Seasonal nitrate physiology of Macrocystis integrifolia Bory

Ambient sea-water nitrate and tissue nitrogen (ethanol soluble nitrate and amino acids, as well as total nitrogen) of Macrocystis integrifolia Bory were monitored over a 2-yr period in Bamfield, Vancouver Island, British Columbia. Sea-water nitrate varied from a high of 12 μmol · 1^?1 (individual values as high as 23 μmol · 1^?1 were recorded) in late winter to below detection limits for most of the summer. Tissue nitrate and total nitrogen paralleled the ambient nitrate levels and showed summer minima and winter maxima (from 0 to 70 μmol · g fresh wt^?1 for nitrate and from 0.8 to 2.9% of dry wt for total N). The nitrate uptake capacity was inversely proportional to tissue nitrate concentration and, furthermore, was much higher for subapical surface blades (60–70 nmol · cm^?2 · h^?1) than for older, deeper blades (5–10 nmol · cm^?2 · h^?1). Nitrate uptake by subapical blade disks in summer is apparently higher in dark (1.0–1.7 μmol · g fresh wt^?1 · h^?1) than in light (0.6–1.3 μmol · g fresh wt^?1 · h^?1) and the data obtained in 36–108 h experiments indicate nitrate pool sizes of 30–90 μmol · g fresh wt^?1. These pools are $\text{2}\text{3}$ to nearly full in winter. Ammonium does not inhibit nitrate uptake. It is taken up and apparently utilized much faster than nitrate and it may well be an important source of nitrogen for marine macrophytes.     

Comparison of laboratory-reared eggs, embryos and larvae of five labrid fishes

Eggs, embryos and larvae of five labrid fishes, Thalassoma cupido, Pteragogus flagellifer, Pseudolabrus japonicus, Halichoeres tenuispinnis, and H. poecilopterus, reared in the laboratory are described and compared. The eggs were buoyant and spherical, with a single, spherical oil globule. P. japonicus eggs were unique in lacking melanophores on the oil globule. Eggs of the remaining species closely resembled each other, except in diameter. Incubation periods were short, ranging from ca. 19 h in H. poecilopterus to ca. 31 h in P. japonicus. The newly-hatched embryos also resembled each other, having a short tail and large oval or pear-shaped yolksac, the anterior tip of which extended beyond the snout. The single oil globule was located at the anterior tip of the yolk. As the yolksac diminished with growth, its anterior tip moved posteriorly. The yolk and oil globule were completely absorbed 3 or 4 days after hatching. In all free embryos and larvae except for Pteragogus flagellifer, needle-like projections appeared on both the dorsal and anal finfold margins 12 h to 1 day after hatching. Although morphology of free embryos and larvae of all five species was very similar, differences in pigmentation, location of the anus, and the needle-like projections were apparent. Artificial keys to the newly-hatched embryos and larvae are given.     

Identification of media supplements that improve the viability of primarily cell cultures ofCrassostrea gigas oysters

Media supplements have been investigated for their influence on the viability of primary cell cultures from the heart ofCrassostrea gigas oysters. Soluble factors of vertebrate origin were tested, belonging to five families of supplements that had proven to increase the viability of insect and mammal cell cultures. Using two-level complete factorial assays, factors and mutual interactions were screened within each family with a MTT reduction assay. Results pointed out the positive influence of hormones, growth factor, antioxidants and lipids on the mitochondrial metabolism of oyter's heart cells. Consequently, a new concentrated complex supplement was developed. At 10% (v/v) final concentration in modified Leibovitz L-15 medium, it increases by 30% the cellular viability of one-week old cultures as compared with non-supplemented medium, a similar improvement as the one obtained with 10% (v/v) fetal calf serum. Combined with fetal calf serum, this new supplement doubles the cellular viability of one-week old cultures and allows networks of cardiomuscular cells to be maintained functional over three monthsin vitro.Abbreviations MTT-3 (4,5-dimethylthiazol;-2-yl)2,5-diphenyl-tetrazolium bromide - FCS fetal calf serum     

