Studies of four thelytokous puerto rican isolates ofMuscidifurax uniraptor [Hymenoptera: Pteromalidae]

Field collections in Puerto Rico revealed 4 behaviorally distinct isolates ofMuscidifurax uniraptor Kogan & Legner that differed initially in diapause and nondiapause emergence, and the age when ♀ progeny were produced. Subsequent F₁ and F₂ progeny differed in sex ratio and total progeny production. Mating F₂ ♀ ♀ from nondiapause isolates to naturally emerging ♂ ♂ from thelytokous populations significantly reduced total progeny and the proportion of ♀ ♀ toca. 20 %. These mated ♀ ♀ at first resembled in behavior those which originated from diapausing parents. Random mating within all isolates beginning in the F₃, resulted in a general lower survival and progeny production but was accompanied by a rise in sex ratio toca. 50% ♀ ♀ by the F₆ generation. The interinvolvement of extranuclear and genic factors is considered.      

Genetic analysis of the reaction level of self-incompatibility to a 4% CO2 gas treatment in the radish (Raphanus sativus L.).

In radishes, self-incompatibility (SI) is governed by the S-locus, which consists of a series of multiple alleles. This SI can be overcome by CO₂ gas treatment, a characteristic that is very useful in obtaining large amounts of parental seeds for F₁ commercial seeds. We know from experience that there are genetic variations in the reaction level of self-incompatibility (RLSI) to a 4% CO₂ gas treatment (hereafter described as RLSICO₂ ) in the radish. We have raised and analyzed an F₂ population derived from an F₁ cross between No. 9324 (S ²⁰⁶ -homozygote, low RLSICO₂) and LV364 (S ²⁰⁹ -homozygote, high RLSICO₂). The RLSICO₂ among three S-genotypes (S ²⁰⁶ -homozygotes, S ²⁰⁶ S ²⁰⁹ -heterozygotes, S ²⁰⁹ -homozygotes), which fit the theoretical ratio of one gene segregation in the F₂ population, did not show any significant statistical differences. Hence, we concluded that the RLSICO₂ was controlled by a gene other than the S-gene. In this F₂ population the segregation of the RLSICO₂ fit the 3(low RLSICO₂):1(high RLSICO₂) ratio well. This result and F₃ progeny tests suggest that high RLSICO₂ is controlled by a recessive gene. Reciprocal crosses among S ²⁰⁹ -homozygotes with different RLSICO₂ have shown that this gene would act in the stigma. Received: 25 February 2000 / Accepted: 10 April 2000     

Inheritance of dicrotophos resistance in greenhouse whitefly

We studied inheritance of resistance to dicrotophos in greenhouse whitefly,Trialeurodes vaporariorum Westwood (Homoptera, Aleyrodidae). Compared with females from a field-collected susceptible strains (S), females from a resistant strain (R) ofT. vaporariorum derived from heavily treated cotton fields had a 28-fold greater LC₅₀ to dicrotophos in laboratory bioassays. Concentration-mortality lines obtained from female progeny of reciprocal F₁ crosses (R_♀ XS_♂ and S_♀ XR_♂) were similar, suggesting that inheritance of dicrotophos resistance was autosomal and not influenced by maternal effects. Responses of F₁ female progeny were similar to those of the parental S strain, indicating that the resistance was partially recessive (degree of dominance, D, was −0.61). Mortality observed in female progeny obtained from a backcross (F_1♀ XR_♂) corresponded more closely to expectations derived from polygenic models than to expectations from a monogenic model. The estimated number of effective factors (sensu Lande, 1981) contributing equally to resistance was three.     

