A comparison of the water relations characteristics of Helianthus annuus and Helianthus petiolaris when subjected to water deficits

The effect of water deficits on the water relations and stomatal responses of Helianthus annuus and Helianthus petiolaris were compared in plants growing in the glasshouse under controlled conditions. Unirrigated plants of both genotypes were subjected to two different stress rates in which predawn leaf water potentials declined steadily at either 0.15 MPa day^?1 or 0.50 MPa day^?1. In both genotypes water stress induced a gradual and similar decrease in leaf conductance from 1.6 to 0.3 cm s^?1 as water potential decreased from-0.5 to-2.0 MPa. The relationship between leaf conductance and leaf water potential was not affected by the rate of stress development. Development of predawn leaf water potentials of-1.3 MPa had no significant effect on the relative water content at zero turgor, the apoplastic water content or the volumetric elastic modulus of whole leaves in either species, but decreased the osmotic potential at full turgor and zero turgor by 0.22 MPa and decreased the turgid weight: dry weight ratio from 10.6 to 8.4 in H. annuus, but not in H. petiolaris. In H. annuus leaves expanded during stress development, changes in the osmotic potential at full turgor induced by water deficits did not disappear on rewatering.     

Leaf expansion as related to plant water availability in a wild and a cultivated sunflower

This study aimed to determine if two species of sunflower, Helianthus annus L. cv. Hysun 31 (cultivated, single-stemmed genotype) and Helianthus petiolaris Nuttall ssp. fallax (wild, many-hranched genotype) differed in the response of leaf growth to water deficits. Earlier published studies, concerned only with H. annuus, failed to reveal differences in the response of sunflowers to water stress. Plants of the two species were paired in large containers of soil and grown under high radiation in a glasshouse. One batch of plants was irrigated and the other allowed to dry so that predawn leaf water potentials declined at an average of 0.072 MPa day^?1. The dry batch was rewatered when predawn leaf water potentials reached ?0.85 MPa. The stress imposed was sufficient to curtail leaf growth so that plants in the dry treatment had only 60% of the leaf area of irrigated plants at the onset of rewatering. Both species were affected by stress to the same relative extent, though their leaf areas at this stage differed 7-fold. Both genotypes also recovered to the same degree in the long term, finally having leaf areas and gross dry matter distribution patterns which were indistinguishable from plants which were irrigated throughout. However, water stress resulted in different distribution patterns of leaf area: H. annuus produced larger leaves at the top of its single stem which compensated for the reduced area in lower leaves, whereas H. petiolaris compensated in the leaves on its branches. Leaves which emerged after the time of stress were most able to compensate in area subsequently. For example, those leaves of H. annuus which emerged one week after stress-relief were more than three times larger than comparable leaves on plants irrigated continuously. Leaf expansion rates were affected earlier in the stress cycle than leaf conductance in H. annuus, but not in H. petiolaris. But as with other plant responses to water stress, the differences between the two species were small.     

Interspecific pollen competition as a reproductive barrier between sympatric species of Helianthus (Asteraceae)

Artificial crosses between Helianthus annuus and H. petiolaris using 1:9, 1:1, and 9:1 mixtures of intraspecific: interspecific pollen were conducted to determine the role of interspecific pollen competition as a reproductive barrier in Helianthus. Of 1,245 achenes analyzed from the pollen competition experiments, only 49 were hybrids. The number of hybrids observed was significantly less than expectations for all three pollen mixtures, regardless of the identity of maternal parent (P < 0.01). Stigma age and pollen ratio had no significant impact on hybrid frequency. However, hybrids were significantly more frequent with H. annuus than with H. petiolaris as the maternal parent (P < 0.01). Analysis of pollen tube growth rates revealed no differences in the rate of growth of intraspecific vs. interspecific pollen. Likewise, pollinations with either intraspecific or interspecific pollen or with different pollen ratios did not affect the percentage of filled achenes. Thus, the mechanism responsible for selective fertilization by intraspecific pollen in mixed pollen loads remains unclear. Nonetheless, these findings suggest that interspecific pollen competition plays an important role in controlling the formation of hybrids between H. annuus and H. petiolaris and may partially account for patterns or differential cytoplasmic vs. nuclear introgression in Helianthus.     

