Self-incompatibility genotype identification and stability as influenced by inbreeding in red clover (Trifolium pratense L.)

Summary S allele genotypes of I₁ progenies from eight I₀ red clover (Trifolium pratense L.) clones were determined under isolated field conditions. Each I₁ progeny was vegetatively increased and isolated under a cage for pollination by honey bees. Clones within each I₁ progeny producing relatively large and small amounts of seed were classified homozygous and heterozygous, respectively, for S allele genotype. S allele genotypes were verified by extensive sib crosses in the greenhouse, and almost complete agreement was found with the field classification. I₂ progenies were reciprocally test-crossed with their parental I₀ clones to detect any changes in S specificity and also to confirm the previous S genotype classifications in the I₁ generation. It was concluded that the reliability of field and greenhouse sib classification of S genotypes is based on the strength of the incompatibility reaction in each particular clone. Most I₁'s showed a strong incompatibility reaction as evidenced by low seed set for heterozygous S genotypes, but one progeny showed a weak incompatibility reaction which resulted in S genotype misclassifications. An S specificity was changed in one I₂ progeny.Contribution from the Kentucky Agricultural Experiment Station. This paper (72-3-151) is published with the approval of the Director, Kentucky Agricultural Experiment Station, Lexington, Kentucky 40506, USA.     

Effect of selection for pseudo-self compatibility in advanced inbred generations of Nemesia strumosa Benth.

Summary Highly pseudo-self compatible (PSC) Nemesia strumosa plants were selfed and intercrossed to produce progenies of the F₅ through F₇ generations. Though high PSC progenies were obtained, none were truebreeding. Progenies from crossing inbred high PSC plants to low PSC plants consisted of either mostly low PSC plants or both low and intermediate plants. A backcross to the high PSC parent of a progeny from a low times high cross produced a family with a PSC frequency distribution skewed toward low PSC but with a few high PSC plants. These data may be explained if PSC genes at some or most loci are incompletely dominant to non-PSC genes and threshold numbers of PSC genes are required for PSC expression and for 100% PSC plants. Dominance may also occur at some loci. Although only a small number of genes may be required to produce a high PSC plant, the total number of PSC genes may be large.Scientific Journal Series Paper No. 11,676 of the Minnesota Agricultural Experiment Station.     

Inheritance of pseudo-self compatibility in self-incompatible garden and greenhouse chrysanthemums, Dendranthema grandiflora Tzvelv

Summary Self incompatibility (SI) can be used to alleviate costly hand emasculation and pollination in F₁ hybrid chrysanthemum seed production. SI, however, disrupts the progression of inbreedig (selfing or full-sib mating). Consequently, inbreds are selected for breakdown of the SI system or the presence of pseudo-self compatibility (PSC). PSC inbreds, recombinant inbreds, and noninbred cultivars were selfed and/or intercrossed to determine PSC expression across environments and generate 1–3 inbred generations (I₁–I₃). Percent PSC ranged from 0–68.8% for inbred parents, 0.2–99.7% for recombinant inbreds, and 0.6–25.7% for noninbred cultivars. There was no indication of end-of-season PSC. The majority of parents (78%) were classified as low PSC and this trend continued in the I₁ (70.1%), I₂ (65.6%), and I₃ (83.6%) generations; mid PSC was rarer (11.9–18.8%) and high PSC the least common (4.5–15.6%). PSC distributions were primarily continuous, rather than discrete, indicating quantitative inheritance. In several inbred families, 100% of the I₁ individuals were SI; this was not correlated with parental PSC level. Inbred families derived from selfing low and mid PSC parents were the most likely to reach extinction due to inbreeding depression. High PSC was not highly heritable, since I₁ progeny were predominantly SI or had low to mid PSC levels. Most 153-1 values for PSC:SI segregations (1:1, 1:3, 3:1) were not significant at the 5% level. Realized heritability (H _R ) estimates for PSC ranged from a low of 0.05% to 10.19%, although increased H _R values did not account for inbreeding depression or genetic mechanisms preventing selection for high PSC. The highest individual %PSC increased over the high parent with SI × low PSC or SI × mid PSC parents in all cases; progeny means did so only in SI × low PSC. Low × low crosses were split evenly between an increase and decrease in progeny or highest individual mean. Since all low × low crosses and low selfs produced 43–50% of the progeny with PSC levels higher than the parents, it appears that most low parents possess some unexpressed PSC genes. Mid PSC parents responded similarly to low PSC genotypes. An increase in PSC was found when crossing SI × PSC parents, illustrating a threshold effect. PSC × PSC crosses (high × low, low × low) produced SI, low, and mid PSC I₁ individuals but did not show a heterotic effect, since the PSC parents had already surpassed the PSC threshold. Selfing high PSC parents, however, suggested different genetic control. Progeny and highest individual means behaved the same; 83% decreased and 17% remained the same for PSC levels. The drop in PSC indicated non-additive gene action. Thus, the PSC threshold with additive gene action holds when selection for higher PSC levels is being done from low and mid PSC parents, but once high PSC levels are obtained, non-additive gene action prevails.Abbreviations self pollinated - H _R Realized Heritability - PSC Pseudo-Self Compatibility - SC Self Compatibility - SI Self Incompatibility     

