State of the reproductive system of Cyprinidae from the Teterev River and Kiev Reservoir after the Chernobyl accident

The state of the reproductive system in four species of Cyprinidae from the Teterev River and Kiev Reservoir (Ukraine)—descendants of F₃–F₆ generations of individuals subjected to the radiation impact because of accident at the Chernobyl Nuclear Power Plant—has been studied. It was shown that 20 years after the accident, there is a wide range of morphofunctional anomalies of this system in fish. The most significant of them are asymmetry and abnormal morphology of gonads; proliferation of connective tissue-sterilization; and mass destruction of sexual cells of different stages of development. Disturbances of reproductive gonads among the studied species are expressed most strongly in bream Abramis brama and rudd Scardinius erythrophthalmus. In the series of studied generations, maximum frequency of occurrence of gonad anomalies in bream and silver bream Blicca bjoerkna was recorded in F₃–F₄ and that in roach Rutilus rutilus and rudd was recorded in F₄–F₅, which is determined by the phenomenon of prolonged mutagenesis.     

The state of reproductive glands of the pike Esox lucius from water bodies of the Chernobyl trail in 1999–2004

The state of the reproductive system of the pike Esox lucius, descendants of individuals exposed to X-ray irradiation due to the catastrophe at the Chernobyl Nuclear Power Plant in 1986, was studied. The material was collected in water bodies of Ukraine contaminated with radionuclides—Kiev Reservoir, the Teterev River, and Lake Glubokoe in the postcatastrophe period 1999–2004. It was shown that the total number and the extent of disturbances in the pike gonads are positively correlated with the levels of contamination of the water bodies: in the cleanest water body, the Teterev River, the proportion of fish with gonads without considerable deviations was 70%; in the Kiev Reservoir, it was 45%; no individuals with normal gonads were recorded in Lake Glubokoe. The great number of anomalies in sexual cells and gonads has led to a decrease in the reproductive capacity of the pike populations studied. A unique case was revealed of synchronous hermaphroditism in a pike from the Kiev Reservoir that belonged to the fourth generation (F₄) of fish that underwent emergency loads. Among postemergency pike generations, the maximum number of disturbances in sexual cells and gonads was recorded in F_2–4, which is possibly accounted for by the phenomenon of “prolonged mutagenesis.”     

The state of the reproductive system of several fish species from water bodies polluted with radionuclides during the Chernobyl catastrophe

The state of the reproductive system in several fish species—offspring of individuals exposed to radiation as a result of the catastrophe at the Chernobyl Nuclear Power Plant (CNPP) was studied. Material was collected in water bodies of Ukraine polluted with radionuclides: water cooler of the CNPP (1992, 2002–2004), Lake Glubokoe (2003–2004), Kiev Reservoir, and Teterev River (1997, 1999–2005). It was shown that the total number and the degree of disturbances in gonads of the studied fish species were positively correlated with the levels of pollution of water bodies: in the cleanest water body, Teterev River, the proportion of fish with gonads without considerable deviations was about 78%; in the Kiev Reservoir, 67%; in the water cooler, 51%; and in Lake Glubokoe, 45%. By the number and pattern of gonad anomalies, species specificity in their response to the radiation background was revealed. A smaller degree of damage of sexual cells and gonads in unisexual (triploid) populations of goldfish Carassius auratus reproducing gynogenetically, as compared to bisexual (diploid) populations, was detected. Among postemergency generations of the studied fish species, in all water bodies the number and degree of gonad disturbances were in F_2–4, in Kiev Reservoir and Teterev River, this was most likely accounted for by the phenomenon of prolonged mutagenesis.     

Genetic studies of histocompatibility in rabbits: Identification of major and minor genes

Histocompatibility was investigated by skin grafting in F₂ and F₃ hybrid generations from a cross of two related inbred lines of rabbits. The results suggested that two loci (RbH- 1, RbH- 2), in addition to a number of minor loci contributing weak effects on histocompatibility, are segregating in these generations.RbH- 1 may correspond or be homologous to the complex locus found in a number of mammalian species.     

