PLATE64.
Legion NASSELLARIA.
Order CYRTOIDEA.
FamiliesTripocyrtidaetPodocyrtida.
Fig. 1.Clathrocanium sphærocephalum, n. sp.,
PLATE 64.TripocyrtidaetPodocyrtida.Diam.Page.Fig. 1.Clathrocanium sphærocephalum, n. sp.,×6001211Fig. 2.Clathrocanium diadema, n. sp.,×6001212Fig. 3.Clathrocanium triomma, n. sp.,×6001211Fig. 4.Clathrocanium reginæ, n. sp.,×6001212Fig. 5.Clathrolychnus araneosus, n. sp.,×6001240Fig. 6.Clathrolychnus periplectus, n. sp.,×6001241Fig. 7.Pteropilium clathrocanium, n. sp.,×4001327Fig. 8.Clathrocorys murrayi, n. sp.,×6001219Fig. 9.Clathrocorys giltschii, n. sp.,×6001220Fig. 10.Clathrocorys teuscheri, n. sp.,×6001220Plate 64.
Fig. 1.Clathrocanium sphærocephalum, n. sp.,
Plate 64.
PLATE65.
Legion NASSELLARIA.
Order CYRTOIDEA.
FamilyPhormocyrtida.
Fig. 1.Alacorys friderici, n. sp. (velHexalacorys friderici),
PLATE 65.Phormocyrtida.Diam.Page.Fig. 1.Alacorys friderici, n. sp. (velHexalacorys friderici),×4001372The central capsule, enclosed in the fenestrated shell, exhibits in its lower half four large club-shaped lobes, each of which includes in its upper part a large oil-globule. The uppermost, undivided part of the capsule includes the nucleus, which protrudes four small nuclear lobes through the four holes of the cortinar septum into the thorax. Numerous long pseudopodia arise from the granular sarcomatrix, which the capsule surrounds, and pass through the pores of the siliceous shell.Fig. 2.Alacorys guilelmi, n. sp. (velHexalacorys guilelmi),×3001372Fig. 3.Alacorys bismarckii, n. sp. (velPentalacorys bismarckii),×2001372Fig. 4.Alacorys lutheri, n. sp. (velTetralacorys lutheri),×4001370Fig. 5.Cycladophora goetheana, n. sp. (velLampterium goetheanum),×3001376Plate 65.
Fig. 1.Alacorys friderici, n. sp. (velHexalacorys friderici),
Plate 65.
PLATE66.
LegionNASSELLARIA.
Order CYRTOIDEA.
FamilyTheocyrtida.
Fig. 1.Tricolocapsa theophrasti, n. sp.,
PLATE 66.Theocyrtida.Diam.Page.Fig. 1.Tricolocapsa theophrasti, n. sp.,×4001432Fig. 2.Tricolocapsa schleidenii, n. sp.,×3001433Fig. 3.Tricolocapsadioscoridis, n. sp.,×3001432Fig. 4.Tricolocapsa decandollei, n. sp.,×3001433Fig. 5.Tricolocapsa linnæi, n. sp.,×4001432Fig. 6.Theocapsa aristotelis, n. sp.,×3001427Fig. 7.Theocapsa mülleri, n. sp.,×4001431Fig. 8.Theocapsa democriti, n. sp.,×4001427Fig. 9.Theocapsa forskalii, n. sp.,×4001429Fig. 10.Theocapsa cuvieri, n. sp.,×4001430Fig. 11.Theocapsa wottonis, n. sp.,×4001428Fig. 12.Theocapsa darwinii, n. sp.,×3001431Fig. 13.Theocapsa linnæi, n. sp.,×4001429Fig. 14.Theocapsa wolffii, n. sp.,×4001429Fig. 15.Theocapsa malpighii, n. sp.,×4001428Fig. 16.Theocapsa lamarckii, n. sp.,×4001430Fig. 17.Tricolocampe amphizona, n. sp.,×4001413Fig. 18.Theocampe collaris, n. sp.,×3001425Fig. 19.Tricolocampe polyzona, n. sp.,×4001412Fig. 20.Tricolocampe stenozona, n. sp.,×4001413Fig. 21.Tricolocampe cylindrica, n. sp.,×3001412Fig. 22.Tricolocampe urnula, n. sp.,×4001422Fig. 23.Theocampe stenostoma, n. sp.,×3001423Fig. 24.Theocampe costata, n. sp.,×3001424Fig. 25.Theocampe sphærothorax, n. sp.,×3001424Plate 66.
