taxonID	namePublishedIn	acceptedNameUsageID	parentNameUsageID	originalNameUsageID	kingdom	phylum	class	order	family	genus	taxonRank	scientificName	scientificNameAuthorship	canonicalName	verbatimScientificName	basionymAuthors	basionymYear	combinationAuthors	combinationYear	taxonomicStatus	nomenclaturalStatus	references
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	genus	Doris LINNAEUS 1758	LINNAEUS 1758	Doris	DORIS LINNAEUS, 1758			LINNAEUS	1758			http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn1	Pease WH (1860)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doriopsis	genus	Doriopsis Pease 1860	Pease 1860	Doriopsis	Doriopsis Pease, 1860: 32 – 33			Pease	1860	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn2	Bergh R (1878)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Staurodoris	genus	Staurodoris Bergh 1878	Bergh 1878	Staurodoris	Staurodoris Bergh, 1878 a: 578 – 579			Bergh	1878	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn3	Bergh R (1878)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Archidoris	genus	Archidoris Bergh 1878	Bergh 1878	Archidoris	Archidoris Bergh, 1878 b: 616 – 617			Bergh	1878	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn4	Eliot CN (1907)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	subGenus	Doris (Ctenodoris) Eliot 1907	Eliot 1907	Doris (Ctenodoris)	Ctenodoris Eliot, 1907: 338			Eliot	1907	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn5	Odhner N (1926)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	genus	Austrodoris Odhner 1926	Odhner 1926	Austrodoris	Austrodoris Odhner, 1926: 67 – 68			Odhner	1926	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn6	Risbec J (1928)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Guyonia	genus	Guyonia Risbec 1928	Risbec 1928	Guyonia	Guyonia Risbec, 1928: 102			Risbec	1928	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn7	Baba K (1938)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Neodoris	genus	Neodoris Baba 1938	Baba 1938	Neodoris	Neodoris Baba, 1938: 13 – 14			Baba	1938	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn8	Marcus Er (1955)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Siraius	genus	Siraius Er. Marcus 1955	Er. Marcus 1955	Siraius	Siraius Marcus, 1955: 134			Er. Marcus	1955	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon.syn9	Kay EA, Young DK (1969)UNKNOWN_REFERENCE_TYPE	03927F0EFFEA6041FC33FC5A6E9AD7F3.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doriorbis	genus	Doriorbis Kay & Young 1969	Kay & Young 1969	Doriorbis	Doriorbis Kay & Young, 1969: 177 – 178			Kay & Young	1969	synonym		http://treatment.plazi.org/id/03927F0EFFEA6041FC33FC5A6E9AD7F3
03927F0EFFE76042FF33FAE76BFFD0CA.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris verrucosa LINNAEUS 1758	LINNAEUS 1758	Doris verrucosa	DORIS VERRUCOSA LINNAEUS, 1758			LINNAEUS	1758			http://treatment.plazi.org/id/03927F0EFFE76042FF33FAE76BFFD0CA
03927F0EFFE76042FF33FAE76BFFD0CA.taxon.syn1	Fischer P (1867)UNKNOWN_REFERENCE_TYPE	03927F0EFFE76042FF33FAE76BFFD0CA.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris derelicta P. Fischer 1867	P. Fischer 1867	Doris derelicta	Doris derelicta Fischer, 1867: 7 – 8			P. Fischer	1867	synonym		http://treatment.plazi.org/id/03927F0EFFE76042FF33FAE76BFFD0CA
03927F0EFFE76042FF33FAE76BFFD0CA.taxon.syn2	Fischer P (1872)UNKNOWN_REFERENCE_TYPE	03927F0EFFE76042FF33FAE76BFFD0CA.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris biscayensis Fischer 1872	Fischer 1872	Doris biscayensis	Doris biscayensis Fischer, 1872: 6 – 8			Fischer	1872	synonym		http://treatment.plazi.org/id/03927F0EFFE76042FF33FAE76BFFD0CA
03927F0EFFE76042FF33FAE76BFFD0CA.taxon.syn3	Bergh R (1878)UNKNOWN_REFERENCE_TYPE	03927F0EFFE76042FF33FAE76BFFD0CA.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Staurodoris	species	Staurodoris januari Bergh 1878	Bergh 1878	Staurodoris januari	Staurodoris januari Bergh, 1878 a: 583 – 585			Bergh	1878	synonym		http://treatment.plazi.org/id/03927F0EFFE76042FF33FAE76BFFD0CA
03927F0EFFE76042FF33FAE76BFFD0CA.taxon.syn4	Eliot CN (1906)UNKNOWN_REFERENCE_TYPE	03927F0EFFE76042FF33FAE76BFFD0CA.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Staurodoris	variety	Staurodoris verrucosa var. mollis Eliot 1906	Eliot 1906	Staurodoris verrucosa var. mollis	Staurodoris verrucosa var. mollis Eliot, 1906 a: 338 – 339			Eliot	1906	synonym		http://treatment.plazi.org/id/03927F0EFFE76042FF33FAE76BFFD0CA
03927F0EFFE76042FF33FAE76BFFD0CA.taxon.syn5	Gadzikiewicz W (1907)UNKNOWN_REFERENCE_TYPE	03927F0EFFE76042FF33FAE76BFFD0CA.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Staurodoris	species	Staurodoris bobretzkii Gadzikiewicz 1907	Gadzikiewicz 1907	Staurodoris bobretzkii	Staurodoris bobretzkii Gadzikiewicz, 1907: 509 – 510			Gadzikiewicz	1907	synonym		http://treatment.plazi.org/id/03927F0EFFE76042FF33FAE76BFFD0CA
03927F0EFFE46059FCC9FB9D6F8FD74C.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris pseudoargus RAPP 1827	RAPP 1827	Doris pseudoargus	DORIS PSEUDOARGUS RAPP, 1827			RAPP	1827			http://treatment.plazi.org/id/03927F0EFFE46059FCC9FB9D6F8FD74C
03927F0EFFE46059FCC9FB9D6F8FD74C.taxon.syn1	Leuckart FS (1828)UNKNOWN_REFERENCE_TYPE	03927F0EFFE46059FCC9FB9D6F8FD74C.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris flavipes Leuckart 1828	Leuckart 1828	Doris flavipes	Doris flavipes Leuckart, 1828: 14			Leuckart	1828	synonym		http://treatment.plazi.org/id/03927F0EFFE46059FCC9FB9D6F8FD74C
