Nectar thieves or invited pollinators? A case study of tansy flowers and common house mosquitoes

Mosquitoes are generally considered nectar thieves that do not contribute to the pollination of the flowers they visit. Here we tested the hypothesis that the common house mosquito, Culex pipiens, contributes to the pollination of tansies, Tanacetum vulgare, and possibly the pollination of other members of the Asteraceae (Achillea millefolium, Leucanthemum vulgare, Solidago canadensis). To test this hypothesis, we (1) field-collected mosquitoes probing inflorescences of T. vulgare, A. millefolium, and L. vulgare, and recorded the number and distribution of pollen grains on their bodies, (2) exposed laboratory-reared Cx. pipiens to inflorescences of T. vulgare, A. millefolium, and S. canadensis, and (3) ran pollination experiments with Cx. pipiens and T. vulgare in a greenhouse. We found (1) that 41 of 164 field-collected Cx. pipiens carried pollen, (2) that 48, 34, and 34 % of Cx. pipiens accumulated pollen from T. vulgare, A. millefolium, and S. canadensis, respectively, during floral visits of greenhouse-grown specimens, and (3) that cross-pollination by Cx. pipiens resulted in significant seed set of T. vulgare in pollination experiments. Based on our observations that Cx. pipiens are frequent floral visitors and are able to carry pollen and to induce seed set in T. vulgare, it is clear that Cx. pipiens plays a role in the pollination of T. vulgare, and possibly other members of the Asteraceae.     

Plant growth promoting potential of bacterial endophytes in novel association with <Emphasis Type="Italic">Olea ferruginea</Emphasis> and <Emphasis Type="Italic">Withania coagulans</Emphasis>

Microbially unexplored medicinal plants can have a genetically diverse microbial population with multi-functional plant growth promoting traits. In this aspect, 75 endophytic bacterial isolates with plant growth promoting traits were isolated from Withania coagulans Dunal and Olea ferruginea Royal. Many of these bacteria were able to solubilize phosphate, produce indole-3-acetic acid, ammonia as well as hydrogen cyanide, synthesize extracellular enzymes and show antagonistic activities against plant pathogenic fungi under in vitro conditions. These isolates were also characterized by morphological and biochemical analysis. Furthermore, four representative isolates with pronounced plant growth promoting activities were identified as Enterobacter cloacae, Enterobacter dissolvens, Enterobacter hormaechei and Cronobacter sakazakii by 16S rDNA sequencing analysis. This work for the first time, reported the isolation of endophytic bacteria, the novel association form selected plants, Withania coagulans and Olea ferruginea. The explored endophytes might have great potential in the field of biocontrol and plant growth promoting for sustainable agricultural practices.     

Essential oil composition of two yarrow taxonomic forms

Differences in essential oil composition of wild Achillea millefolium L., collected at five habitats in Lithuania, where plants with pink (f. rosea) and white (f. millefolium) flowers grow together, were reported. For the first time, oils of different plant organs (inflorescences and leaves) of both forms from every population were analysed in detail. Chemical analysis was performed by GC and GC-MS. The most predominant constituents of the oils were nerolidol (9.4–31.9%, in 11 out of 20 samples), caryophyllene oxide (8.4–23.0%, 4 leaf oils), ß-pinene (8.0–15.2%, 2 samples), eudesmol (11.8–15.8%, 2 leaf oils) and 1,8-cineole (11.9%, one inflorescence oil). Domination of nerolidol was mostly characteristic of A. millefolium f. rosea essential oils (in 8 out of 10 oils). The inflorescences biosynthesised markedly larger amounts of nerolidol and ß-pinene than those of the leaves. An opposite correlation was observed for caryophyllene oxide and eudesmol. Chamazulene (≤2.7%) was determined only in six oils. The 65 identified constituents made up 75.4–96.5% of the oils.     

Concentration of some metals in soil and plant organs and their biochemical profiles in <Emphasis Type="Italic">Tulipa luanica</Emphasis>, <Emphasis Type="Italic">T. kosovarica</Emphasis> and <Emphasis Type="Italic">T. albanica</Emphasis> native plant species

The purpose of this study was to determine the concentration of some metals (Al, Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb, Zn, Ca and Mg) in soil of serpentine and limestone sites, their bioaccumulation and impact on some biochemical parameters in T. luanica, T. kosovarica and T. albanica plants. T. kosovarica and T. albanica grows in serpentine soil, while T. luanica grow in limestone soil. The research showed that concentrations of Cd, Co, Cr, Fe, Mn and Ni were significantly higher at serpentine soil sites in comparison with limestone sites, while concentrations of Pb, Cd, Co and Cr in bulbs, leaves and seeds were under the limit of detection. The concentration of Ni in plant samples of T. kosovarica was significantly higher in comparison with its concentration in T. albanica, but it was under the limit of detection in T. luanica. Moreover, concentrations of Al and Fe in leaves of T. kosovarica and T. albanica were higher in comparison with T. luanica. The concentration of Mg was significantly higher in T. kosovarica and T. albanica than in T. luanica. The δ-aminolevulinic acid dehydratase activity, malondialdehyde and glutathione contents in leaves of T. luanica were higher in comparison with T. kosovarica and T. albanica. In addition, the amounts of total chlorophyll and δ-aminolevulinic acid (ALA) in leaves of T. albanica were higher in comparison with T. kosovarica and T. luanica. Our findings show that target organs of metal accumulation in three Tulip species appears to be leaves?>?seeds?>?bulbs, while the biochemical parameters show that limestone sites represent a less stressful habitat for growing these plant species in comparison with serpentine sites.     

