RESUMO
Alternative hosts increase the difficulty of disease management in crops because these alternate hosts provide additional sources of primary inoculum or refuges for diversity in the pathogen gene pool. Agropyron cristatum (crested wheatgrass), Bromus inermis (smooth bromegrass), Pascopyrum smithii (western wheatgrass), Stipa viridula (green needlegrass), and Thinopyrum intermedium (intermediate wheatgrass), commonly identified in range, prairie, verge, and soil reclamation habitats, serve as additional hosts for Pyrenophora tritici-repentis, the cause of tan spot in wheat (Triticum aestivum L.). A. cristatum (five lines), B. inermis (seven lines), P. smithii (four lines), S. viridula (two lines), and T. intermedium (six lines) were tested for their reactions to 30 representative P. tritici-repentis isolates from races 1-5. Plants were grown until the two-three-leaf stage in a greenhouse, inoculated individually with the 30 isolates, held at high humidity for 24 h, and rated after 7 days. All lines developed lesion types 1-2 (resistant) based on a 1-5 rating scale. Also, leaves from an additional plant set were infiltrated with two host selective toxins, Ptr ToxA as a pure preparation and Ptr ToxB as a dilute crude culture filtrate. All lines were insensitive to the toxins. Results indicate that these grass hosts have a limited or nonsignificant role in tan spot epidemiology on wheat in the northern Great Plains. Additionally, the resistant reactions demonstrated by the grass species in this research indicate the presence of resistance genes that can be valuable to wheat breeding programs for improving wheat resistance to P. tritici-repentis.
RESUMO
Wheat curl mite (WCM)-transmitted viruses-namely, Wheat streak mosaic virus (WSMV), Triticum mosaic virus (TriMV), and the High Plains virus (HPV)-are three of the wheat-infecting viruses in the central Great Plains of the United States. TriMV is newly discovered and its prevalence and incidence are largely unknown. Field surveys were carried out in Colorado, Kansas, Nebraska, and South Dakota in spring and fall 2010 and 2011 to determine TriMV prevalence and incidence and the frequency of TriMV co-infection with WSMV or HPV in winter wheat. WSMV was the most prevalent and was detected in 83% of 185 season-counties (= s-counties), 73% of 420 season-fields (= s-fields), and 35% of 12,973 samples. TriMV was detected in 32, 6, and 6% of s-counties, s-fields, and samples, respectively. HPV was detected in 34, 15, and 4% of s-counties, s-fields, and samples, respectively. TriMV was detected in all four states. In all, 91% of TriMV-positive samples were co-infected with WSMV, whereas WSMV and HPV were mainly detected as single infections. The results from this study indicate that TriMV occurs in winter wheat predominantly as a double infection with WSMV, which will complicate breeding for resistance to WCM-transmitted viruses.
RESUMO
Summer squash (Cucurbita pepo L.) exhibiting strong mosaic symptoms and leaf deformations were found in Brookings County during the summers of 1994 and 1995. Four isolates were mechanically transmitted to C. pepo cv. Early Prolific Straightneck. Ouchterlony double diffusion tests (conducted both in Arkansas and South Dakota) and protein-A enzyme-linked immunosorbent assays (ELISAs) with squash mosaic virus (SqMV) antisera provided by R. C. Gergerich were positive for SqMV. Pumpkin mosaic virus, a strain of SqMV, was previously reported infecting pumpkin in South Dakota (1). The pumpkin strain was differentiated from other strains of SqMV by its ability to infect lentil (Lens esculenta Moench), garden pea (Pisum sativum L.), and fenugreek (Trigonella foenum-graecum L.). The South Dakota isolates in this study did not infect these hosts, although the Arkansas isolate was found to infect Pisum sativum cvs. Little Marvel and Dwarf Gray Sugar Pod when tested serologically. The presence of adult Diabrotica undecimpunctata howardii Barber and D. barberi (Smith and Lawrence) was noted on infected plants in the area. Transmission tests were conducted with D. barberi provided by the USDA-ARS Northern Grain Insect Research Laboratory, Brookings, SD. The beetles had been previously reared on artificial diet media and germinated corn seed. Individual beetles were given a 48-h acquisition access period on infected or healthy detached squash leaves in petri dishes followed by a 48-h inoculation access period on Early Prolific Straightneck squash plants (1 beetle per plant). Beetles were removed at the end of this period, and the plants were grown under greenhouse conditions for 3 weeks. Plants were assayed for SqMV by protein-A ELISA. Transmission percentages of SqMV were as follows: SqMV (Arkansas isolate), 16.7%; and four South Dakota isolates, 12.5, 11.4, 14.6, and 5.1%. Beetles fed on healthy plants did not transmit virus. The rate of transmission found in this study indicates that D. barbari serves as an efficient vector for the transmission of SqMV in field plantings. Reference: (1) W. N. Stoner. Proc. S. D. Acad. Sci. 56:178, 1977.