03927F0EFFE46059FCC9FB9D6F8FD74C.taxon.syn2	Delle Chiaje S (1841)UNKNOWN_REFERENCE_TYPE	03927F0EFFE46059FCC9FB9D6F8FD74C.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris leuckartii Delle Chiaje 1841	Delle Chiaje 1841	Doris leuckartii	Doris leuckartii Delle Chiaje, 1841: 19			Delle Chiaje	1841	synonym		http://treatment.plazi.org/id/03927F0EFFE46059FCC9FB9D6F8FD74C
03927F0EFFE46059FCC9FB9D6F8FD74C.taxon.syn3		03927F0EFFE46059FCC9FB9D6F8FD74C.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris tuberculata Muller 1778	Muller 1778	Doris tuberculata	Doris tuberculata Müller, 1778			Muller	1778	synonym		http://treatment.plazi.org/id/03927F0EFFE46059FCC9FB9D6F8FD74C
03927F0EFFE46059FCC9FB9D6F8FD74C.taxon.syn4		03927F0EFFE46059FCC9FB9D6F8FD74C.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris flammea Alder & Hancock 1844	Alder & Hancock 1844	Doris flammea	Doris flammea Alder & Hancock, 1844			Alder & Hancock	1844	synonym		http://treatment.plazi.org/id/03927F0EFFE46059FCC9FB9D6F8FD74C
03927F0EFFFF605AFF3DFB616EB1D522.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	genus	Doris IMMONDA RISBEC 1928	IMMONDA RISBEC 1928	Doris	DORIS IMMONDA RISBEC, 1928			IMMONDA RISBEC	1928			http://treatment.plazi.org/id/03927F0EFFFF605AFF3DFB616EB1D522
03927F0EFFFC605FFF30F9B56D3AD546.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris granulosa PEASE 1860	PEASE 1860	Doris granulosa	DORIS GRANULOSA PEASE, 1860			PEASE	1860			http://treatment.plazi.org/id/03927F0EFFFC605FFF30F9B56D3AD546
03927F0EFFFC605FFF30F9B56D3AD546.taxon.syn1	Pease WH (1860)UNKNOWN_REFERENCE_TYPE	03927F0EFFFC605FFF30F9B56D3AD546.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doriopsis	species	Doriopsis granulosa Pease 1860	Pease 1860	Doriopsis granulosa	Doriopsis granulosa Pease, 1860: 32 – 33			Pease	1860	synonym		http://treatment.plazi.org/id/03927F0EFFFC605FFF30F9B56D3AD546
03927F0EFFFC605FFF30F9B56D3AD546.taxon.syn2	Pease WH (1871)UNKNOWN_REFERENCE_TYPE	03927F0EFFFC605FFF30F9B56D3AD546.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doriopsis	species	Doriopsis scabra Pease 1871	Pease 1871	Doriopsis scabra	Doriopsis scabra Pease, 1871 a: 300			Pease	1871	synonym		http://treatment.plazi.org/id/03927F0EFFFC605FFF30F9B56D3AD546
03927F0EFFFC605FFF30F9B56D3AD546.taxon.syn3		03927F0EFFFC605FFF30F9B56D3AD546.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	genus	Doris flabellifera GRANULOSA PEASE 1860	GRANULOSA PEASE 1860	Doris flabellifera	Doris? flabellifera Cheeseman, 1881: 222 – 223			GRANULOSA PEASE	1860	synonym		http://treatment.plazi.org/id/03927F0EFFFC605FFF30F9B56D3AD546
03927F0EFFFC605FFF30F9B56D3AD546.taxon.syn4	Eliot CN (1913)UNKNOWN_REFERENCE_TYPE	03927F0EFFFC605FFF30F9B56D3AD546.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris (Ctenodoris) aurantiaca Eliot 1913	Eliot 1913	Doris (Ctenodoris) aurantiaca	Doris (Ctenodoris) aurantiaca Eliot, 1913: 5 – 7			Eliot	1913	synonym		http://treatment.plazi.org/id/03927F0EFFFC605FFF30F9B56D3AD546
03927F0EFFF96050FF5BF9766B8BD155.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris kerguelenensis (BERGH 1884)	(BERGH 1884)	Doris kerguelenensis	DORIS KERGUELENENSIS (BERGH, 1884)	BERGH	1884					http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn1	Bergh R (1884)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Archidoris	species	Archidoris kerguelenensis Bergh 1884	Bergh 1884	Archidoris kerguelenensis	Archidoris kerguelenensis Bergh, 1884 b: 85 – 89			Bergh	1884	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn2	Bergh R (1884)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Archidoris	species	Archidoris australis Bergh 1884	Bergh 1884	Archidoris australis	Archidoris australis Bergh, 1884 b: 89 – 91			Bergh	1884	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn3	Bergh R (1898)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Archidoris	species	Archidoris rubescens Bergh 1898	Bergh 1898	Archidoris rubescens	Archidoris rubescens Bergh 1898: 501 – 503			Bergh	1898	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn4	Odhner N (1926)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris michaelseni Odhner 1926	Odhner 1926	Austrodoris michaelseni	Austrodoris michaelseni Odhner, 1926: 68 – 71			Odhner	1926	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn5	Odhner N (1926)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris crenulata Odhner 1926	Odhner 1926	Austrodoris crenulata	Austrodoris crenulata Odhner, 1926: 75 – 76			Odhner	1926	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn6	Odhner N (1934)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris macmurdensis Odhner 1934	Odhner 1934	Austrodoris macmurdensis	Austrodoris macmurdensis Odhner, 1934: 260 – 263			Odhner	1934	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn7	Odhner N (1934)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris tomentosa Odhner 1934	Odhner 1934	Austrodoris tomentosa	Austrodoris tomentosa Odhner, 1934: 265 – 267			Odhner	1934	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn8	Odhner N (1934)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris nivium Odhner 1934	Odhner 1934	Austrodoris nivium	Austrodoris nivium Odhner, 1934: 267 – 269			Odhner	1934	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn9	Marcus Ev (1985)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris mishu Marcus 1985	Marcus 1985	Austrodoris mishu	Austrodoris mishu Marcus, 1985: 219 – 222			Marcus	1985	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn10	Marcus Ev (1985)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris vicentei Marcus 1985	Marcus 1985	Austrodoris vicentei	Austrodoris vicentei Marcus, 1985: 214			Marcus	1985	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF96050FF5BF9766B8BD155.taxon.syn11	Garcia FJ, Troncoso JS, Garcia-Gomez JC, Cervera JL (1993)UNKNOWN_REFERENCE_TYPE	03927F0EFFF96050FF5BF9766B8BD155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Austrodoris	species	Austrodoris georgiensis Garcia 1993	Garcia 1993	Austrodoris georgiensis	Austrodoris georgiensis García et al. 1993: 417 – 421			Garcia	1993	synonym		http://treatment.plazi.org/id/03927F0EFFF96050FF5BF9766B8BD155