Recombinant males in the parasitic waspMuscidifurax raptorellus [Hymenoptera: pteromalidae]

The identification of recombinant males inMuscidifurax raptorellus Kogan & Legner, secured from virgin hybrid ♀♀ formed by crossing cohorts from solitary and gregarious, populations, supports chromosomal inheritance of gregarious oviposition behavior. Examination of parasitization behavior in female progeny that had recombinant male fathers, indicated the, existence of recombinant ♂♂. Such ♂♂ also were able to elicit immediate phenotypic changes in their female mating partners, at intensities expected from their genetic character, as previously observed with original parental ♂♂ in this species. Progeny originating from F₁ mothers and recombinant fathers demonstrated the highest levels of heterosis, as measured by increased parasitization rates and numbers of eggs laid. Although extranuclear inheritance has not been eliminated, its influence on phenotypic changes in progeny seems minimal.      

Suitability of stages of femaleEncarsia pergandiella [Hymenoptera: Aphelinidae] for development of conspecific male hyperprasites

Encarsia pergandiella Howard females develop as primary parasitoids of immature whiteflies, whereas ♀♀ develop as secondary parasitoids on ♂♂ of their own species or on other primary whitefly parasitoids. In this experiment, maleE. pergandiella development was examined in the laboratory at 24°C, using different stages of immatureE. pergandiella females [enclosed within the cuticle ofTrialeurodes vaporariorum (Westwood)] as hosts. Unmated adult femaleE. pergandiella were caged individually for 24 h on leaves of plants with either 5-day (early to late 3^rd instar larval), 7-day (late 3^rd instar to prepupal), or 9-day (pupal) hosts. In a control treatment, hosts were allowed to complete development without exposure to unmated adult females. Subsequent emergence of ♂♂ (hosts) and ♀♀ from all treatments was recorded daily. Pupal (9-day)E. pergandiella females were found to be the most suitable hosts for development of ♀♀. Nine- and 7-day hosts were attacked at a similar rate, as indicated by a similarly low proportion of host emergence, but ♀♀ emerged at a significantly higher rate in the 9-day treatment than in the 7-day treatment. Development time of ♀♀ was 15±1 days in the 9-day treatment, and 16±1 days in the 7-day treatment (p<0.005). The proportion of hosts emerging from the 5-day treatment was not significantly different from the control treatment. The data suggest that the colonizing ability ofE. pergandiella in greenhouses is likely to be limited by the delay of 7–9 days between oviposition of female eggs and the suitability of these ♂♂ for oviposition of male eggs. Since development time of the 2 sexes is similar this delay should cause a lack of synchrony in the emergence and mating of F₁ ♂♂ and ♀♀.      

Fertility of triploid backcross progeny, (GengoroubunaCarassius auratus cuvieri ♀ × carpCyprinus carpio ♂)F11 ♀ × carp or gengoroubuna ♂

The fertility of triploid backcross progeny, (gengoroubunaCarassius auratus cuvieri ♀ × carpCyprinus carpio ♂) F₁ ♀ × gengoroubuna or carp ♂ is reported. In females, spawning could be induced by the injection of pituitary extracts. The fertilization rates were from 52.4 to 88.6%, and free swimming rates from 2.6 to 34.4%. Many normal larvae were obtained after crossing with the sperm of gengoroubuna. However, after crossing with sperm of the loachMisgurnus anguillicaudatus, most of the embryos died before hatching and no normal larvae were obtained. Sperm could not be stripped from the progeny of either type of triploid backcross after the injection of pituitary extracts. Under light microscope, each seminal lobule in the testis was mainly occupied by spermatocytes in various stages. Some spermatids were found in part of the lobules, but no spermatozoa were observed.     