Allozyme variation in domesticated annual sunflower and its wild relatives

 The annual sunflower (Helianthus annuus L.) is a morphologically and genetically variable species composed of wild, weedy, and domesticated forms that are used for ornament, oilseed, and edible seeds. In this study, we evaluated genetic variation in 146 germplasm accessions of wild and domesticated sunflowers using allozyme analysis. Results from this survey showed that wild sunflower exhibits geographically structured genetic variation, as samples from the Great Plains region of the central United States were genetically divergent from accessions from California and the southwestern United States. Sunflower populations from the Great Plains harbored greater allelic diversity than did wild sunflower from the western United States. Comparison of genetic variability in wild and domesticated sunflower by principal coordinate analysis showed these groups to be genetically divergent, in large part due to differences in the frequency of common alleles. Neighbor-Joining analyses of domesticated H. annuus, wild H. annuus and two closely related wild species (H. argophyllus T. & G. and H. petiolaris Nutt.) showed that domesticated sunflowers form a genetically coherent group and that wild sunflowers from the Great Plains may include the most likely progenitor of domesticated sunflowers. Received: 2 December 1996/Accepted: 4 April 1997     

Persistence of sunflower crop traits and fitness in Helianthus petiolaris populations

Transgenic plants have increased interest in the study of crop gene introgression in wild populations. Genes (or transgenes) conferring adaptive advantages persist in introgressed populations, enhancing competitiveness of wild or weedy plants. This represents an ecological risk that could increase problems of weed control. Introgression of cultivar alleles into wild plant populations via crop–wild hybridisations is primarily governed by their fitness effect. To evaluate this, we studied the second generation of seven wild–crop interspecific hybrids between weedy Helianthus petiolaris and cultivated sunflower, H. annuus var. macrocarpus. The second generation comprised open‐pollinated progeny and backcrosses to the wild parent, mimicking crosses that occur in natural situations. We compared a number of morphological, life history and fitness traits. Multivariate analysis showed that the parental species H. annuus and H. petiolaris differed in a number of morphological traits, while the second hybrid generation between them was intermediate. Sunflower crop introgression lowered fitness of interspecific hybrids, but fitness parameters tended to recover in the following generation. Relative frequency of wild/weedy and introgressed plants was estimated through four generations, based on male and female parent fitness. In spite of several negative selection coefficients observed in the second generation, introgressed plants could be detected in stands of <100 weedy H. petiolaris populations. The rapid recovery of fecundity parameters leads to prediction that any trait conferring an ecological advantage will diffuse into the wild or weedy population, even if F1 hybrids have low fitness.     

Salicylic acid-induced adaptive response to copper stress in sunflower (Helianthus annuus L.)

The ameliorative effect of salicylic acid (SA: 0.5 mM) on sunflower (Helianthus annuus L.) under Cu stress (5 mg l⁻¹) was studied. Excess Cu reduced the fresh and dry weights of different organs (roots, stems and leaves) and photosynthetic pigments (chlorophyll a, b and carotenoids) in four-week-old plants. There was a considerable increase in Chl a/b ratio and lipid peroxidation in both the roots and leaves of plants under excess Cu. Soluble sugars and free amino acids in the roots also decreased under Cu stress. However, soluble sugars in the leaves, free amino acids in the stems and leaves, and proline content in all plant organs increased in response to Cu toxicity. Salicylic acid (SA) significantly reduced the Chl a/b ratio and the level of lipid peroxidation in Cu-stressed plants. Under excess Cu, a higher accumulation of soluble sugars, soluble proteins and free amino acids including proline occurred in plants treated with 0.5 mM SA. Exogenous application of SA appeared to induce an adaptive response to Cu toxicity including the accumulation of organic solutes leading to protective reactions to the photosynthetic pigments and a reduction in membrane damage in sunflower.     