Fig. 1.Tricolocapsa theophrasti, n. sp.,
Plate 66.
PLATE67.
Legion NASSELLARIA.
Order CYRTOIDEA.
FamilyPodocyrtida.
Fig. 1.Lithornithium falco, n. sp.,
PLATE 67.Podocyrtida.Diam.Page.Fig. 1.Lithornithium falco, n. sp.,×4001355Fig. 2.Lithornithium fringilla, n. sp.,×4001355Fig. 3.Lithornithium ciconia, n. sp.,×4001354Fig. 4.Lithornithium trochilus, n. sp.,×4001355Fig. 5.Theopera fusiformis, n. sp.,×4001357Fig. 6.Theopera chytropus, n. sp.,×4001358Fig. 7.Theopera prismatica, n. sp.,×3001357Fig. 8.Theopera cortina, n. sp.,×4001358Fig. 9.Rhopalocanium delphicum, n. sp.,×4001360Fig. 10.Rhopalocanium lasanum, n. sp.,×3001359Fig. 11.Lithochytris lanterna, n. sp.,×3001364Fig. 12.Lithochytris cortina, n. sp.,×3001362Fig. 13.Lithochytris pyriformis, n. sp.,×4001362Fig. 14.Lithochytris lucerna, n. sp.,×3001364Fig. 15.Lithochytris pteropus, n. sp.,×3001364Fig. 16.Lithochytris galeata, n. sp.,×4001363Plate 67.
Fig. 1.Lithornithium falco, n. sp.,
Plate 67.
PLATE68.
Legion NASSELLARIA.
Order CYRTOIDEA.
FamiliesPodocyrtida,PhormocyrtidaetTheocyrtida.
Fig. 1.Axocorys macroceros, n. sp.,
PLATE 68.Podocyrtida,PhormocyrtidaetTheocyrtida.Diam.Page.Fig. 1.Axocorys macroceros, n. sp.,×3001420Fig. 1a. The internal axial rod of the shell, which bears on its basal part three verticils of three diverging forked spines,×300Fig. 2.Cycladophora fenestrata, n. sp.,×3001380Fig. 3.Cycladophora pantheon, n. sp.,×4001379Fig. 4.Theosyringium tibia, n. sp.,×3001409Fig. 5.Theosyringium pipetta, n. sp.,×2001409Fig. 6.Pterocorys tubulosa, n. sp.,×4001319Fig. 7.Pterocanium pyramis, n. sp.,×4001330Fig. 8.Thyrsocyrtis rhizopodium, n. sp.,×3001351Fig. 9.Thyrsocyrtis arborescens, n. sp.,×4001350Fig. 10.Rhopalatractus foveolatus, n. sp.,×4001361Fig. 11.Rhopalatractus pentacanthus, n. sp.,×3001361Fig. 12.Rhopalatractus fenestratus, n. sp. (velDictyatractus fenestratus),×3001361Fig. 13.Hexalatractus fusiformis, n. sp.,×3001391Fig. 14.Sethornithium dictyopterum, n. sp.,×3001356The trilobate central capsule, which contains in its uppermost part the trilobate nucleus, and in the basal part of each lobe an oil-globule.Fig. 15.Lophocyrtis synapta, n. sp.,×3001411The quadrilobate central capsule, which contains in its uppermost part the quadrilobate nucleus, and in the basal part of each lobe an oil-globule.Plate 68.
Fig. 1.Axocorys macroceros, n. sp.,
Plate 68.