The self-compatibility mechanism in <Emphasis Type="Italic">Brassica napus</Emphasis> L. is applicable to F<Subscript>1</Subscript> hybrid breeding

Brassica napus, an allopolyploid species having the A genome of B. rapa and the C genome of B. oleracea, is self-compatible, although both B. rapa and B. oleracea are self-incompatible. We have previously reported that SP11/SCR alleles are not expressed in anthers, while SRK alleles are functional in the stigma in B. napus cv. ‘Westar’, which has BnS-1 similar to B. rapa S-47 and BnS-6 similar to B. oleracea S-15. This genotype is the most frequent S genotype in B. napus, and we hypothesized that the loss of the function of SP11 is the primary cause of the self-compatibility of ‘Westar’. To verify this hypothesis, we transformed ‘Westar’ plants with the SP11 allele of B. rapa S-47. All the transgenic plants and their progeny were completely self-incompatible, demonstrating self-compatibility to be due to the S haplotype having the non-functional SP11 allele in the A genome, which suppresses a functional recessive SP11 allele in the C genome. An artificially synthesized B. napus line having two recessive SP11 alleles was developed by interspecific hybridization between B. rapa and B. oleracea. This line was self-incompatible, but F₁ hybrids between this line and ‘Westar’ were self-compatible. These results suggest that the self-compatibility mechanism of ‘Westar’ is applicable to F₁ seed production in B. napus.     

Effect of 24-Epibrassinolide on Chlorophyll Fluorescence and Photosynthetic CO<Subscript>2</Subscript> Assimilation in <Emphasis Type="Italic">Vicia faba</Emphasis> Plants Treated with the Photosynthesis-Inhibiting Herbicide Terbutryn

Simultaneous measurements of chlorophyll (Chl) fluorescence and CO₂ assimilation (A) in Vicia faba leaves were taken during the first weeks of growth to evaluate the protective effect of 24-epibrassinolide (EBR) against damage caused by the application of the herbicide terbutryn (Terb) at pre-emergence. V. faba seeds were incubated for 24 h in EBR solutions (2 × 10⁻⁶ or 2 × 10⁻⁵ mM) and immediately sown. Terb was applied at recommended doses (1.47 or 1.96 kg ha⁻¹) at pre-emergence. The highest dose of Terb strongly decreased CO₂ assimilation, the maximum quantum yield of PSII photochemistry in the dark-adapted state (F _V/F _M), the nonphotochemical quenching (NPQ), and the effective quantum yield (ΔF/F′_M) during the first 3–4 weeks after plant emergence. Moreover, Terb increased the basal quantum yield of nonphotochemical processes (F ₀/F _M)_, the degree of reaction center closure (1 − q _p), and the fraction of light absorbed in PSII antennae that was dissipated via thermal energy dissipation in the antennae (1 − F′_V/F′_M). The herbicide also significantly reduced plant growth at the end of the experiment as well as plant length, dry weight, and number of leaves. The application of EBR to V. faba seeds before sowing strongly diminished the effect of Terb on fluorescence parameters and CO₂ assimilation, which recovered 13 days after plant emergence and showed values similar to those of control plants. The protective effect of EBR on CO₂ assimilation was detected at a photosynthetic photon flux density (PFD) of 650 μmol m⁻² s⁻¹ and the effect on ΔF/F′_M and photosynthetic electron transport (J) was detected under actinic lightings up to 1750 μmol m⁻² s⁻¹. The highest dose of EBR also counteracted the decrease in plant growth caused by Terb, and plants registered the same growth values as controls.     

Horizontal transmission of mycotic infection in adult tsetse,Glossina morsitans morsitans

AdultGlossina morsitans morsitans exposed to wet conidia ofBeauveria bassiana andMetarhizium anisopliae suffered high mortalities ranging from 90 to 100% by 2 weeks post-exposure. Infected ♂ ♂ maintained in the same cages with non-infected ♀♀ throughout the experimental period transmitted the fungal infection to the ♀♀ resulting in mortalities of 65% withB. bassiana and 55% withM. anisopliae. Likewise, infected ♀♀ maintained together with non-infected ♂♂ transmitted the infection to the ♂♂ resulting in mortalities of 75% withB. bassiana and 45% withM. anisopliae. Female tsetse flies infected withB. bassiana andM. anisopliae and maintained in the same cages with non-infected ♀♀ also transmitted infection to the non-infected tsetse resulting in mortalities of 62% and 48% withB. bassiana andM. anisopliae respectively. Infected tsetse exposed to non-infected tsetse of the opposite sex for only 30 min were also able to transmit the fungal infection. Pupae produced by female tsetse infected withB. bassiana andM. anisopliae exhibited higher pupal mortality than those produced by non-infected ♀♀. However, pupae exposed directly to dry spores ofB. bassiana andM. anisopliae had no increase in pupal mortality but adults emerging from theB. bassiana-exposed pupae had markedly reduced longevity.      