The nature of resistance to Dectes texanus (Col., Cerambycidae) in wild sunflower,Helianthus annuus

The longhorned beetle Dectes texanus LeConte is a serious pest of cultivated sunflowers, Helianthus annuus L. and soybeans, Glycine max (L.), throughout much of the American midwest. Significant yield losses arise from the pre‐harvest lodging of plants when mature larvae girdle the base of stalks in preparation for overwintering. We investigated possible reasons why infestation of wild H. annuus by D. texanus is remarkably rare, whereas 80–90% of plants may be infested in fields of cultivated varieties. When caged on wild sunflower plants in the field, laboratory‐reared, gravid females fed less and made significantly fewer ovipositional punctures than they did when subsequently caged on a cultivated plant. Furthermore, only 18.4% of ovipunctures in wild plants resulted in an egg being laid, compared with 44.9% in cultivated plants, suggesting that additional resistance factors reduce the probability of eggs being laid during ovipositor insertion. Female behaviour was not affected by adult diet prior to testing (wild vs. cultivated H. annuus petioles), nor was there any difference in response between females obtained as larvae from cultivated sunflower or from soybean. Petioles of wild H. annuus exuded more than four times the weight of resinous material when severed as did those of cultivated plants, were significantly less succulent as determined by water content, and required significantly more force to penetrate the epidermis in a standardized puncture test. We conclude that a combination of physical and chemical properties of wild H. annuus confers substantial resistance to oviposition by D. texanus and that this natural antixenosis has been inadvertently diminished in the course of breeding cultivated varieties.     

Female preference and larval performance of sunflower moth,Homoeosoma electellum,on sunflower pre‐breeding lines

The preference–performance hypothesis for insect herbivores predicts that adult females should preferentially choose hosts on which their offspring perform better. We tested this hypothesis for the sunflower moth, Homoeosoma electellum (Hulst) (Lepidoptera: Pyralidae), using 16 sunflower (pre‐breeding) lines, derived from a number of wild species of Helianthus, including Helianthus annuus L., Helianthus deserticola Heiser, Helianthus paradoxus Heiser, Helianthus praecox Engelm. & Gray ssp. hirtus (Heiser) Heiser, Helianthus praecox Engelm. & Gray ssp. runyonii (Heiser) Heiser, Helianthus petiolaris Nutt., Helianthus resinosus Small, and Helianthus tuberosus L. (Asteraceae), that are suitable for introducing wild sunflower germplasm into commercial cultivars. Female moths showed a range of ovipositional preference measures to the various lines. Combined data for three Helianthus species represented by multiple lines showed significant differences in female preference with respect to the parental species. Larval performance, determined by proportion of infested neonate larvae reaching the pupal stage, or mean pupal weight, varied across the lines and, as for the female preference data, also showed significant differences among the three parental Helianthus species represented by multiple lines. These data suggest that the characteristics in the pre‐breeding lines influencing female sunflower moth preference and larval performance likely originate from the parental species and may be consistently transferred to the derived pre‐breeding lines. Of particular note with regard to potential plant resistance mechanisms, lines derived from H. tuberosus showed consistent low preference–performance measures. Female preference and larval performance (for both measures) were strongly correlated, indicating that females preferred plants and lines on which larvae performed better, in support of the preference–performance hypothesis.     