Evaluating the efficacy of <Emphasis Type="Italic">Hypogeococcus</Emphasis> sp. as a biological control agent of the cactaceous weed <Emphasis Type="Italic">Cereus jamacaru</Emphasis> in South Africa

We evaluated the efficacy of Hypogeococcus sp. (Hemiptera: Pseudococcidae) as a biological control agent of the cactaceous weed Cereus jamacaru De Candolle (Queen of the Night cactus) in South Africa. This weed has been described as being under complete biological control due to the action of Hypogeococcus sp., although no formal post-release evaluation had been conducted prior to this study. Biological control was associated with significant reductions in fruiting, plant survival and plant densities, while plant population age structures were negatively affected. Weed populations infected by Hypogeococcus sp. were typified by low or non-existent recruitment and are expected to diminish with time. Populations where Hypogeococcus sp. was absent displayed extensive recruitment, and are predicted to expand or self-replace, if left unchecked. These data indicate that Hypogeococcus sp. has a significant negative effect on C. jamacaru at the individual plant and population level, and given sufficient time provides complete biological control over this weed in South Africa.     

Morphological and physiological changes,and the functional analysis of <Emphasis Type="Italic">PdSPL9</Emphasis> in the juvenile-to-adult phase transition of <Emphasis Type="Italic">paeonia delavayi</Emphasis>

Tree peony has a long juvenile stage, which has limited breeding efforts. To date, very little information is available regarding the juvenile stage of tree peony. In the present study, Paeonia delavayi plants of varying ages were used to investigate the juvenile phase, juvenile-to-adult phase transition, and adult phase via morphological, physiological, and molecular genetic analysis. Micro-observation of buds of different ages and flower induction experiments suggested that the juvenile-to-adult phase transition of P. delavayi occurred at around 2-years of age. Plant height, crown width, leaf length, and the soluble sugar and starch content were positively correlated with plant age. The juvenile gene PdSPL9 contained miR156 targeted sites and a typical SBP domain was cloned from P. delavayi. Expression analysis showed that the expression levels of PdSPL9, PdmiR172d, and PdLFY increased with plant age, while the inverse pattern was observed for PdmiR156a. Function of PdSPL9 was further characterized in Arabidopsis plant. According to function characterization of PdSPL9 in Arabidopsis and expression patterns of PdSPL9 in P. delavayi, it was suggested that PdSPL9 plays a role in controlling juvenile-to-adult phase transition by promoting miR172d, and PdLFY expression in P. delavayi plants, while the expression of PdSPL9 is repressed by miR156a.     

Strains of <Emphasis Type="Italic">Bacillus</Emphasis> ssp. regulate wheat resistance to <Emphasis Type="Italic">Septoria nodorum</Emphasis> Berk.

The ability of Bacillus subtilis Cohn and Bacillus thuringiensis Berliner to induce systemic resistance in wheat plants to the casual agent of Septoria nodorum Berk., blotch has been studied. It has been shown that strains of Bacillus ssp. that possess the capacity for endophytic survival have antagonistic activity against this pathogen in vitro. A reduction of the degree of Septoria nodorum blotch development on wheat leaves under the influence of Bacillus spp. was accompanied by the suppression of catalase activity, an increase in peroxidase activity and H₂O₂ content, and expression of defence related genes such us PR-1, PR-6, and PR-9. It has been shown that B. subtilis 26 D induces expression levels of wheat pathogenesis-related (PR) genes which marks a SA-dependent pathway of sustainable development and that B. thuringiensis V-5689 and V-6066 induces a JA/ET-dependent pathway. These results suggest that these strain Bacillus spp. promotes the formation of wheat plant resistance to S. nodorum through systemic activation of the plant defense system. The designed bacterial consortium formed a complex biological response in wheat plants infected phytopathogen.     

The obtainment and characteristics of <Emphasis Type="Italic">Kalanchoe pinnata</Emphasis> L. plants expressing the artificial gene of the cecropin P1 antimicrobial peptide

Kalanchoe pinnata L. plants bearing an artificial CP1 gene encoding the cecropin P1 antimicrobial peptide have been obtained. The presence of the CP1 gene in the plant genome has been confirmed by PCR. Cecropin P1 synthesis in transgenic plants has been shown by MALDI mass spectrometry and Western blotting. The obtained plants have been highly resistant to bacterial and fungal phytopathogens, and their extracts have demonstrated antimicrobial activity towards human and animal pathogens. It has been shown that transgenic plants bearing the CP1 gene can be colonized by the beneficial associative microorganisms Methylovorus mays.     