Effects of NaCl or Na<Subscript>2</Subscript>SO<Subscript>4</Subscript> salinity on plant growth,ion content and photosynthetic activity in <Emphasis Type="Italic">Ocimum basilicum</Emphasis> L.

Basil (Ocimum basilicum L., cultivar Genovese) plants were grown in Hoagland solution with or without 50 mM NaCl or 25 mM Na₂SO₄. After 15 days of treatment, Na₂SO₄ slowed growth of plants as indicated by root, stem and leaf dry weight, root length, shoot height and leaf area, and the effects were major of those induced by NaCl. Photosynthetic response was decreased more by chloride salinity than by sulphate. No effects in both treatments on leaf chlorophyll content, maximal efficiency of PSII photochemistry (F _v/F _m) and electron transport rate (ETR) were recorded. Therefore, an excess of energy following the limitation to CO₂ photoassimilation and a down regulation of PSII photochemistry was monitored under NaCl, which displays mechanisms that play a role in avoiding PSII photodamage able to dissipate this excess energy. Ionic composition (Na⁺, K⁺, Ca²⁺, and Mg²⁺) was affected to the same extent under both types of salinity, thus together with an increase in leaves Cl⁻, and roots SO₄ ²⁻ in NaCl and Na₂SO₄-treated plants, respectively, may have resulted in the observed growth retardation (for Na₂SO₄ treatment) and photosynthesis activity inhibition (for NaCl treatment), suggesting that those effects seem to have been due to the anionic component of the salts.     

The Effects of Copper (II) Ions on <Emphasis Type="Italic">Enterococcus hirae</Emphasis> Cell Growth and the Proton-Translocating F<Subscript>o</Subscript>F<Subscript>1</Subscript> ATPase Activity

Enterococcus hirae grow well under anaerobic conditions at alkaline pH (pH 8.0) producing acids by glucose fermentation. Bacterial growth was shown to be accompanied by decrease of redox potential from positive values (~+35 mV) to negative ones (~−220 mV). An oxidizer copper (II) ions (Cu²⁺) affected bacterial growth in a concentration-dependent manner (within the range of 0.05 mM to 1 mM) increasing lag phase duration and decreasing specific growth rate. These effects were observed with the wild-type strain ATCC9790 and the atpD mutant strain MS116 (with absent β subunit of F₁ of the F_oF₁ ATPase) both. Also ATPase activity and proton–potassium ions exchange were assessed with and without N,N′-dicyclohexylcarbodiimide (DCCD), inhibitor of the F_oF₁ ATPase. In both cases (DCCD ±), even low Cu²⁺ concentrations had noticeable effect on ATPase activity, but with less visible concentration-dependent manner. Changes in the number of accessible SH-groups were observed with E. hirae ATCC9790 and MS116 membrane vesicles. In both strains Cu²⁺ markedly decreased the number of SH-groups in the presence of K⁺ ions. The addition of ATP increased the amount of accessible SH-groups in ATCC9790 and decreased this number in MS116; Cu²⁺ blocked ATP-installed increase in SH-groups number in ATCC9790. H⁺–K⁺-exchange of bacteria was markedly inhibited by Cu²⁺, but stronger effects were detected together with DCCD. Moreover, discrimination between Cu²⁺ and other bivalent cation—Ni²⁺ was shown. It is suggested that Cu²⁺ ions inhibit E. hirae cell growth by direct affect on the F_oF₁ ATPase leading to conformational changes in this protein complex and decrease in its activity.     

