Ovum pick-up and in vitro embryo production (OPU-IVEP) in Mediterranean Italian buffalo performed in different seasons

This study was designed to evaluate the effect of season on in vivo oocyte recovery and embryo production in Mediterranean Italian buffalo (Bubalus bubalis). For this purpose repeated transvaginal ultrasound-guided ovum pick up (OPU) was conducted twice a week throughout autumn, mid-winter (transitional period) and spring-summer. The number and size of follicles was determined before puncture. The recovered oocytes were first classified in morphological categories and then used for in vitro embryo production (IVEP) according to standard procedures. The mean number of total follicles observed per session did not differ among the three periods we examined (on average 4.6). Although season did not considerably affect the number of oocytes recovered (on average 2.3/buffalo/session), the number of degenerated and abnormally expanded oocytes increased during autumn. Furthermore, the percentage of abnormally expanded oocytes significantly increased during autumn (6.1%) compared with both the transitional period and spring-summer (1.9 and 2.3%, respectively). Interestingly, the embryo output we recorded at day 7, in terms of tight morulae-blastocysts was higher in autumn (30.9%) compared to the other two periods (13.3% and 10.3%, respectively, in spring-summer and in the transitional period; P < 0.01). The results of this trial demonstrated that the morphological features of the oocytes did not vary substantially among the considered periods, with the exception of degenerated and abnormally expanded oocytes. On the other hand, the oocyte developmental competence improved in autumn compared to spring-summer and the transitional period. This datum reflects buffalo reproductive pattern expressed in vivo at Italian latitudes.     

Seasonal effects on oocyte developmental competence in sows experiencing pregnancy loss

Recently, oocyte quality in sows culled for reasons unrelated to fertility was found to decline during the period of seasonal infertility. Wean-to-service interval (WSI) has also been associated with pregnancy loss in sows mated during the period of seasonal infertility. The aims of this study were to determine whether WSI and season are associated with changes in oocyte developmental competence in sows experiencing early (before Day 35 of gestation) and late (after Day 35 of gestation) pregnancy loss. Ovaries were collected in pairs from sows sourced from commercial piggeries that were culled for reasons related to infertility after being mated in summer and winter/spring. Sows were grouped according to their pregnancy loss type, their previous WSI and the presence or absence of corpora lutea (CL) on their ovaries. Oocyte developmental competence was assessed following in vitro maturation, artificial activation and parthenote development in vitro. In sows culled for early-pregnancy loss, there was a greater number of CL present on ovaries collected in spring compared to those collected in summer (11.57±3.3 vs. 9.26±0.99; P<0.05). Also, the proportion of oocytes developing to the blastocyst stage was greater in summer than in spring (55.9±5.2% vs. 31.2±6.4%; P<0.05). In sows culled for late-pregnancy loss, a greater proportion of oocytes developed to the blastocyst stage in winter compared with late-spring (64.3±7.0% vs. 34.1±6.6%; P<0.05). In addition, the blastocyst formation rate of oocytes was lower in sows that displayed a WSI≤6 days than in sows that displayed a WSI>6 days (37.8±7.3% vs. 62.2±6.9%; P<0.05). The results of the present study indicate that sows culled for pregnancy loss exhibit seasonal changes in oocyte developmental competence. The mechanism which causes WSI to be prolonged does not appear to result in reduced oocyte developmental competence. While poor oocyte quality and the mechanism that increases WSI may contribute to pregnancy loss during the seasonal infertility period, the findings suggest that these factors are not the main drivers of early and late pregnancy loss throughout the year.     

