Outcrossing increases infection success in the holoparasitic mistletoe <Emphasis Type="Italic">Tristerix aphyllus</Emphasis> (Loranthaceae)

Most studies on the fitness advantage of outbreeding in host–parasite systems have been assessed from the host rather than the parasite perspective. Here, we performed experimental pollination treatments to evaluate the consequences of outbreeding on fitness-related traits in the holoparasitic mistletoe Tristerix aphyllus in a 2-year field study. Results indicate that self-pollinated plants had a lower fruit production than outcrossed plants (20.4% and 29.5% reduction in 2002 and 2003, respectively), and resulting inbred fruits were smaller than outcrossed fruits in both years. No effect was detected for seed mass. The percentage of germination of inbred seeds was 15.1% and 6.0% lower than outcrossed seeds in 2002 and 2003, respectively. Inbred seedlings had shorter radicles, which translated to a 71.6% and 60.0% reduction in infection success compared with outcrossed plants in 2002 and 2003, respectively. Overall, our results revealed significant inbreeding depression on almost every trait that was examined. Although the mean value of traits varied from a year to another, the magnitude of inbreeding depression did not change significantly between years. Our findings constitute the first evidence that outcrossing increases infection success and probably virulence in parasitic plant populations.     

Tamarindus indica L. leaf is a source of allelopathic substance

The allelopathic potential of the Tamarindus indica L. leaf was investigated through bioassay guided studies using several weed and edible crop species. Both radicle and hypocotyl growth of all the plant species tested was strongly inhibited by the tamarind leaf using a sandwich method. The growth of weed species was reduced more than that of edible crop species. Among the weed species, barnyard grass followed by white clover, and in the edible crop species, lettuce followed by radish ranked top in terms of growth inhibition. Different concentrations of tamarind leaf crude water-soluble extract exhibited a strong inhibition in all the plant species tested and, by contrast, the magnitude of inhibition in the weed species was higher than in edible crop species and ranged from 30–75%. The 10% concentration of the tamarind leaf crude water-soluble extract was most potent against growth of seedlings. The concentrations of the nutrient components were linearly correlated with an increase in the concentration of tamarind leaf crude water-soluble extract. No significant changes in either pH or EC were found in the variations of different concentrations of tamarind leaf crude water-soluble extracts. As compared to control, growth of both radicle and hypocotyl in weed (barnyard grass and white clover) and in edible crop (lettuce and radish) species were significantly reduced when blended tamarind leaves at different concentrations were incorporated into the growth medium. The inhibitory magnitude increased with an increase in the concentration of the tamarind leaf. In terms of growth inhibition, among these tested plants, weed species particularly barnyard grass were most sensitive to the allelochemicals exuded from blended tamarind leaves. When the blended tamarind leaves were removed from the growth medium, all the seedlings grew quickly and the percentage of recovery was between 76–97% of the corresponding controls. Reduction in the fresh and dry weight of these 4 plant species was observed under the experimental conditions, and ranged between 33–42% and 40–53% in the radicle and hypocotyl, respectively. The fresh and dry weight, and total chlorophyll content declined significantly in the incorporated tamarind leaf treatments. Compared to the control, the highest drop in the chlorophyll content of 60% in barnyard grass was observed with the 10% concentration of the leaf treatment. These results clearly indicate that the tamarind leaf contains one or more strong biologically active allelochemical(s) that function as true growth regulator(s) and is involved in plant growth regulation, particularly in weed species.     

The effects of soluble-Al on root growth and radicle elongation

Summary In order to determine the effects of concentration on plant growth, aluminium (Al) was extracted (10^–3 M CaCl₂) from 4 acid brown hill soils which had been treated with superphosphate at rates equivalent to 0 to 300 kg P ha^–1. The soils ranged in pH (CaCl₂) from 3.5 to 4.9, and Al concentration from 0 to 0.6 mM. The effects of Al on ryegrass growth in the 4 soils in a glasshouse was compared with its effect on radicle elongation of seeds germinated in contact with CaCl₂ extracts from the same soils.Ryegrass root growth in the glasshouse, and radicle elongation in the bioassay test were both unaffected by Al concentrations below 0.1 mM. Root growth was substantially reduced when Al concentration exceeded 0.1 mM and above 0.2 mM growth was almost completely inhibited. Radicle elongation rate was also reduced when the concentration of Al was greater than 0.2 mM agreeing well with the observation from the pot experiment.It is concluded that because of its speed and convenience the bioassay method offers a useful method of establishing critical levels of Al for crop plants.     

