: PMC6133090 [dostęp 2021-02-12].
ThomasT.Cavalier-SmithThomasT., Kingdom Chromista and its eight phyla: a new synthesis emphasising periplastid protein targeting, cytoskeletal and periplastid evolution, and ancient divergences, „Protoplasma”, 255 (1), 2017, s. 297–357, DOI: 10.1007/s00709-017-1147-3, ISSN1615-6102, PMID: 28875267, PMCID: PMC5756292 [dostęp 2021-02-24](ang.).
FabienF.BurkiFabienF. i inni, Evolution of Rhizaria: new insights from phylogenomic analysis of uncultivated protists, „BMC Evolutionary Biology”, 10 (1), 2010, s. 377, DOI: 10.1186/1471-2148-10-377, ISSN1471-2148, PMID: 21126361, PMCID: PMC3014934 [dostęp 2021-02-11].
Anders K.A.K.KrabberødAnders K.A.K. i inni, Single Cell Transcriptomics, Mega-Phylogeny, and the Genetic Basis of Morphological Innovations in Rhizaria, „Molecular Biology and Evolution”, 34 (7), 2017, s. 1557–1573, DOI: 10.1093/molbev/msx075, ISSN0737-4038, PMID: 28333264, PMCID: PMC5455982 [dostęp 2021-03-01].
RenR.RenRenR. i inni, Phylogenetic Resolution of Deep Eukaryotic and Fungal Relationships Using Highly Conserved Low-Copy Nuclear Genes, „Genome Biology and Evolution”, 8 (9), 2016, s. 2683–2701, DOI: 10.1093/gbe/evw196, ISSN1759-6653, PMID: 27604879, PMCID: PMC5631032 [dostęp 2021-03-01].
Joel BJ.B.DacksJoel BJ.B. i inni, Evidence for Golgi bodies in proposed 'Golgi-lacking' lineages., „Proceedings of the Royal Society B: Biological Sciences”, 270 (Suppl 2), 2003, S168–S171, DOI: 10.1098/rsbl.2003.0058, ISSN0962-8452, PMID: 14667372, PMCID: PMC1809936 [dostęp 2021-02-22].
Grafika ilustruje częstość występowania (na podstawie danych z obis.org) w różnych miejscach – w mniejszej lub większej ilości Rhizaria występują na całym świecie.
University College London Postgraduate Unit ofU.C.L.P.U.MicropalaeontologyUniversity College London Postgraduate Unit ofU.C.L.P.U., Foraminifera [online], various, 2002 [dostęp 2021-02-26](ang.).
University College London Postgraduate Unit ofU.C.L.P.U.MicropalaeontologyUniversity College London Postgraduate Unit ofU.C.L.P.U., Radiolaria [online], various, 2002 [dostęp 2021-02-23](ang.).
ThomasT.Cavalier-SmithThomasT., Ema E.E.E.ChaoEma E.E.E., RhodriR.LewisRhodriR., Multigene phylogeny and cell evolution of chromist infrakingdom Rhizaria: contrasting cell organisation of sister phyla Cercozoa and Retaria, „Protoplasma”, 255 (5), 2018, s. 1517–1574, DOI: 10.1007/s00709-018-1241-1, ISSN0033-183X, PMID: 29666938, PMCID: PMC6133090 [dostęp 2021-02-12].
ThomasT.Cavalier-SmithThomasT., Kingdom Chromista and its eight phyla: a new synthesis emphasising periplastid protein targeting, cytoskeletal and periplastid evolution, and ancient divergences, „Protoplasma”, 255 (1), 2017, s. 297–357, DOI: 10.1007/s00709-017-1147-3, ISSN1615-6102, PMID: 28875267, PMCID: PMC5756292 [dostęp 2021-02-24](ang.).
Anders K.A.K.KrabberødAnders K.A.K. i inni, Single Cell Transcriptomics, Mega-Phylogeny, and the Genetic Basis of Morphological Innovations in Rhizaria, „Molecular Biology and Evolution”, 34 (7), 2017, s. 1557–1573, DOI: 10.1093/molbev/msx075, ISSN0737-4038, PMID: 28333264, PMCID: PMC5455982 [dostęp 2021-03-01].
RenR.RenRenR. i inni, Phylogenetic Resolution of Deep Eukaryotic and Fungal Relationships Using Highly Conserved Low-Copy Nuclear Genes, „Genome Biology and Evolution”, 8 (9), 2016, s. 2683–2701, DOI: 10.1093/gbe/evw196, ISSN1759-6653, PMID: 27604879, PMCID: PMC5631032 [dostęp 2021-03-01].
Joel BJ.B.DacksJoel BJ.B. i inni, Evidence for Golgi bodies in proposed 'Golgi-lacking' lineages., „Proceedings of the Royal Society B: Biological Sciences”, 270 (Suppl 2), 2003, S168–S171, DOI: 10.1098/rsbl.2003.0058, ISSN0962-8452, PMID: 14667372, PMCID: PMC1809936 [dostęp 2021-02-22].