THE EVOLUTIONARY HISTORY OF PARTHENOGENETIC CNEMIDOPHORUS LEMNISCATUS (SAURIA,TEIIDAE). I. EVIDENCE FOR A HYBRID ORIGIN

Chromosomes and allozymes were studied from chromosomally distinct unisexual (races B and C) and bisexual (races D and E) populations of the teiid lizard Cnemidophorus lemniscatus, and from selected outgroup taxa (C. murinus, C. nigricolor, Ameiva ameiva, and A. auberi). Karyotyping confirmed the racial identity of individuals and showed that the chromosomal composition of populations at specific localities has remained the same for 20 years. All individuals of both unisexual populations were heterozygous for a pericentric inversion that distinguishes D and E bisexuals. Also, the unisexuals were all heterozygous for 8 of 11 protein loci for which D and E were fixed or nearly fixed for different alleles. Most of these alleles represent derived states relative to the other Cnemidophorus and Ameiva analyzed, and the fixed heterozygote condition at these nine markers provides unequivocal support for the hypothesis that the unisexual C. lemniscatus arose by hybridization between ancestors genetically similar to extant D and E populations. At the remaining three loci for which D and E show fixed differences, the unisexuals were homozygous rather than heterozygous. This suggests that either (1) allozymes have been lost by mutations to null, silent, or convergent mobility states, (2) ancestral genotypes were similar to but not identical with the extant D and E races, and/or (3) limited recombination may occur between unisexual genomes. Allozyme-based genetic distances between D and E were large, suggesting that bisexual races D and E are genetically isolated; each race should be accorded full species status. This conclusion is supported by the absence of any clear biochemical evidence for their monophyly with respect to the other Cnemidophorus examined. Cladistic analyses of 17 phylogenetically informative loci revealed two equally parsimonious shortest trees, one supporting monophyly and the other paraphyly of the C. lemniscatus complex. Further testing of the monophyly of C. lemniscatus requires additional data. With the present study, the evidence that all parthenogenetic Cnemidophorus are of hybrid origin is complete.     

EVOLUTIONARY MODIFICATION IN CLARKIA I. SELECTION FOR HAIRLESSNESS

Plants of Clarkia unguiculata with moderate numbers of long hairs on the ovary and calyx were selected for relative “hairlessness” through 11 generations. Inbreeding depression, manifested as a high degree of sterility, necessitated co-selection for fertility. The proportion of fertile plants among families ranged from 0–50% in the 5th selected generation and increased to a range of 53–100% in the 10th selected generation. At the same time, the mean number of hairs on the ovary decreased from a range of 0.0–1.1 to a range of 0.0–0.2; and the mean number of hairs per sepal from 0.5–16.0 to 0.1–2.2. The percentage of plants per family with no hairs on the ovary and no hairs on the calyx increased from a range of 0–63 in the 5th selected generation to a range of 4–88 in the 10th selected generation. Nonselected progenies have long hairs on both ovary (mean 10–17) and sepals (mean 46–50) in all plants. The demonstrated response to selection has important implications regarding catastrophic selecion and the evolution of Clarkia species in marginal habitats.     

EVOLUTIONARY STUDIES OF ATRIPLEX: ADAPTIVE PRODUCTS FROM THE NATURAL HYBRID, 6N A. TRIDENTATA x 4N A. CANESCENS

Much of the variation in hexaploid Atriplex tridentata appears to have come from tetraploid A. canescens by introgression. Among the recombinations, three types appear to have become established as new, adaptive, hexaploid derivatives. One of these is a robust, woody form near Knolls, Utah, another is a widespread, low-growing, shrubby form in Lander County, Nevada, the other is an upright bushy, canescens-like form near Grantsville, Utah.     

CELL SORTING IN THE PRESENCE OF CYTOCHALASIN B

The ability of cytochalasin B to inhibit ruffled membrane activity and cellular locomotion of vertebrate cells in monolayer culture prompted its use to study the necessity for this kind of active cellular locomotion in cell sorting in heterotypic cell aggregates. Cell sorting was inhibited in chick embryo heart-pigmented retina aggregates but a remarkable degree of sorting did occur in neural retina-pigmented retina aggregates. In these experiments, the levels of cytochalasin B employed (5 or 10 µg/ml) are sufficient to inhibit completely locomotion of these cell types in monolayer culture. It is proposed that the degree of cell movement achieved during sorting in neural retina-pigmented retina aggregates in the presence of cytochalasin B is the result of changes in cell contact resulting from adhesive interaction of cells. The effect of cytochalasin B on the initial aggregation of dissociated cells was also tested. With the cell types used in this study (chick embryo neural retina and limb bud), aggregation was not affected for a period of several hours.     