Effects of inbreeding on nodal root system morphology and architecture of white clover (<Emphasis Type="Italic">Trifolium repens</Emphasis> L.)

Plants of white clover (Trifolium repens L.) cultivar Crau, a self-fertile Crau genotype, and nine generations of inbred progeny were raised in sand culture in a glasshouse experiment. Digital images of the root systems were made and root morphological characteristics were determined on all the plants. Root architectural parameters were measured on the Crau parent and the S₁, S₄, S₆, and S₉ inbred lines. The clover roots became shorter and thicker with inbreeding but the number of root tips per plant was unchanged. Root architecture (branching pattern) was largely unaffected by inbreeding. It is concluded that inbreeding white clover will lead to shorter, thicker roots, and reduced nutrient uptake efficiency compared with the parent clover. The degree to which these deleterious traits are overcome during the development of F₁ hybrids needs to be determined.     

Interaction among sporophytic S loci in self-incompatible garden chrysanthemums

Summary Certain parent-progeny crosses were studied to determine whether several S loci acted independently or epistatically to produce incompatibility in garden chrysanthemums, Chrysanthemum morifolium Ramat. The ratios of compatible: incompatible crosses with the original parent, as the pollen parent, were nearly 1:3, 1:1, and 1:1 for the I₁, backcross (BC), and BCF₂ generations, respectively. In particular, crosses between each progeny and the original parent showed that the number of compatible crosses was much higher than expected if each S locus acted independently. Therefore, interaction must have existed among pollen S alleles from different S loci. This information was used to demonstrate a method by which garden chrysanthemums could be inbred by sib mating in successive generations.Scientific Journal Series Paper Number 13,001 of the Minnesota Agricultural Experiment Station.     

Inbreeding depression in garden and glasshouse chrysanthemums: germination and survivorship

Summary Sixty-six chrysanthemum (Dendranthema grandiflora) inbred selections, noninbred cultivars and hybrids, and D. makinoi were the base populations from which up to three generations of inbreds were obtained using multiple plant descent. Each parent possessed pseudo-self compatibility (PSC), which allowed seed set following self pollination. Rapid-generation cycling (laboratory seed ripening to heart stage and subsequent embryo rescue) reduced generation time and minimized confounding maternal with zygotic inbreeding depression during post heart-stage seed development. Selection criteria were male/female fertility and PSC. Two stages of the life cycle were chosen to evaluate inbreeding depression: germination (seed development to germination) and survivorship (fertile individuals at anthesis). PSC was environmentally interactive and genotype dependent, causing variable levels of self seed set between and within populations and generations. By the end of the second generation, families from all noninbred cultivars, D. makinoi, and one F₁ hybrid were eliminated from the experiment due to self incompatibility and/or inbreeding depression. Post-germination inbreeding depression was severe in several advanced inbreds. Inbred progeny of most F₁ or F₂ hybrids expressed less or equal amounts of inbreeding depression compared to advanced inbreds. Linear regression coefficients for either germination or survivorship on percent homozygosity were negative. Correlation coefficients between percent germination and survivorship (as a percent of seed set) were highly significant for Minnesota inbreds (r=0.67, P0.002) and hybrids (r=0.67, P0.006). The correlation coefficient was higher when percent germination and survivorship (as a percent of germinated seedlings) were compared (r=0.95, P0.001).Abbreviations F Fisher's Coefficient of Inbreeding - IBD Inbreeding Depression - PSC Pseudo-self Compatibility - RGC Rapid Generation Cycle - SI Self Incompatibility     