Effect of age,pregnancy, and tuberculosis status on oocyte parameters in African buffalo

In the past decades, the African buffalo (Syncerus caffer) population has steadily declined; an estimated reduction of 31.2% over 3 generations has resulted in classifying it as near threatened by the International Union for Conservation of Nature. Therefore, the aim of this work was a preliminary evaluation of the size and number of ovarian follicles and oocyte quality and quantity in African buffaloes in relationship to age, tuberculosis, and pregnancy status to assess feasibility of in vitro embryo production (IVEP) as a tool for conservation and propagation of this species. The study occurred during the winter dry season (Jul–Aug) of 2018 within Huluhluwe-Imfolozi National Park in Kwa-Zulu Natal, South Africa during the routine culling procedures of African buffalo carried out at the park by the provincial authorities as means of disease management and population control. We obtained ovaries from 39 adults and 10 juveniles, and transported them to the field laboratory where we counted follicles, collected oocytes by aspiration and slicing, and classified oocytes according to their morphology. Adult animals had more small and medium follicles compared to juveniles (small: 14.5 ± 0.1 [SE] vs. 14.0 ± 0.1; medium: 4.6 ± 0.7 vs. 2.0 ± 1.3); however, juvenile animals had more cumulus-oocyte complexes (COCs). Pregnancy and tuberculosis status did not affect COC recovery rate and quality. The oocyte recovery rate is comparable to cattle and higher than in water buffalo (Bubalus bubalis). Therefore, our results suggest that IVEP could be an effective tool for conservation of valuable germplasm in African buffalo. The use of aspiration, using an 18-gauge needle and syringe, followed by slicing the ovary with a scalpel blade increased the recovery of suitable COCs (aspiration = 37.2 ± 3.02%; aspiration and slicing = 46.1 ± 3.02%), supporting the use of aspiration and slicing to optimize oocyte collection for conservation of African buffalo.     

Influence of season and parity on the recovery of in vivo canine oocytes by flushing fallopian tubes

Assisted reproductive technology (ART) in dogs largely depends on the in vivo matured oocytes due to lack of a suitable in vitro maturation system. The present study evaluated the technique of flushing fallopian tubes to collect in vivo matured canine oocytes by laparotomy, and determined the effects of seasons, and parity of donor bitches on the success of oocyte retrieval. Oocytes were retrieved from anesthetized bitches by laparotomy. About 7 ml of TCM-199 supplemented with HEPES was used to flush each individual fallopian tube. Oocytes were categorized as good, fair, poor, immature or aged based on the nuclear stage, cumulus cell layers, color and homogeneity of ooplasm. Oocytes categorized as being good or fair were considered usable, while poor, aged or immature oocytes were considered unusable for ART. A significantly higher number of oocytes per bitch were retrieved during the spring (11.2) compared to the winter (7.9). The oocyte recovery rates were 89.4, 92.2, 89.7 and 89.3% for spring, summer, autumn, and winter, respectively. The highest percentage of usable oocytes (74.7%) was retrieved during autumn (P>0.05). The number of oocytes was influenced by the parity of the donor bitch. Significantly more oocytes were collected from the multiparous bitches (10.3) compared to nulliparous bitches (7.7). The percentage of usable oocytes was more in multipara (71.5%) compared to nullipara (64.7%) (P>0.05). Collection of in vivo produced oocytes by laparotomy represents a potential source of matured oocytes for ART in dogs.     

Factors affecting follicular population, oocyte yield and quality in camels (Camelus dromedarius) ovary with special reference to maturation time in vitro