Digitaria sanguinalis seedling development pattern: Relationship with seed origin

In the context of a long-term study of the pathosystem Digitaria sanguinalis–Ustilago syntherismae, seeds were collected over several years from a naturally infested field. Two different patterns of germination were found depending on the embryonic organ that first emerges: radicle or coleoptile. The mean frequencies of each pattern of germination were obtained in sets of seeds from non-smutted field plants of five consecutive years, and in a set of seeds belonging to the offspring of partially smutted field plants. The percentage of seeds showing radicular germination ranged from 54% to 69% in the field-collected lots, but it was only 1% in the offspring of partially smutted plants. Furthermore, while seeds with a radicular pattern reached 63% germination 43.5 hours after imbibition, the seeds with a coleoptilar pattern needed 101.5 hours to reach the same percentage. The effect of the amount of water during the imbibition period was also tested in two sets of seeds of different origin. There were no significant differences attributable to this factor, even in the levels of the factor that simulate flooding. We discuss the importance of the different germination behaviour observed in relation to the U. syntherismae infection process.     

Phenotypic plasticity in the holoparasitic mistletoe <Emphasis Type="Italic">Tristerix aphyllus</Emphasis> (Loranthaceae): consequences of trait variation for successful establishment

The ability of a genotype to respond to changes in the environment through modifications in the phenotype is adaptive when the plastic genotypes attain a higher fitness than non-plastic genotypes. In this study we examine whether parasite traits involved in host infection exhibit adaptive phenotypic plasticity to the heterogeneous host microenvironment. We focused on a host-parasite relationship characterized by the holoparasitic mistletoe Tristerix aphyllus and the cactus host Echinopsis chilensis. Unlike most mistletoes, whose seeds are deposited on the host branches, seeds of T. aphyllus are often deposited on the spines of the cactus. The extremely long radicles of T. aphyllus have been suggested to represent a parasite adaptation to overcome the barriers to infection imposed by the spines of cacti. However, plastic rather than canalized phenotypes may represent a better strategy in changing environments. We evaluated whether T. aphyllus exhibits adaptive plasticity in radicle length through a sire half-sib genetic design under field conditions in two contrasting microenvironments (seeds deposited on spines 4 and 28 mm from the host surface). We used phenotypic and genotypic selection analyses to evaluate the relationship between radicle length and seed establishment. Our results revealed significant phenotypic plasticity for radicle length and family level variation among maternal but not paternal families. Short radicles and large seeds were favored in the short-distance environment, and long radicles were favored in the long-distance environment, suggesting that no single optimal phenotype exists for T. aphyllus. The observation that the heritability of radicle length and seed mass did not differ from zero was consistent with this finding. Overall, our results indicate that plastic rather than long radicles seem to be a better parasite strategy to overcome the microenvironmental heterogeneity imposed by host defensive traits.     

Gibberellin-mediated changes in carbohydrate metabolism during flower stalk elongation in tulips

We tested the effects of cold stratification, temperature, light and NaCl on seed germination and germination recovery and of NaCl on radicle growth and radicle elongation recovery of Kalidium caspicum, a small leafy succulent shrub dominant in saline deserts in northwest China. In all conditions of temperature and light/darkness, germination percentages and rates of cold-stratified seeds were significantly higher than those of nonstratified seeds. Germination of a high percentage of both nonstratified and stratified seeds was inhibited by 0.2 M NaCl, and 0.6 M NaCl completely inhibited germination. Nongerminated seeds germinated after they were transferred from NaCl solutions to distilled water. Radicle elongation significantly decreased with increase in salinity, and it was completely inhibited by ≥1.0 M NaCl; radicle elongation recovered in young seedlings pretreated by 10 days of incubation in ≤0.4 M NaCl. Results show that seed germination and early seedling growth of K. caspicum are salt tolerant, and these characteristics help explain why this species can survive and dominate salt habitats, such as those in the Junggar desert in Xinjiang, northwest China.     