Characterization and multi-generational stability of the growth hormone transgene (EO-1α) responsible for enhanced growth rates in Atlantic Salmon

Transgenic technologies provide a promising means by which desirable traits can be introduced into cultured fish species within a single generation thus accelerating the production of genetically superior broodstock for aquaculture. However, before such fish are allowed to be marketed as food they must receive government regulatory approval. Two pivotal regulatory requirements are: (1) complete characterization of the genomically integrated transgene and, (2) demonstration that the transgene remains stable over multiple generations. We have generated a stable line of growth hormone (GH) transgenic Atlantic salmon (Salmo salar) using an “all fish” gene construct (opAFP-GHc2) containing a growth hormone cDNA from chinook salmon whose expression is regulated by the 5′ promoter and 3′ termination regions derived from an ocean pout antifreeze protein (AFP) gene. In this study we show that a reorganized form of the opAFP-GHc2 construct (termed EO-1α) integrated as a single functional copy into a 35 bp repeat region of the genomic DNA. PCR based mapping revealed that the linear sequence of the EO-1α integrant was organized as follows: base pairs 1580–2193 of the ocean pout promoter region followed by the intact chinook salmon GH cDNA, the complete ocean pout antifreeze 3′ region, and the first 1678 bp of the ocean pout antifreeze 5′ region. Sequence analysis of the EO-1α integrant and genomic flanking regions in F₂ and F₄ generation salmon revealed that they were identical. In addition, apart from the disruption at the integration sites, the consensus sequences of the integrant in these two generations of salmon were identical to the sequence of the opAFP-GHc2 construct. These results indicate that the EO-1α transgene codes for the chinook salmon GH, and that the transgene and the integration site have remained stable over multiple generations.     

Abnormally High Nourishment During Sensitive Periods Results in Body Weight Changes Across Generations

Objective : This study asked whether a brief period of over-nutrition during a developmentally sensitive time could impact the individual's adult weight and that of succeeding generations. Research Methods and Procedures : Female rat pups (F₁ generation) were randomly assigned to 1 of 3 groups: (1) a control group that was naturally reared by mothers; (2) another control group implanted with chronic gastric fistulas on postnatal day 4 and fed enough formula to match the growth of the mother-reared group; and (3) an experimental group gastrostomized and infused from day 8 through day 16 with a greater quantity of food than gastrostomy-reared controls (OF). On postnatal day 16, both gastrostomy-reared groups were returned to normal litters. Adult F₁ females from overfed and mother-reared groups were bred with normal males to yield an F₂ generation. F₂ adult females were bred to normal males to produce an F₃ generation. Results : When adult, the F₁ experimental group was heavier than control groups. F₂ adults from OF mothers were smaller than those from the control group. F₃ animals from OF grandmothers were heavier at weaning than F3 descendants from mother-reared animals. Discussion : Excess nourishment during a developmentally sensitive period changed the metabolic phenotype of one generation so dramatically that the gestational development and subsequent phenotype of two succeeding generations were also changed. The experiment models fetal effects of gestational diabetes in humans and may help to elucidate how, independent of genetic anomalies, secular changes can be detected across generations.     

Synthesis, morphology and cytogenetics of Raphanofortii (TTRR, 2n = 38): a new amphidiploid of hybrid Brassica tournefortii (TT, 2n = 20) ×Raphanus caudatus (RR, 2n=18)