The effect of sulfur compounds on H<Subscript>2</Subscript> evolution/consumption reactions,mediated by various hydrogenases,in the purple sulfur bacterium, <Emphasis Type="Italic">Thiocapsa roseopersicina</Emphasis>

The influence of reduced sulfur compounds (including stored S⁰) on H₂ evolution/consumption reactions in the purple sulfur bacterium, Thiocapsa roseopersicina BBS, was studied using mutants containing only one of the three known [NiFe] hydrogenase enzymes: Hox, Hup or Hyn. The observed effects depended on the kind of hydrogenase involved. The mutant harbouring Hox hydrogenase was able to use S₂O₃²⁻, SO₃²⁻, S²⁻ and S⁰ as electron donors for light-dependent H₂ production. Dark H₂ evolution from organic substrates via Hox hydrogenase was inhibited by S⁰. Under light conditions, endogenous H₂ uptake by Hox or Hup hydrogenases was suppressed by S compounds. СО₂-dependent H₂ uptake by Hox hydrogenase in the light required the additional presence of S compounds, unlike the Hup-mediated process. Dark H₂ consumption via Hyn hydrogenase was connected to utilization of S⁰ as an electron acceptor and resulted in the accumulation of H₂S. In wild type BBS, with high levels of stored S⁰, dark H₂ production from organic substrates was significantly lower, but H₂S accumulation significantly higher, than in the mutant GB1121(Hox⁺). There is a possibility that H₂ produced via Hox hydrogenase is consumed by Hyn hydrogenase to reduce S⁰.     

Effects of salinity on chlorophyll fluorescence and CO<Subscript>2</Subscript> fixation in C<Subscript>4</Subscript> estuarine grasses

The effects of salinity (sea water at 0 ‰ versus 30 ‰) on gross rates of O₂ evolution (J _O2) and net rates of CO₂ uptake (P _N) were measured in the halotolerant estuarine C₄ grasses Spartina patens, S. alterniflora, S. densiflora, and Distichlis spicata in controlled growth environments. Under high irradiance, salinity had no significant effect on the intercellular to ambient CO₂ concentration ratio (C _i/C _a). However, during photosynthesis under limiting irradiance, the maximum quantum efficiency of CO₂ fixation decreased under salinity across species, suggesting there is increased leakage of the CO₂ delivered to the bundle sheath cells by the C₄ pump. Growth under salinity did not affect the maximum intrinsic efficiency of photosystem 2, PS2 (F_V/F_M) in these species, suggesting salinity had no effect on photosynthesis by inactivation of PS2 reaction centers. Under saline conditions and high irradiance, P _N was reduced by 75 % in Spartina patens and S. alterniflora, whereas salinity had no effect on P _N in S. densiflora or D. spicata. This inhibition of P _N in S. patens and S. alterniflora was not due to an effect on stomatal conductance since the ratio of C _i/C _a did not decrease under saline conditions. In growth with and without salt, P _N was saturated at ∼500 μmol(quantum) m⁻² s⁻¹ while J _O2 continued to increase up to full sunlight, indicating that carbon assimilation was not tightly coupled to photochemistry in these halophytic species. This increase in alternative electron flow under high irradiance might be an inherent function in these halophytes for dissipating excess energy.     

Photosynthesis and photosystem 2 efficiency of two salt-adapted halophytic seashore <Emphasis Type="Italic">Cakile maritima</Emphasis> ecotypes

