diff --git a/data/03/C4/58/03C458531D20592EFF04F9CCFC9FF66E.xml b/data/03/C4/58/03C458531D20592EFF04F9CCFC9FF66E.xml index a3de6738f5f..d093f813b73 100644 --- a/data/03/C4/58/03C458531D20592EFF04F9CCFC9FF66E.xml +++ b/data/03/C4/58/03C458531D20592EFF04F9CCFC9FF66E.xml @@ -1,50 +1,50 @@ - - - -A new myrmecophilous genus of Falagriini from Colorado, USA (Coleoptera: Staphylinidae: Aleocharinae) + + + +A new myrmecophilous genus of Falagriini from Colorado, USA (Coleoptera: Staphylinidae: Aleocharinae) - - -Author + + +Author -Eldredge, K. Taro +Eldredge, K. Taro -text - - -Zootaxa +text + + +Zootaxa - -2022 - -2022-07-18 + +2022 + +2022-07-18 - -5165 + +5165 - -4 + +4 - -575 -590 + +575 +590 -journal article -99510 -10.11646/zootaxa.5165.4.8 -ac936be0-28e0-401e-8f11-90dc0625644a -1175-5326 -6854138 -111CBF15-C757-412F-8B79-D45CDAC50ECB +journal article +99510 +10.11646/zootaxa.5165.4.8 +ac936be0-28e0-401e-8f11-90dc0625644a +1175-5326 +6854138 +111CBF15-C757-412F-8B79-D45CDAC50ECB - + - + Myrmecoagria hoebekei Eldredge @@ -242,7 +242,7 @@ and represents a host record as is customary ( Myrmica rubra , a Palearctic species, which is still limited to parts of the east and west coasts. Presumably, given the specimen and label data available, - + Myrmecoagria hoebekei is a symbiont of diff --git a/data/03/C4/58/03C458531D245922FF04F9A6FCA1F7FE.xml b/data/03/C4/58/03C458531D245922FF04F9A6FCA1F7FE.xml index c685bbb965c..21947d70d24 100644 --- a/data/03/C4/58/03C458531D245922FF04F9A6FCA1F7FE.xml +++ b/data/03/C4/58/03C458531D245922FF04F9A6FCA1F7FE.xml @@ -1,50 +1,50 @@ - - - -A new myrmecophilous genus of Falagriini from Colorado, USA (Coleoptera: Staphylinidae: Aleocharinae) + + + +A new myrmecophilous genus of Falagriini from Colorado, USA (Coleoptera: Staphylinidae: Aleocharinae) - - -Author + + +Author -Eldredge, K. Taro +Eldredge, K. Taro -text - - -Zootaxa +text + + +Zootaxa - -2022 - -2022-07-18 + +2022 + +2022-07-18 - -5165 + +5165 - -4 + +4 - -575 -590 + +575 +590 -journal article -99510 -10.11646/zootaxa.5165.4.8 -ac936be0-28e0-401e-8f11-90dc0625644a -1175-5326 -6854138 -111CBF15-C757-412F-8B79-D45CDAC50ECB +journal article +99510 +10.11646/zootaxa.5165.4.8 +ac936be0-28e0-401e-8f11-90dc0625644a +1175-5326 +6854138 +111CBF15-C757-412F-8B79-D45CDAC50ECB - + - + Myrmecoagria Eldredge @@ -100,11 +100,11 @@ Median lobe ( FIGURES 1–5. (1) Habitus of - + Myrmecoagria hoebekei , male holotype. (2) Head and pronotum of - + Myrmecoagria hoebekei , male holotype. (3) Paratype labels, female. (4) Holotype labels, male. (5) Habitus of host pinned with paratype female. @@ -119,7 +119,7 @@ Labral complex, ventral, paratype female. Diagnosis. - + Myrmecoagria can be distinguished from all other North American @@ -151,7 +151,7 @@ genus for Type species. - + Myrmecoagria hoebekei , diff --git a/data/84/B8/5F/84B85F31356D591BACF8567B5C2A734A.xml b/data/84/B8/5F/84B85F31356D591BACF8567B5C2A734A.xml new file mode 100644 index 00000000000..f9846cf97f2 --- /dev/null +++ b/data/84/B8/5F/84B85F31356D591BACF8567B5C2A734A.xml @@ -0,0 +1,98 @@ + + + +A new species of genus Provanna (Gastropoda, Abyssochrysoidea) from gas hydrate-bearing sediments of the northern South China Sea + + + +Author + +Wu, Cong +National Engineering Research Center of Gas Hydrate Exploration and Development, Guangzhou 511458, China & Key Laboratory of Marine Mineral Resources, Ministry of Land and Resources, Guangzhou 511458, China & Guangzhou Marine Geological Survey, Guangzhou 511458, China + + + +Author + +Chen, Fang +National Engineering Research Center of Gas Hydrate Exploration and Development, Guangzhou 511458, China & Key Laboratory of Marine