03927F0EFFF66050FC34FD7C6CA6D75D.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	genus	Doris ILO	ILO	Doris	DORIS ILO (ER. MARCUS, 1955)			ILO				http://treatment.plazi.org/id/03927F0EFFF66050FC34FD7C6CA6D75D
03927F0EFFF66053FCF7FB676CBFD2D0.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Hexabranchus	genus	Hexabranchus Ehrenberg 1831	Ehrenberg 1831	Hexabranchus	HEXABRANCHUS EHRENBERG, 1831			Ehrenberg	1831			http://treatment.plazi.org/id/03927F0EFFF66053FCF7FB676CBFD2D0
03927F0EFFF66053FCF7FB676CBFD2D0.taxon.syn1	Adams A (1848)UNKNOWN_REFERENCE_TYPE	03927F0EFFF66053FCF7FB676CBFD2D0.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Heptabranchus	genus	Heptabranchus A. Adams 1848	A. Adams 1848	Heptabranchus	Heptabranchus A. Adams, 1848: 494 – 495			A. Adams	1848	synonym		http://treatment.plazi.org/id/03927F0EFFF66053FCF7FB676CBFD2D0
03927F0EFFF66053FCF7FB676CBFD2D0.taxon.syn2	Morch OAL (1863)UNKNOWN_REFERENCE_TYPE	03927F0EFFF66053FCF7FB676CBFD2D0.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Rhacodoris	genus	Rhacodoris Morch 1863	Morch 1863	Rhacodoris	Rhacodoris Mörch, 1863: 34			Morch	1863	synonym		http://treatment.plazi.org/id/03927F0EFFF66053FCF7FB676CBFD2D0
03927F0EFFF66053FCF7FB676CBFD2D0.taxon.syn3	Abraham PS (1877)UNKNOWN_REFERENCE_TYPE	03927F0EFFF66053FCF7FB676CBFD2D0.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Aethedoris	genus	Aethedoris Abraham 1877	Abraham 1877	Aethedoris	Aethedoris Abraham, 1877: 237			Abraham	1877	synonym		http://treatment.plazi.org/id/03927F0EFFF66053FCF7FB676CBFD2D0
03927F0EFFF56057FCD2FDF46D22D3C5.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Hexabranchus	species	Hexabranchus sanguineus		Hexabranchus sanguineus	HEXABRANCHUS SANGUINEUS							http://treatment.plazi.org/id/03927F0EFFF56057FCD2FDF46D22D3C5
03927F0EFFF56057FCD2FDF46D22D3C5.taxon.syn1	Cuvier GL (1804)UNKNOWN_REFERENCE_TYPE	03927F0EFFF56057FCD2FDF46D22D3C5.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris lacera Cuvier 1804	Cuvier 1804	Doris lacera	Doris lacera Cuvier, 1804: 452			Cuvier	1804	synonym		http://treatment.plazi.org/id/03927F0EFFF56057FCD2FDF46D22D3C5
03927F0EFFF56057FCD2FDF46D22D3C5.taxon.syn2		03927F0EFFF56057FCD2FDF46D22D3C5.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris sanguinea Ruppell & Leuckart 1830	Ruppell & Leuckart 1830	Doris sanguinea	Doris sanguinea Rüppell & Leuckart, 1830: 30 – 31			Ruppell & Leuckart	1830	synonym		http://treatment.plazi.org/id/03927F0EFFF56057FCD2FDF46D22D3C5
03927F0EFFF56057FCD2FDF46D22D3C5.taxon.syn3	Adams A (1848)UNKNOWN_REFERENCE_TYPE	03927F0EFFF56057FCD2FDF46D22D3C5.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Heptabranchus	species	Heptabranchus burnettii A. Adams 1848	A. Adams 1848	Heptabranchus burnettii	Heptabranchus burnettii A. Adams, 1848: 494			A. Adams	1848	synonym		http://treatment.plazi.org/id/03927F0EFFF56057FCD2FDF46D22D3C5
03927F0EFFF56057FCD2FDF46D22D3C5.taxon.syn4	Abraham PS (1877)UNKNOWN_REFERENCE_TYPE	03927F0EFFF56057FCD2FDF46D22D3C5.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Hexabranchidae	Aethedoris	species	Aethedoris indica Abraham 1877	Abraham 1877	Aethedoris indica	Aethedoris indica Abraham, 1877: 237			Abraham	1877	synonym		http://treatment.plazi.org/id/03927F0EFFF56057FCD2FDF46D22D3C5
03927F0EFFF56057FCD2FDF46D22D3C5.taxon.syn5	Collingwood C (1881)UNKNOWN_REFERENCE_TYPE	03927F0EFFF56057FCD2FDF46D22D3C5.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Archidorididae	Albania	species	Albania formosa Collingwood 1881	Collingwood 1881	Albania formosa	Albania formosa Collingwood, 1881: 133			Collingwood	1881	synonym		http://treatment.plazi.org/id/03927F0EFFF56057FCD2FDF46D22D3C5
03927F0EFFF16057FE87FEFA6A76D6FE.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	genus	Discodoris BOHOLIENSIS BERGH 1877	BOHOLIENSIS BERGH 1877	Discodoris	DISCODORIS BERGH, 1877			BOHOLIENSIS BERGH	1877			http://treatment.plazi.org/id/03927F0EFFF16057FE87FEFA6A76D6FE
03927F0EFFF16057FE87FEFA6A76D6FE.taxon.syn1	Bergh R (1878)UNKNOWN_REFERENCE_TYPE	03927F0EFFF16057FE87FEFA6A76D6FE.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Fracassa	genus	Fracassa Bergh 1878	Bergh 1878	Fracassa	Fracassa Bergh, 1878 a: 598			Bergh	1878	synonym		http://treatment.plazi.org/id/03927F0EFFF16057FE87FEFA6A76D6FE
03927F0EFFF16057FE87FEFA6A76D6FE.taxon.syn2	Pruvot-Fol A (1933)UNKNOWN_REFERENCE_TYPE	03927F0EFFF16057FE87FEFA6A76D6FE.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Erythrodoris	genus	Erythrodoris Pruvot-Fol 1933	Pruvot-Fol 1933	Erythrodoris	Erythrodoris Pruvot-Fol, 1933: 133			Pruvot-Fol	1933	synonym		http://treatment.plazi.org/id/03927F0EFFF16057FE87FEFA6A76D6FE
03927F0EFFF16057FE87FEFA6A76D6FE.taxon.syn3	Marcus Ev, Marcus Er (1967)UNKNOWN_REFERENCE_TYPE	03927F0EFFF16057FE87FEFA6A76D6FE.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Tayuva	genus	Tayuva Ev. Marcus & Er. Marcus 1967	Ev. Marcus & Er. Marcus 1967	Tayuva	Tayuva Marcus & Marcus, 1967 b: 191 – 192			Ev. Marcus & Er. Marcus	1967	synonym		http://treatment.plazi.org/id/03927F0EFFF16057FE87FEFA6A76D6FE