The effects of salinity (0–400 mM NaCl, marked S₀, S₁₀₀, S₂₀₀, and S₄₀₀) on growth, photosynthesis, photosystem 2 (PS2) efficiency, ion relations, and pigment contents were studied in two seashore Cakile maritima ecotypes (Tabarka and Jerba, respectively, sampled from humid and arid bioclimatic areas). Growth of Jerba plants was improved at S₁₀₀ as compared to S₀. Tabarka growth was inhibited by salinity at all NaCl concentrations. Leaf sodium and chloride concentrations increased with medium salinity and were higher in Jerba than in Tabarka plants. Chlorophyll content, net photosynthetic rate, stomatal conductance (g _s), and intracellular CO₂ concentration were stimulated at moderate salinity (S₁₀₀) in Jerba plants and inhibited at higher salt concentrations in both ecotypes: g _s was the most reduced parameter. The maximum quantum efficiency of PS2 (F_v/F_m), quantum yield, linear electron transport rate, and efficiency of excitation energy capture by open PS2 reaction centres showed no significant changes with increasing salt concentration in Jerba plant and were decreased in Tabarka subjected to S₄₀₀. However, the efficiency of dissipation of excess photon energy in the PS2 antenna was maintained in Jerba and was increased in Tabarka plants challenged with S₄₀₀. Hence the relative salt tolerance of Jerba was associated with a better ability to use Na⁺ and Cl⁻ for osmotic adjustment, the absence of pigment degradation, and the concomitant PS2 protection from photodamage.     

Genetics of the sex ratio anomaly in Drosophila hybrids of the Virilis group

Summary A study was made of the effect of genotype and temperature (25 and 17°C) on sex ratio in the hybrids D. virilis Sturt. X D. littoralis Sokolov. A genetic system has been found controlling sex-differential viability. In the F₁ of the reciprocal hybrids D. virilis X D. littoralis the sex ratio is normal, though at 17°C females are slightly excessive. The abnormal sex ratio is observed only in the progeny of test crosses.The major gene causing the death of female progeny of the cross [ (, D. virilis x , D. littoralis) x D. virilis] x D. littoralis is located on chromosome 2 of D. virilis. It is expressed as a lethal if chromosome 5 is heterogeneous virilis-littoralis. Chromosome 3 of D. virilis bears a modifier-enhancer and chromosome 5, a suppressor, of this lethal found in chromosome 2. This genetic system has a maternal effect and functions at 25°C, interacting with the X-chromosome of D. littoralis. If the maintainance temperature is lowered to 17°C, the progeny of the cross hybrid FB₁ x D. littoralis is predominantly female. Partial death of males is accounted for by a disturbance in the interaction between the genes of X-chromosome in certain combinations with the D. virilis autosomes and the Y-chromosome of the paternal species D. littoralis.Sex-differential mortality in the hybrids D. virilis x D. littoralis is one of the isolating factors between these species which does not appear to act until the second and subsequent F₁ generations due to the formation of the recombination load.     

The <Emphasis Type="Italic">b</Emphasis><Subscript>arg36</Subscript> contributes to efficient coupling in F<Subscript>1</Subscript>F<Subscript>O</Subscript> ATP synthase in <Emphasis Type="Italic">Escherichia coli</Emphasis>

In Escherichia coli, the F₁F_O ATP synthase b subunits house a conserved arginine in the tether domain at position 36 where the subunit emerges from the membrane. Previous experiments showed that substitution of isoleucine or glutamate result in a loss of enzyme activity. Double mutants have been constructed in an attempt to achieve an intragenic suppressor of the b _arg36→ile and the b _arg36→glu mutations. The b _arg36→ile mutation could not be suppressed. In contrast, the phenotypic defect resulting from the b _arg36→glu mutation was largely suppressed in the b _{arg36→glu,glu39→arg} double mutant. E. coli expressing the b _{arg36→glu,glu39→arg} subunit grew well on succinate-based medium. F₁F_O ATP synthase complexes were more efficiently assembled and ATP driven proton pumping activity was improved. The evidence suggests that efficient coupling in F₁F_O ATP synthase is dependent upon a basic amino acid located at the base of the peripheral stalk.     