Discriminating styles (DS) and pollen-mediated pseudo-self compatibility (PMPSC) in Petunia hybrida hort

Summary Discriminating styles (DS) in Petunia hybrida discriminate among incompatible pollen sources with pollen-mediated pseudo-self compatibility (PMPSC) similarly to those in Nemesia strumosa. Both species exhibit a single-locus gametophytic self-incompatibility system. Correlation of PMPSC to PSC level of the male was not universal and DS/PMPSC operated in heterozygous S genotypes. PSC levels of progenies generated from compatible or incompatible bud pollination were not significantly different from those of open-flower pollination of a DS plant with a given male, suggesting that DS did not select among male gametophytes for increased PSC.Scientific Journal Series Paper Number 13,077 of the Minnesota Agricultural Experiment Station.     

Inheritance of Fusarium resistance in a jointless tomato as affected by the X gametophytic factor

Summary Hybridization between tomato with xx and XX gametophytic genotypes exhibited in segregating generations, deviations from the expected monogenic inheritance of Fusarium wilt resistance conditioned by gene I. These deviations resul ted from gametophytic preference, linkage and the presence of modifying loci associated with the gene I. Although information on the inheritance of Fusarium wilt resistance is based on backcross data, information obtained from the pedigree procedure and testcrosses made with BC₁S₂ plants all supports the presence of modifiers.Michigan Agricultural Experiment Station Journal Number 5457.     

Genetic stability of quantitative characters in successive generations in maize inbred lines

Summary Genetic stability was evaluated in 11 long-time inbred lines of maize (Zea mays L.) by measuring 10 plant, ear, and seed characters in successive generations reproduced by self-pollination in ear-to-row progenies. The lines were reproduced through 10 generations, and the studies were made for generations 1, 3, 5, 7, 9, and 11. All lines had been inbred more than 10 generations before the start of the study. For 106 F-tests among generations, significant variation was observed for 40 tests (P<0.05). Major changes were observed in two inbred lines; in most other cases, the statistically significant changes were too small to be of practical importance.Joint contribution: Plant Science Research Division, Agricultural Research Service, U.S. Department of Agriculture, and Journal Paper No J-7245 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa. Project No 1897.     

The inheritance of apetalous flower type in Petunia hybrida Vilm. and linkage tests with the genes for flower doubleness and grandiflora characters and its use in hybrid seed production

Summary Genetic analysis of a mutant flower form in petunia in which the normal corolla tube was replaced by a second set of sepals (apetalous condition) was studied in F₁, F₂, F₃ and BC₁ generations after crossing with inbred normal flowered lines. Segregation patterns observed in these generations indicated that this mutant flower type was a monogenic recessive trait. The genes D for flower doubleness and G for grandiflora plant and flower character segregated independent of the apetalous character. The gene for apetalous flower character has been designated as apt.Michigan Agricultural Experiment Station Journal Article No 6272.     

The effect of inbreeding in Cyclamen

In order to establish the effect of inbreeding in Cyclamen, one motherplant of Rose van Aalsmeer was used to produce successively five inbred generations, I₁, I₂, I₃, I₄, and I₅. Similarly, one motherplant of Wit met oog fimbriata was used for the production of an I₁, an I₂ and an I₃. By keeping the motherplants alive, plants could be obtained which, although belonging to different generations, were of the same age. Comparison of the numbers of flowers formed by these plants during their first flowering season showed a clear effect of inbreeding, especially in the I₃, I₄ and I₅, consisting of a significant reduction of the mean number of flowers. When two inbred lines, either of one variety or belonging to the two different ones, were crossed, the F₁ reached the level of the I₁. In both cultivars there were rather large differences among individual lines, some showing a strong effect of inbreeding, while in others the effect was only slight or sometimes even absent.Publication 192, Laboratorium voor Tuinbouwplantenteelt, Landbouwhogeschool, Wageningen     

Results of crossing Brassica pekinensis (Lour.) Rupr. with B. Oleracea L. Var. Acephala Dc.