03927F0EFFF16056FCF2F9CE6A28D585.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	species	Discodoris boholiensis BERGH 1877	BERGH 1877	Discodoris boholiensis	DISCODORIS BOHOLIENSIS BERGH, 1877			BERGH	1877			http://treatment.plazi.org/id/03927F0EFFF16056FCF2F9CE6A28D585
03927F0EFFF16056FCF2F9CE6A28D585.taxon.syn1	Bergh R (1877)UNKNOWN_REFERENCE_TYPE	03927F0EFFF16056FCF2F9CE6A28D585.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	species	Discodoris meta Bergh 1877	Bergh 1877	Discodoris meta	Discodoris meta Bergh, 1877 a: 522 – 526			Bergh	1877	synonym		http://treatment.plazi.org/id/03927F0EFFF16056FCF2F9CE6A28D585
03927F0EFFF0606BFC0BF93A6A77D0E5.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	species	Discodoris zibethina (BERGH 1878)	(BERGH 1878)	Discodoris zibethina	DISCODORIS ZIBETHINA (BERGH 1878)	BERGH	1878					http://treatment.plazi.org/id/03927F0EFFF0606BFC0BF93A6A77D0E5
03927F0EFFF0606BFC0BF93A6A77D0E5.taxon.syn1		03927F0EFFF0606BFC0BF93A6A77D0E5.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	species	Discodoris ketos (EV. MARCUS & ER. MARCUS 1967) FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus 1970	(EV. MARCUS & ER. MARCUS 1967) FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus 1970	Discodoris ketos	DISCODORIS KETOS (EV. MARCUS & ER. MARCUS, 1967) (FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus (1970 b) mentioned the presence of denticles on the innermost teeth of the two specimens of Tayuva ketos gila; these are absent in the Panamic specimens examined here.	EV. MARCUS & ER. MARCUS	1967	FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus	1970	synonym		http://treatment.plazi.org/id/03927F0EFFF0606BFC0BF93A6A77D0E5
03927F0EFFCD606DFCBBFBDB6B9DD792.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	species	Discodoris ketos (EV. MARCUS & ER. MARCUS 1967) FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus 1970	(EV. MARCUS & ER. MARCUS 1967) FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus 1970	Discodoris ketos	DISCODORIS KETOS (EV. MARCUS & ER. MARCUS, 1967) (FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus (1970 b) mentioned the presence of denticles on the innermost teeth of the two specimens of Tayuva ketos gila; these are absent in the Panamic specimens examined here.	EV. MARCUS & ER. MARCUS	1967	FIGS 4 E, 19, 20) Tayuva ketos Marcus & Marcus, 1967 b: 192 – 194, figs 52 - 56. Type material LECTOTYPE (here designated): Playa Norse, Puerto Peñasco, Sonora, Mexico, 2 November 1963, 28 mm preserved length, leg. P. Pickens (USNM 678409). Additional material North of Gauiola, Mazatlán, Sinaloa, Mexico, 1 December 1953, one specimen, 42 mm preserved length, leg. L. O. Miles (CASIZ 081808). Las Cruces, Baja California Sur, Mexico, 25 January 1984, one specimen, 30 mm preserved length, leg. T. M. Gosliner (CASIZ 072843). External morphology The background colour of the living animals is pale grey (Fig. 4 E). The dorsum is covered with numerous rounded or oval dark brown patches, which are larger in the centre of the dorsum. There are a few darker patches, almost black, situated in two rows on both sides of the visceral hump and several opaque white spots irregularly distributed. The rhinophoral and branchial sheaths are low and surrounded by several white spots. The rhinophores are grey, with a number of small dark brown spots. The branchial leaves are also grey, having dark grey spots and white patches. The whole dorsum is covered with small, conical tubercles (Fig. 19 D). The largest tubercles are situated in the central region of the body. The rhinophoral and branchial sheaths have tubercles similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 21 lamellae in a 30 - mm preserved length specimen. Figure 18. Discodoris zibethina (ZMUC GAS- 2112), SEM images of the radula, jaws and dorsal tubercles. A, inner lateral teeth; scale bar = 100 Mm. B, mid-lateral teeth; scale bar = 150 Mm. C, outer lateral teeth; scale bar = 100 Mm. D, jaw elements; scale bar = 30 Mm. E, dorsal tubercles; scale bar = 430 Mm. Ventrally the anterior border of the foot is grooved and notched (Fig. 20 E). The oral tentacles are short and conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 20 C) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached; two long salivary glands connect with it at each side of the oesophageal junction. The buccal bulb is longer than the glandular portion of the oral tube. The labial cuticle is armed with a number of small rodlets (Fig. 19 E). The radular formula is 23 ¥ 32.0. 32 in a 42 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 19 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 19 B). The outermost teeth are smaller and also lack denticles (Fig. 19 C). The oesophagus is short and connects directly to the stomach. The ampulla is very long and convoluted (Fig. 20 B). