Heterozygous fitness effects of clonally transmitted genomes in waterfrogs

The European waterfrog Rana esculenta (RL‐genotype) is a natural hybrid between R. ridibunda (RR) and R. lessonae (LL) and reproduces by hybridogenesis, i.e. it eliminates the L‐genome from the germline and produces gametes only containing the clonally transmitted R‐genome. Because of the lack of recombination, R‐genomes are prone to accumulate spontaneous deleterious mutations. The homozygous effects of such mutations become evident in matings between hybrids: their offspring possess two clonal R‐genomes and are generally inviable. However, the evolutionary fate of R. esculenta mainly depends on the heterozygous effects of mutations on the R‐genome. These effects may be hidden in the hybrid R. esculenta because it has been shown to benefit from spontaneous heterosis. To uncouple clonal inheritance from hybridity, I crossed R. esculenta with R. ridibunda to produce nonhybrid offspring with one clonal and one sexual R‐genome, and compared their survival and larval performance with normal, sexually produced R. ridibunda tadpoles. Because environmental stress can enhance the negative effects of mutation accumulation, I measured the performance at high and low food levels. There was no indication that tadpoles with a clonal genome performed worse at either food level, suggesting that at least in the larval stage, R. esculenta benefits from heterosis without incurring any costs because of heterozygous effects of deleterious mutations on the clonally transmitted R‐genome.     

Morphometric differentiation of the moor frog (Rana arvalis Nilss.) in Central Europe

Morphometric variation of 11 characters was studied in 14 samples of Rana arvalis from allopatric population groups in Central Europe, representing two subspecies formerly recognised: R. a. arvalis and R. a. wolterstorffi. All samples from Poland (nine) were collected from the area, which is believed to be populated by the nominal form. In addition, the isolated population of R. arvalis from the Eastern Carpathians of Romania was classified to that form. All the Hungarian samples fall into the range of R. a. wolterstorffi. No significant differences in body size between sexes and among the populations from the three geographic regions (Poland, Hungary and Romanian Eastern Carpathians) were found. Multivariate analysis of the differences in body shape among groups showed that the populations from Hungary differed from the nominal form mainly in the relative hindlimb length. However, substantial overlap in overall shape differences resulted in a relatively low percentage of correct classifications to the respective geographic groups in the Discriminant Analysis. Large intrapopulation variation in the values of the two ratios (SVL/TL and TL/IMT) formerly used for differentiate the two European subspecies of R. arvalis makes them unreliable characters for distinguishing the two forms. The pattern of morphometric variation does not match the overall genetic divergence of the R. arvalis populations, which suggests that the body shape differences in this species result from the phenotypic plasticity correlated with local climatic factors.     

Long-term within pond variation of egg deposition sites in the agile frog, <Emphasis Type="Italic">Rana dalmatina</Emphasis>

This study presents long-term fluctuation, within pond distribution and mortality of egg masses in a population of Rana dalmatina reproducing in a permanent semi-natural pond in Romania. The average number of egg masses per year was 410 (SD = 114.56, min.-max. = 265–581). The mean spawning duration (days) was 26.72 (SD = 5.53). The egg mass distribution was not constant during the years. The long-term change in the distribution of egg masses can be related to changes in the reed cover (pond variable) and landscape structure, i.e. the presence of the forest and a pasture between the pond and the forest. There was a reduction in the number of dead egg masses during the study period. We suggest that the maintenance of the connectivity with the forest and the variable amount of reed assure the main aquatic and terrestrial habitats for the agile frogs. This will allow agile frogs to shift breeding habitats in this area according to their ecological needs and find safe terrestrial habitats for summering and wintering.     

Variation in Sex Ratio and Evolutionary Rate of Hemiclonal Rana esculenta Populations

In many plant and animal taxa mutation rates are higher in males than in females. As a result, the evolutionary speed of genes depends on how much time they spend in either sex. Usually, this time differs between genes located on sex chromosomes but not between those on autosomes. Here we present an unusual system with a partially sex-linked inheritance of autosomes: the hemiclonal frog Rana esculenta (E) which is originally a hybrid between the sexual species R. lessonae (L) and R. ridibunda (R). Rana esculenta excludes the L genome prior to meiosis, produces eggs or sperm containing an unrecombined R genome and restores hybridity by mating with R. lessonae (‘hybridogenesis’). Matings between L males and E females result in offspring with an even sex ratio, whereas the reverse combination produces only daughters. The extent of the resulting female bias and the proportion that R alleles have spent in either sex depend on the relative survival (b) and the relative reproductive contribution (a) of E males vs. E females. In this paper, we analyze mathematically how different combinations of a and b influence the sex ratio in R. esculenta populations and, combined with the male/female mutation rate ratio (α), the evolutionary rate of the clonally transmitted R genome. We find that this rate is higher than in an asexual population and lower than in a sexual one. Hence, clonal diversity through new mutations is more easily achievable than in purely asexual species. In contrast, the occurrence and accumulation of deleterious mutations is lower than in a comparable sexual species. We conclude that these intermediate mutation rates improve the ecological and evolutionary potential of hemiclonal organisms, and we draw attention to the implications for the use of microsatellites. Co-ordinating editor: L. Hurst     