Success in obtaining an interspecific hybrid between B. pekinensis and B. oleracea var. acephala was possible through the use of the Chinese cabbage as the seed parent and the use of the growth regulator, N-m-tolylphthalamic acid. The hybrids appeared vegetatively intermediate between the parents except for the inflorescence which appeared more like the kale parent. The F₁ was backcrossed with ease to the Chinese cabbage parent using the hybrid either as the pollen or seed parent. No backcross was made to the kale parent. Segregation in the F₂ was continuous for most characters studied.Michigan Agricultural Experiment Station, Journal Article Number 2588.     

Cytogenetics of a tetraploid form of Phleum pratense L.

A tetraploid form of Phleum pratense from southwestern Europe was found to behave cytogenetically as an autotetraploid. Inheritance patterns in inbred seedlings artificially inoculated with stem rust agreed with this interpretation if chromosome and chromatid assortment are assumed.Results of cooperative investigations of the Crops Research Division, Agricultural Research Service, U.S. Department of Agriculture, and the Wisconsin Agricultural Experiment Station.Geneticist, Crops Research Division, A.R.S., U.S. Department of Agriculture, and former Graduate Assistant, Agronomy Department, Wisconsin Agricultural Experiment Station, Madison, Wisconsin.     

Vigor and variation expressed by anther-derived doubled haploids of burley tobacco (Nicotiana tabacum L.). I. Comparison of sexual and doubled-haploid populations

Summary The genetic consequences of anther culture and chromosome-doubling techniques on burley tobacco (Nicotiana tabacum L.) were examined in this study. Three diploid populations, obtained from a burley tobacco inbred by conventional and anther-culture techniques, were compared. The first population consisted of 50 conventionally-selfed lines; the second population was made up of 35 doubled-haploid lines obtained from individual haploid plants by in vitro techniques (IVDH); and the third population consisted of 20 doubled-haploid lines whose chromosome complements had been doubled with colchicine (CDH). Comparisons of doubled-haploid lines with sexually-derived lines revealed significant differences for yield, maturity, leaf length, and alkaloid content. Yield reductions in the doubled-haploid populations averaged 8.5%. Significant differences observed between the IVDH and CDH populations indicate that the reported deleterious effects of colchicine contributed to the vigor reduction of doubled haploids. The anther derived lines in this study exhibited greater variation than did the sexual materials. This variation could provide useful variation for a breeding program. Variation exhibited by the sexual progeny of the highly inbred line, Kentucky 16, suggests that the differences among anther-derived materials are at least partially due to natural phenomena.Contribution from the department of Agronomy, University of Kentucky, Lexington, KY 40546-0091. This research was supported, in part, by a grant from R. J. Reynolds Tobacco Co. This paper (no 85-3-5) is published with the approval of the Director of the Kentucky Agricultural Experiment Station.     

Inbreeding depression in diploid and autotetraploid sugarbeet,Beta vulgaris L.

Summary The effect of inbreeding on vegetative vigor, as measured by root yield, was evaluated in two diploid (2x) and equivalent autotetraploid (4x) sugarbeet strains, and one additional 2x and one 4x strain. Root yields of the 2x and 4x S₁ progenies each averaged 86.7% of their comparable open-pollinated progeny. Inbreeding depression of root yield was variable from strain to strain. The selfed 4x populations, when compared with their 2x equivalents, suffered more yield depression than was expected on the basis of the theoretic approach to homozygosity associated with selfing in autotetraploids. The inbreeding depression was partly attributed to (a) the approach to homozygosity, and (b) the fact that partially homozygous 4x S₁ individuals were probably unable to make compensating growth when located adjacent to a low vigor aneuploid plant. A major part of root yield depression remained unexplained. Sucrose content within strains and within ploidy levels was not significantly affected by one generation of selfing.Joint contribution of the Crops Research Division, Agricultural Research Service, US Department of Agriculture, the Colorado Agricultural Experiment Station, and the Beet Sugar Development Foundation. Published with the approval of the Director of the Colorado Agricultural Experiment Station as Scientific Series No. 1582.     

