Variation within teosinte. II. numerical analysis of chromosome knob data

Principal components analysis of 46 chromosome knob positions and B chromosomes for 61 accessions of annual teosinte (in 12 groups) and 207 accessions of maize (in 87 groups) produced results which did not entirely agree with previous groupings. Teosintes of northwest and southeast Guatemala (races Huehuetenango and Guatemala) were widely separated from maize and from all other teosintes; however, teosintes of east Mexico-Distrito Federal (race Chalco) were also widely separated from maize and other teosintes. Teosintes of south Chihuahua (race Nobogame) grouped separately from other teosintes, suggesting that race Nobogame is not simply a northern extreme of race Central Plateau. Teosintes of east Michoacan and west Mexico (recently grouped into the Balsas race) grouped together but separately from other teosintes. The latter teosintes may merit special designation in a racial taxonomic system. Only the Central Plateau teosintes consistently overlapped with maize OTU's for the first few principal components. Even in that case there was no consistent association between the Central Plateau teosintes and any specific race of maize.     

Variation within teosinte. I. Numerical analysis of morphological data

Principal components analysis of 27 morphological characters for 18 accessions of teosinte and 3 accessions of maize separated teosinte into 6 phenetic groups which showed broad agreement with previous taxonomic groupings. Tests for regression suggested significant linear relationships with altitude; teosintes from higher elevations are generally more maize-like for a combination of characters. Introgression from maize may have blurred racial identities within teosinte, but variation among current teosinte accessions cannot be satisfactorily explained solely on the basis of known maize introgression. It appears instead that racial differentiation in teosinte was well established by the time of the domestication of maize. While current racial classification of teosinte is quite useful, it does not adequately reflect the amount of genetic variation, nor does it accurately portray many of the relationships within teosinte.     

Genetic diversity and population structure of teosinte

The teosintes, the closest wild relatives of maize, are important resources for the study of maize genetics and evolution and for plant breeding. We genotyped 237 individual teosinte plants for 93 microsatellites. Phylogenetic relationships among species and subspecific taxa were largely consistent with prior analyses for other types of molecular markers. Plants of all species formed monophyletic clades, although relationships among species were not fully resolved. Phylogenetic analysis indicated that the Mexican annual teosintes divide into two clusters that largely correspond to the previously defined subspecies, Z. mays ssp. parviglumis and ssp. mexicana, although there are a few samples that represent either evolutionary intermediates or hybrids between these two subspecies. The Mexican annual teosintes show genetic substructuring along geographic lines. Hybridization or introgression between some teosintes and maize occurs at a low level and appears most common with Z. mays ssp. mexicana. Phylogeographic and phylogenetic analyses of the Mexican annual teosintes indicated that ssp. parviglumis diversified in the eastern part of its distribution and spread from east to west and that ssp. mexicana diversified in the Central Plateau of Mexico and spread along multiple paths to the north and east. We defined core sets of collections of Z. mays ssp. mexicana and ssp. parviglumis that attempt to capture the maximum number of microsatellite alleles for given sample sizes.     

Biochemical systematics and evolution ofzea,tripsacum and related genera

Antibody systems were produced in rabbits by immunization with antigen systems from seed ofZea mays, Z. mexicana andTripsacum dactyloides. Antigen systems were generally ranked in the following order using Zeaantibody systems: Zea > Tripsacum > Elyonurus ≈ Bothriochloa > Coix ≈ Manisuris > Andro-pogon ? Triticum. Tripsacum antibody systems also ranked these antigen systems in a similar order except that Tripsacum > Zea, and Manisuris ≈ Bothriochloa ≈ Elyonurus. Some Tripsacum species produced anomalous results. Serology suggests that Zea and Tripsacum should be placed together in the subtribe Tripsacinae of the tribe Andropogoneae: the tribe Maydeae is probably an unnatural assemblage. Tripsacum and Zea have probably evolved from ancestors with affinities to the subtribes Rottboellinae and Bothriochloeae of the tribe Andropogoneae. The high degree of serological correspondence shown by Elyonurus to Zea suggests a close common ancestry, but Manisuris appears no more similar to Tripsacum than do other genera of the Rottboellinae and Bothriochloeae. By polyacrylamide gel electrophoresis, no differences were found between maize and teosinte from Mexico and north Guatemala. Teosinte from south Guatemala consistently lacked bands present in both maize and Mexican teosinte but shared no greater similarity to Tripsacum and cannot therefore be considered as tripsacoid. The high degree of band homology between maize and Mexican teosinte supports a parental relationship and it is suggested that Mexican teosinte represents the germ plasm from which maize was domesticated. Neither electro-phoretic nor serological results supported the hypothesized hybrid (viz. Zea x Manisuris) origin of Tripsacum.     