Amphidiploid Raphanofortii was synthesized by colchicinization of the F₁ hybrid Brassica tournefortii (TT, 2n = 20)×Raphanus caudatus (RR, 2n = 18). The crossability between these two species, and the cytomorphology of the F₁ plants and the amphidiploids were investigated. Intergeneric hybrids between the species were obtained only when B. tournefortii was involved as female parent. The hybrid plants were intermediate for most of the morphological attributes and showed very low pollen fertility compared to the parents. Although a majority of the pollen mother cells of the dihaploid hybrid (TR, 2n = 19) harboured univalents, a maximum of six bivalents were also observed. Of the 37 colchicine-treated F₁ plants analyzed cytologically, 21 were found to be true amphidiploids (2n = 38), whereas seven were mixoploids. Meiosis in the amphidiploids was characterized by the occurrence of 19 bivalents, though multivalents and univalents were also observed in a few cells. Most of the amphidiploid plants exhibited a fairly high pollen and seed fertility, which was further enhanced with the advancement of generations. Out of 69 plants investigated in the A₂ generation, 64 were euploids while the remaining five were aneuploids (2n = 36, 37, 39, 40 and 42). The newly synthesized Raphanofortii has great potential as a new commercial crop, as well as a bridge species for the transfer of economically important attributes of both the species to other Brassicas. Received: 2 November 1999 / Accepted: 26 March 2000     

Relationship between effective population size,inbreeding and adult fitness‐related traits in a steelhead (Oncorhynchus mykiss) population released in the wild

Inbreeding is of concern in supportive breeding programmes in Pacific salmonids, Oncorhynchus spp, where the number of breeding adults is limited by rearing space or poor survival to adulthood, and large numbers are released to supplement wild stocks and fisheries. We reconstructed the pedigree of 6602 migratory hatchery steelhead (Oncorhynchus mykiss) over four generations, to determine the incidence and fitness consequences of inbreeding in a northwest USA programme. The hatchery maintained an effective population size,  = 107.9 from F₀ to F₂, despite an increasing census size (N), which resulted in a decreasing N_e/N ratio (0.35 in F₀ to 0.08 in F₂). The reduced ratio was attributed to a small broodstock size, nonrandom transfers and high variance in reproductive success (particularly in males). We observed accumulation of inbreeding from the founder generation (in F₄, percentage individuals with inbreeding coefficients Δf > 0 = 15.7%). Generalized linear mixed models showed that body length and weight decreased significantly with increasing Δf, and inbred fish returned later to spawn in a model that included father identity. However, there was no significant correlation between Δf and age at return, female fecundity or gonad weight. Similarly, there was no relationship between Δf and reproductive success of F₂ and F₃ individuals, which might be explained by the fact that reproductive success is partially controlled by hatchery mating protocols. This study is one of the first to show that small changes in inbreeding coefficient can affect some fitness‐related traits in a monitored population propagated and released to the wild.     

Effect of fish length and nutritional condition on the fecundity of distressed Atlantic cod Gadus morhua from the Baltic Sea

The disappearance of larger individuals and the decrease in individual body condition suffered by Atlantic cod Gadus morhua in the eastern Baltic during the past two decades can be expected to affect the stock reproductive output. To investigate this, female G. morhua were collected during the spawning and pre‐spawning period in 2015?2016. The current individual potential fecundity (F_P) of eastern Baltic G. morhua was estimated and analysed in relation to total length (L_T) and indices of nutritional status such as body condition (K) and hepato‐somatic index (I_H) using generalized linear models. In addition, the current prevalence of atresia and its potential relation to K were investigated. Moreover, a calibration curve to estimate F_P from oocyte diameter, based on the autodiametric oocyte counting method, was established for the first time for eastern Baltic G. morhua and can be used for future fecundity studies on this stock. The results showed that F_P was mainly positively related to fish length, but K and I_H also contributed significantly to the variation in F_P. The model predicted that fish with K = 1·2 have a F_P 51% higher than fish of the same L_T with K = 0·8. The prevalence of fecundity regulation by atresia was 5·8%, but it was found only in fish in the pre‐spawning maturity stage and with low K. Temporal changes in biological features such as the length composition and individual body condition of eastern Baltic G. morhua, should be accounted for when estimating stock reproductive potential.     