Winter environment increases self seed yield in self-incompatible (SI) Petunia hybrida clones

Summary SI inbreds of P. hybrida and crosses between self-incompatible (SI) petunia plants were brought to flower under winter and summer glasshouse conditions. SI response, as measured by self seed, ranged from zero seed set under both conditions to low or zero seed set during the summer and high seed set during the winter. Some plants produced comparable seed yields during either pollination time. Increased expression of pseudo-self-compatibility (PSC) during the winter months was attributed to a breakdown of the Si system by the low light conditions of Minnesota winters (45°N). Genotypic differences within and between populations in the winter provided differences facilitating selection for increased SI. These differences were masked in some populations by the summer environmental conditions. The use of simulated or natural low light conditions as a technique for selecting for SI should increase selection efficiency.Scientific Journal Series Paper Number 10,499 of the Minnesota Agricultural Experiment Station.     

Interrelationships among height,lodging and yield in determinate and indeterminate soybeans

Summary Seventy-three determinate and 93 indeterminate random F₉ lines from a cross between determinate and indeterminate soybean [Glycine max (L.) Merr.] parents were evaluated for seed yield, mature plant height, and lodging. Regression analyses indicated that among the determinate lines, seed yield increased by 350 kg/ha and lodging score increased by 0.008 for every 10 cm increase in plant height. Among indeterminate lines seed yield increased by 112 kg/ha and lodging score by 0.3 for every 10 cm increase in plant height. The highest yielding indeterminate lines were tall and very susceptible to lodging. The tall determinate lines had the best combination of high seed yield and excellent lodging resistance.Cooperative Investigations of the Science and Education Administration, U.S. Department of Agriculture and the Purdue University Agricultural Experiment Station.     

Variation and covariation for quantitative resistance to head blight (Fusarium culmorum) in two testcross series of S2 lines in winter rye

The amount of genetic variation among inbred lines and testcrosses, and covariation between both genetic materials, are of crucial importance for selection efficiency in hybrid breeding. To estimate these quantitative genetic parameters for resistance of winter rye (Secale cereale) to head blight caused by Fusarium culmorum, 88 three-way cross hybrids, produced by crossing each of 44 S₂ Carsten inbred lines with two unrelated Petkus single-cross testers, were evaluated along with the parental lines over 2 years. Resistance traits were head-blight rating and grain weight per spike relative to the non-inoculated control. Significant genotypic variation occurred among lines and in both testcross series. S₂ lines displayed considerably more variation than testcross series. Genotype × environment interaction was more marked among the inbred lines, while estimates of heritability were similar for both genetic materials. Testcrosses showed heterosis for head-blight resistance. No relationship existed between S₂ lines and the two testcross series for any resistance trait. This might be caused by an association between inbreeding and Fusarium-head-blight susceptibility and different inbreeding depression among the S₂ population. The phenotypic correlations between the testcross series were moderate for both traits (r = 0.58, P < 0.01). In conclusion, Fusarium-head-blight resistance has to be selected at the respective heterozygosity levels.     

The inheritance of days to flowering in broccoli (Brassica oleracea var. italica)

Summary Crosses between an early flowering inbred broccoli (Brassica oleracea L. var. italica) HS140 and four later maturing inbred lines, S301, S310, s318, and S258, were studied to determine the inheritance of earliness as expressed by days to first open flower. Mean days to first flower for F₁ and F₂ were almost identical, and were close to the mean of the two parents in three crosses, indicating additive inheritance. In the cross HS140×S258, for which no F₁ plants were available, the F₂ mean was closer to the mean of the early parent, but this was likely due to a distortion of the data caused by the very late maturation of S258, the latest maturing parent in the study. Frequency distribution for parents and progenies supported the conclusions from parent and progeny mean values and indicated that days to maturity is a quantitative character, with mostly additive inheritance.Oregon Agricultural Experiment Station Technical Paper No. 7578.     

The inheritance of seed coat rupture in snap beans Phaseolus vulgaris L.

Summary Seed coat rupture known also as fish face, is a common seed problem in snap beans. Lines form the cross Tendercrop × Streamliner were classified as high (H), medium (M), and low (L) in their susceptibility to ruptured seed coat and were used as parents in an inheritance study. Crosses of H × L gave an F₂ segregation pattern of 1:2:1 for H:M:L classes and this was confirmed by F₃ data. The results suggest that seed coat rupture is due to a single incompletely dominant gene (Tr) with 25–50% penetrance. Tr is not linked with seed color or maternal factors.Journal Paper No. 1645 of the New York State Agricultural Experiment Station, Geneva, New York, U.S.A.