Alan K. Watson

Intrapopulation variation in Abutilon theophrasti seed mass and its relationship to seed germinability

The relationship between seed mass variation and germinability in ten Abutilon theophrasti Medic. plants from a single agricultural population was examined under controlled environmental conditions. Seeds were collected in the autumn of 1995 and dry-stored in paper bags at 4°C until the start of trials in the spring of 1998. For each plant, between 549 and 1000 randomly selected seeds were separated into seven mass fractions based on individual seed mass, with classes ranging from 11.0 mg. Subjecting the seeds to a cold stratification (4°C) period for 7 d followed by a 21-d alternating day/night (25/14°C) temperature and 14-h photoperiod regime, resulted in 75% overall germination, 24% dormancy and 1% non-viable seeds. The majority of the seeds germinated within 7 d of being exposed to the alternating temperature/light regimes. There was a significant (P 10.0 mg) compared with lighter seeds. Maternal source had a significant effect (P < 0.05) on total germination and germination rate. Findings from this study suggest that intrapopulation variation in Abutilon theophrasti seed mass and its influence on germinability of seeds may play a significant role in maintaining a variable germination pattern and persistent seed bank in this troublesome annual agricultural weed.

Oxalic acid production and mycelial biomass yield of Sclerotinia minor for the formulation enhancement of a granular turf bioherbicide.

The fungus Sclerotinia minor is presently under development in this laboratory as a granular bioherbicide for broadleaf weed species. With a view to enhancing the virulence of the fungus, the effect of increasing endogenous oxalic acid concentration through modification of the growth conditions was investigated. S. minor was grown in 125 ml of eight different liquid culture media in shake flasks incubated at 20°C for 7 days. The final pH, mycelial dry weight, and oxalic acid content of the spent growth media were determined and the virulence of S. minor grown on each solid culture medium was screened on detached dandelion leaves. A 330% increase in oxalic acid was obtained plus 56 mM of sodium succinate to Modified Richards solution (MRS) as compared to MRS alone. A concomitant increase in virulence of 218% was expressed as increased lesion diameter.

Integrating Fusarium oxysporum f. sp. strigae into cereal cropping systems in Africa

BACKGROUND Striga hermonthica (Del.) Benth. (witchweed) poses the greatest biological constraint to food production in sub-Saharan Africa (SSA). Control options for Striga are currently largely ineffective or unavailable to farmers, and other management possibilities are urgently needed. Biological control obviates some of the problems of several of the other techniques and provides a management option that is durable and environmentally responsive. The efficacy of S. hermonthica control using different formulations of three isolates of Fusarium oxysporum Schlecht. emend. Synder & Hans f. sp. strigae was tested on Striga-resistant and Striga-susceptible varieties of sorghum and maize under African field conditions for the first time. RESULTS Isolates PSM197 and Foxy 2 were effective in witchweed repression, especially when applied as pesta granules. Isolate M12-4A was less effective under the field conditions investigated. Application of the fungi was generally more beneficial in maize than in sorghum for the varieties tested. Application of the biocontrol agent caused significant decreases in the number of flowering Striga plants, and hence deposition of seeds with impact of enhancing future crop yield. CONCLUSIONS Synergistic effects between the Striga-resistant maize line and Fusarium oxysporum f. sp strigae led to over 90% reduction in Striga emergence. These results will further encourage the distribution of the isolates tested or selection of country-specific relatives as viable and environmentally safe biocontrol agents to be used against Striga. Pesta was the most effective formulation, while seed coating may be more cost effective.

Secondary Metabolites Produced by a Strain of Fusarium oxysporum Used for Striga Control in West Africa

The production of fusaric acid and other toxins by a strain of Fusarium oxysporum used for control of the weed Striga hermonthica (Del.) Benth. was investigated. Culturing of the strain under optimal conditions for toxin production produced small amounts of fusaric acid and dehydrofusaric acid but no other toxins reported to be produced by some strains of F. oxysporum. Culturing of the fungus under conditions similar to those that would be used in the field produced no detectable toxins of concern for human health.