Water-soluble phenolic compounds in the coat control germination and peroxidase reactivation in <Emphasis Type="Italic">Triticum aestivum</Emphasis> seeds

In this work, we investigated the inhibitory effects of water-soluble phenolic compounds (WSPCs) in the coat of after-ripening wheat (Triticum aestivum L.) seeds on the processes of germination and peroxidase reactivation. Wheat bran has a WSPC content of 862.5 μg gallic acid equivalent g⁻¹ dry weight. When seeds were incubated in the water extract of bran, germination, peroxidase reactivation, and coleoptile and radicle growth were suppressed in a WSPC concentration-dependent manner. The inhibitory effects were significantly ameliorated by removing WSPCs from bran extract by treating with 1% insoluble polyvinylpolypyrrolidone. Pretreatment of seeds with 0.1% H₂O₂ reduced the WSPC content in the coat, which was confirmed using Fourier transform infrared microspectroscopy. With H₂O₂ pretreatment, seed germination, peroxidase reactivation, and post-germination seedling growth were significantly stimulated. Application of the known phenolics caffeic acid, feruic acid, or vanillin to the germination medium blocked seed germination and suppressed peroxidase reactivation. The results described here indicate that WSPCs act as endogenous inhibitors in the coat to control germination of Triticum aestivum seeds, and that inhibition of germination is at least partially caused by suppressing peroxidase reactivation.     

Germination growth response of different plant species to the allelochemical L-3,4-dihydroxyphenylalanine (L-DOPA)

The aim of this study was to investigate the seed germination response of different plant families to L-3,4-dihydroxyphenylalanine (L-DOPA), one of the strongest allelochemicals in nature. Three types of responses in terms of colouration changes on filter paper were obtained; black and gray (Gramineae and Compositae), no change (Leguminosae, Brassicaceae, and Cucurbitaceae) and an obstructed-circle around the seeds with black colouration on the outer side of the circle (Hydrophyllaceae) when L-DOPA solution was applied during seed germination. Radicle growth in the Gramineae and Leguminosae families was inhibited less by a single treatment of L-DOPA solution (250 g/ml) than in the other families. However, continuous treatment with L-DOPA demonstrated that the Gramineae family was less affected in terms of the inhibition of radicle growth than the Leguminosae family. When more seeds were added to the L-DOPA solution less inhibition of radicle growth was observed in all plants tested. The EC₅₀ of L-DOPA for bluebell (Hydrophyllaceae), white clover (Leguminosae), and lettuce (Compositae) was approximately 200, 100, and 50 g/ml, respectively. However, in perennial ryegrass (Gramineae) no EC₅₀ was observed even at 250 g/ml L-DOPA. In the Gramineae family, addition of more seeds into the L-DOPA solution increased the colouration on the filter paper. These results demonstrated that each seed functions to oxidize or dissolve L-DOPA. In the Gramineae, Leguminosae, Compositae, and Hydrophyllaceae, increasing the number of seeds imbibed in the L-DOPA solution increased the rate of L-DOPA disappearance from the petri-dish. Of the Grammaceous plants tested, only perennial ryegrass, which showed fairly weak allelopathic activity, metabolised L-DOPA to dopamine. Although the relationships between the changes in colouration of the filter paper and the inhibition of radicle growth in these experiments are still unknown, there appears to be a strong response in each species to protect the cell from L-DOPA damage.     

Effect of aflatoxin B1 on germination index and seedling growth in wheat varieties

The effect of different concentrations of aflatoxin B₁ (100, 250, 500, 1000, 2000 µg/l) was studied on germination index and seedling growth in three varieties of wheat seeds. Inhibition in the above process was directly influenced by the concentration of toxin. Concentration of toxin had highly significant effect (p<0.001) for seed germination rate and radicle and plumule development. Inhibition dose for 50% reduction in germination rate (ID₅₀) determined by probit analysis was maximum for the variety HP-129 (895 µg/l).     

A smoke-derived butenolide improves early growth of tomato seedlings

3-Methyl-2H-furo[2,3-c]pyran-2-one is an active compound isolated from plant-derived smoke water. It has a stimulatory role during seed germination similar to that of smoke or aqueous extracts of smoke. The present study was undertaken to gain insight into the physiological events involved in seed germination and seedling development and which are affected by butenolide using tomato (Lycopersicon esculentum Mill.) cultivar “Heinz 1370” seeds. No stimulatory role on the seed germination of tomato was recorded following the use of the butenolide, however, post-germinative growth of tomato seedlings was significantly improved over the control (P ≤ 0.05). The emergence of the radicle and elongation of the hypocotyls and radicles were accelerated in seeds imbibed with butenolide at 10⁻⁷ M. Flow cytometry studies showed that in butenolide-treated seeds the ratio of cells with replicated DNA was increased. Seedling vigour and weight were significantly increased by the butenolide (P ≤ 0.05). An inverse correlation was observed between the weight of cotyledons and the weight of the hypocotyls and radicle during seedling development. This is an indication that the butenolide is implicated in mobilization and utilization of stored reserve materials in developing tomato seedlings.