Three experiments were conducted to study a series of factors affecting in vitro reproductive parameters in camels. In Experiment 1, the effect of season and presence of a corpus luteum (CL) on ovarian follicular populations, oocyte yield and quality was studied using a total of 252 and 208 ovaries collected during the breeding and non-breeding season, respectively. Small, medium, large and the total number of ovarian follicles, oocyte yield and quality were measured. In Experiment 2, the effect of methods of oocyte retrieval and needle gauge on oocyte yield and quality was evaluated with oocytes recovered using slicing and aspiration with 18-, 19- or 20-gauge needle. Oocytes were evaluated microscopically and classified into three categories. The objective of Experiment 3 was to identify the optimum time for oocyte maturation in the dromedary camel. Oocytes were cultured in CR1aa medium at 38.5 degrees C under 5% CO(2) for 24, 32, 36, 48 and 72h. Maturation was calculated as the percentage of cumulus expansion and oocytes reaching metaphase II (MII). The number of small, medium, large and the total number of ovarian follicles were higher (P<0.01) during the breeding than non-breeding season. The recovery of total number of oocytes and Category I oocytes were also greater (P<0.01) during the breeding season. Ovaries without a CL possessed significantly (P<0.01) more ovarian follicles and more (P<0.05) small and large follicles. The total number of oocytes and Category I oocytes were also greater (P<0.01) in ovaries without CL. Slicing of camel ovaries increased (P<0.01) the yield of oocytes as compared to aspiration. The aspiration of follicles using a 20-gauge needle had greater yields of the total number of oocytes and Category I oocytes than when using 19- (P<0.05) and 18-gauge needle (P<0.01). The culture of camel oocytes for 36h produced higher (P<0.01) percentages of cumulus expansion and oocytes at MII. Increasing culture times up to 48 or 72h increased (P<0.01) the percentage of degenerated oocytes.In conclusion, the growth and development of ovarian follicles in the camel as well as yields of Category I oocyte were greater during the breeding season. Slicing or aspirations using a 20-gauge needle yielded greater numbers of total and Category I oocytes. Finally, maturation of oocytes in CR1aa medium for 36h produced higher percentages of cumulus expansion and oocytes at MII stage.     

The annual reproductive cycle of the Smooth newt (Triturus vulgaris) in England

Newts were collected throughout the year from both breeding ponds and terrestrial sites and were weighed, measured and dissected; in males, the testes were examined histologically. Smooth newts show post-nuptial gametogenesis such that, during late summer and autumn they are producing mature gametes for the following year's breeding season. In males, the testes are at their smallest size during the spring, when they consist mostly of immature sperm cysts and evacuated tissue, mature sperm having been evacuated into the vasa deferentia during the newts' migration to water. Evacuated testicular tissue is glandular in function and there is evidence that secretions from this tissue control the development of secondary sexual characters: the dorsal crest, fringes of skin on the toes and the dorsal cloacal gland. In both sexes, fat body and liver weights are lowest in the spring and increase in the autumn. In females, oocytes vary in size, depending on the amount of yolk they contain. Only the larger oocytes are laid in a current breeding season, the smaller ones being retained and yolked in late summer and autumn. In both sexes, measures of fecundity (testis size in males, oocyte number in females) are strongly correlated with body size. The finding that male newts have a finite supply of sperm during the breeding season leads to an interpretation of various aspects of male courtship behaviour. These are adaptations for conserving sperm and allocating it to courtship encounters in a way likely to promote male reproductive success.     

Comparative study of reproductive biology in single- and multiple-spawner cyprinid fish. I. Morphological and histological features

To clarify the dynamics and regulation of oogenesis in single- and multiple-spawning cyprinid fish with group-synchronous oocyte development, a multidisciplinary approach to their reproduction was undertaken using three species from the River Meuse (Belgium): the roach Rutilus rutilus as a single spawner, and the bleak Alburnus alburnus and the white bream Blicca bjoerkna as multiple spawners. The gonadosomatic index (GSI) and histomorphometric changes (distribution of oocyte size, relative proportion of the various oocyte stages) in the ovary are compared. Different patterns of GSI and oocyte growth were observed both between the single- and multiple-spawner fish and between the two multiple spawners. Maximum GSIs were higher in roach (21%) than in bleak and white bream (17.7 and 14.5%, respectively), and compared to the rapid decline of GSI in the roach population, the GSI of multiple spawners decreased progressively during the spawning season. In roach, a short gonadal quiescent period and an early onset of vitellogenesis was recorded from late summer onwards whereas, in bleak and white bream, exogenous vitellogenesis was not systematically observed before winter. A protracted spawning season and/or a low water temperature in autumn are hypothesized to explain this long period of gonadal quiescence. In bleak, during the spawning season, the oocytes recruited arose from the stock of endogenous vitellogenesis and attained the final maturation stage very rapidly. This recruitment occurred during the whole spawning season. In white bream, the differentiation of vitellogenic oocytes from smaller oocytes was completed before the onset of the spawning season. During the spawning period, the proportion of vitellogenic oocytes decreased progressively whereas the percentage of oocytes in the final maturation stage remained approximately constant.     