QTL consistency and meta-analysis for grain yield components in three generations in maize

Grain yield is the most important and complex trait in maize. In this study, a total of 258 F₉ recombinant inbred lines (RIL), derived from a cross between dent corn inbred Dan232 and popcorn inbred N04, were evaluated for eight grain yield components under four environments. Quantitative trait loci (QTL) and their epistatic interactions were detected for all traits under each environment and in combined analysis. Meta-analysis was used to integrate genetic maps and detected QTL across three generations (RIL, F_2:3 and BC₂F₂) derived from the same cross. In total, 103 QTL, 42 pairs of epistatic interactions and 16 meta-QTL (mQTL) were detected. Twelve out of 13 QTL with contributions (R ²) over 15% were consistently detected in 3–4 environments (or in combined analysis) and integrated in mQTL. Only q100GW-7-1 was detected in all four environments and in combined analysis. 100qGW-1-1 had the largest R ² (19.3–24.6%) in three environments and in combined analysis. In contrast, 35 QTL for 6 grain yield components were detected in the BC₂F₂ and F_2:3 generations, no common QTL across three generations were located in the same marker intervals. Only 100 grain weight (100GW) QTL on chromosome 5 were located in adjacent marker intervals. Four common QTL were detected across the RIL and F_2:3 generations, and two between the RIL and BC₂F₂ generations. Each of five important mQTL (mQTL7-1, mQTL10-2, mQTL4-1, mQTL5-1 and mQTL1-3) included 7–12 QTL associated with 2–6 traits. In conclusion, we found evidence of strong influence of genetic structure and environment on QTL detection, high consistency of major QTL across environments and generations, and remarkable QTL co-location for grain yield components. Fine mapping for five major QTL (q100GW-1-1, q100GW-7-1, qGWP-4-1, qERN-4-1 and qKR-4-1) and construction of single chromosome segment lines for genetic regions of five mQTL merit further studies and could be put into use in marker-assisted breeding.     

Preliminary results from five generations of a western redcedar (<Emphasis Type="Italic">Thuja plicata</Emphasis>) selection study with self-mating

A western redcedar selection study with self-mating was initiated using an accelerated breeding cycle, such that five generations were completed in 10 years. Thirty random and 30 selected lines for height, from 15 unrelated full-sib families (S₀; inbreeding coefficient F = 0) were the founders for the subsequent selfed lines (S₁ to S₄; F = 0.5 to 0.9375, respectively). Of the original 60 lines, 50 were still in existence at the S₄ generation. Random extinct lines and replacement seedlings resulted either from a lack of mature cones or filled seed, whereas selected line extinctions and replacements were mostly due to a lack of filled seed. Approximately 47% of parent-trees in the S₄ generation displayed temporal separation of male and female function, as opposed to 7% in the S₀. Observed response to selection in height was approximately 21% after four generations. There were no significant reductions in seed weight or vigor across generations, and these traits were not correlated with selection height. Results are discussed in relation to the general influences of inbreeding and random genetic drift on response to the selection and incorporation of selfing into tree-breeding strategies.     

RFLP mapping of the genes controlling hybrid breakdown in rice (Oryza sativa L.)

 Complementary recessive genes hwd1 and hwd2 controlling hybrid breakdown (weakness of F₂ and later generations) were mapped in rice using RFLP markers. These genes produce a plant that is shorter and has fewer tillers than normal plants when the two loci have only one or no dominant allele at both loci. A cultivar with two dominant alleles at the hwd1 locus and a cultivar with two dominant alleles at the hwd2 locus were crossed with a double recessive tester line. Linkage analysis was carried out for each gene independently in two F₂ populations derived from these crosses. hwd1 was mapped on the distal region of rice genetic linkage map for chromosome 10, flanked by RFLP markers C701 and R2309 at a distance of 0.9 centiMorgans (cM) and 0.6 cM, respectively. hwd2 was mapped in the central region of rice genetic linkage map for chromosome 7, tightly linked with 4 RFLP markers without detectable recombination. The usefulness of RFLP mapping and map information for the genes controlling reproductive barriers are discussed in the context of breeding using diverse rice germplasm, especially gene introduction by marker-aided selection.     