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that narrows and expands again into the large ejaculatory portion of the deferent duct. The penis is unarmed. The muscular deferent duct opens into a large, common atrium with the vagina. The vagina is short. At its proximal end it joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about three times as large as the elongate seminal receptacle. In the central nervous system (Fig. 20 D) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are four cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from the left ganglion and three from the right one. The pedal and parapedal commissures are enveloped together with the visceral loop. The circulatory system (Fig. 20 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks Marcus & Marcus (1970 a) described the new subspecies Tayuva ketos juva from the tropical Indo-Pacific. The description, based on a single preserved specimen, is not complete and does not include detailed anatomical information. It is very likely that this description corresponds to a tropical species of Discodoris, rather than a subspecies of Discodoris ketos, which is probably restricted to the Panamic biogeographical region of the eastern Pacific Another subspecies of Discodoris ketos, Tayuva ketos gila, was described by Marcus & Marcus (1970 b) based on material from Curaçao, Caribbean Sea. Again, it is difficult to determine the identity of the preserved animals they saw, but it is unlikely that they belong to the same species. Marcus & Marcus	1970			http://treatment.plazi.org/id/03927F0EFFCD606DFCBBFBDB6B9DD792
03927F0EFFCB606EFC23FB256BA2D208.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	genus	Thordisa Bergh 1877	Bergh 1877	Thordisa	THORDISA BERGH, 1877			Bergh	1877			http://treatment.plazi.org/id/03927F0EFFCB606EFC23FB256BA2D208
03927F0EFFCB606EFC23FB256BA2D208.taxon.syn1	Ihering (1886)UNKNOWN_REFERENCE_TYPE	03927F0EFFCB606EFC23FB256BA2D208.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Etidoris	genus	Etidoris Ihering 1886	Ihering 1886	Etidoris	Etidoris Ihering, 1886: 234			Ihering	1886	synonym		http://treatment.plazi.org/id/03927F0EFFCB606EFC23FB256BA2D208
03927F0EFFCB606EFC23FB256BA2D208.taxon.syn2	Marcus Ev, Marcus Er (1967)UNKNOWN_REFERENCE_TYPE	03927F0EFFCB606EFC23FB256BA2D208.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Nuvuca	genus	Nuvuca Ev. Marcus & Er. Marcus 1967	Ev. Marcus & Er. Marcus 1967	Nuvuca	Nuvuca Marcus & Marcus, 1967 a: 621			Ev. Marcus & Er. Marcus	1967	synonym		http://treatment.plazi.org/id/03927F0EFFCB606EFC23FB256BA2D208
03927F0EFFCB606EFC23FB256BA2D208.taxon.syn3	Marcus Er, Marcus Ev (1970)UNKNOWN_REFERENCE_TYPE	03927F0EFFCB606EFC23FB256BA2D208.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Pupsikus	genus	Pupsikus Er. Marcus & Ev. Marcus 1970	Er. Marcus & Ev. Marcus 1970	Pupsikus	Pupsikus Marcus & Marcus, 1970 a: 167 – 168			Er. Marcus & Ev. Marcus	1970	synonym		http://treatment.plazi.org/id/03927F0EFFCB606EFC23FB256BA2D208
03927F0EFFC86061FCDFFEBD6DADD1CF.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa villosa (ALDER & HANCOCK 1864)	(ALDER & HANCOCK 1864)	Thordisa villosa	THORDISA VILLOSA (ALDER & HANCOCK, 1864)	ALDER & HANCOCK	1864					http://treatment.plazi.org/id/03927F0EFFC86061FCDFFEBD6DADD1CF
03927F0EFFC86061FCDFFEBD6DADD1CF.taxon.syn1	Alder J, Hancock A (1864)UNKNOWN_REFERENCE_TYPE	03927F0EFFC86061FCDFFEBD6DADD1CF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris villosa Alder & Hancock 1864	Alder & Hancock 1864	Doris villosa	Doris villosa Alder & Hancock, 1864: 119 – 120			Alder & Hancock	1864	synonym		http://treatment.plazi.org/id/03927F0EFFC86061FCDFFEBD6DADD1CF
03927F0EFFC86061FCDFFEBD6DADD1CF.taxon.syn2	Bergh R (1877)UNKNOWN_REFERENCE_TYPE	03927F0EFFC86061FCDFFEBD6DADD1CF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa maculigera Bergh 1877	Bergh 1877	Thordisa maculigera	Thordisa maculigera Bergh, 1877 a: 540 – 542			Bergh	1877	synonym		http://treatment.plazi.org/id/03927F0EFFC86061FCDFFEBD6DADD1CF
03927F0EFFC86061FCDFFEBD6DADD1CF.taxon.syn3	Eliot CN (1904)UNKNOWN_REFERENCE_TYPE	03927F0EFFC86061FCDFFEBD6DADD1CF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa stellata Eliot 1904	Eliot 1904	Thordisa stellata	Thordisa stellata Eliot, 1904: 368			Eliot	1904	synonym		http://treatment.plazi.org/id/03927F0EFFC86061FCDFFEBD6DADD1CF
03927F0EFFC86061FCDFFEBD6DADD1CF.taxon.syn4	Marcus Ev, Marcus Er (1967)UNKNOWN_REFERENCE_TYPE	03927F0EFFC86061FCDFFEBD6DADD1CF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Nuvuca	species	Nuvuca lurca Ev. Marcus & Er. Marcus 1967	Ev. Marcus & Er. Marcus 1967	Nuvuca lurca	Nuvuca lurca Marcus & Marcus, 1967 a: 621 – 623			Ev. Marcus & Er. Marcus	1967	synonym		http://treatment.plazi.org/id/03927F0EFFC86061FCDFFEBD6DADD1CF
03927F0EFFC76061FF71FCE16E6ED65D.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa pinguis (EV. MARCUS & ER. MARCUS 1970)	(EV. MARCUS & ER. MARCUS 1970)	Thordisa pinguis	THORDISA PINGUIS (EV. MARCUS & ER. MARCUS, 1970)	EV. MARCUS & ER. MARCUS	1970					http://treatment.plazi.org/id/03927F0EFFC76061FF71FCE16E6ED65D
03927F0EFFC76061FF71FCE16E6ED65D.taxon.syn1		03927F0EFFC76061FF71FCE16E6ED65D.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa rubescens BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson 1981	BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson 1981	Thordisa rubescens	THORDISA RUBESCENS BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson, 1981).			BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson	1981	synonym		http://treatment.plazi.org/id/03927F0EFFC76061FF71FCE16E6ED65D