Microsporogenesis Abortion in Cytoplasmic Male Sterile Plants from H. petiolaris or H. petiolaris fallax Crossed by Sunflower (Helianthus annuus)

The microsporogenesis of two sunflower lines carrying two differentcytoplasmic male sterilities (CMS) from H. petiolaris (PL) andfrom H. petiolaris fallax (PF) has been studied and comparedto the normal process in male fertile lines. The first signsof abortion are, respectively, the vacuolation of the endoplasmicreticulum in PL during the first division of meiosis and theabnormal deposition of the endexine layer in PF during the vacuolationof the microspore. The genotype of the male line seems to modulate the stage ofpollen abortion, Furthermore, two ways of abortion have beenobserved for a single male sterile plant. Consequently, we suggestthat the ultrastructural observations reflect only the mainconsequences of a primary unknown event which takes place earlier. Cytoplasmic male-sterility, meiosis, Helianthus annuus L, H. petiolaris Nutt, microsporogenesis, electron microscopy     

Leaf responses to soil water deficits: Comparative sensitivity of leaf expansion rate and leaf conductance in field-grown sunflower (Helianthus annuus L.)

The relative importance of changes in leaf expansion rate (LER) and leaf conductance (g₁) in the control of crop transpiration depends primarily on their sensitivity to soil water deficits. The aim of this paper was to quantify the responses of LER and g₁ to soil water deficits in sunflower (Helianthus annuus L.) under conditions of moderate (spring) and high (summer) evaporative demand. Soil water content, g₁, and LER were measured in dryland (DRY) and daily-irrigated (WET) crops established on a deep sandy-loam (Typic Xerofluvent) in a Mediterranean environment. There was no difference between g₁ of DRY and WET plants (p>0.20) in contrast with a highly significant difference in LER (p<0.001). Even under the harsh conditions of the summer experiment, g₁ did not respond to water deficit in a ten-day period in which LER of DRY plants was reduced to approx. 30% of that measured in WET controls. This field study indicates that g₁ plays at most a minor role in the control of sunflower transpiration in the pre-anthesis period and confirms the importance of leaf expansion in the regulation of gas exchange of expanding canopies subjected to soil water deficits.     

Oil concentration and fatty acid composition of achenes ofHelianthus species (Asteraceae) from Canada

The cultivated sunflower (Helianthus annuus) is one of the four most important annual crops in the world grown for its edible oil. Species of the genusHelianthus served as the ancestral stock for the present cultivated sunflower. The wild relatives are a valuable genetic reservoir for improving the crop species. This study examined oil concentration and fatty acid composition in oil of two annualHelianthus species (31 populations) and four perennial species (32 populations) from the prairie provinces of Canada. The highest average oil concentration was observed in annualH. petiolaris with 31.3%. Among the perennials,H. maximiliani Schrad. had the highest average oil concentration with 31.1%.Helianthus tuberosus L. had the highest average palmitic (16:0) acid concentration with 8.0%, while the lowest value was observed inH. petiolaris with 4.0%. The highest average stearic (18:0) acid concentration was found inH. annuus with 2.9%, whileH. petiolaris had the lowest with 2.3%. The highest average oleic acid (18:1) was observed in H. petiolaris (18.4%), and the highest linoleic (18:2) was observed inH. maximiliani (77.4%). The variability within the wild species appears to be sufficient for altering oil and fatty acid characteristics in cultivated sunflower.     

Sequence of a mitochondrial plasmid of sunflower (Helianthus annuus) and its relationship to other mitochondrial plasmids

A circular plasmid called plT is found in mitochondria of sunflower (Helianthus annuus). Its nucleotide sequence has been determined and analyzed in order to understand its possible role and origin. The nucleotide sequence exhibits a 159 base pair region with highly organized repeats. The sequence of plT shows no major homology with other plasmids of higher plants although organized patterns are present in the circular plasmids. We also report the existence of two related mitochondrial plasmids in a line of H. annuus and in the H. petiolaris fallax species. In addition, plT plasmid has been detected in total cellular DNA of male-sterile sunflower with a copy number of a hundred times lower than in the male-fertile one.     

