Presentation Transcript

1. Inhibition of Phymatotrichopsisomnivora(Cotton Root Rot) Germination and Growth in Soil following Application of Various Oilseed Meals Ping Hu1, Autumn Wang1, Amanda Engledow1, John Matocha2, Tony Provin1, Frank Hons1, and Terry Gentry1 1Department of Soil and Crop Sciences, Texas A&M University, College Station, Texas 77843-2474 2Texas AgriLife Research and Extension Center, Corpus Christi, TX 78406 Discussion Introduction Effect of oilseed meals on survival and germination of P. omnivorasclerotia The meals (co-products remaining after oil extraction) from many oilseed crops contain toxic chemicals that are known to inhibit the growth and activity of some soil microorganisms including several plant pathogens. The fungus Phymatotrichopsisomnivorais a very serious and recalcitrant soil borne fungal pathogen and the causal agent of cotton root rot. This fungus has greatly hindered the production of cotton and alfalfa in the alkaline, low-organic-matter soils in many parts of Texas and the Southwestern USA. We investigated the effects of oilseed meals from both Brassicaceous and non-Brassicaceouscrops on P. omnivorasclerotial germination and hyphal growth in soil as well as the effects of individual isothiocyanates (ITCs) on P. omnivorain pure culture. 1. P. omnivorainhibition by Brassicaceae: Mustard seed meal was the most effective treatment for suppressing germination of sclerotia and hyphal growth. Rapeseed and camelina showed less effective control of sclerotial germination and fungal hyphal growth than did mustard. 2. Sclerotialvshyphal growth inhibition Generally, the tested seed meals inhibited hyphal growth to a greater extent than they inhibited the germination of sclerotia. This may due to the differences in the morphology and structure of sclerotia and their relative sensitivities to the allelochemicals released from the added seed meals. 3. Effect of ITCs on P. omnivoragrowth The mechanisms involved in the inhibition of P. omnivoraby various seed meals have not been fully elucidated, but previous studies on other pathogens indicated that allelochemicals from seed meals played a major role. ITCs, thought to be one of the major hydrolysis products from Brassicaceae seed meals, were found to suppress P. omnivorahyphal growth in pure culture. Allyl-ITC, which is the most concentrated type of ITC in the mustard used in this experiment, was found to be highly suppressive to the growth of P. omnivora. These results suggest that suppression of P. omnivora by selected seed meals may be largely due to the production of allelochemicals (e.g., allyl-ITC) following application. Different letters indicate significant difference (P<0.05). Sclerotia that survived include those already germinated in soil (shown as green bars) and those inhibited in soil but germinated when isolated from soil (shown as brown bars). Indian mustard http://www.umass.edu/.../ Webpages/phytoremediation.htm Jatropha seed http://en.wikipedia.org/wiki/ Jatropha_curcas Oilseed meals http://www.vsjf.org/biofuels/ vermont_biofuels_initiative.StateLine.shtml P. omnivoramycelia www.eppo.org/.../ PHMPOM_images.htm Cotton root infected by P. omnivorahttp://pestdata.ncsu.edu: Cotton root Materials and Methods The higher application rate of 5% of Brassicaceae and Jatropha seed meals resulted in significantly lower P. omnivorasclerotial survival rates compared with the control, while only mustard seed meal significantly suppressed the survival rate among the lower application rate of 1.0%. 1. Soil: Branyon clay (Fine, smectitic, thermicUdicHaplusterts). 2. Experimental design: Oilseed meals on P. omnivora: A laboratory study with a completely randomized design (CRD) and two factorial treatments was used. The two treatment factors were application rate and type of oilseed meals. Application rates were 1 and 5% (w/w), while added oilseed meals included Indian mustard, camelina, and rapeseed as well as non-Brassicaceous plants including jatropha and flax. Each treatment had 3 replications. A total of 65 g moist soil (52.2 g dry weight equivalent) mixed with oilseed meals were used in the fungal hyphal growth study while 30 g of moist soil (24.1 g dry weight equivalent) were used in the sclerotial germination rate study. All microcosms were incubated at 28°C. At the end of the 4th week, ungerminatedsclerotia were isolated from soil, put onto wet filter paper, and incubated at 28°C for 1 week to determine if they were still viable (survival rates). ITCs on P. omnivora:A laboratory study with a completely randomized design (CRD) and two factorial treatments was used. The two treatment factors were chemical application rate and type of ITC. Dilution series of ITCs were made at 10-4,10-3,0.5X10-2, 10-2,0.5X10-1, 10-1 and 100 from pure ITCs resulting in chemical concentrations in the head space from 1.36X10-1-1.36X103 (µL L-1). Tested ITCs included allyl, phenyl, butyl, and benzyl ITC. Each treatment had 3 replicates. Effect of oilseed meals on P. omnivorahyphal growth Different letters indicate significant difference (P<0.05). All of the tested oilseed meals significantly reduced P. omnivora fungal hyphal growth in soil with rapeseed and mustard seed meals being the most effective. Glass tubes filled with oilseed meal treated soil with P. omnivorastrands on soil surface Sclerotia and sorghum seed Control Sclerotia and sorghum 5% Mustard Sclerotia and sorghum 1% Rapeseed Sclerotia and sorghum seeds 5% Camelina Conclusions P. omnivoragrown on PDA Results Oilseed meals of Brassicaceae and Jatropha in our study inhibited P. omnivorasclerotial germination and hyphal growth in soil. This suggests that land application of such seed meals, especially mustard, might be a promising strategy for controlling cotton root rot. Effect of isothiocyanates on P. omnivorahyphal growth P. omnivorasclerotial germination rates after 1, 2, 3, and 4 weeks of incubation. All tested ITCs inhibited P. omnivorahyphal growth at a minimum concentration of 68 µL L-1 for benzyl-ITC and 6.8 µL L-1 for butyl, phenyl, and allyl-ITC. Allyl and phenyl-ITCs showed the greatest inhibition of P. omnivorahyphal growth while benzyl- ITC showed the least level of inhibition. Germination rates were calculated based on 20 sclerotia per sample. Different letters indicate a significant difference within each week (P<0.05). The highest application rate of 5% of Brassicaceae and Jatropha seed meals significantly inhibited P. omnivorasclerotial germination. Mustard most effectively suppressed P. omnivorasclerotial germination. Sclerotial germination rates increased over time in some treatments. This may due to volatilization and/ or degradation of the toxic chemicals. Acknowledgements We thank Chevron Technology Ventures, a division of Chevron, U.S.A. Inc., and Cotton Incorporated for financial support and also Dr. Charlie Rush for providing P. omnivorasclerotia.