Alterations of the manifestations of hybrid breakdown in Lycopersicon esculentum L. pennellii F2 populations containing L. esculentum versus L. pennellii cytoplasm

Reproductive abnormalities reduced the percent stainable pollen, and fruit and seed set in interspecific F₂ populations derived from crosses of Lycopersicon esculentum and L. pennellii but were not observed in parental lines and interspecific F₁ populations. The degree to which these reproductive abnormalities were expressed in the interspecific F₂ populations was affected by cytoplasm. Reproduction was impeded in interspecific F₂ populations containing L. esculentum cytoplasm (F ₂ ^Le ) by reduction in pollen production, the lack of fruit set and a high proportion of parthenocarpic fruit among plants capable of fruit set. The F₂ populations containing L. pennellii cytoplasm (F ₂ ^Lp4 ) showed a reduced frequency of reproductive abnormalities at all stages of reproductive development, resulting in higher values for percent stainable pollen, fruit and seed set and higher proportions of the F ₂ ^Lp4 populations being capable of setting fruit or seed than F ₂ ^Le populations. The major barrier remaining in F ₂ ^Lp4 populations was reduced fruit set compared to parental lines. The barrier to fruit and seed set observed in the F ₂ ^Le populations, and to a lesser extent in the F ₂ ^Lp4 populations, occurs around the time of fertilization or early embryonic development. The effect of L. pennellii cytoplasm on barriers in the F ₂ ^Lp4 populations is proposed to be due to an interaction between cytoplasmic and nuclear genes during fertilization of the F₁ plants to produce F₂ populations and may also affect subsequent generations.     

The dynamics of ecosystem restoration: theoretical considerations on the basis of species richness

Much recent research on ecosystem restoration has focused on specific cases, restoration mechanisms, and techniques in the field. However, there has been less emphasis on the theoretical aspects. Here, species richness is considered as an indicator of ecosystem restoration. The dynamic process of ecosystem restoration is put into a coordinate system consisting of species richness s and time t. The factors affecting ecosystem restoration are introduced into the system to develop dynamic models describing the ecosystem restoration process. We propose that the forces controlling the restoration process include ecosystem restoration force (F ₁), disturbance force (F ₂), environmental resistance force (F ₃), resistance force to disturbance (F ₄), and the resultant force F, and develop models for their calculation. These forces are functions of time, climate, species immigration rate, disturbance, species richness, and soil nutrient heterogeneity. Disturbance force (F ₂) and resistance force to disturbance (F ₄) are positively related to species richness. Our models suggest that the velocity differential ψ of the change in species richness is inversely proportional to species richness and directly proportional to the resultant force F of ecosystem restoration. In the presence of a harmful disturbance, species richness is always lower than maximum species richness s _m. The lower the primary richness s ₀ and immigration rate r in ecosystem restoration, the more obvious the logistic characteristics of the curve of the dynamic process. The dynamic models can be used to predict the restoration of species richness and analyze its dynamic mechanism, and assess the potential for ecosystem restoration. This integrated approach provides a new understanding of ecosystem restoration.     