Modelled hydraulic redistribution by sunflower (Helianthus annuus L.) matches observed data only after including night‐time transpiration

The movement of water from moist to dry soil layers through the root systems of plants, referred to as hydraulic redistribution (HR), occurs throughout the world and is thought to influence carbon and water budgets and ecosystem functioning. The realized hydrologic, biogeochemical and ecological consequences of HR depend on the amount of redistributed water, whereas the ability to assess these impacts requires models that correctly capture HR magnitude and timing. Using several soil types and two ecotypes of sunflower (Helianthus annuus L.) in split‐pot experiments, we examined how well the widely used HR modelling formulation developed by Ryel et al. matched experimental determination of HR across a range of water potential driving gradients. H. annuus carries out extensive night‐time transpiration, and although over the last decade it has become more widely recognized that night‐time transpiration occurs in multiple species and many ecosystems, the original Ryel et al. formulation does not include the effect of night‐time transpiration on HR. We developed and added a representation of night‐time transpiration into the formulation, and only then was the model able to capture the dynamics and magnitude of HR we observed as soils dried and night‐time stomatal behaviour changed, both influencing HR.     

Leaf enlargement and metabolic rates in corn, soybean, and sunflower at various leaf water potentials

Rates of photosynthesis, dark respiration, and leaf enlargement were studied in soil-grown corn (Zea mays), soybean (Glycine max), and sunflower (Helianthus annuus) plants at various leaf water potentials. As leaf water potentials decreased, leaf enlargement was inhibited earlier and more severely than photosynthesis or respiration. Except for low rates of enlargement, inhibition of leaf enlargement was similar in all three species, and was large when leaf water potentials dropped to about −4 bars.     

Magnesium nutrition of two species of sunflower

Helianthus annuus L., the common cultivated sunflower, and Helianthus bolanderi Gray subspecies exilis Heiser, a form endemic on serpentine soils, were grown in culture solutions with widely varying Mg levels. For comparable development, H. bolanderi exilis required higher levels of Mg in the solution than H. annuus, both in the range of visual deficiency symptoms and in higher ranges.     

Regeneration of fertile interspecific hybrids from protoplast fusions between Helianthus annuus L. and wild Helianthus species

The use of interesting characteristics from wild Helianthus species in sunflower breeding is limited by poor crossability or sterility of interspecific hybrids. To overcome this barrier, mesophyll protoplasts of Sclerotinia sclerotiorum-resistant clones of Helianthus maximiliani, H. giganteus and H. nuttallii were fused with hypocotyl protoplasts of H. annuus in the presence of polyethyleneglycol and dimethylsulfoxide. Fusion products were embedded in agarose and subjected to a regeneration protocol developed for sunflower protoplasts. Organogenic calli were transferred onto solid medium and emerging shoots were elongated in the absence of plant growth regulators. Rooting of shoots was induced by a 1-naphthaleneacetic acid treatment and putative hybrid plants from fusions between H. annuus + H. maximiliani and H. annuus + H. giganteus were transferred into the greenhouse. All of them exhibited a hybrid phenotype with a high percentage of rhizome producing plants. Their hybrid origin was confirmed by random amplified polymorphic DNA analysis. Plants flowered after 3–4 months and set seeds, of which 70–80% germinated. Received: 18 February 1997 / Revision received: 25 March 1997 / Accepted: 15 May 1997     

MOLECULAR TESTS OF THE HYPOTHESIZED HYBRID ORIGIN OF TWO DIPLOID HELIANTHUS SPECIES (ASTERACEAE)