Patterns of isozyme variation between maize and Mexican annual teosinte

Isozyme variation in 94 accessions of Mexican maize (Zea mays ssp. mays) and 37 collections of Mexican annual teosinte (Z. mays ssp. mexicana and var. parviglumis) are compared. Variety parviglumis (a predominantly wild plant) shows a closer genetic relationship to maize than does ssp. mexicana (a weedy teosinte often found in maize fields). The isozyme data suggest that maize and Z. mays var. parviglumis share a more recent common ancestor than either of these taxa share with other members of the genus Zea. In this sense, the isozyme data support the theory that maize is a domesticated form of teosinte. Isozyme data provide no evidence for independent origin of Mexican maize races from different taxa of teosinte. Isozyme analysis suggests that gene flow between maize and ssp. mexicana exists, but that it is highly restricted and more probably goes from weed into crop. Maize and var. parviglumis are isozymically too similar and too variable to allow patterns of gene flow between them (if any) to be discerned. The maize- teosinte complex does not fit a model applied to some other crops in that (I) weedy teosinte (ssp. mexicana) does not appear to be a hybrid of the wild form (var. parviglumis,) and maize and (2) the weedy form does not act as a genetic bridge between wild form and crop.     

Notes onPatasson lameerei [Hym.: Mymaridae], an egg parasitoid ofSitona spp. [Col.: Curculionidae] in the mediterranean region

Patasson lameerei Debauche is the most important of three egg parasitoids found onSitona spp. attacking lucerne and annual medics in the North-Western Mediterranean. The mymarids were lacking in eggs extracted from the soil in Morocco, Algeria and Tunisia. The biology and the behaviour of the egg parasitoid are described. In Central Europe, adults ofP. lameerei are recorded from May to September, but in the Montpellier region (Southern France), this species aestivates in the larval stage within the eggs of its hosts during the same period.     

Taxonomy of the genus Aspasia Lindley (Orchidaceae: Oncidieae)

The genusAspasia (Orchidaceae: Oncidieae) consists of five species of epiphytic orchids of Central and South America. The genus is compared with closely related genera of the tribe Oncidieae.Aspasia epidendroides is found in Nicaragua, Costa Rica, and western Panama.Aspasia principissa is found in central and eastern Panama and adjacent Colombia.Aspasia psittacina is endemic to western Ecuador.Aspasia variegata is found in Colombia, Venezuela, Trinidad, Guyana, Surinam, and Brazil.Aspasia lunata is known only from Brazil.     

INFLORESCENCE DEVELOPMENT IN TWO ANNUAL TEOSINTES: ZEA MAYS SUBSP. MEXICANA AND Z. MAYS SUBSP. PARVIGLUMIS

The ontogeny of tassels and ears in two annual Mexican teosintes, Zea mays subsp. mexicana and Z. mays subsp. parviglumis, was examined using scanning electron microscopy and light microscopy. Ear development in these annual teosintes follows a pattern previously described as leading to the bisexual mixed inflorescence in Z. diploperennis. Common bud primordia are initiated in the axils of distichously arranged bracts along the ear axis. These common primordia bifurcate to form paired sessile and pedicellate spikelet primordia. Development of pedicellate spikelets is arrested leaving the sessile spikelets, along with the adjoining rachis segment, to form solitary grains enclosed within cupulate fruitcases. Development of the central tassel spike is similar to that previously described in the Z. diploperennis tassel, except that the first formed axillary bud primordia form precocious tassel branches. The origin of these tassel branches suggests a possible mechanism for the transition from a distichous spike, characteristic of teosinte, to a polystichous spike, typical of maize.     