Inheritance of resistance to podfly and podborer in the interspecific cross of pigeonpea

 Pigeonpea, Cajanus cajan, is an important grain legume of Asia and Africa. The podfly, Melanagromyza obtusa, and the podborer, Helicoverpa armigera, are the major insect pests of this crop. An accession (JM 4147) of the wild species Cajanus scarabaeoides appears to possess resistance to these insect pests. For investigating the inheritance of resistance a cross was made between the susceptible cultivar Pant A-3 as female and the wild species. The parental lines and their F₁, F₂ and backcross generations were studied. For podfly, the per cent pod damage was recorded on individual plants. The results suggested that resistance to podfly is governed by the two recessive genes. In the podborer screening for antixenosis was carried out through the dual-choice arena test. The results indicated that a single dominant gene is involved in the antixenosis. Received : 11 March 1997 / Accepted : 4 April 1997     

Isolation and characterization of polymorphic microsatellite markers in Anthyllis vulneraria

To study the reproductive system of the putative autogamous species Anthyllis vulneraria in Belgian calcareous grasslands, eight polymorphic microsatellite loci were developed using the sequence‐tagged microsatellite profiling technique and 35 plants were typed for all loci. No linkage disequilibrium was found between any pair of loci. Over the loci, the number of alleles ranged from two to five. Observed and expected heterozygosities ranged from 0.053 to 0.688 and from 0.053 to 0.631, respectively. The estimated F_IS values (F_IS = 0.031 and 0.122) are not in accordance with a predominantly selfing reproductive system.     

A major QTL for resistance to Gibberella stalk rot in maize

Fusarium graminearum Schwabe, the conidial form of Gibberella zeae, is the causal fungal pathogen responsible for Gibberella stalk rot of maize. Using a BC₁F₁ backcross mapping population derived from a cross between ‘1145’ (donor parent, completely resistant) and ‘Y331’ (recurrent parent, highly susceptible), two quantitative trait loci (QTLs), qRfg1 and qRfg2, conferring resistance to Gibberella stalk rot have been detected. The major QTL qRfg1 was further confirmed in the double haploid, F₂, BC₂F₁, and BC₃F₁ populations. Within a qRfg1 confidence interval, single/low-copy bacterial artificial chromosome sequences, anchored expressed sequence tags, and insertion/deletion polymorphisms, were exploited to develop 59 markers to saturate the qRfg1 region. A step by step narrowing-down strategy was adopted to pursue fine mapping of the qRfg1 locus. Recombinants within the qRfg1 region, screened from each backcross generation, were backcrossed to ‘Y331’ to produce the next backcross progenies. These progenies were individually genotyped and evaluated for resistance to Gibberella stalk rot. Significant (or no significant) difference in resistance reactions between homozygous and heterozygous genotypes in backcross progeny suggested presence (or absence) of qRfg1 in ‘1145’ donor fragments. The phenotypes were compared to sizes of donor fragments among recombinants to delimit the qRfg1 region. Sequential fine mapping of BC₄F₁ to BC₆F₁ generations enabled us to progressively refine the qRfg1 locus to a ~500-kb interval flanked by the markers SSR334 and SSR58. Meanwhile, resistance of qRfg1 to Gibberella stalk rot was also investigated in BC₃F₁ to BC₆F₁ generations. Once introgressed into the ‘Y331’ genome, the qRfg1 locus could steadily enhance the frequency of resistant plants by 32–43%. Hence, the qRfg1 locus was capable of improving maize resistance to Gibberella stalk rot.     

Construction, electroporatic transfer and expression of ZpβypGH and ZpβrtGH in zebrafish

Recombinant transformation vectors (ZPβypGH and ZpβrtGH) consisting of fish growth hormone cDNA, and a reporter geneβ-galactosidase driven by fish promoter (Zp) were constructed. Freshly fertilized eggs of zebrafish (Brachydanio rerio) were electroporated at optimum conditions (0.07 kV voltage; 25 μF capacitance; 8 ohm resistance and 2 pulses) in the presence of one of these transformation vectors (100 μg circular DNNml). In either cases 72% of the electroporated eggs successfully hatched, in comparison to the 85% hatchability of the control eggs. Genomic DNA extracted from fins of randomly chosenF ₀ individuals was screened (by Southern blot hybridization); the transgenes were retained in the host genome of all the randomly chosen adult transformants. Fin-positive presumptive founder parents were crossed with control counterparts and the DNA of randomly chosenF ₁ progenies was screened for germline transformation. Southern analysis of chosenF ₁ progenies revealed the persistence of ZPβypGH or ZpβrtGH in 53% of theF ₁ progenies. Southern analyses of chosenF ₁ progenies and the frequency (53% ofF ₁ ZpβrtGH and 53% ofF ₁ ZP{β}ypGH) of transmission revealed the degree of mosaicism inF ₀ transformants. Expression was confirmed from the 3–4 times elevated levels of activity of the reporter gene and 30–40% accelerated growth of transgenicF ₀ andF ₁ progenies. Construction of the transgenes was made at the Taiwan National Ocean University, Taiwan and all other work at the Madurai Kamaraj University, Madurai.     