Mineral Resources, Ministry of Land and Resources, Guangzhou 511458, China & Guangzhou Marine Geological Survey, Guangzhou 511458, China + + + +Author + +Tian, Ying +0000-0002-0250-3790 +Key Laboratory of Mariculture and Stock Enhancement in North China Sea, Ministry of Agriculture, Dalian Ocean University, Dalian 116023, China & Dalian Shell Museum, Dalian 116023, China + + + +Author + +Amano, Kazutaka +0000-0002-8320-8661 +Department of Geology and Paleontology, National Museum of Nature and Science, 4 - 1 - 1 Amakubo, Tsukuba, Ibaraki 305 - 0005, Japan + + + +Author + +Su, Xin +School of Ocean Sciences, China University of Geosciences, Beijing 100083, China + +text + + +Zoosystematics and Evolution + + +2025 + +2025-01-02 + + +101 + + +1 + + +45 +54 + + + +journal article +10.3897/zse.101.137176 +4CB8A2ED-7082-4BB1-8641-473C90A8B00B + + + + +Genus + +Provanna +Dall, 1918 + + + + + +Type species. + + + +Trichotropis +( +Provanna +) +lomana +Dall, 1918 + +; Magdalena Bay, +USA +, Recent. + + + + \ No newline at end of file diff --git a/data/E4/BE/6E/E4BE6EC5559A587C95ABA8418026A106.xml b/data/E4/BE/6E/E4BE6EC5559A587C95ABA8418026A106.xml new file mode 100644 index 00000000000..f23dc6b2c27 --- /dev/null +++ b/data/E4/BE/6E/E4BE6EC5559A587C95ABA8418026A106.xml @@ -0,0 +1,1005 @@ + + + +A new species of genus Provanna (Gastropoda, Abyssochrysoidea) from gas hydrate-bearing sediments of the northern South China Sea + + + +Author + +Wu, Cong +National Engineering Research Center of Gas Hydrate Exploration and Development, Guangzhou 511458, China & Key Laboratory of Marine Mineral Resources, Ministry of Land and Resources, Guangzhou 511458, China & Guangzhou Marine Geological Survey, Guangzhou 511458, China + + + +Author + +Chen, Fang +National Engineering Research Center of Gas Hydrate Exploration and Development, Guangzhou 511458, China & Key Laboratory of Marine Mineral Resources, Ministry of Land and Resources, Guangzhou 511458, China & Guangzhou Marine Geological Survey, Guangzhou 511458, China + + + +Author + +Tian, Ying +0000-0002-0250-3790 +Key Laboratory of Mariculture and Stock Enhancement in North China Sea, Ministry of Agriculture, Dalian Ocean University, Dalian 116023, China & Dalian Shell Museum, Dalian 116023, China + + + +Author + +Amano, Kazutaka +0000-0002-8320-8661 +Department of Geology and Paleontology, National Museum of Nature and Science, 4 - 1 - 1 Amakubo, Tsukuba, Ibaraki 305 - 0005, Japan + + + +Author + +Su, Xin +School of Ocean Sciences, China University of Geosciences, Beijing 100083, China + +text + + +Zoosystematics and Evolution + + +2025 + +2025-01-02 + + +101 + + +1 + + +45 +54 + + + +journal article +10.3897/zse.101.137176 +4CB8A2ED-7082-4BB1-8641-473C90A8B00B + + + + + +Provanna dongshaensis + +sp. nov. + + + + +Fig. 2 A – O + + + + +Etymology. + + +This new species is the only appearance of genus + +Provanna + +in +SCS +to date. We use the specific epithet “ dongsha ” to present the place where it is discovered. + + + + +Type material. + + + + +Holotype + +: +GMGS 2-09 B-C 15-2 + +. + + +Paratype + +: +GMGS 2-07 B-A 1 + +. + + + + +Type locality. + + +Site +GMGS +2-07 B, +GMGS +2-09 B, Dongsha area, northern +SCS +(Fig. +1 +). + + + + +Buried depth and type horizon. + + +3.50, 3.60, 6.07 mbsf (meter below sea floor) at core +GMGS +2-09 B, 33.85 mbsf at core +GMGS +2-07 B; Carbonate layers, Late Pleistocene (Table +1 +). + + + + + +General information of specimens found in the Site GMGS 2-07 B and GMGS 2-09 B. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
Specimens No.TypeMeasurements (mm)ProtoconchSurface preservationDepth (mbsf)Sampling coreAges (a. B. P.)