SURVIVAL OF HYBRIDS IN A MOSAIC HYBRID ZONE

The ground crickets Allonemobius fasciatus and A. socius meet in a mosaic hybrid zone that stretches from New Jersey at least as far west as Illinois. Within mixed populations from the contact zone, “pure” species individuals predominate. To determine whether hybrids are less viable than pure-species individuals, and to assess whether the high proportion of pure-species individuals in mixed populations results from hybrid inviability, we performed a cohort analysis. In this study, five mixed populations from the hybrid zone were each sampled three to five times from the fall of 1986 to the spring of 1988. Individuals were assigned to one of three categories based on their genotypes: A. socius (individuals harboring only alleles unique to A. socius), hybrid (individuals with alleles unique to both species), and A. fasciatus (individuals harboring only alleles unique to A. fasciatus). This sampling and measurement scheme permitted monitoring of the proportion of hybrid individuals in a population over time. The results were fairly consistent. The relative survival of A. socius was greater than the relative survival of members of the other two groups in four of the five populations. The relative viability of A. fasciatus was greater than that of hybrids in one population, approximately equal to that of hybrids in two populations, and less than that of hybrids in two populations. These results not only shed light on an important component of fitness, viability from hatching to adulthood, but they demonstrate that loss of hybrid individuals during the course of the field season will not explain deviations from random mating expectations present in mixed populations in late summer. The deviations must be due to assortative mating or to a reproductive barrier operating prior to egg hatch.     

杂交粳稻品质与产量性状间的典范相关分析──杂交粳稻品质性状的遗传研究Ⅳ

由38个杂交粳稻及其12个亲本的6个产量性状和13个品质性状的典范相关分析得出：两者以稻谷重、糙米重、精米重、每穗实粒数、单株产量间相关极显著．其它性状关系小．故对产量及其余品质性状同步选择可加速育成优质高产组合．提高产量宜着力增加穗数和结实粒数,籽粒不且过大过宽过重．改良品质以糙米率、糙米长宽比、垩白率、透明度、食味最为关键,并互为正向关系,可同时改良,其中透明度、垩白率又是影响食味的主要直观性状．     

A DEVELOPMENTAL ANALYSIS OF AN EVOLUTIONARY TREND: DIGITAL REDUCTION IN AMPHIBIANS

In this study, we integrate information from phylogeny, comparative ontogeny, and experimental embryology in an attempt to elucidate the mechanisms controlling evolutionary trends towards digital reduction and loss observed in amphibians. Frogs and salamanders that have lost phalanges and even whole toes have done so in a very ordered manner, i.e., certain skeletal elements are lost prior to others. This pattern of morphological diversity is described and trends elucidated. It is concluded that the process is characterized by striking intraordinal convergences coupled with substantial differences between the trends observed in frogs as compared to urodeles. We argue that this pattern is essentially a reflection of the differences in the ontogenies of the two orders. Similarly, the convergences within urodeles and within anurans can be explained as the result of regulation of developmental parameters in a resilient developmental program. We further explore this hypothesis by experimentally perturbing the number of cells in the embryonic limb primordium to show that reduction in the number of mesenchymal cells secondarily affects the developmental process of pattern formation causing a rearrangement of the skeletal morphology of the foot. The same experimental manipulation has different effects in frogs as compared to salamanders. However, in both cases, the experimentally generated morphologies tend to parallel the phenotypes and trends observed in nature. Our conclusion is that most of the patterns of diversity in the digital morphology of amphibians can be explained as a reflection of developmental properties. In general, we present a methodology that attempts to empirically address the issue of identifying developmental constraint in morphological evolution.     

CHROMOSOME BEHAVIOR IN HYBRID FERNS: A REINTERPRETATION OF APPALACHIAN DRYOPTERIS

Analyses of chromosome pairing behavior in fern hybrids, as evidenced by the degree of bivalent and/or univalent formation at meiotic prophase, have frequently been employed in studies of evolutionary relationships within polyploid fern complexes. Pairing is often seen to involve genomic numbers of chromosomes. Many examples exist, however, that indicate pairing on subgenomic levels. If this type of behavior is not recognized in analyses of F₁ hybrids and their polyploid derivatives, interpretations of evolutionary relationships based upon pairing behavior may be misleading. Contrary to some views, sterile triploid hybrids possessing less than three distinct genomes may play a significant role in the formation of reticulate polyploid complexes. This possibility must be considered in interpretations of these complexes. With these factors in mind, the Appalachian Dryopteris complex has been reinterpreted. The reinterpretation provides explanations for several unexplained inconsistencies in previous interpretations.     

