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- Keyword
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- Hypersensitive response; potato virus Y; immunolocalization; ultrastructure; respiratory burst oxidase homolog D; Solanum tuberosum; PLUM POX VIRUS; NADPH OXIDASE; DISEASE RESISTANCE; MOSAIC-VIRUS; OXIDATIVE BURST; PLANT DEFENSE; TOBACCO; ACCUMULATION; PERCEPTION; INFECTION (1)
- Melanaphis sacchari; Sipha flava; Saccharosydne saccharivora; Perkinsiella saccharicida; Leptodictya tabida; Saccharum spp; SACCHARIVORA WESTW HOM; LEPTODICTYA-TABIDA HEMIPTERA; DIOMUS-TERMINATUS COLEOPTERA; SIPHA-FLAVA HOMOPTERA; MELANAPHIS-SACCHARI; LEPIDOPTERA CRAMBIDAE; POPULATION-DYNAMICS; DELPHACID HOMOPTERA; INSECT PESTS; APHID (1)
- Sugarcane aphid; nitrogen; silicon; life table; host plant resistance; LIFE TABLE PARAMETERS; NITROGEN-FERTILIZATION; POPULATION-GROWTH; SUGARCANE APHID; WHEAT PLANTS; SILICON; RESISTANCE; BIOLOGY; PERFORMANCE; JACKKNIFE (1)
Articles 1 - 4 of 4
Full-Text Articles in Life Sciences
The Respiratory Burst Oxidase Homolog D (Rbohd) Cell And Tissue Distribution In Potato-Potato Virus Y (Pvyntn) Hypersensitive And Susceptible Reactions, Rodrigo A. Valverde
The Respiratory Burst Oxidase Homolog D (Rbohd) Cell And Tissue Distribution In Potato-Potato Virus Y (Pvyntn) Hypersensitive And Susceptible Reactions, Rodrigo A. Valverde
Faculty Publications
The respiratory burst oxidase homolog D (RbohD) acts as a central driving force of reactive oxygen species signaling in plant cells by integrating many different signal transduction pathways in plants, including incompatible interactions with pathogens. This study demonstrated the localization and distribution of RbohD in two types of potato-potato virus Y (PVY) interactions: Compatible and incompatible (resistant). The results indicated a statistically significant induction of the RbohD antigen signal in both interaction types. In the hypersensitive response (resistant reaction) of potato with a high level of resistance to the potato tuber necrotic strain of PVY (PVYNTN), RbohD localization followed by …
Hemipteran Pests Of Sugarcane In North America, Blake E. Wilson
Hemipteran Pests Of Sugarcane In North America, Blake E. Wilson
Faculty Publications
ing-sucking herbivores (Insecta: Hemiptera) represent one of the greatest threats to agricultural production worldwide. Hemipteran pests directly injure plants as well as vector disease-causing plant pathogens. Production of sugarcane (Saccharum spp.) in North America is impacted by a complex of Hemiptera including the sugarcane aphid, Melanaphis sacchari Zehntner (Aphididae); yellow sugarcane aphid, Sipha flava (Forbes) (Aphididae); West Indian canefly, Saccharosydne saccharivora (Westwood) (Delphacidae); sugarcane delphacid, Perkinsiella saccharicida Kirkaldy (Delphacidae); and sugarcane lace bug, Leptodictya tabida (Herric-Schaeffer) (Tingidae). None of these pests is consistently damaging to large amounts of sugarcane acreage, but regional outbreaks are common. The biology, ecology, and pest …
Influence Of Sorghum Cultivar, Phenological Stage, And Fertilization On Development And Reproduction Of Melanaphis Sacchari (Hemiptera: Aphididae), Blake E. Wilson, Jeffrey Davis, Thomas Reagan, Luna Lama
Influence Of Sorghum Cultivar, Phenological Stage, And Fertilization On Development And Reproduction Of Melanaphis Sacchari (Hemiptera: Aphididae), Blake E. Wilson, Jeffrey Davis, Thomas Reagan, Luna Lama
Faculty Publications
The sugarcane aphid, Melanaphis sacchari (Zehntner) (Hemiptera: Aphididae), is an invasive pest of grain sorghum, Sorghum bicolor (L) Moench (Poaceae). Since its first outbreak in sorghum in 2013, severe infestations have spread throughout the southern USA, causing major economic losses. Whereas insecticide applications can mitigate some of the pest's impacts, a sustainable ecology-based management program is needed to reduce reliance on chemical control. Two greenhouse assays examined the influence of selected host plant characteristics on M. sacchari life table parameters. We studied the effects of silicon (rates equivalent to 0 and 3,360 kg silicon per ha) and nitrogen (rates equivalent …
Vegetation Phenology And Nest Survival: Diagnosing Heterogeneous Effects Through Time, Kevin M. Ringelman
Vegetation Phenology And Nest Survival: Diagnosing Heterogeneous Effects Through Time, Kevin M. Ringelman
Faculty Publications
bias; duck; grassland; mallard; prairie; Robel; waterfowl; WATERFOWL PRODUCTION; HABITAT SELECTION; ARTIFICIAL NESTS; MOTTLED DUCKS; WINTER-WHEAT; SUCCESS; NORTH; PREDATION; CONCEALMENT; FIELDS