Your search keyword '"Stewart, Jane E."' showing total 4 results

1. Observed and anticipated impacts of drought on forest insects and diseases in the United States.

Author

Kolb, Thomas E., Fettig, Christopher J., Ayres, Matthew P., Bentz, Barbara J., Hicke, Jeffrey A., Mathiasen, Robert, Stewart, Jane E., and Weed, Aaron S.

Subjects

DROUGHTS & the environment, FOREST insects, EFFECT of human beings on climate change, TREE mortality

Abstract

Future anthropogenic-induced changes to the earth’s climate will likely include increases in temperature and changes in precipitation that will increase the frequency and severity of droughts. Insects and fungal diseases are important disturbances in forests, yet understanding of the role of drought in outbreaks of these agents is limited. Current knowledge concerning the effects of drought on herbivorous insect and pathogen outbreaks in U.S. forests is reviewed, and compared between the relatively mesic and structurally diverse forests of the eastern U.S. and the more xeric forests of the western U.S. Theory and limited evidence suggests a non-linear relationship between drought intensity and outbreaks of aggressive bark beetle species (i.e., those capable of causing extensive levels of tree mortality), where moderate droughts reduce bark beetle population performance and subsequent tree mortality, whereas intense droughts, which frequently occur in the western U.S., increase bark beetle performance and tree mortality. There is little evidence for a role of drought in outbreaks of the southern pine beetle ( Dendroctonus frontalis ), the only bark beetle species that causes large amounts of tree mortality in the eastern U.S. Defoliators do not show consistent responses to drought. The response of sapfeeders to drought appears non-linear, with the greatest performance and impacts at intermediate drought intensity or when drought is alleviated by wetter periods. Interactions between tree pathogens and drought are poorly understood, but available evidence suggests reduced pathogen performance and host impacts in response to drought for primary pathogens and pathogens whose lifecycle depends directly on moisture (humidity). In these cases, rates of reproduction, spread, and infection tend to be greater when conditions are moist. In contrast, secondary fungal pathogens (i.e., those that depend on stressed hosts for colonization) are anticipated to respond to drought with greater performance and host impacts. In the western U.S., drought increases stress on trees severely infected by mistletoes thereby predisposing mistletoe-infected trees to attack by insects, particularly bark beetles and wood borers. Research needed to advance understanding of drought impacts on forest insects and diseases, and the role of forest management in mitigation of infestations during drought are discussed. [ABSTRACT FROM AUTHOR]

Published

2016

2. Occurrence of the Root Rot Pathogen, Fusarium commune, in Forest Nurseries of?the Midwestern and Western United States.

Author

Kim, Mee-Sook, Stewart, Jane E., Dumroese, R. Kasten, and Klopfenstein, Ned B.

Subjects

*CONIFER diseases & pests, *CONIFER seed, *ROOT rots, *FUSARIUM commune, *FOREST nurseries, *DAMPING-off diseases

Abstract

Fusarium commune can cause damping-off and root rot of conifer seedlings in forest nurseries, and this pathogen has been previously reported from Oregon, Idaho, and Washington, USA. We collected Fusarium isolates from additional nurseries in the midwestern and western USA to more fully determine occurrence of this pathogen. We used DNA sequences of the mitochondrial small subunit gene to identify F. commune. In addition to confirming the occurrence of F. commune in Oregon, Idaho, and Washington, USA, we also discovered that F. commune is even more widespread with this first report of F. commune occurring in Nevada, Montana, Nebraska, and Michigan, USA. [ABSTRACT FROM AUTHOR]

Published

2012

3. FLAG DAY EXERCISE.

Author

Stewart, Jane E.

Subjects

HISTORY education, LESSON planning, DISCUSSION in education, FLAGS of the United States

Abstract

The article presents a lesson plan for the discussion of the historical background of the U.S. flag. The discussion can start with the singing of the opening song "Awake! Salute Old Glory." Alternatively, it can be recited as a poem. The story behind the naming of the flag is discussed in details.

Published

1904

4. Genomic comparisons of the laurel wilt pathogen, Raffaelea lauricola, and related tree pathogens highlight an arsenal of pathogenicity related genes.

Author

Ibarra Caballero, Jorge R., Jeon, Jongbum, Lee, Yong-Hwan, Fraedrich, Stephen, Klopfenstein, Ned B., Kim, Mee-Sook, and Stewart, Jane E.

Subjects

*ATP-binding cassette transporters, *GENES

Abstract

Highlights • Raffaelea lauricola collected from Taiwan was compared to R. lauricola (RL570) and 7 other species. • R. lauricola & R. aguacate had a larger number of ABC transporters, P450s and proteases. • Three distinct clusters formed: Rl - Ra ; Rq - m - Rq - Gc ; and Ophiostma. • Most R. lauricola proteins were orthologous to R. aguacate , but non-orthologous were also found. • A diversity of secondary metabolite synthesis clusters was found and some were species specific. Abstract Raffaelea lauricola is an invasive fungal pathogen and symbiont of the redbay ambrosia beetle (Xyleborus glabratus) that has caused widespread mortality to redbay (Persea borbonia) and other Lauraceae species in the southeastern USA. We compare two genomes of R. lauricola (C2646 and RL570) to seven other related Ophiostomatales species including R. aguacate (nonpathogenic close relative of R. lauricola), R. quercus-mongolicae (associated with mortality of oaks in Korea), R. quercivora (associated with mortality of oaks in Japan), Grosmannia clavigera (cause of blue stain in conifers) , Ophiostoma novo-ulmi (extremely virulent causal agent of Dutch elm disease), O. ulmi (moderately virulent pathogen that cause of Dutch elm disease), and O. piceae (blue-stain saprophyte of conifer logs and lumber). Structural and functional annotations were performed to determine genes that are potentially associated with disease development. Raffaelea lauricola and R. aguacate had the largest genomes, along with the largest number of protein-coding genes, genes encoding secreted proteins, small-secreted proteins, ABC transporters, cytochrome P450 enzymes, CAZYmes, and proteases. Our results indicate that this large genome size was not related to pathogenicity but was likely lineage specific, as the other pathogens in Raffaelea (R. quercus-mongolicae and R. quercivora) had similar genome characteristics to the Ophiostoma species. A diverse repertoire of wood-decaying enzymes were identified in each of the genomes, likely used for toxin neutralization rather than wood degradation. Lastly, a larger number of species-specific, secondary metabolite, synthesis clusters were identified in R. lauricola suggesting that it is well equipped as a pathogen, which could explain its success as a pathogen of a wide range of lauraceous hosts. [ABSTRACT FROM AUTHOR]

Published

2019