+GMGS 2-09 B-C 15 - 2 (Fig. +2 A – C +) +holotypeshell height: 7.80; diameter of the last whorl: 5.02; apertural height: 3.66; shell thickness of the last whorl: 0.58brokenslightly eroded6.0709 B- 416230 ± 50 *
+GMGS 2-07 B-A 1 (Fig. +2 D – F +) +paratypeshell height:> 10.89; diameter of the last whorl: 7.13; apertural height: 6.77; shell thickness of the last whorl: 0.41unknownstrongly eroded33.8507 B- 2 H- 2 A91693 **
+GMGS 2-09 B-C 15 - 1 (Fig. +2 G – I +) +(fragment)brokeneroded3.50 +09 B- 2 M- 1 + +A +15120 ± 50 *
+GMGS 2-09 B-C 14 (Fig. +2 J – L +) +(fragment)unknownstrongly eroded6.0709 B- 416230 ± 50 *
+GMGS 2-09 B-C 13 (Fig. +2 M – O +) +(fragment)brokeneroded3.60 +09 B- 2 M- 1 + +A +15120 ± 50 *
+ + + +*: AMS +14 +C dating data using associated coral fragments (unpublished). **: estimated according to the age of FO of + +Globigerinoides ruber +(Pink) + +(0.12 Ma) at the depth of 44.30 mbsf. + + + + + +Material. + + +Type material and other fragment specimens. All specimens are deposited in +China +Deep Sea Drilling Core Repository, Guangzhou City, +China +. + + + + +Dimensions. + + +Holotype +is approximately +7.80 mm +in height and +5.02 mm +in width of the whole whorl, +3.66 mm +in apertural height and up to +0.58 mm +thick at the apertural wall. Apical angle of approximately 54 ° reaching at least +3.66 mm +in height and +3.02 mm +in width. + + + + +Diagnosis. + + +A medium-sized + +Provanna + +, sturdy, shell with prominent, angular whorls with nodes at intersection of the axial and spiral ribs. + + + + +Description. + + +Protoconch: at least one whorl, but poor preservation in all specimens; maximum diameter about +0.58 mm +(Fig. +2 C +); sculptured pattern not clear; transition to teleoconch unknown. Teleoconch: shell height 7.8 to more than +10 mm +. Diameter of the last whorl +5.02 to 7.13 mm +. Shell thick, +0.41 to 0.58 mm +in the thickness of last whorl. Shell four to five whorls, sculptured by reticulate pattern. 15 to 16 strongly orthocline axial ribs (Fig. +2 C, H, L +) on both the penultimate and last whorls. Three prominent and equally strong spiral ribs with blunt, strong and swollen tubercles at intersections on the penultimate whorl, and up to 7 on the last whorl. Tubercles more prominent on lower whorls, like strings of pearls. Basal margin marked by the distinct with strength-decreasing spiral rib. Axial ribs start at the upper suture and fade below the lower spiral rib. Regularly and closely spaced, fine spiral treads on whorl flank, fine axial growth increments. Aperture broadly oval, siphonal canal bordered by low ridge. + + + + + + + +Provanna dongshaensis + +sp. nov. +, from a late Pleistocene seep site in the northern +SCS +. +A – C. +(Holotype, GMGS 2-09 B-C 15 - 2). Specimen from core 09 B- 4, shell height: 7.8 mm; +D – F. +(Paratype, GMGS 2-07 B-A 1). Specimen from core 07 B- 2 H- 2 A with the protoconch almost lost, shell height: 10.89 mm; +G – I. +Incomplete specimen GMGS 2-09 B-C 15 - 1 from core 09 B- 2 M- 1 A; +J – L. +Incomplete specimen GMGS 2-09 B-C 14 from core 09 B- 4. M-O. Incomplete specimen GMGS 2-09 B-C 13 from core 09 B- 2 M- 1 A. Scale bar: 5 mm. + + + + + +Remarks. + + +(Table +2 +) + +P. dongshaensis + +sp. nov. +is differentiated from those provannids with smooth shell surface and simple sculpture by its prominent angulate appearance, particularly including the extant species living in +Japan +seeps and vents (e. g., + +P. abyssalis + +, + +P. glabra + +, also see " Shell microstructures of + +Provanna + +"). It exhibits a smaller number of the spiral ribs but more pronounced axial structure compared to + +P. cingulata + +and + +P. macleani + +. + +P. dongshaensis + +sp. nov. +shares with + +P. sculpta + +the strong and inflated