Bovine and buffalo in vitro embryo production using oocytes derived from abattoir ovaries or collected by transvaginal follicle aspiration

This study was undertaken in order to evaluate the effect of oocyte source (live animals and abattoir ovaries) on subsequent embryo development in buffalo (Bubalus bubalis). Cow ovaries were also collected as oocyte donors for in vitro embryo production (IVEP).Three hundred thirty-eight oocytes were recovered by ovum pick up (OPU, Group A) from 8 pluriparous buffalo cows, while 1127 and 1457 oocytes were aspirated, respectively, from buffalo (Group B) and bovine (Group C) slaughterhouse ovaries. Cumulus enclosed oocytes (COCs) suitable for IVEP were in vitro matured (IVM), fertilized (IVF) and cultured (IVC) to the tight morula (Tm) and blastocyst (Bl) stage.Within buffalo species Group A had a higher Bl yield (29.7 % versus 19.9%; P<0.05) and a lower proportion of embryos arrested at Tm stage (11.1% versus 22.3%; P<0.05) than Group B.Within slaughterhouse groups cattle oocytes had a higher cleavage rate (83.9% versus 64.8%; P<0.05) and yielded 49.2% more blastocysts than buffalo. However, when data are related to the total number of cleaved oocytes, only 13.7% more blastocysts were produced in cattle than in buffalo.In conclusion, in buffalo species the source of oocytes significantly affected post-fertilization embryo development, as demonstrated by the higher Bl yields derived from OPU-derived oocytes.A higher overall IVEP efficiency, mainly related to the higher cleavage rate, was recorded in cattle compared with buffalo when ovaries from an abattoir were used as oocyte donors.     

Blood testosterone levels in Italian Mediterranean buffalo bulls managed in two different breeding conditions

In Italian buffalo cows the spontaneous cyclic ovarian activity is mainly high in autumn, while during spring and early summer it is very low. However many farmers separate males from females in the October-February period to obtain births in winter-spring. In order to verify if blood testosterone concentration in adult buffalo bulls is affected by season and by different management of the contact with females, 20 adult buffalo males, bred in central Italy were submitted to monthly blood sampling for 1 year, from September to August. The bulls were kept together with females all the time (group A; n=9) or were held separated from cows from October to February (group B; n=11). The mean (+/-S.E.M.) serum testosterone concentrations were higher in spring and summer than in autumn and winter in group B (2.07+/-0.1 ng/mL versus 0.99+/-0.08 ng/mL, P<0.01) but in group A the seasonal difference was not significant (2.09+/-0.13 versus 1.48+/-0.28). The management of the contact with females affected testosterone values (P<0.01): in the separation period (October-February) the mean serum concentration in group B was lower than in March-September, when the cows were together with the bulls (0.94+/-0.09 ng/mL versus 1.95+/-0.1 ng/mL, P<0.05). This is not true for group A (1.49+/-0.20 ng/mL versus 2.00+/-0.13 ng/mL, NS). It is concluded that contact with females exerted a major stimulus for the testicular androgen secretion in buffalo bulls, even if other seasonal factors (climate, food intake) may affect control of gonadal activity.     