A Bird in the Hand Versus Two in the Bush? The Specialist Leafhopper <Emphasis Type="Italic">Dalbulus maidis</Emphasis> (Hemiptera: Cicadellidae) Does Not Discriminate Against Sub-optimal Host Plants (<Emphasis Type="Italic">Zea</Emphasis> spp.)

The corn leafhopper [Dalbulus maidis (DeLong & Wolcott)] is a specialist on Zea (Poaceae) that coevolved with maize (Zea mays mays) and its teosinte (Zea spp.) relatives. This study tested the hypothesis that host acceptance by females varies among Zea hosts, and is correlated with variation in defensive levels across those hosts. Prior studies revealed differences in plant defenses among Zea hosts and corresponding differences in corn leafhopper performance. Thus, host acceptance was expected to be correlated with defensive levels and offspring performance across Zea hosts, following the hypothesis that offspring performance mediates host preference. In parallel, host acceptance was expected to be correlated with transitions in life history strategy (perennial to annual life cycle), domestication status (wild to domesticated), and breeding intensity (landrace to hybrid variety) in Zea because variation in defensive levels and corn leafhopper performance were shown in prior studies to be correlated with those transitions. The study’s hypotheses were tested by comparing, under no-choice conditions, host acceptance by corn leafhopper of a suite of Zea hosts encompassing those transitions: perennial teosinte (Zea diploperennis), Balsas teosinte (Zea mays parviglumis), and landrace and commercial hybrid maize. The results did not show differences in host acceptance for oviposition or feeding among the hosts. Thus, under no-choice conditions, all Zea hosts may be similarly acceptable for feeding and oviposition, despite marked ovipositional preferences under choice conditions and poorer offspring performance on teosintes relative to maize shown previously. The results suggested also that oviposition frequency per plant by females was not correlated with their offspring’s performance.     

Maize Domestication and Anti-Herbivore Defences: Leaf-Specific Dynamics during Early Ontogeny of Maize and Its Wild Ancestors

As a consequence of artificial selection for specific traits, crop plants underwent considerable genotypic and phenotypic changes during the process of domestication. These changes may have led to reduced resistance in the cultivated plant due to shifts in resource allocation from defensive traits to increased growth rates and yield. Modern maize (Zea mays ssp. mays) was domesticated from its ancestor Balsas teosinte (Z. mays ssp. parviglumis) approximately 9000 years ago. Although maize displays a high genetic overlap with its direct ancestor and other annual teosintes, several studies show that maize and its ancestors differ in their resistance phenotypes with teosintes being less susceptible to herbivore damage. However, the underlying mechanisms are poorly understood. Here we addressed the question to what extent maize domestication has affected two crucial chemical and one physical defence traits and whether differences in their expression may explain the differences in herbivore resistance levels. The ontogenetic trajectories of 1,4-benzoxazin-3-ones, maysin and leaf toughness were monitored for different leaf types across several maize cultivars and teosinte accessions during early vegetative growth stages. We found significant quantitative and qualitative differences in 1,4-benzoxazin-3-one accumulation in an initial pairwise comparison, but we did not find consistent differences between wild and cultivated genotypes during a more thorough examination employing several cultivars/accessions. Yet, 1,4-benzoxazin-3-one levels tended to decline more rapidly with plant age in the modern maize cultivars. Foliar maysin levels and leaf toughness increased with plant age in a leaf-specific manner, but were also unaffected by domestication. Based on our findings we suggest that defence traits other than the ones that were investigated are responsible for the observed differences in herbivore resistance between teosinte and maize. Furthermore, our results indicate that single pairwise comparisons may lead to false conclusions regarding the effects of domestication on defensive and possibly other traits.     