Functional response of suspension feeding anuran larvae to different particle sizes at low concentrations (Amphibia)

The influence of particle size, initial particle concentration and larval stage on the ingestion rate, ‘retention efficiency’, and filtering rate of anuran larvae with varying filter apparatus anatomy and different life histories was investigated for four species. Larvae of premetamorphic Stages 28 and 32 and prometamorphic Stage 40 were selected for filtering experiments on the basis of their different growth rates. Three different sizes of silica gel particles were offered as mock food. Particle concentration was measured photometrically. The Michaelis-Menten model was used to describe the dependency of ingestion rate, filtering rate, and ‘retention efficiency’ upon initial particle concentration, and to calculate maximum ingestion rate, threshold concentration, and the half-saturation constant. (1) The highest ingestion rates, filtering rates and ‘retention efficiencies’ were achieved by Xenopus laevis larvae, followed by Bufo calamita larvae. Bufo bufo larvae lay at the opposite end of the scale. Rana temporaria larvae were placed between B. calamita and B. bufo larvae. This order is attributed to differences in life histories, especially the different breeding environments in which these larvae occur. (2) The larger the particle size and the older the stage, the greater the tendency toward saturation of the ingestion rate, filtering rate and ‘retention efficiency’. These filtration parameters are graded according to particle size. The ingestion rate (number of particles), filtration rate and ‘retention efficiency’ are greatest for PS3. Ingestion volume is greatest for PS 1. The difference between PS3 and PS2 on the one hand, and PS1 on the other, is often great; for Stage 28 X. laevis it is very great. This shows that larvae ingest large particles more effectively, and that the most effective ingestion takes place at Stages 28 and 32, owing to the growth function of these stages. The ability of larvae to ingest large particles effectively is possibly a very basic phylogenetic characteristic. (3) The threshold concentration is lowest when the particles are at their largest. In accordance with conclusions drawn by other authors, threshold feeding is attributed to regulation by buccal pumping and mucus production. Considerable importance is attributed to threshold feeding with respect to larval adaptation to oligotrophic environments.     

Larval developmental stages of laboratory-reared silver pomfret,pampus argenteus

Eggs of the silver pomfret,Pampus argenteus, were collected and artificially fertilized by stripping fully-ripe male and female broodstock caught by gillnets in Kuwait waters during June 1997. Larvae hatched from fertilized eggs were reared until 90 days after hatching (DAH) in water temperatures of 27–30°C. Newly-hatched larvae grew from an average of 2.4 mm in body length (BL) to 3.7, 4.4, 7.2 and 8.4 mm at 8, 12, 24 and 30 DAH, respectively. Myomere and vertebral numbers ranged from 34 to 36. Transformation from the larval to juvenile form was completed at 22.2 mm BL (40 DAH). Dorsal and anal fin spines first appeared when juveniles reached 38.8 mm BL (50 DAH). Body depth increased with increase in body length; a rapid increase in body depth occurred in larvae 7.1–8.0 mm, reaching 57% of BL, and further increased to 69% of BL in juveniles 38.8 to 47.9 mm. Pigmentation during development is described and illustrated.     

The respiratory responses of the dog cockle Glycymerisglycymeris (L.) to declining environmental oxygen tension

The subtidal bivalve Glycymeris glycymeris (L.) exhibits a high degree of respiratory independence in conditions of declining environmental oxygen tension. In contrast to other bivalves previously studied, the index of respiratory independence, $\text{K}{}_1\text{K}{}_2$ decreases with increasing weight specific oxygen consumption indicating that small Glycymeris are better regulators of oxygen consumption than large Glycymeris.The respiratory responses of Glycymeris to hypoxia include a small initial increase in ventilation, brought about by increasing the percentage of time spent pumping and a large increase in oxygen utilization. Heart activity is elevated, principally through a large increase in the amplitude of heart beat, which suggests increased perfusion of the respiratory surfaces. The ventilation : relative perfusion ratio, therefore, declines over the range of oxygen tension that respiratory independence is maintained.The respiratory mechanism of Glycymeris is compared with that previously described for other bivalves and it is concluded that there are no clearcut differences between the respiratory responses to hypoxia of intertidal and subtidal species.     