03927F0EFFC76062FF21FA536F92D5F4.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa rubescens BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson 1981	BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson 1981	Thordisa rubescens	THORDISA RUBESCENS BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson, 1981).			BEHRENS & HENDERSON, 1981 (FIGS 4 F, 21 - 23) Thordisa rubescens Behrens & Henderson, 1981: 120 – 124, figs 1 - 7, 13, 14. Type material Big Kelp Reef, Paradise Cove, Los Angeles County, California, USA, 17 October 1979, 67 mm preserved length, leg. R. Henderson (CASIZ 015860). Additional material Off Los Angeles, Los Angeles County, California, USA., June 1989, one specimen, 47 mm preserved length, leg. R. Fay (CASIZ 068976). External morphology The background colour of the living animals is bright red-orange (Fig. 4 F). The dorsum is covered with gold flecks forming a halo around the branchial pit, a middorsal stripe and half crescents posterior to the rhinophores. The intensity of this pattern varies between individuals. In some specimens there are small black and opaque white spots. There is a black spot on top of the largest dorsal papillae. The rhinophores are orange to brown, with several irregular white spots and a white apex. The branchial leaves are the same colour as the dorsum. The whole dorsum is covered with soft and inflated papillae of various shapes and sizes (Fig. 21 D). The papillae are contracted when the animal is under stress (Behrens & Henderson, 1981), and are surrounded by irregularly protruding spicules. Some larger papillae are randomly distributed among the others. The rhinophoral and branchial sheaths have papillae similar to those on the rest of the dorsum. There are six tripinnate branchial leaves. The anal papilla is situated in the centre of the branchial circle of leaves. The rhinophores are elongate, having 20 lamellae in a 47 - mm preserved length specimen. Ventrally the anterior border of the foot is grooved and notched (Fig. 22 F). The oral tentacles are conical. Anatomy The posterior end of the glandular portion of the oral tube has six strong retractor muscles (Fig. 22 D) which attach to the body wall. The oval, muscular buccal bulb has two large additional muscles attached. Two short salivary glands connect with the buccal bulb at each side of the oesophageal junction. The buccal bulb is as long as the glandular portion of the oral tube. The labial cuticle is smooth. The radular formula is 39 ¥ 40.0. 40 in a 47 - mm long specimen. Rachidian teeth are absent. The lateral teeth are hamate and lack denticles (Fig. 21 A). The teeth from the middle portion of the half-row are larger than those closer to the medial portion of the radula (Fig. 21 B). The outermost teeth are smaller and have a number of small denticles (Fig. 21 C). The oesophagus is long and connects directly to the stomach. The ampulla is long and folded (Fig. 22 C). It branches into a short oviduct and the prostate. The oviduct enters the female gland mass near to its centre. The prostate is large and flattened. It has two different portions that are clearly distinguishable in colour and texture. The prostate connects with a long duct that expands into the ejaculatory portion of the deferent duct (Fig. 22 B). The penis is armed with a series of large hooks, which have a wide and flat base and a curved cusp (Fig. 23 A). The muscular deferent duct opens into a common atrium with the vagina. At the vaginal connection with the atrium there are two small accessory glands attached, and two small sacs each containing a short and irregular hard structure (Fig. 23 B). At its proximal end the vagina joins the bursa copulatrix. From the bursa copulatrix leads another duct connecting to the uterine duct and the seminal receptacle. The bursa copulatrix is oval in shape, about 15 times as large as the elongate seminal receptacle. Figure 21. Thordisa rubescens (CASIZ 068976), SEM images of the radula and dorsal papillae. A, inner lateral teeth; scale bar = 43 Mm. B, mid-lateral teeth; scale bar = 75 Mm. C, outer lateral teeth; scale bar = 75 Mm. D, dorsal papillae; scale bar = 250 Mm. Figure 22. Thordisa rubescens (CASIZ 068976). A, general view of the anatomy; scale bar = 1 mm. B, reproductive system; scale bar = 1 mm. C, detail of the ampulla; scale bar = 1 mm. D, lateral view of the buccal bulb; scale bar = 1 mm. E, central nervous system; scale bar = 1 mm. F, ventral view of the mouth area; scale bar = 1 mm. In the central nervous system (Fig. 22 E) the cerebral and pleural ganglia are fused and distinct from the pedal ganglia. There are three cerebral nerves leading from each cerebral ganglion and three pleural nerves leading from each pleural ganglion. There is no separate abdominal ganglion on the right side of the visceral loop. The buccal ganglia are near to the rest of the central nervous system, joined to the cerebral ganglia by two relatively long nerves. Gastro-oesophageal, rhinophoral and optical ganglia are present. The pedal ganglia are clearly separated, having two nerves leading from each one. The pedal and parapedal commissures are enveloped together with the visceral loop. Figure 23. Thordisa rubescens (CASIZ 068976), SEM images of several reproductive structures. A, penial hook; scale bar = 75 Mm. B, copulatory spine; scale bar = 100 Mm. The circulatory system (Fig. 22 A) consists of a large heart and two blood glands situated in front of and behind the central nervous system. Remarks This is a well-known species of Thordisa described from California by Behrens & Henderson (1981). It was included in the analysis because it is the only species described so far that has penial hooks. Other features of this species agree with the original description of the genus (see Behrens & Henderson	1981			http://treatment.plazi.org/id/03927F0EFFC76062FF21FA536F92D5F4
03927F0EFFC46062FEAEF8DD6AF0D44D.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Cadlinidae	Aldisa	genus	Aldisa Bergh 1878	Bergh 1878	Aldisa	ALDISA BERGH, 1878			Bergh	1878			http://treatment.plazi.org/id/03927F0EFFC46062FEAEF8DD6AF0D44D