Enzyme electrophoresis and restriction-fragment analysis of chloroplast DNA (cpDNA) and nuclear ribosomal DNA (rDNA) were used to test the hypothesis that both Helianthus neglectus and H. paradoxus are stabilized hybrid derivatives of H. annuus and H. petiolaris. The four species are annuals, diploid outcrossers, and have the same chromosome number. Helianthus annuus and H. petiolaris had the same allele in highest frequency for 16 of the 18 isozyme loci examined and had different majority alleles for only 6-Pgd3 and Pgi2. The two species had divergent rDNAs that could be distinguished by seven diagnostic restriction site mutations and three length mutations, and their cpDNAs could be differentiated by three diagnostic restriction site mutations. The alleles observed in H. neglectus were not a combination of those observed in H. annuus and H. petiolaris. Although H. neglectus had only one unique allele, it possessed none of the three alleles specific to H. annuus. In contrast, it had four of the seven alleles specific to H. petiolaris. Furthermore, H. neglectus had the same rDNA type as H. petiolaris and had the same cpDNA as that found in two populations of H. petiolaris ssp. fallax. These data allowed us to speculate that H. neglectus may be a recent derivative of H. petiolaris ssp. fallax, rather than a stabilized hybrid derivative as originally proposed. In contrast, H. paradoxus combined the alleles of H. annuus and H. petiolaris and had no unique alleles. At Adh2, H. paradoxus was monomorphic for an allele found only in H. petiolaris ssp. fallax, whereas at 6-Pgd3 and Pgi2, it was monomorphic for high frequency H. annuus alleles. Furthermore, H. paradoxus combined the rDNA repeat types of both proposed parents and had the chloroplast genome of H. annuus. These data provide compelling evidence that H. paradoxus, in contrast to H. neglectus, was derived via hybridization.     

Penicillium yugoslavicum sp. nov., isolated from sunflower seeds (Helianthus annuus L.) in Yugoslavia

A new species of Penicillium Link ex Fries is described and illustrated. It was recovered from sunflower seed (Helianthus annuus L.) in Yugoslavia. It clearly differs from all species of the genus described so far and is, therefore, proposed as a new taxon: Penicillium yugoslavicum sp. nov.     

Comprehensive genomics and expression analysis of eceriferum (CER) genes in sunflower (Helianthus annuus)

Sunflower occupies the fourth position among oilseed crops the around the world. Eceriferum (CER) is an important gene family that plays critical role in very-long-chain fatty acids elongation and biosynthesis of epicuticular waxes under both biotic and abiotic stress conditions. The aim of present study was to investigate the effect of sunflower CER genes during drought stress condition. Thus, comparative analysis was undertaken for sunflower CER genes with Arabidopsis genome to determine phylogenetic relationship, chromosomal mapping, gene structures, gene ontology and conserved motifs. Furthermore, we subjected the sunflower cultivars under drought stress and used qRT-PCR analysis to explore the expression pattern of CER genes during drought conditions. We identified thirty-seven unevenly distributed CER genes in the sunflower genome. The phylogenetic analysis revealed that CER genes were grouped into seven clades in Arabidopsis, Helianthus annuus, and Gossypium hirsutum. Expression analysis showed that genes CER10 and CER60 were upregulated in sunflower during drought conditions, indicating that these genes are activated during drought stress. The results obtained will serve to characterize the CER gene family in sunflower and exploit the role of these genes in wax biosynthesis under limited water conditions.Key messageCuticular waxes protect the plants from drought stress, so we observed the expression of wax bio synthesis genes in recently sequences genome of Helianthus annuus. We observed that expression of wax biosynthesis genes CER10 and CER60 was upregulated when the plants were subjected to drought stress.     

Fungal populations on sunflower ( Helianthus annuus ) anthosphere and their relation to susceptibility or tolerance to Sclerotinia sclerotiorum attack

Analysis of the fungal flora from different floret parts of various sunflower (Helianthus annuus) varieties showed that there are differences in both fungal species and frequency, depending on whether the sunflower variety is susceptible (SV) or tolerant (TV) to attack of the flower heads by the ascomycete pathogen Sclerotinia sclerotiorum. The sunflower varieties analyzed were SV: HA 300 and Z 20028, and TV: HA 302, Z AV 8410 and Z 30629. The isolates showed different “in vitro” behavior as biocontrol agents. The most common types of interaction with Sclerotinia sclerotiorum were D2 and D2+ (hyphal contact) for isolates from SV and TV, while some of the isolates from TV displayed antibiosis. The microorganisms that colonize TV florets play a part in an indirect mechanism that protects flowers from ascospore germination and pathogen growth. This revised version was published online in June 2006 with corrections to the Cover Date.