tubercles, which makes them different from those spiny species like + +P. goniata + +, + +P. ios + +, + +P. stephanos + +, etc, but differs in its shelf-structure. Compared to another similar species, + +P. fortis + +, it has more robust axial structures on the body-whorl, which are generating the inflated tubercles and bead-like appearance. + + + + + + +Spatial distribution, geological time, and survival depth (extant species) of all known species of genus + +Provanna + +, associated with their morphological comparisons to the + +Provanna dongshaensis + +sp. nov. +described in this study. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
+Species of + +Provanna + +Distribution and EnvironmentBuried / survival depth (m)Ocean / Area *Age +Morphological comparison to + +P. dongshaensis + +sp. nov. +
+† + +P. alexi +Amano & Little, 2014 + +Shosanbetsu Village, northwestern Hokkaido, Japan, Chikubetsu Formation, whale-fall.WPMiocenelack the strong angulation
+† + +P. antiqua +Squires, 1995 + +Washington State, USA, seep and wood-fall.EPEocene to Oligocenerounded whorls and lacks spines / tubercles
+† + +P. fortis +Hybertsen & Kiel, 2018 + +Satsop Weatherwax seep deposit, Washington State, USA.EPEocenethe most similar, 4–5 whorls, distinct angulation, 2 spiral ribs on the spiral base and up to 5 on the lowermost whorl, the same shelf-structure with new type, but less distinct strong axial structure, which make the new type a new species
+† + +P. hirokoae +Amano & Little, 2014 + +Joetsu City, Niigata, Japan, Ogaya Formation, seep.WPMiocenelack the strong angulation
+† + +P. marshalli +Saether, Little & Campbell, 2010 + +East Coast Basin, North Island, New Zealand, Bexhaven and Ihungia Limestone Formation, seep.WPMiocene +similar to + +P. antiqua + +, lacks strong angulation but more spiral ribs on the whorls than + +P. dongshaensis + +sp. nov. +
+† + +P. nakagawaensis +Kaim, Jenkins & Hikida, 2009 + +Nakagawa area, northwestern Hokkaido, Yezo Group, seep and wood-fall.WPCretaceousa distinct reticulate pattern, lacks the spines and does not have the shelf-structure made up by strong angulation
+† + +P. pelada +Kiel et al., 2020 + +Cerros El Pelado block 2, Talara Basin, Peru.SAOligocene
+† + +P. tappuensis +Kaim, Jenkins & Waren, 2008 + +Tappu area, northwestern Hokkaido, Japan, Yezo Group, seep.WPCretaceousstrong axial and spiral sculpture, but less spiral ribs on the body-whorl
+† + +P. urahoroensis +Amano & Jenkins, 2013 + +Urahoro, eastern Hokkaido, Japan, Nuibetsu Formation, seep.WPOligocenedoes not have the distinct reticulate pattern or anything resembling the spines
+ +P. dongshaensis + +sp. nov. +(this study) +Dongsha area, northern South China Sea, seep.WPLate Pleistocene
+ +P. abyssalis +Okutani & Fujikura, 2002 + +Japan Trench, seep.5379WPRecentrounded whorls and lacks spines / tubercles
+ +P. admetoides +Warén & Ponder, 1991 + +Florida Escarpment, seep.624–631GMRecent +more spiral keels on body-whorl, and also notably large number of axial ribs, up to 34–45 according to +Warén and Ponder (1991) +, which make it most distinct from all + +Provanna +species + +
+ +P. annae +Nekhaev, 2023 + +Plip Volcano, Bering Sea, vent.387–342NPRecentlack the strong angulation
+ +P. beebei +Linse et al., 2019 + +Beebe Chimlets, Beebe Vent Field, Mid-Cayman Spreading Centre, vent.4956–4972CSRecentmore number of spiral ribs and less strong axial ribs
+ +P. buccinoides +Waren & Bouchet, 1993 + +Hine Hina, Lau Basin; North Fiji Basin, vent.1900–2765WPRecentmore angulation
+ +P. chevalieri +Warén & Bouchet, 2009 + +Regab site, West Africa, seep.3150WARecentlack the shelf-structure
+ +P. cingulata +Chen, Watanabe & Ohara, 2016 + +the Shinkai Seep Field, Southern Mariana Forearc.5687WPRecentlacks angulation and axial sculpture, has an increasing number of spiral ribs