Reaction of Rice (Oryza sativa) Cultivars to Penetration and Infection by Curvularia tuberculata and C. oryzae

Isolates of Curvularia species were collected from weedy Cyperaceae species and are being evaluated as possible biocontrol agents of sedge weeds in rice (Oryza sativa). Curvularia species have been reported from rice; thus cultivars of rice were tested to determine rice seedling responses to these potential biocontrol agents. All 13 rice cultivars were resistant to Curvularia tuberculata isolate 93-022, 12 were resistant to C. tuberculata isolate 93-020, and 7 were resistant to C. oryzae isolate 93-061. In the resistant cultivars, lesions on the leaf laminae were small, light to dark brown, with a dry appearance. Spots on the leaf margins and leaf tips were light brown to cream and dry. In the susceptible cultivars, the brown lesions coalesced with necrotic centers. Sporulation was observed in the lesions on susceptible cultivars but not on the resistant cultivars. The histopathology of C. tuberculata and C. oryzae was studied in two resistant rice cultivars, IR 64 (IRRI Acc. no. 66970) and Norin 21 (IRRI Acc. no. 7686), by light microscopy. C. tuberculata exhibited polar germination beginning at 4 h postinoculation (HPI); whereas C. oryzae was characterized by bipolar germination starting at 2 HPI. Simple terminal or intercalary appressoria were initiated at 24 HPI over stomatal apertures, or rarely, on the epidermal cell walls and bulliform cells. No infection cushions were formed. Penetration occurred by the formation of a fine penetration peg beneath the appressorium. A chlorotic reaction was observed in areas beneath and adjacent to the appressoria and germ tubes and in the infected cells. Resistance of IR 64 and Norin 21 to C. tuberculata and C. oryzae infection was mainly expressed after penetration as a slow and restricted mycelial growth and no sporulation. C. tuberculata isolate 93-022 is the preferred isolate for further study as a biological control agent against Cyperus difformis, C. iria, and Fimbristylis miliacea.

Is sunflower (Helianthus annuus) at risk to damage from Ophraella communa, a natural enemy of common ragweed (Ambrosia artemisiifolia)?

Abstract Ophraella communa is being studied for augmentative releases in eastern Canada for Ambrosia artemisiifolia (common ragweed) control. Host specificity studies with cohorts of insects and a life table approach with individual insects were utilized to evaluate the risk of damage to sunflower. Predicting relative non-target attack and when and where this may occur is based on relative acceptability, suitability, and availability of host and non-host plants. We conclude the risk of O. communa adult-stage beetles attacking sunflower plants is negligible. In 20% open cages, over 98% of the adult O. communa left sunflower plants with few or no eggs laid. When the preferred host plants (A. artemisiifolia) are completely defoliated, the first instar larvae move to nearby sunflower plants in the immediate vicinity (up to 20–30 cm) and begin foraging. O. communa larvae can significantly damage sunflower, but 50% of the first instar larvae will die feeding on sunflower plants. The effect of low oviposition and high mortality will result in no increase in the O. communa population. Within 30 days, the O. communa population increased 208 times when feeding on ragweed and decreased 4.2 times when feeding on sunflower. Newly emerged adults leave the sunflower plants in search of ragweed. Damage to sunflower could occur during augmentative releases of O. communa, but this would only occur when a significantly large, advancing insect population has completely defoliated A. artemisiifolia within or adjacent to a sunflower field.

Effect of turfgrass mowing height on biocontrol of dandelion with Sclerotinia minor

Abstract The fungus, Sclerotinia minor Jagger is under development as a bioherbicide for control of dandelion and many broadleaf weeds in turfgrass environments. The effect of S. minor on dandelion survival was evaluated under different mowing heights and compared with a commonly used herbicide Killex™. In the greenhouse, the onset of symptoms was more rapid, foliar damage was more severe, and the reduction of aboveground biomass and root biomass was greater for the bioherbicide than the herbicide. The bioherbicide reduced root biomass ≥10-fold compared with untreated plants. Under high weed infestation levels in the field, S. minor caused a greater initial reduction of dandelion density than did the herbicide during the 2-week post-application period, although reductions were greater in herbicide treated plots by 6 weeks after application. Over the growing season, S. minor and the herbicide had similar suppressive effects on dandelion density except under the closest mowing height (3–5 cm). After treatment, close mowing favored dandelion seedling recruitment and the biocontrol had no residual activity. Survival of dandelion roots was significantly less after spring than fall treatment of S. minor and season long mowing at the close height significantly reduce root survival. Close mowing may be detrimental for S. minor applications on heavily infested domestic lawns and amenity grassland areas.

