Center for Integrated Pest Management

Works Published in 2006

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Displaying all 7 works

Sorted by most recent date added to the index first, which may not be the same as publication date order.

2006 journal article

Periodic elements of wheat and grapevine pathosystems

Phytopathology, 96(6).

By: S. Savary, L. Willocquet, E. DeWolf & R. Magarey

Source: NC State University Libraries
Added: May 21, 2022

2006 report

Climate and Host Risk Map for Sudden Oak Death Risk (Phytophthora ramorum)

By: R. Magarey & B. Glenn Fowler

Source: NC State University Libraries
Added: May 21, 2022

2006 journal article

An introduction to the periodic table for plant pathogens

Phytopathology, 96(6).

By: R. Magarey, E. DeWolf, S. Savary & L. Willocquet

Source: NC State University Libraries
Added: May 21, 2022

2006 conference paper

Climate-host mapping of Phytophthora ramorum, causal agent of sudden oak death

[Technical Report]. In S. J. Frankel, P. J. Shea, & M. I. Haverty (Eds.), Proceedings of the sudden oak death second science symposium: the state of our knowledge (pp. 329–332). Albany, CA: Pacific Southwest Research Station, Forest Service, US Department of Agriculture.

By: G. Fowler, R. Magarey & M. Colunga

Ed(s): S. Frankel, P. Shea & M. Haverty

Source: NC State University Libraries
Added: May 21, 2022

2006 journal article

Grape canopy surface wetness: Simulation versus visualization and measurement

Agricultural and Forest Meteorology, 139(3-4), 361–372.

By: R. Magarey*, R. Seem & J. Russo

author keywords: leaf wetness; standardization; canopy model; surface energy balance
TL;DR: In what is likely to be one of the first rigorous comparisons of measurement and simulation, the SWEB model performed as well as a commonly used sensor for estimation of canopy wet surface area and surface wetness duration. (via Semantic Scholar)
Sources: Crossref, NC State University Libraries
Added: January 23, 2022

2006 journal article

The comparison of four dynamic systems-based software packages: Translation and sensitivity analysis

Environmental Modelling & Software, 21(10), 1491–1502.

By: D. Rizzo*, P. Mouser*, D. Whitney*, C. Mark*, R. Magarey* & A. Voinov*

author keywords: model comparison; dynamic simulation; system-based models; canopy surface energy balance
TL;DR: Although the original objective of this study was to identify an ‘appropriate’ software package for predicting canopy surface wetness using SWEB, the outcomes suggest that many factors must be considered by the stakeholders when selecting a model because the modeling software becomes part of the model and of the calibration process. (via Semantic Scholar)
Sources: Crossref, NC State University Libraries
Added: January 23, 2022

2006 journal article

Simulation of surface wetness with a water budget and energy balance approach

Agricultural and Forest Meteorology, 139(3-4), 373–381.

By: R. Magarey*, J. Russo & R. Seem

author keywords: simulation; leaf wetness; standardization; canopy model; grapes
Sources: Crossref, NC State University Libraries
Added: January 23, 2022

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