Influence of factors released from sciatic nerve on adult dorsal root ganglion neurons

Previous experiments have shown that medium conditioned (CM) by denervated peripheral nerve contains a process outgrowth promoting factor (s) for cultured adult frog dorsal root ganglion (DRG) neurons. The present experiments further characterize the influences of these factors on DRG neurons. The growth factors increases average process length by threefold, restricts the number of processes extended from four to two while simultaneously altering the morphology of those processes. Neurons with preexisting processes respond to the factors by significantly increasing the length of 35% of these processes. Only the newly elongated portions of preexisting processes have morphology typical of factor-induced processes, while the previously extended portions retain their original morphology. The number of processes of these neurons remains unchanged. Although composed of two population according to size, neurons in both populations are similarly influenced, suggesting that the factors influence neurons of all sensory modalities. To look at other possible influences of the nerve-released factors, a novel simple culture system has been developed in which concentration gradients of these factors can be established and maintained. The front of the outgrowth-promoting influence in these cultures could be followed over time (up to 9 days) as it affected the process length and morphology of neurons at increasing distances (up to 8 mm) from the source of the factors. The trophic factors may play important roles during regeneration in vivo by influencing the cytoskeletal organization in the cell body and growth cones to bring about a stabilization and consolidation of growth cone membrane of only a limited number of processes resulting in increasing the rate of process elongation. The factors may also serve to direct process outgrowth, which can be examined using the new culture system. 1994 John Wiley & Sons, Inc.     

The vascularization of the organon vasculosum hypothalami ofRana temporaria

Summary InRana temporaria, the blood capillaries of the organon vasculosum hypothalami are the bilateral origin of the hypothalamic branch of the encephalo-posthypophysial portal vein. In the organon vasculosum hypothalami, pericapillary accumulations of monoamines occur. The peculiar Vascularization of the organon vaseulosum and the pericapillary accumulation of monoamines suggest a possible functional relation between the organon vasculosum and the neuro-intermediate lobe of the hypophysis via the encephalo-posthypophysial portal system.     

Neutrophic influence of denervated sciatic nerve of on adult dorsal root ganglion neurons

Isolated adult frog dorsal root ganglion neurons survive in vitro in a defined medium for more than 4 weeks and extend processes. When co-cultured with a 1-mm piece of peripheral nerve the average tottal process lenght per neuron was 10 times longer than that of control neurons by 8 days, and the processes had a significantly different morphology from that of control neurons. This influence on process length increased with increasing time of nerve denervation length increased with increasing time of nerve denervation prior to co-culturing. These results suggest the release of a neurotrophic factor/s from the cells of the peripheral nerve. The neurotropic influence was completely blocked by antibodies against mouse nerve growth factor (NGF). Although NGF increased the average process length by twofold over control neurons, its influence never reached that of the nerve-released factor, and the NGF-induced processes had a distinctly different morphology. The frog nerve-released factor promoted process outgrowth from E11 chick sympathetic ganglia, although the process number, length, and their fasciculation differed greatly from those induced by NGF. These results suggest that the nerve-released factor/s are immunologically and functionally related to NGF but have not estabished whether a single factor or an aggregate of several secreted molecules are responsible. This article presents a new preparation in which the varied influences of different neurotrophic factors can be studied in great detail on large populations of isolated adult vertebrte neurons and sets the stage for the characterization and isolation of the frog peripheral nerve neurotrophic factor, as well as examining the influence of this facor on neuronal morphology and its ability to direct process outgrowth. 1994 John Wiley & Sons, Inc.     

Feeding behaviour, food consumption, and growth efficiency of hemiclonal and parental tadpoles of the Rana esculenta complex

1. Clonally reproducing species are often assumed to lack sufficient genetic variability to evolve specific local adaptations to cope with environmental perturbation and competition from sexual species. Yet, many asexuals are extremely successful judged by abundance and wide range, suggesting high competitive abilities in resource exploitation.
2. In this study, food use and its effects on larval growth in a water frog system consisting of the two parental sexual species, Rana lessonae (Camerano 1882) and Rana ridibunda (Pallas 1771), and three different coexisting hemiclones of their hybrid, Rana esculenta (Linnaeus 1758) were investigated.
3. R. esculenta tadpoles spent 18·6% more time feeding than did tadpoles of either parental species, but feeding time was not affected by interspecific mixture.
4. R. esculenta tadpoles consumed 50·8% more food over the whole test period than did tadpoles of the two parental species.
5. R. esculenta tadpoles exhibited higher growth rates than did tadpoles of either parental species.
6. R. lessonae tadpoles had the highest and R . ridibunda tadpoles the lowest growth efficiencies with the R. esculenta tadpoles ranging between the two parentals.
7. The results obtained indicate that hemiclonal hybridogenetic R . esculenta tadpoles display significant phenotypic variation among coexisting hemiclones as well as out-perform tadpoles of the parental sexual species R. lessonae and R . ridibunda. The primary mechanism for success of the hybrid tadpoles is probably behavioural, through increased feeding time and food consumption, and not physiological via growth efficiency.