Performance of Colletotrichum dematium for the Control of Fireweed (Epilobium angustifolium) Improved with Formulation 1

Abstract: The potential of Colletotrichum dematium f.sp. epilobii (ATCC 20981) to control fireweed (Epilobium angustifolium) was investigated. Under controlled environment conditions, plant age, inoculum density, length of the dew period, and temperature during the dew period affected the efficacy of C. dematium f.sp. epilobii. Seedlings sprayed with 1 × 109 conidia/m2 sustained the most damage. Susceptibility decreased with increasing plant age, and 10-wk-old plants were slightly affected by the fungus. Satisfactory levels of control were achieved when the dew period was >20 h and temperature during the dew period was 30 C. Control of fireweed increased when the C. dematium f.sp. epilobii conidia were suspended in a 25% v/v canola oil/water emulsion. Using this formulation, control of 4-wk-old seedlings was obtained with a 10-fold reduction in inoculum concentration (1 × 108 conidia/m2), the required dew period was reduced to 12 h, and the effect of the temperature during the dew period was minimized. In the field, C. dematium f.sp. epilobii alone or when amended with an oil emulsion failed to control fireweed growth. When the oil formulation of C. dematium f.sp. epilobii was tank mixed with a low rate of glyphosate, high levels of control were consistently achieved. Growth reduction achieved with this formulation was more than additive, suggesting a synergistic interaction. The effectiveness of the formulated conidial suspension of C. dematium f.sp. epilobii decreased with plant maturity, and 15-wk-old plants were not controlled. C. dematium f.sp. epilobii alone has limited potential as a candidate bioherbicide, but when formulated in an oil/water emulsion and combined with low rates of glyphosate, suppression of fireweed can be attained in the field. Nomenclature: Glyphosate; fireweed, Epilobium angustifolium L. #3 CNAAN. Additional index words: Bioherbicide, biological weed control, mycoherbicide. Abbreviations: PDA, potato dextrose agar; SNK, Student-Newman-Keuls Multiple Range test.

Characterization of Sporulation of Alternaria alternata f. sp. sphenocleae

Studies were conducted on agar media to characterize the factors for the optimization of sporulation of Alternaria alternata f. sp. sphenocleae , a fungal pathogen being evaluated as a biological control agent for Sphenoclea zeylanica (gooseweed). A. alternata f. sp. sphenocleae conidiation was affected by nutrition, temperature, light conditions, and moisture. On all agar media tested, except for half-strength potato dextrose agar (½ PDA) and V-8 juice agar (VJA), exposure to different light conditions did not have any significant effect on conidia production. However, when comparing ½ PDA and VJA, sporulation under constant near-ultraviolet (NUV) light at 28 o C increased markedly on VJA, but decreased substantially on ½ PDA. This trend, however, was opposite under dark conditions since ½ PDA produced the greatest number of conidia whereas a 75% reduction in conidia production occurred on VJA in the dark. On all the standard agar media evaluated, the most virulent conidia were obtained on ½ PDA at 28 o C under constant NUV incubated for 4 weeks. Sporulation of A. alternata f. sp. sphenocleae using the sporulation medium (S-medium) technique was rapid. Conidia were produced within 24 h and continuous sporulation was still observed until 120 h. The best primary agar media for conidia production were PDA, ½ PDA and VJA, while water agar was the poorest. Conidia production was optimized with the addition of 20 g l -1 of calcium carbonate (CaCO 3 ) and the addition of 2 ml of sterile distilled water on the medium. The most virulent conidia were produced when the primary agar was ½ PDA, the CaCO 3 concentration was 20 g l -1 , and the cultures were incubated at 18 o C in the dark. Conidiophore induction occurred on nutrient rich media and was stimulated by NUV, while formation of conidia proceeded in darkness after nutrients were depleted under warm dry or cool moist conditions. Culture media, growth conditions, and CaCO 3 affected the inoculum potential of A. alternata f. sp. sphenocleae conidia.

A Common Ragweed (Ambrosia artemisiifolia) Biotype in Southwestern Québec Resistant to Linuron1

The degree of resistance to linuron of a common ragweed biotype was investigated. Suspected linuron-resistant plants collected from a carrot field near Sherrington, Québec, were subjected to increasing rates of linuron under glasshouse conditions. Resistance to linuron of the common ragweed biotype was suspected because 33% of plants survived to reproduction after they were sprayed at a rate of 4.5 kg ai/ha, two times the dose rate recommended for linuron in carrots, and also because 3% of plants survived to reproduction after they were sprayed at a rate of 22.5 kg ai/ ha, 10 times the recommended dose. Susceptible plants collected from a field with no prior history of linuron use were all killed when sprayed at the lowest dose rate recommended, 1.125 kg ai/ha. The herbicide-resistance ratio was 29.0 for linuron, and for cross-resistance to atrazine, the ratio was 1.3, indicating that these plants exhibit greater resistance to linuron than to atrazine. Nomenclature: Linuron; common ragweed, Ambrosia artemisiifolia L. #3 AMBEL; carrot, Daucus carota L. Additional index words: Urea herbicides, cross-resistance, atrazine.