Type
Part
Number
1
Year
2005
Publication Date
Publication Type
Published in print
Pages
pp. 23 -
60

An experimental scallop fishing survey was carried out by F/V ’Avel Mad’ around the Falkland Islands at depths ranging from 35 m to 160 m between 5 December 2001 and 25 January 2002. Five beds of the Patagonian scallop Zygochlamys patagonica (King et Broderip, 1832) with commercial potential were found in the north-eastern and southern Falklands shelf (50°35’S–50°47’S) at depths between 130 and 145 m. All the beds were discrete, dense, and stretched stripelike along the steep shelf break. The size of beds ranged from 16 km2 to 168 km2. Average scallop CPUE by bed varied from 740 kg/h to 1170 kg/h and the total scallop catch during experimental fishery was 134.1 t. The total biomass of Patagonian scallop over all five beds was estimated to be between 18422 t and 27121 t. The age of scallops, determined using growth marks in the ligament and shell, ranged from 0+ (current year recruits; shell height less than 24 mm) to 21 years old (shell height 77 mm). Adult scallops larger than 50 mm shell height and older than 5-6 years dominated the catches on all Falklands beds. In the last two years successful recruitment was only evident on the northern beds. On average in Falklands waters strong scallop recruitment takes place once every 4 or 5 years. Estimated parameters for the von Bertalanffy growth equation ranged from 59.34 to 73.48 mm for asymptotic shell height, from 0.15 to 0.41 y-1 for the growth rate, K, and from –0.95 to –2.28 for t0. In general, scallops in Falklands waters grow rather slowly, reaching the usual commercial size (55 mm SH) at age 5-6 years old, and live to 20 years and more. Sexual maturity is reached at 35-37 mm SH and ages 2-3 years, though in coastal areas they apparently mature earlier, at 30 mm SH (2 years old).

Гребешок  Zygochlamis patagonica (Bivalvia; Pectinidae): распределение, структура запаса и промысловый потенциал в водах Фолклендских островов
Бизиков В. А.; Миддлетон Д.А.Д.;
Pages
pp. 65 -
79

Spatial and seasonal distribution patterns, and size structure of the squid Okutania anonycha were studied in the northwestern Pacific Ocean and adjacent waters of the Bering Sea and Sea of Okhotsk, and a life-cycle scenario was suggested. This study used data collected during 11 research cruises of the TINRO-Centre during 1985-2004. Of 18,990 squid individuals caught in these cruises, 1861 individuals were analyzed. O. anonycha occurred in the trawl hauls in variable quantities throughout a year, and maximum catches of up to 2,800 individuals per hour trawling occurred in June. The dorsal mantle lengths ranged from 11 to 108 mm, and overall catches consisted of larval stages (16%), juveniles (54%) and feeding and maturing adults (30%). Monthly changes in size structure of the squid catches and analysis of modal class succession indicated that they might be associated with seasonal peaks of spawning. O. anonycha has a one year life cycle, and it appeared closely associated with the Western Subarctic Gyre, while adjacent waters of the Bering Sea and Sea of Okhotsk are peripheral areas of the species’ primarily oceanic range.

Пространственное и сезонное распределение кальмара Okutania anonycha (Pearcy et Voss, 1963) (Cephalopoda: Gonatidae) в северо-западной части Тихого Океана и прилегающих водах
Катугин О.Н.; Шевцов Г.А.; Зуев М.А.; Беркутова А.М.; Слободской Е.В.;
Pages
pp. 61 -
64

In this study, we investigated anatomical differences between two morphs of Zonitoides nitidus with two and three stalks of spermathecal duct. An analysis of serial cross-sections of the reproductive tract distal part showed that only uppermost vaginal stalk is a genuine spermathecal duct. Other stalks are only connective-tissue strands. They are very variable in ways of their fusion with spermathecal duct, but, as a rule, inserted on vagina or connected with spermathecal duct. At the same time the lumens of the additional stalks are closed and mostly not connected with the lumen of spermathecal duct. The function of additional stalks is probably to support the complicated penial appendix and muscles of the stalks.

Организация протока семяприемника Zonitoides nitidus (Müller, 1774) (Gastropoda, Pulmonata, Gastrodontidae)
Яковлев А. А.;
Pages
pp. 17 -
22

A new species, Neptunea alabaster sp.n. (Neogastropoda, Buccinidae) from the Bering Sea is described. This species closely related to “Neptunea lyrata” complex of species.

Neptunea alabaster sp. nov., новый вид рода Neptunea (Neogastropoda, Buccinidae) из Берингова моря
Алексеев Д.О.; Фрауссен К. ;
Keywords
Paleocene; Ukraine;
Pages
pp. 13 -
15

A new species Paramorea paleocenica Guzhov, sp. nov. is described from the Paleocene sediments of Ukraine. Up to now the genus Paramorea Wade, 1918 was known only from the Maastrichtian of the USA.

Новый вид рода Paramorea Wade, 1918 (Gastropoda: Muricidae) из палеоцена Украины
Гужов А.В.;
Keywords
Upper Jurassic; Cerithiopsoidea; Berendinellidae fam. nov; Berendinella rossica gen. et sp. nov.;
Pages
pp. 9 -
12

A gastropod with unusual morphology was found in the Upper Jurassic of Central European Russia. It is assigned to a new family Berendinellidae fam. nov., as Berendinella rossica gen. et sp. nov. This family is preliminarily referred to the superfamily Cerithiopsoidea.

Новый вид, род и семейство гастропод из верхней юры Европейской России
Гужов А.В.;
Pages
pp. 1 -
7

New diagnosis of the genus Testudinalia (type species Patella tessulata Müller, 1776) is given. This genus is closest to the genus Lottia because both species Testudinalia tessulata and T. scutum have rudiments of the marginal teeth. The specific name Patella tesselata Müller, 1779 is an incorrect subsequent spelling. Original description of Patella testudinalia Müller, 1776 is exclusively brief and lacking the figures, and this name should be regarded as a nomen dubium. For the first time Testudinalia persona (= Notoacmea persona sensu Lindberg, 1981) was found in the Far Eastern seas of Russia.

О роде Testudinalia Moskalev, 1966 (Lottiidae, Patellogastropoda)
Чернышев А. В.; Чернова Т. В.;