03927F0EFFC36065FF2AFF0C6B47D522.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Cadlinidae	Aldisa	species	Aldisa zetlandica (Alder & Hancock 1854)	(Alder & Hancock 1854)	Aldisa zetlandica	ALDISA ZETLANDICA (ALDER & HANCOCK, 1854)	Alder & Hancock	1854					http://treatment.plazi.org/id/03927F0EFFC36065FF2AFF0C6B47D522
03927F0EFFC36065FF2AFF0C6B47D522.taxon.syn1	Alder J, Hancock A (1854)UNKNOWN_REFERENCE_TYPE	03927F0EFFC36065FF2AFF0C6B47D522.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris zetlandica Alder & Hancock 1854	Alder & Hancock 1854	Doris zetlandica	Doris zetlandica Alder & Hancock, 1854: 102			Alder & Hancock	1854	synonym		http://treatment.plazi.org/id/03927F0EFFC36065FF2AFF0C6B47D522
03927F0EFFC36066FC09F9956DF1D041.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Aphelodoris	genus	Aphelodoris ANTILLENSIS BERGH 1879	ANTILLENSIS BERGH 1879	Aphelodoris	APHELODORIS BERGH, 1879			ANTILLENSIS BERGH	1879			http://treatment.plazi.org/id/03927F0EFFC36066FC09F9956DF1D041
03927F0EFFC0607BFF65FC766E57D102.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Aphelodoris	species	Aphelodoris antillensis BERGH 1879	BERGH 1879	Aphelodoris antillensis	APHELODORIS ANTILLENSIS BERGH, 1879			BERGH	1879			http://treatment.plazi.org/id/03927F0EFFC0607BFF65FC766E57D102
03927F0EFFDD607BFF78FDB56BBED675.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Peltodoris	genus	Peltodoris ATROMACULATA BERGH 1880	ATROMACULATA BERGH 1880	Peltodoris	PELTODORIS BERGH, 1880			ATROMACULATA BERGH	1880			http://treatment.plazi.org/id/03927F0EFFDD607BFF78FDB56BBED675
03927F0EFFDD607BFF78FDB56BBED675.taxon.syn1	Bergh R (1889)UNKNOWN_REFERENCE_TYPE	03927F0EFFDD607BFF78FDB56BBED675.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Phialodoris	genus	Phialodoris Bergh 1889	Bergh 1889	Phialodoris	Phialodoris Bergh, 1889: 908			Bergh	1889	synonym		http://treatment.plazi.org/id/03927F0EFFDD607BFF78FDB56BBED675
03927F0EFFDD607BFF78FDB56BBED675.taxon.syn2	MacFarland FM (1905)UNKNOWN_REFERENCE_TYPE	03927F0EFFDD607BFF78FDB56BBED675.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Montereina	genus	Montereina MacFarland 1905	MacFarland 1905	Montereina	Montereina MacFarland, 1905: 38			MacFarland	1905	synonym		http://treatment.plazi.org/id/03927F0EFFDD607BFF78FDB56BBED675
03927F0EFFDD607AFCE2FA4B6BBAD002.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Peltodoris	species	Peltodoris atromaculata BERGH 1880	BERGH 1880	Peltodoris atromaculata	PELTODORIS ATROMACULATA BERGH, 1880			BERGH	1880			http://treatment.plazi.org/id/03927F0EFFDD607AFCE2FA4B6BBAD002
03927F0EFFDC6071FCE9FCB26E78D532.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Peltodoris	species	Peltodoris nobilis		Peltodoris nobilis	PELTODORIS NOBILIS							http://treatment.plazi.org/id/03927F0EFFDC6071FCE9FCB26E78D532
03927F0EFFDC6071FCE9FCB26E78D532.taxon.syn1	MacFarland FM (1905)UNKNOWN_REFERENCE_TYPE	03927F0EFFDC6071FCE9FCB26E78D532.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Montereina	species	Montereina nobilis MacFarland 1905	MacFarland 1905	Montereina nobilis	Montereina nobilis MacFarland, 1905: 38 – 39			MacFarland	1905	synonym		http://treatment.plazi.org/id/03927F0EFFDC6071FCE9FCB26E78D532
03927F0EFFD76070FF7BF9826E30D20B.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Hoplodoris	genus	Hoplodoris Bergh 1880	Bergh 1880	Hoplodoris	HOPLODORIS BERGH, 1880			Bergh	1880			http://treatment.plazi.org/id/03927F0EFFD76070FF7BF9826E30D20B
03927F0EFFD66070FF43FEBD6A63D546.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Hoplodoris	species	Hoplodoris novaezelandiae (Bergh 1904)	(Bergh 1904)	Hoplodoris novaezelandiae	HOPLODORIS NOVAEZELANDIAE (BERGH, 1904)	Bergh	1904					http://treatment.plazi.org/id/03927F0EFFD66070FF43FEBD6A63D546
03927F0EFFD66070FF43FEBD6A63D546.taxon.syn1	Bergh R (1904)UNKNOWN_REFERENCE_TYPE	03927F0EFFD66070FF43FEBD6A63D546.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Homoiodoris	species	Homoiodoris novaezelandiae Bergh 1904	Bergh 1904	Homoiodoris novaezelandiae	Homoiodoris novaezelandiae Bergh, 1904: 35 – 37			Bergh	1904	synonym		http://treatment.plazi.org/id/03927F0EFFD66070FF43FEBD6A63D546
03927F0EFFD66075FC2DF9186E6AD522.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Paradoris	genus	Paradoris Bergh 1884	Bergh 1884	Paradoris	PARADORIS BERGH, 1884			Bergh	1884			http://treatment.plazi.org/id/03927F0EFFD66075FC2DF9186E6AD522
03927F0EFFD36009FF6BF9B76DF1D155.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Paradoris	species	Paradoris indecora		Paradoris indecora	PARADORIS INDECORA							http://treatment.plazi.org/id/03927F0EFFD36009FF6BF9B76DF1D155
03927F0EFFD36009FF6BF9B76DF1D155.taxon.syn1	Bergh R (1881)UNKNOWN_REFERENCE_TYPE	03927F0EFFD36009FF6BF9B76DF1D155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Discodoris	species	Discodoris indecora Bergh. The 1881	Bergh. The 1881	Discodoris indecora	Discodoris indecora Bergh, 1881: 108 – 112			Bergh. The	1881	synonym		http://treatment.plazi.org/id/03927F0EFFD36009FF6BF9B76DF1D155
03927F0EFFD36009FF6BF9B76DF1D155.taxon.syn2	Bergh R (1884)UNKNOWN_REFERENCE_TYPE	03927F0EFFD36009FF6BF9B76DF1D155.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Paradoris	species	Paradoris granulata Bergh 1884	Bergh 1884	Paradoris granulata	Paradoris granulata Bergh, 1884 a: 686 – 691			Bergh	1884	synonym		http://treatment.plazi.org/id/03927F0EFFD36009FF6BF9B76DF1D155