Chromosome polymorphism of teosinte

Florida teosinte from Honduras and Guanajuato teosinte have most of their knobs internally located and a common inversion in the short arm of chromosome 8. Teosintes from northern Guatemala, Huixta and Monajil, have all their knobs terminally located and do not have any inversions. Therefore, Florida teosinte from Honduras appears to be phylogenetically closer to Guanajuato teosinte than it is to Guatemalan teosintes.——The presence of B chromosomes and an In 8 in Guanajuato teosinte and Florida teosinte from Honduras may constitute evidence of introgression between maize and teosinte.     

Variation and taxonomy of Aesculus pavia L. (Hippocastanaceae) in Texas

The status of Aesculus pavia var. flavescens, a set of yellow-flowered populations endemic to the Edwards Plateau of central Texas, was evaluated on the basis of comparative morphology, geography, flowering phenology, and pollination ecology. Plants of typical A. pavia have red, tubular flowers with exserted stamens and are effectively pollinated by ruby-throated hummingbirds. Plants of var. flavescens have yellow, campanulate flowers with included stamens that can be pollinated effectively by large bees. These ethological reproductive isolating mechanisms are further augmented by a difference in flowering time between the two sets of populations and by geographical restriction of the yellow-flowered plants to localities on the Edwards Plateau. The yellow and red-flowered plants constitute two morphologically distinct groups, despite evidence of limited introgression in counties along the Balcones Escarpment. A yellow-flowered plant discovered in coastal east Texas may indicate the mechanism by which var. flavescens originated, but this plant is much more closely comparable to typical red-flowered var. pavia than to the yellow-flowered plants on the Edwards Plateau. An evolutionary history of section Pavia of Aesculus is presented, and it is concluded that the yellow-flowered plants of central Texas are best regarded as a taxonomic variety.     

Chromosome banding in the genusPinus

Somatic chromosomes ofPinus nigra var.maritima (2n=24) were sequentially stained with DNA binding base-specific fluorochromes, chromomycin A₃ (CMA) and DAPI. Many CMA- and DAPI-bands appeared at intercalary and/or proximal regions of most chromosomes. These banding patterns reversely related. Individual chromosomes were easily identified using these fluorescent banding patterns.     

Restriction site variation in the zea chloroplast genome

Nineteen accessions selected from the four species and three subspecies of the genus Zea and one accession from the related genus Tripsacum were surveyed for variation with 21 restriction endonucleases. In all, 580 restriction sites were assayed in each chloroplast (cp)DNA, this representing 2.2% of the genome. Twenty-four of the 580 sites were variable in one or more of the cpDNAs. The number of nucleotide substitutions per site (p) between Zea and Tripsacum (0.0056) approximates that between other closely related angiosperm genera. The range in values of p among Zea species (0.0003-0.0024) is on the lower end of the range reported for other angiosperm genera. Analysis of the distribution of restriction site mutations throughout the genome indicated that the inverted repeat evolves more slowly than either the small or large unique sequence regions. Parsimony phylogenetic analysis of the restriction site data produced a tree consistent with isoenzymatic and morphological measures of affinity among the species. Chloroplast DNA analysis was not useful in discriminating the subspecies within Zea mays. The lack of any detectable differences between the cpDNA of maize (Z. mays subsp. mays) and some teosintes (Z. mays subsps. mexicana and parviglumis ) is consistent with the hypothesis that maize is a domesticated form of teosinte. Comparison of the degree of sequence divergence for Z. mays cpDNA and the Adh1 locus suggests the latter may be evolving at 10 times the rate of the former. Comparison of rates of sequence evolution for the mitochondrial and chloroplast genomes was inconclusive and could not clarify whether these two genomes have dissimilar rates of sequence evolution.     