In vitro effect of zearalenone on sperm parameters,oocyte maturation and embryonic development in buffalo

The negative impact of zearalenone (ZEN; potent estrogenic mycotoxin) exposure on buffalo embryo production has not yet been determined. In the current study, buffalo sperm and oocytes were exposed to ZEN at different concentrations during maturation. Sperms (with and without ZEN exposure) were incubated for 2 h and evaluated for motility, viability, acrosome integrity, normality, and ultrastructure. Matured oocytes exposed to ZEN were stained to determine their nuclear maturation. Further, their developmental ability was evaluated after in vitro fertilization. Our results showed the toxic effects of ZEN at high concentrations (2000 ng/mL) on different buffalo sperm parameters. The number of acrosome-intact sperm was reduced at 0 h after exposure to a concentration of ≥ 100 ng/mL. Furthermore, the maturation rate of buffalo oocytes (telophase I + metaphase II) was significantly decreased in ZEN-treated oocytes with a higher degeneration rate. Oocytes matured in 1000 ng/mL ZEN and subsequently exhibited considerable reduction in cleavage rate and blastocyst formation compared with control oocytes (2.6% vs. 13.1%). Moreover, the morula rate was decreased (p < 0.001) in ZEN-treated oocytes at concentrations of ≥ 10 ng/mL. Overall, the adverse effects of in vitro ZEN exposure on buffalo sperm parameters and oocyte meiotic progression with a notable reduction in cleavage, morula, and blastocyst rates were defined by these results. Altogether, buffaloes should be considered sensitive to ZEN exposure with respect to their reproductive function.     

Effect of recombinant bovine somatotropin (bST) on follicular population and on in vitro buffalo embryo production

The objective of this study was to evaluate the effect of bovine somatotropin (bST) on ovarian follicular population in buffalo heifers and its influence on oocyte quality, recovery rates and in vitro embryo production. We tested the hypothesis that bST treatment in buffalo females submitted to an ovum pick-up (OPU) program would improve the number of follicles recruited, oocyte quality and in vitro embryo production. A total of 10 heifers were assigned into two treatment groups: group bST (n=5; receiving 500 mg of bST in regular intervals) and control group (n=5; without additional treatment). Both groups were subjected to OPU sessions twice a week (every 3 or 4 days), for a total of 10 sessions per female, although due to procedural problems, only the first five OPU sessions produced embryos. The number of follicles and the diameters were recorded at all OPU sessions. The harvested oocytes were counted and classified according to their quality as either A, B, C, D or E, with A and B considered good quality. Cleavage and blastocyst production rates were evaluated 2 and 7 days after in vitro fertilization, respectively. The bST treatment increased the total number of antral follicles (>3mm in diameter; 12.2 compared with 8.7; p<0.05) and of small antral follicles (<5mm; 9.1 compared with 6.5; p<0.05) per OPU session. The bST also tended to increase the number of oocytes recovered per session (5.2 compared with 4.1; p=0.07), and enhanced the percentage of good quality oocytes (48.8% compared with 40.6%; p=0.07). bST showed no effect on cleavage and blastocyst production rates (p>0.05). The significant effects of performing repeated OPU sessions were decreasing the follicular population (p<0.001) as well as the number of follicles aspirated (p<0.001), and oocytes recovered (p<0.02). In conclusion, bST treatment improves the follicular population, demonstrating its possible application in buffalo donors submitted to OPU programs.     

Repeated ovum pick-up in Italian Mediterranean buffalo cows

The potential of the ovum pick-up technique, used over a long period, was evaluated in 6 Italian Mediterranean buffalo cows that had more than 500 d open. The cows were submitted to ovum pick-up twice weekly for 2 mo. An additional 2-mo cycle of ovum pick-up was performed in 3 of the buffalo. The ovum pick-up sampling did not affect the resumption of reproductive activity of these animals. In fact, all the buffalo conceived, on average, 47.5 +/- 27.5 d after the last ovum pick-up. An average of 5.48 follicles was punctured, and 2.71 oocytes were collected per session. However, only 53.5% of these oocytes were suitable for in vitro embryo production. The number of punctured follicles differed between individual cows. There were no differences in the number of collected oocytes or in the recovery rates. The number of punctured follicles, the number of collected oocytes and the recovery rate were similar in the first and second months; the quality of the oocytes was, however, better in the second than in the first month (P < 0.05). The increasing interval between 2 consecutive ovum pick-up sampling (intersession interval) caused an increase of the percentage of large follicles. Moreover, the increase of the intersession interval from 4 to 5 d decreased the quality of the collected oocytes (P < 0.05). The efficiency of in vitro production of embryos to expanded blastocysts was 16.7%.     