Influence of the egg parasitoidPlatytelenomus busseolae [Hym.: Scelionidae] on the population ofSesamia nonagrioides [Lep.: Noctuidae] in central greece

The egg parasitoid,Platytelenomus busseolae (Gahan) (Hymenoptera: Scelionidae) was recorded from egg masses of the corn stalk borer,Sesamia nonagrioides (Lefebvre) (Lepidoptera: Noctuidae) on maize in the area of Istiaea, Central Greece. Natural parasitism was studied during the years 1986, 1987. A total of 3,382 egg masses, containing 205,227 eggs, was collected from corn fields. Parasitized eggs were found from end July to mid-October. In 1986. 76.2% of the egg masses and 42.8% of all eggs were parasitized, while in 1987, respective values were 27.6% and 12.9%. The inferior performance of the parasitoid in 1987 may be due to the unfavorable winter and summer conditions. Parasitism decreased when the host population was at its peak, but it increased again within 1 to 3 weeks. A small percentage of egg masses was completely parasitized (9.5% and 4.7% for the 2 years respectively). In 1987, the sex ratio, ♀♀/♂♂ was 1.5: 1 and 26.2% of the egg masses produced only ♂♂. Mated ♀♀ produced 3 times more ♀♀ than ♂♂. It seems that the parasitoid, under favorable weather conditions, can play a significant role in the control of the corn stalk borer.      

Genetic analysis of the position of meiosis in <Emphasis Type="Italic">Porphyra haitanensis</Emphasis> Chang et Zheng (Bangiales,Rhodophyta)

Crossing experiments were carried out between artificial pigmentation mutants and the wild type in Porphyra haitanensis Chang et Zheng to ascertain where meiosis occurs in its life history by confirming whether the color segregation and the color-sectored blades appear in F₁ gametophytic blades developed from conchospores which are released from heterozygous conchocelis. Two red-type pigmentation mutants (R-10 and SPY-1) were used as the female parent. Their blades are red or red orange in color, thinner than the wild type and weak in elasticity, and have no denticles on their margins. The wild type (W) was used as the male parent; its blades are light brown in color, thick and good in elasticity, and have many marginal denticles. The F₁ gametophytic blades developed from conchospores which were released from heterozygous conchocelis produced in the crosses of R-10(♀)×W(♂) and SPY-1(♀)×W(♂) showed two parental colors (R and W) and two new colors (R', lighter in color than R; W', wild-type-like color and redder than W). Linear segregation of colors occurred in the F₁ blades, forming color-sectored blades with 2–4 sectors. In the color-sectored blades, R and R' sectors were thinner than W and W' sectors, and had weak elasticity and no denticles on their margins, whereas W and W' sectors were thick and had good elasticity and many marginal denticles. Of the F₁ gametophytic blades, 95.2–96.7% were color-sectored and only 3.3–4.8% were unsectored. These results indicate that meiosis of P. haitanensis occurs during the first two cell divisions of a germinating conchospore, and thus it is considered that the initial four cells of a developing conchosporeling constitute a linear genetic tetrad leading to the formation of a color-sectored blade. The new colors of R' and W' were recombinant colors due to the chromosome recombination during the first cell division in meiosis. It is considered that color phenotypes of the two mutants used in this paper were result of two (or more) recessive mutations in different genes, and that they also have mutations concerned with blade thickness and formation of marginal denticles, which are linked with the color mutations.     