Resistance of larvae of common species of White Sea invertebrates to extreme changes in salinity

This study examines the effect of sharp changes in salinity on pelagic larvae of ten common species of invertebrates from the brackish White Sea (Mollusca, Polychaeta, Echinodermata, Cnidaria, Ascidia). For five species, the low salinity resistance limit was in the range of 8–12‰: for the gastropod Littorina littorea, it was below 8‰; for Dyaphana sp. and the bivalves Hiatella arctica and Heteranomia ovata, it was more than 12‰; and for the ascidian Styela rustica, it was 16‰. About 50% of larvae of four investigated species were able to withstand high salinity and survived at 36–40 and even 50‰ (Littorina). Larvae of littoral-sublittoral species proved to be more euryhaline than larvae of sublittoral species.     

Principles of systematics and the system of bivalves

The systems of the class Bivalvia accepted in recent manuals are discussed. The system proposed by L.A. Nevesskaja, O.A. Skarlato, Ya.I. Starobogatov, and A.G. Eberzin (1971) is substantiated and updated. Morphological characters important for the establishment of taxa of different ranks are listed. Three superorders and 17 orders are established; two orders, which are restricted to the Cambrian and the beginning of the Ordovician, are placed outside the accepted superorders.     

花背蟾蜍蝌蚪变态期角膜发育的研究

作者用光镜和电镜研究了花背蟾蜍蝌蚪变态期角膜的发育。在后肢发育晚期,内、外角膜在中央部位首先愈台,在完全变态期角膜完全愈合,此时角膜上皮细胞增殖,上皮基质变为Bowman’s膜,内、外角膜之间的成纤维细胞和由它分泌的胶原纤维形成角膜基质,内角膜细胞形成单层的角膜内皮,它与角膜基质间的Descemet’s膜最晚形成。     

Morphological and behavioural development of halibut, Hippoglossus hippoglossus (L.) larvae

Live yolk-sac halibut, Hippoglossus hippoglossus (L.) larvae from rearing experiments at Austevoll Aquaculture Station, Norway, were examined from hatching to past first feeding for developmental morphology and behaviour. The findings include development of the respiratory and circulatory organs, eye pigmentation, mouth formation, organs of the digestive system and the process of yolk absorption, as well as swimming speed and activity levels.
A stomodeum is not present at hatching although drinking is possible through a pair of branchial pits which gradually develop into the operculum and gill basket. The mouth normally opens slowly, the gape being restricted by a transverse septum until bones are formed. The amount of time spent swimming varies from less than 15% of the observation period during the first 2 weeks after hatching to between 70 and 100% around the seventh week after hatching, when individual differences become more apparent. Larvae generally react with a burst of swimming when two come into contact. Speed and duration of swimming seems to be correlated with development of eye pigment, heart size and fin formation. The yolk-sac period is divided into four stages.     

Husbandry and breeding of the Puerto Rican toad (Peltophryne lemur) with comments on its natural history

The methods used in the breeding and rearing of Peltophryne lemur along with comments on reintroduction efforts are described. Breeding was induced by injections of leutinizing releasing hormone, and fertile eggs were produced. Eggs hatched in approximately 24 h. Newly hatched tadpoles were small (5.0 mm) and delicate. Metamorphosis occurred in 20–30 days, and newly metamorphosed toads grew evenly and quickly to maturity in about 1 yr. Seventy-five 20-mm young were returned to Puerto Rico in May 1983. These toads were released at a pond where adult and young P lemur were seen. The successful maintenance and breeding of this species indicate it can survive in captivity. Future work on P lemur should concentrate on its status and survival in the wild.