Paenibacillus nicotianae sp. nov., isolated from a tobacco sample

A Gram-stain positive, facultative anaerobic endospore-forming bacterium, designated strain YIM h-19^T, was isolated from a tobacco sample. Cells were observed to be motile rods by means of peritrichous flagella and colonies were observed to be convex, yellow, circular and showed catalase-positive and oxidase-negative reactions. Strain YIM h-19^T was able to grow at 4–45 °C, pH 6.0–8.0 and 0–3 % NaCl (w/v). The predominant respiratory quinone was identified as MK-7. Major fatty acids were identified as anteiso-C_15:0, anteiso-C_17:0 and C_16:0. The polar lipids were found to be phosphatidylethanolamine, diphosphatidylglycerol, phosphatidylglycerol and two unidentified polar lipids. The genomic DNA G+C content was determined to be 54 mol%. 16S rRNA gene sequence analysis showed the strain YIM h-19^T was most closely related to Paenibacillus hordei RH-N24^T and Paenibacillus hunanensis FeL05^T with similarities of 98.30 and 94.64 % respectively. However, DNA–DNA hybridization data indicated that the isolate represented a novel genomic species with the genus Paenibacillus. All data from genotypic and phenotypic analyses support the conclusion that strain YIM h-19^T represents a novel species of the genus Paenibacillus, for which the name Paenibacillus nicotianae sp. nov. is proposed. The type strain is YIM h-19^T (=CGMCC1.12819^T = NRRL B-59112^T).     

Seasonal and interannual variations of ecosystem photosynthetic features in an alpine dwarf shrubland on the Qinghai-Tibetan Plateau,China

Ecosystem photosynthetic characteristics are of utmost importance for the estimation of regional carbon budget, but such characteristics are not well understood in alpine regions. We collected CO₂ flux data measured by eddy covariance technique over an alpine dwarf shrubland on the Qinghai-Tibetan Plateau during years 2003–2010; and we quantified the temporal patterns of ecosystem apparent quantum yield (a), saturated photosynthetic rate (P _max), and ecosystem dark respiration (R _De). Results showed that the strong seasonality of a and R _De was driven mainly by air temperature (T _a), whereas that of P _max was much more determined by leaf area index rather than abiotic factors. Diurnal thermal fluctuation inhibited significantly the daytime photosynthetic capacity. Stepwise regression revealed that the seasonal deviations of a, P _max, and R _De were significantly controlled by T _a. The annual a was regulated mainly by annual growing season T _a, which indicated that the response of ecosystem a was instant. The annual variations of P _max correlated positively with soil temperature 5 cm below ground (T _s) of the annual nongrowing season and those of R _De related negatively with the annual nongrowing season precipitation. We suggested that a lagged response regulated the annual P _max and the annual R _De. Annual deviations of a and R _De were both significantly controlled by annual T _s, and those of P _max were marginally determined by annual PPFD. Thus, the future warming scenario, especially significant for nongrowing seasonal warming in the Qinghai-Tibetan Plateau, would favor ecosystem photosynthetic capacity in the alpine dwarf shrubland.     

Supplementary notes on American Labiatae. X

Notes on the taxonomy and distribution of various species of Labiatae of Mexico, and Central and South America, are presented, as part of a continuing series of supplements to the authors’ earlier monographs. Eight new species are described in the generaHyptis, Salvia, Satureja, andScutellaria. Two new combinations are made, one each inHarlanlewisia andSatureja. A key and revision are given for the six species ofLepechinia sect.Parviflorae.     

Relationships of the purple-fringed orchids Platanthera Psycodes and P. grandiflora

The vegetative and floral differences between two frequently confused species are discussed in terms of function.Platanthera psycodes is a widespread species with flowers adapted to visits by short-tongued lepidoptera, especially skippers of the genusPolites; the pollinaria are attached to the base of the proboscis.Platanthera grandiflora is a geographically more limited species with flowers adapted to visits by longer-tongued lepidoptera; the pollinaria are probably attached to compound eyes. The species overlap geographically and phenologically. Chromosome numbers are 2n = 42 in each species. Cultivated plants of each are partially self-incompatible but produce apparently normal embryos when intercrossed. Mechanical, seasonal, ethological, and distributional differences isolate the species.Habenaria andPlatanthera are considered distinct but closely related genera.Platanthera psycodes is based upon a type at L,P. grandiflora on a type at AMES.Platanthera grandiflora andP. psycodes have affinities with three other eastern North American species characterized by tripartite, fringed, or erose labella. Species pairs within this group, based on column structure, includegrandifloraperamoena andpsycodeslacera. The column ofP. leucophaea is morphologically intermediate in form.