EVOLUTIONARY ADAPTATION TO TEMPERATURE. I. FITNESS RESPONSES OF ESCHERICHIA COLI TO CHANGES IN ITS THERMAL ENVIRONMENT

We used bacteria to study experimentally the process of genetic adaptation to environmental temperature. Replicate lines of Escherichia coli, founded from a common ancestor, were propagated for 2,000 generations in 4 different thermal regimes as 4 experimental groups: constant 32, 37, or 42°C (thermal specialists), or a daily alternation between 32 and 42°C (32/42°C: thermal generalists). The ancestor had previously been propagated at 37°C for 2,000 generations. Adaptation of the groups to temperature was measured by improvement in fitness relative to the ancestor, as estimated by competition experiments. All four experimental groups showed improved relative fitness in their own thermal environment (direct response of fitness). However, rates of fitness improvement varied greatly among temperature groups. The 42°C group responded most rapidly and extensively, followed by the 32 and 32/42°C groups, whose fitness improvements were indistinguishable. The 37°C group, which experienced the ancestral temperature, had the slowest and least extensive fitness improvement. The correlated fitness responses of each group, again relative to the common ancestor, were measured over the entire experimental range of temperatures. No necessary tradeoff between direct and correlated responses of fitness was apparent: for example, the improved fitness of the 42°C group at 42°C was not accompanied by a loss of fitness at 37°C or 32°C. However, the direct fitness responses were usually greater than the correlated responses, judged both by comparing direct and correlated responses of a single group at different temperatures and by comparing direct and correlated responses of different groups at a single temperature. These comparisons indicate that the observed adaptation was, in fact, largely temperature specific. Also, the fitness responses of the generalist group across a range of temperatures were less variable than those of the thermal specialist groups considered as whole.     

CYTOGENETIC AND EVOLUTIONARY STUDIES IN SECALE. I. SOME NEW DATA ON THE ANCESTRY OF S. CEREALE

Khush , G. S., and G. L. Stebbins . (U. California, Davis.) Cytogenetic and evolutionary studies in Secale. I. Some new data on the ancestry of S. cereale. Amer. Jour. Bot. 48(8): 723–730. Illus. 1961.—Cultivated rye, Secale cereale, was crossed with all 4 wild species of the genus. It crosses readily with S. montanum, S. africanum, and S. vavilovii, but crossability of S. cereale and S. silvestre is extremely low. Meiosis in the hybrid S. cereale × silvestre is characterized by high frequency of univalents at metaphase I, reduced chiasma frequency at metaphase I, high frequency of PMC's with unequal separations and laggards at anaphase I and II, high frequency of microspores with micronuclei, and extremely low pollen fertility. These abnormalities occurred less frequently in other hybrids, and consequently the pollen fertility is fairly high: 19.1% in the hybrid S. cereale × vavilovii and 31.3% and 31.8%, respectively, in the hybrids S. cereale × montanum and S. cereale × africanum. An interesting cytogenetic feature of all these hybrids, however, was the formation of a translocation configuration of 6 chromosomes at metaphase I of meiosis. In the hybrid, S. cereale × silvestre, a translocation configuration of 8 chromosomes was observed in a few cells. It is evident, therefore, that the genome of S. cereale differs from the genomes of wild species by 2 translocations. Another small translocation may differentiate S. cereale and S. silvestre, in addition. Thus, on the basis of chromosome arrangements, no particular wild species is most likely to be ancestral to S. cereale. Similarly, Stutz's hypothesis of hybrid origin of S. cereale seems highly improbable. After considering ecological preferences, breeding habits, geographical distribution, morphological and cytological affinities of wild species and cultivated rye, it is concluded that S. cereale evolved from S. montanum as a result of progressive cytological and morphological differentiation and that this differentiation was facilitated, probably, by adaptive superiority of translocation heterozygotes and rearrangement homozygotes.     

DYNAMICS OF A HYBRID ZONE IN PHLOX: AN EXPERIMENTAL DEMOGRAPHIC INVESTIGATION

The dynamics of a narrow hybrid zone between Phlox drummondii ssp. drummondii and ssp. mcallisteri was investigated using an experimental demographic approach. Three populations of each subspecies as well as those from the hybrid zone were involved. Experimental plots containing seeds from each of the nine populations were established in each of the eight sites. Germination, survivorship to reproduction, and fecundity were monitored at 4–6 wk intervals. Finite rates of increase were estimated from these data. There were significant site effects for each demographic variable and rate of increase as well as significant population effects for germination and finite rate of increase. Although there were population effects, no significant differences were found between plant types in sites of the subspecies or the hybrid zone. We reject the hypothesis that the narrow width of the hybrid zone is the result of hybrid disadvantage. We propose that the narrow width is a result of restricted gene flow and discuss the supporting evidence.