Proteomic Changes in Newly Synthesized <Emphasis Type="Italic">Brassica napus</Emphasis> Allotetraploids and Their Early Generations

Polyploidy is a prominent process in higher plants and is often described as a genomic shock that may induce stress and defense responses. The Brassica napus allotetraploid model was chosen to investigate the proteomic modifications that occur during allopolyploid formation. Large-scale analysis of the proteome from the leaves of B. napus was performed and compared with the homozygous diploid progenitors, Brassica rapa and Brassica oleracea, and among the proteomic changes in B. napus in the early generations (F₁–F₄). The abundance of all these differentially expressed proteins in the F₁ generation differed from that of the corresponding proteins expressed in its progenitors, some of which relatively deviated from mid-parent predictions, exhibiting somewhat non-additive expression repatterning. Proteomic changes in the resynthesized B. napus from the first to the fourth generations were detected, which indicated that gene silencing was a permanent phenomenon and it could be reactivated at any moment. Although leaf proteins were extensively modified in synthetic B. napus, the distribution of the “housekeeping” proteins was not disturbed. Moreover, no evidence of chaos or large disorder was observed after the merging of the two genomes. Instead, a novel order quickly developed, which might evolve in further generations of synthetic B. napus.     

Parthenogenetic reproduction in the neotropical unisexual lizard,Gymnophthalmus underwoodi (Reptilia: Teiidae)

All adult specimens known for Gymnophthalmus underwoodi are females, and their mode of reproduction has been a mystery. In order to rule out the possibility of a bisexual mode of reproduction by means of mating with undiscovered males, hermaphroditism, or sex reversal during ontogeny, we examined hundreds of serial histological sections of complete reproductive tracts from juveniles and adults representing two generations of a lineage raised in captivity. In addition, comparative dissections were performed on other individuals and other species, and reproduction to the F₅ generation was documented in laboratory colonies of G. underwoodi established from Trinidad and Surinam stocks. A lineage of three successive generations was produced entirely by individuals that were maintained in isolation from the moment of hatching. All specimens of G. underwoodi proved to be female, with reproductive anatomy identical to that of females of closely related, bisexual species of Gymnophthalmus: G. pleei and G. speciosus. Thus, G. underwoodi is an all-female species that reproduces by means of strict parthenogenesis, in the absence of sperm. As in the macroteiids of the genus Cnemidophorus studied previously, Gymnophthalmus has functional mesonephric kidneys throughout life. G. underwoodi ranks among the smallest amniotes, adults weighing about 1.2 gm and having a body length of 36–43 mm. Data from the laboratory colonies indicate the following: clutch size, 1–4 (X = 2); mean egg size about 9.4 × 6.5 mm (weight, 0.23 gm); development time, up to 61 days or more; hatchling body length, 16–19 mm (X = 18); hatchling tail length, 18–25 mm (X = 22); hatchling weight, 0.09–0.14 gm (X = 0.115); reproduction continuous year round with individuals able to produce successive clutches in less than a month but quiescent periods following reproductive sessions; maturity attainable seven mo after hatching; longevity at least 4 yr and 5 mo; and a dramatic decline occurred in egg viability in successive generations in the laboratory.