03927F0EFFAF6009FF7BFD6A6CECD44D.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Geitodoris	genus	Geitodoris Bergh 1891	Bergh 1891	Geitodoris	GEITODORIS BERGH, 1891			Bergh	1891			http://treatment.plazi.org/id/03927F0EFFAF6009FF7BFD6A6CECD44D
03927F0EFFAF6009FF7BFD6A6CECD44D.taxon.syn1	Vayssiere A (1919)UNKNOWN_REFERENCE_TYPE	03927F0EFFAF6009FF7BFD6A6CECD44D.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Carryodoris	genus	Carryodoris Vayssiere 1919	Vayssiere 1919	Carryodoris	Carryodoris Vayssière, 1919: 67			Vayssiere	1919	synonym		http://treatment.plazi.org/id/03927F0EFFAF6009FF7BFD6A6CECD44D
03927F0EFFAF6009FF7BFD6A6CECD44D.taxon.syn2	Ortea JA, Ballesteros M (1981)UNKNOWN_REFERENCE_TYPE	03927F0EFFAF6009FF7BFD6A6CECD44D.taxon			Animalia	Mollusca	Gastropoda	Gastropoda (awaiting allocation)	Gastropoda (awaiting allocation)	Verrillia	genus	Verrillia Ortea & Ballesteros 1981	Ortea & Ballesteros 1981	Verrillia	Verrillia Ortea & Ballesteros, 1981: 341			Ortea & Ballesteros	1981	synonym		http://treatment.plazi.org/id/03927F0EFFAF6009FF7BFD6A6CECD44D
03927F0EFFAE600DFF33FF0C6CADD041.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Geitodoris	genus	Geitodoris PLANATA	PLANATA	Geitodoris	GEITODORIS PLANATA			PLANATA				http://treatment.plazi.org/id/03927F0EFFAE600DFF33FF0C6CADD041
03927F0EFFAB600CFC1FFC766E07D041.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Chromodorididae	Otinodoris	genus	Otinodoris White 1948	White 1948	Otinodoris	OTINODORIS WHITE, 1948			White	1948			http://treatment.plazi.org/id/03927F0EFFAB600CFC1FFC766E07D041
03927F0EFFAA6001FEF4FC606DD5D522.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Chromodorididae	Otinodoris	species	Otinodoris SP.	SP.	Otinodoris	OTINODORIS SP.			SP.				http://treatment.plazi.org/id/03927F0EFFAA6001FEF4FC606DD5D522
03927F0EFFA76000FF31F9956EFBD1BA.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Sebadoris	genus	Sebadoris Er. Marcus & Ev. Marcus 1960	Er. Marcus & Ev. Marcus 1960	Sebadoris	SEBADORIS ER. MARCUS & EV. MARCUS, 1960			Er. Marcus & Ev. Marcus	1960			http://treatment.plazi.org/id/03927F0EFFA76000FF31F9956EFBD1BA
03927F0EFFA66005FF7AFD0D6F95D6DF.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Sebadoris	species	Sebadoris nubilosa (PEASE 1871)	(PEASE 1871)	Sebadoris nubilosa	SEBADORIS NUBILOSA (PEASE, 1871)	PEASE	1871					http://treatment.plazi.org/id/03927F0EFFA66005FF7AFD0D6F95D6DF
03927F0EFFA66005FF7AFD0D6F95D6DF.taxon.syn1	Pease WH (1871)UNKNOWN_REFERENCE_TYPE	03927F0EFFA66005FF7AFD0D6F95D6DF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Doris	species	Doris nubilosa Pease 1871	Pease 1871	Doris nubilosa	Doris nubilosa Pease, 1871 b: 13 – 14			Pease	1871	synonym		http://treatment.plazi.org/id/03927F0EFFA66005FF7AFD0D6F95D6DF
03927F0EFFA66005FF7AFD0D6F95D6DF.taxon.syn2	Eliot CN (1904)UNKNOWN_REFERENCE_TYPE	03927F0EFFA66005FF7AFD0D6F95D6DF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Thordisa	species	Thordisa crosslandi Eliot 1904	Eliot 1904	Thordisa crosslandi	Thordisa crosslandi Eliot, 1904: 368 – 369			Eliot	1904	synonym		http://treatment.plazi.org/id/03927F0EFFA66005FF7AFD0D6F95D6DF
03927F0EFFA66005FF7AFD0D6F95D6DF.taxon.syn3	Bergh R (1905)UNKNOWN_REFERENCE_TYPE	03927F0EFFA66005FF7AFD0D6F95D6DF.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Diaulula	species	Diaulula gigantea Bergh 1905	Bergh 1905	Diaulula gigantea	Diaulula gigantea Bergh, 1905: 119 – 120			Bergh	1905	synonym		http://treatment.plazi.org/id/03927F0EFFA66005FF7AFD0D6F95D6DF
03927F0EFFA36005FF35F9D06B3AD709.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Conualevia	genus	Conualevia MARCUSI COLLIER & FARMER 1964	MARCUSI COLLIER & FARMER 1964	Conualevia	CONUALEVIA COLLIER & FARMER, 1964			MARCUSI COLLIER & FARMER	1964			http://treatment.plazi.org/id/03927F0EFFA36005FF35F9D06B3AD709
03927F0EFFA36007FCB8FBBE6A64D585.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Conualevia	species	Conualevia marcusi COLLIER & FARMER 1964	COLLIER & FARMER 1964	Conualevia marcusi	CONUALEVIA MARCUSI COLLIER & FARMER, 1964			COLLIER & FARMER	1964			http://treatment.plazi.org/id/03927F0EFFA36007FCB8FBBE6A64D585
03927F0EFFA16019FC1DF8C56FAED1DE.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Artachaea	genus	Artachaea Bergh 1882	Bergh 1882	Artachaea	ARTACHAEA BERGH, 1882			Bergh	1882			http://treatment.plazi.org/id/03927F0EFFA16019FC1DF8C56FAED1DE
03927F0EFFBF6019FF69FCD16B1CD1BA.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Carminodoris	genus	Carminodoris Bergh 1889	Bergh 1889	Carminodoris	CARMINODORIS BERGH, 1889			Bergh	1889			http://treatment.plazi.org/id/03927F0EFFBF6019FF69FCD16B1CD1BA
03927F0EFFBF6019FC0BFD0D6BF4D500.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Dorididae	Homoiodoris	genus	Homoiodoris Bergh 1882	Bergh 1882	Homoiodoris	HOMOIODORIS BERGH, 1882			Bergh	1882			http://treatment.plazi.org/id/03927F0EFFBF6019FC0BFD0D6BF4D500
03927F0EFFBF6019FC0BFD0D6BF4D500.taxon.syn1		03927F0EFFBF6019FC0BFD0D6BF4D500.taxon			Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Hoplodoris	genus	Hoplodoris Bergh 1880	Bergh 1880	Hoplodoris	Hoplodoris			Bergh	1880	synonym		http://treatment.plazi.org/id/03927F0EFFBF6019FC0BFD0D6BF4D500
03927F0EFFBF6018FCF8F9616E33D116.taxon					Animalia	Mollusca	Gastropoda	Nudibranchia	Discodorididae	Xenodoris	genus	Xenodoris Odhner in Franc 1968	Odhner in Franc 1968	Xenodoris	XENODORIS ODHNER IN FRANC (1968)			Odhner in Franc	1968			http://treatment.plazi.org/id/03927F0EFFBF6018FCF8F9616E33D116
03927F0EFFBE6018FE8AFDA96E81D76F.taxon					Animalia						genus	Animalia		Animalia	CRYPTODORIS OSTERGAARD, 1950							http://treatment.plazi.org/id/03927F0EFFBE6018FE8AFDA96E81D76F