Differential expression of two <Emphasis Type="Italic">CONSTANS-LIKE1</Emphasis> genes in potato

Although the CONSTANS gene and its CONSTANS-LIKE1 (COL1) orthologs are known to control the photoperiod-dependent floral transition in many plant species, the role of these genes in Solanum development has not been sufficiently elucidated. Previously we characterized two forms of CONSTANS-LIKE1 genes, sCOL1 and lCOL1, in potato (Solanum tuberosum ssp. tuberosum). To prove that these genes were functional, we followed their expression in potato cv. Early Rose with the real-time PCR technique. Both sCOL1 and lCOL1 displayed characteristic day-night patterns of expression under long-day and short-day conditions. The profiles and amplitudes of expression dramatically differed in two genes, with the maximum sCOL1 expression exceeding that of lCOL1 by an order of magnitude.     

Taxonomic composition of bacteria associated with cultivated mollusks <Emphasis Type="Italic">Crassostrea lugubris</Emphasis> and <Emphasis Type="Italic">Perna viridis</Emphasis> and with the water of the Gulf of Nha Trang lagoon,Vietnam

One hundred and four strains of heterotrophic bacteria have been isolated and characterized from two species of bivalve mollusks cultivated in the Gulf of Nha Trang (Vietnam) and from the water of a mariculture farm. The isolates have been identified on the basis of morphological, physiological, biochemical, and chemotaxonomic properties, as well as by the content of G+C bases in DNA. In the microflora of mollusks, Vibrio alginolyticus was predominant; the pathogenic species V. harveyi and V. splendidus were found as well. Staphylococci and bacilli occupied the second place in abundance after vibrios. In addition, coryneforms and enterobacteria, as well as Pseudomonas spp. and Pseudoalteromonas spp., were revealed. The composition of the water microflora was more diverse as compared with the microflora of mollusks. In the water, Bacillus spp., Vibrio spp., and Pseudomonas spp. were predominant. Brevibacterium spp. and other coryneform bacteria, as well as enterobacteria, occurred in significant amounts. In addition, Pseudoalteromonas spp., Marinococcus sp., Halobacillus sp., Shewanella sp., Sulfitobacter sp., and bacteria of the CFB cluster were noticed. The presence of pathogenic and conditionally pathogenic bacterial species in the water and mollusks is probably the reason for the high death rate of cultivated animals at the mariculture farm.     

Genome-wide identification and expression analysis of the GRAS family proteins in <Emphasis Type="Italic">Medicago truncatula</Emphasis>

The GRAS gene family performs a variety of functions in plant growth and development processes, and they also play essential roles in plant response to environmental stresses. Medicago truncatula is a diploid plant with a small genome used as a model organism. Despite the vital role of GRAS genes in plant growth regulation, few studies on these genes in M. truncatula have been conducted to date. Using the M. truncatula reference genome data, we identified 68 MtGRAS genes, which were classified into 16 groups by phylogenetic analysis, located on eight chromosomes. The structure analysis indicated that MtGRAS genes retained a relatively constant exon–intron composition during the evolution of the M. truncatula genome. Most of the closely related members in the phylogenetic tree had similar motif compositions. Different motifs distributed in different groups of the MtGRAS genes were the sources of their functional divergence. Twenty-eight MtGRAS genes were expressed in six tissues, namely root, bud, blade, seedpod, nodule, and flower tissues, suggesting their putative function in many aspects of plant growth and development. Nine MtGRAS genes were upregulated under cold, freezing, drought, ABA, and salt stress treatments, indicating that they play vital roles in the response to abiotic stress in M. truncatula. Our study provides valuable information that can be utilized to improve the quality and agronomic benefits of M. truncatula and other plants.     

Overexpression and loss-of-function at <Emphasis Type="Italic">TIME FOR COFFEE</Emphasis> results in similar phenotypes in diverse growth and physiological responses

Plant experience diurnal changes in their environment that can be anticipated and responded to via the circadian clock. Integration of external signals by this clock ensures metabolic homeostasis and ultimately enhances fitness. TIME FOR COFFEE (TIC) is known to be associated to the circadian clock, being required to maintain rhythmic period and amplitude, and to regulate clock-driven physiological responses. The molecular function of TIC has so far only been studied with loss-of-function mutants. The biochemical activity of TIC remains elusive. To learn more about TIC in diverse physiological processes, here we generated TIC overexpressing plants (TICox) and characterized their impact on plant growth, development, and circadianclock activity. TICox plants displayed phenotypic similarity with tic mutants. This included defects in leaf morphology, the developmental transition from the vegetative to reproductive phase, and circadian-clock function. These observations allowed us to hypothesize that TIC is an element of protein complexes that are involved in global biological processes.