Changes in the reciprocal position of the first polar body and oocyte chromosome set in golden hamsters

The golden hamster is an attractive model organism for studying reproductive physiology, oncology, genetics and virology. In an effort to establish experimental protocols necessary for cloning golden hamsters, we examined changes in the reciprocal position of the FPB (first polar body) and chromosome set of MII (the second meiotic metaphase) oocytes of golden hamsters. Oocytes were collected under three different conditions: (i) oocyte direct recovery from the oviduct of hormonally treated donor; (ii) oocyte recovery from the oviduct of hormonally treated donor followed by 5 h/10 h in vitro culture; and (iii) oocyte recovery from ovaries of hormonally treated donors and in vitro maturation. Then oocyte recovery was performed from the oviduct of hormonally treated donors, followed by 5 h in vitro culture with colchicine and/or CB (cytochalasin B). Denuded oocytes were stained with Hoechst 33342 and propidium iodide and evaluated under a microscope. Our results demonstrate that the change in FPB position in relation to the MII oocyte chromosome set increases with age of in vivo-matured oocytes. Cumulus cells can protect the FPB of in vitro-cultured oocytes from degeneration but do not significantly affect its repositioning, and in vitro-matured oocytes age slower. The colchicine has a stronger effect on cytoplasmic protrusions of golden hamster oocytes when compared with CB. These results define conditions for changes in FPB position relative to the MII oocyte chromosome set. Early ovulated oocytes, in vitro-matured oocytes and oocytes treated with colchicine should improve the effectiveness of the cloning procedure in golden hamsters as an animal model for human diseases.     

Reproductive patterns of the Pacific oyster Crassostrea gigas in France

Summary

In France, national management programs focus research on understanding reproductive factors in Crassostrea gigas to confront problems of the oyster industry. However, little information has been documented in which reproductive patterns include sexual changes. The reproductive cycle of oysters at three sites of the Atlantic coast of France was examined from 1996 to 1998, and the seasonal variations in oocyte size-frequencies, and sex ratio were described. The results showed a synchronism within the population concerning reproductive behavior. Young oocytes are generated after spawning and show no apparent changes during winter. Growth of oocytes begins in spring and cells reach maturity in April-May and are ready for a single spawning season in June-July. Oocytes that were not released during spawning are reabsorbed within the gonad. The significant difference between sites is that spawning occurred 1 month later in the southern area. A modal analysis showed that oocyte populations in the sample individuals are primordially bimodal, but with polymodal occurrences in June-July, in some cases. Irregular alternative sexuality was detected at all sites, and hermaphrodites appear to be a transition phase that allows changes from male to female during early spring. Previous observations, together with the study of the development of oocyte cohorts over time, permit a hypothetical model concerning the kinetics of gametogenesis in C. gigas. The model suggests that primary oocytes are generated from energy supplied from degenerating, as well as young oocytes that do not reach the mature stage within the gonad during autumn-winter. It seems that, during vitellogenesis, there is disintegration of smaller cells coupled with transfer of energy to the larger oocytes, which continue to grow and mature.     