+ +P. clathrata +Sasaki et al., 2016 + +Irabu Knoll and Hatoma Knoll, Okinawa Trough, Japan, vent.1647–1743WPRecentmore angulation and spiny, no tubercles, and lacks the shelf-structure
+ +P. cooki +Linse et al., 2019 + +East Scotia Ridge segment E 9, Southern Ocean, vent.2394–2641SORecenthigher whorls and lacks tubercles
+ +P. exquisita +Chen & Watanabe, 2022 + +Eifuku Volcano, Mariana Arc,1606WPRecentmore angulation to form spiral keels
+ +P. fenestrata +Chen, Watanabe & Sasaki, 2019 + +Crane site, Tarama Hill, Okinawa Trough, Japan, vent.1559WPRecentstrong axial and spiral sculptures, raised and equally spaced
+ +P. glabra +Okutani, Tsuchida & Fujikura, 1992 + +off Hatsushima, Sagami Bay, Japan, seep.1110–1200WPRecentlack the strong angulation
+ +P. goniata +Warén & Bouchet, 1986 + +Guaymans Basin, seep.2000–2020EPRecentmore angulation and spiny
+ +P. ios +Warén & Bouchet, 1986 + +East Pacific Rise 21 ° N – 17 ° S, Galapagos Spreading Center, vent.2450–2620EPRecentmore angulation, spiny, and higher spiral shell
+ +P. kuroshimensis +Sasaki et al., 2016 + +Kuroshima Knoll, Okinawa, Japan, seep.644WPRecentlack the strong angulation
+ +P. laevis +Warén & Ponder, 1991 + +Gulf of California, Guaymas Basin, Oregon Margin, Juan de Fuca Ridge, vent and seep.500–2000EPRecentlack the strong angulation
+ +P. lomana +Warén & Bouchet, 1986 + +Oregon Margin, seep.450–1200EPRecentlack the strong angulation, and the spiral ribs on the body-whorl
+ +P. lucida +Sasaki et al., 2016 + +Minami-Ensei Knoll, Okinawa Trough, Japan, vent.701WPRecentlack the strong angulation
+ +P. macleani +Warén & Bouchet, 1989 + +Oregon Margin, seep and sunken drift wood.2713–2750EPRecentmore number of spiral ribs and less strong axial ribs
+ +P. muricata +Warén & Bouchet, 1986 + +East Pacific Rise 21 ° N, Galapagos Spreading Center, and North Fiji and Lau Back-Arc Basins, vent.2450–2615EPRecentmore angulation and spiny
+ +P. nassariaeformis +Okutani, 1990 + +Mariana Back-Arc Basin, Manus Back-Arc Basins, vent.3670–3680WPRecentmore number of axial ribs and lack the shelf-structure
+ +P. pacifica +Warén & Bouchet, 1986 + +Gulf of Panama; Oregon Margin; Costa Rica Margin1017–2750EPRecentmore angulation and spiny
+ +P. reticulata +Warén & Bouchet, 2009 + +Regab, Guiness and MPS 1 - Congo sites, West Africa, seep.750–3150WARecentmore angulation and spiny, more number of spiral ribs
+ +P. sculpta +Warén & Ponder, 1991 + +Louisiana Slope, seep.550GMRecentsimilar strong and swollen tubercles at the intersections between spiral and axial ribs, but lack the shelf-structure; and higher spiral shell
+ +P. segonzaci +Warén & Ponder, 1991 + +Lau Back-Arc Basin, vent.1750–1900WPRecentmore angulation, spiny, and lack the shelf-structure
+ +P. shinkaiae +Okutani & Fujikura, 2002 + +Japan Trench, seep.5343WPRecentmore angulation and spiny, higher spiral shell
+ +P. stephanos +Chen, Watanabe & Sasaki, 2019 + +‘ Off Hatsushima’ seep site, Sagami Bay, central Honshu, Japan, seep.908WPRecentmajor spines on the spiral ribs and more angulation to form spiral keels
+ +P. subglabra +Sasaki et al., 2016 + +Okinawa Trough, Japan, vent.710–1632WPRecentlack the strong angulation
+ +P. variabilis +Warén & Bouchet, 1986 + +Juan de Fuca Ridge, Endeavour Segment, Gorda Ridge, Oregon Margin, vent, seep.675–2200EPRecentless strong axial ribs and lack the shelf-structure
+ + + +†: fossil record. * Abbreviation of ocean / area: +CS +, Caribbean Sea; EP, East Pacific; GM, Gulf of +Mexico +; NP, North Pacific; +SA +, South America; SO, Southern Ocean; WP, West Pacific; WA, West Africa. + + + + + +Stratigraphic and geographic range. + +Only from the type locality and horizon. + + + \ No newline at end of file