Genetic analysis of neonatal death with growth retardation in F1 male Dh/+ mice

Nearly all F₁ male mice with Dh/+ genotype between DDD female and DH–Dh/+ male die within a few days after birth; however, this is not observed in the reciprocal cross. The F₁ Dh/+ males usually exhibit growth retardation prior to death. To identify the putative genetic locus or loci in DDD genome that cause the abnormalities in the presence of the Dh, a linkage analysis was carried out in backcross progeny of a cross of (DDD female × DH–+/+ male) F₁ female × DH–Dh/+ male. Appearance of growth retardation was examined from the day of birth, and both growth-retarded and normally weaned Dh/+ males were genotyped for microsatellite marker loci spanning autosomes and the X Chromosome (Chr). Significant evidence for linkage was identified on the distal edge of the X Chr, near the microsatellite marker of DXMit135. Furthermore, among mice from DDD female × reciprocal F₁ Dh/+ male produced between DH–Dh/+ and progenitor strains (C57BL/6J, C3H/HeJ and BALB/cA), only the progeny from ♀DDD ×♂(♀DH–Dh/+×♂C3H/HeJ) F₁ Dh/+ male did not show any lethality and/or growth retardation. Thus, the lethality in F₁ Dh/+ males accompanied by growth retardation is caused by the interactions between the Dh gene, X Chr, and Y Chr. Based on the CAG repeat sequence length polymorphism among Mus musculus musculus Sry gene, C3H/HeJ was different from C57BL/6J, BALB/cA, and DH. These data suggest that there are at least two functional types of Y Chr in Mus musculus musculus. Received: 22 January 1999 / Accepted: 5 April 1999     

Le rôle d'Aphytis chilensis [Hym.: Aphelinidae], parasite d'Aspidiotus nerii [Hom.: Diaspididae] sur olivier en Crète

Résumé La souche parthénogénétique d'Aphytis chilensis How., qui se trouve en Crète, a 2 maxima d'abondance, au printemps et en automne. Dans 79,2% des cas le parasite attaque les jeunes ♀ d'Aspidiotus nerii Bouché; 18,9% des parasites se trouvent sur les pronymphes ♂, et rarement les ♀ en oviposition, les L₂ ♂ et les nymphes ♂ sont acceptés comme h?tes. Parmi les cochenilles contenant des œufs du parasite, 40,2% en avaient de 2 à 4; ce superparasitisme évalué au stade nymphal se réduit à 13,7%, ce qui montre que tous les parasites ne peuvent se développer. Le parasite est capable de se maintenir à un taux de parasitisme élevé dans une gamme assez large de densités de l'h?te allant de 2 à 20 cochenilles susceptibles d'être parasitées par feuille. Aux basses densités, il est plus efficace sur vieilles feuilles que sur nouvelles feuilles. Chaque parasite immature vivant correspond à la destruction de 2 cochenilles-h?tes: 1 par parasitisme, 1 par ?host-feeding?. En conséquence, on observe que chaque accroissement du taux de parasitisme s'accompagne d'une augmentation parallèle de la mortalité non-parasitaire. C'est ainsi que le parasitisme maximum s'accro?t de 18,4% en 1975, à 61,4% en 1977, tandis que la mortalité maximum passe de 61,7% à 88,2%. Pendant la même période, la densité de la cochenille s'est trouvée réduite de 20 fois environ. Ces résultats montrent tout l'intérêt pratique de la présence spontanée du parasite indigène,A. chilensis, pour la limitation des populations d'A. nerii.

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Summary The parthenogenetic strain ofAphytis chilensis How. found in Greece shows 2 maxima of abundance, one in spring and the other in autum. In 79,2% of all cases the parasite attacks young ♀ ofA. nerii, in 18,9% ♂ pronymphs, and only rarely it is found on ovipositing ♀, ♂ L2 or ♂ nymphs. Up to 4 parasites can develop on a young scale ♀. In fact, 40,2% of all scales exhibit superparasitism at the egg level, which then decreases to 13,7% in the nymphs. This parasite is capable of maintaining a high parasitization rate over a wide range of host densities (2–20 parasitizable scales per leaf). Among chosen leafs of the same low scale density the parasite is more efficient on old leaves than on new ones. For every living immature parasite found in a sample, the parasite ♀ has killed another young scale ♀ through host-feeding. Over a period of 4 years each peak in active parasitism, which increases from 18,4% in 1975 to 61,4% in 1977, therefore coincides with a corresponding increase in the maximum scale mortality, which runs from 61,7% to 88,2%. During the same period the scale density has dropped about 20 times. These results demonstrate the practical importance of the indigenousA. chilensis in the biological control ofA. nerii.