Seasonal variability in the fertilization rate of women undergoing assisted reproduction treatments

The objective of this study was to evaluate whether seasonality affects human-assisted reproduction treatment outcomes. For this, 1932 patients undergoing intracytoplasmic sperm injection (ICSI) were assigned to a season group according to the day of oocyte retrieval: winter (n = 435), spring (n = 444), summer (n = 469) or autumn (n = 584). Analysis of variance was used to compare the ICSI outcomes. The fertilization rate was increased during the spring (winter: 67.9%, spring: 73.5%, summer: 68.7% and autumn: 69.0%; p < 0.01). In fact, a nearly 50% increase in the fertilization rate during the spring was observed (odds ratio 1.45, confidence interval 1.20-1.75; p < 0.01). The oestradiol concentration per number of oocytes was significantly higher during the spring (winter: 235.8 pg/mL, spring: 282.1 pg/mL, summer: 226.1 pg/mL and autumn: 228.7 pg/mL; p = 0.030). This study demonstrates a seasonal variability in fertilization after ICSI, where fertilization is higher during the spring than at any other time.     

Involvement of protein kinase C in the regulation of oocyte maturation in amphibians (Rana dybowskii)

Ovarian oocytes of Rana dybowskii, isolated early in the hibernation period (late autumn), failed to mature, i.e., germinal vesicle breakdown (GVBD), in response to progesterone during in vitro follicle culture. Oocytes collected during the middle hibernation period matured in response to progesterone, whereas those collected late during the hibernation period (close to the breeding season) underwent spontaneous maturation without added hormone (Kwon et al., '89). The maturational response (GVBD) of oocytes, collected at the three stages of hibernation, to protein kinase C (PKC) activation was investigated and compared to that of progesterone stimulation. A phorbol ester, phorbol 12-myristate 13-acetate (TPA) was used for PKC activation. TPA addition to cultured follicles collected during the early or middle period of hibernation induced oocyte GVBD. The incidence of maturation (% GVBD) induced by TPA varied markedly between animals. TPA (10 microM) induced oocyte maturation in the presence or absence of follicle cells. The time course of the TPA-induced maturation was similar to that of progesterone-stimulated maturation (ED50, 7-9 h). TPA also accelerated the onset of maturation of the follicular oocytes exhibiting spontaneous in vitro maturation. Both TPA- and progesterone-stimulated maturation was blocked by treatment with cycloheximide (1 microgram/2 ml), forskolin (9 microM) (an adenylate cyclase stimulator), and verapamil (0.27 mM) (a calcium transport blocker). Treatment of oocytes with a calmodulin antagonist N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7) (100 microM) or a PKC inactivator 1-(5-isoquinolinylsulfonyl)-2-methyl-piperazine (H-7) (50 microM) likewise suppressed TPA- or progesterone-induced maturation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sex identification and PIT‐tagging: tools and prospects for studying intersexual differences in freshwater fishes

This study evaluated a technique to allow the long‐term monitoring of individual fishes of known sex in the wild using sex confirmation in close proximity to the reproductive period combined with individual tagging. Hundreds of partially migratory roach Rutilus rutilus were tagged with passive integrated transponders (PIT) following sex determination in spring and various performance measures were compared with fish tagged outside the reproductive period in autumn. Short‐term survival was >95% for R. rutilus sexed and tagged under natural field conditions. Total length (L_T) did not affect the probability of survival within the size range tagged (119–280 mm), nor were there differences in timing of migration the following season between individuals sexed and tagged in spring and individuals tagged in autumn (i.e. outside the reproductive period). Also, a similar per cent of R. rutilus sexed and tagged in spring and tagged in autumn migrated the following season (34·5 and 34·7%). Moreover, long‐term recapture data revealed no significant differences in body condition between R. rutilus individuals sexed and tagged in spring, individuals tagged in autumn and unmanipulated individuals. The observed sex ratio of recaptured fish did not differ from the expected values of equal recapture rates between males and females. Hence, there is no observable evidence for an adverse effect of tagging close to the reproductive period and therefore this method is suitable for studying intersexual differences and other phenotypic traits temporarily expressed during reproduction at the individual level in fishes.