Emerald ash borer modeling methods for future forest projections

Ryan D. Desantis; W. Keith Moser; Robert J. Jr. Hugett; Ruhong Li; David N. Wear; Patrick D. Miles

Emerald ash borer modeling methods for future forest projections

Informally Refereed

Authors:

Ryan D. Desantis, W. Keith Moser, Robert J. Jr. Hugett, Ruhong Li, David N. Wear, Patrick D. Miles

Year:

2012

Type:

Paper

Station:

Northern Research Station

Source:

In: Morin, Randall S.; Liknes, Greg C., comps. Moving from status to trends: Forest Inventory and Analysis (FIA) symposium 2012; 2012 December 4-6; Baltimore, MD. Gen. Tech. Rep. NRS-P-105. Newtown Square, PA: U.S. Department of Agriculture, Forest Service, Northern Research Station. [CD-ROM]: 107-114.

Download PDF (895.0 KB)

Abstract

The emerald ash borer (Agrilus planipennis Fairmaire; EAB) is a nonnative invasive insect that has caused considerable damage to ash (Fraxinus spp.) in North America. Unlike invasive organisms that can be mitigated, contained, controlled, or even eradicated, EAB continues to spread across North America. The loss of the North American ash resource is possible considering literature suggests close to 100 percent probability of host tree mortality. We modeled future spatial and temporal changes in forest composition from 2010 to 2060 with and without ash mortality anticipated from EAB spread for the purpose of examining anticipated effects of EAB on tree species composition. To forecast midwest and northeast United States future forest conditions, we utilized Forest Inventory and Analysis (FIA) data, the extent of EAB in the United States and Canada, estimated EAB spread rate, estimated EAB host mortality probability, and models of human population, energy, consumption, land use, and economics. We found that in most cases, EAB will not substantially affect the ecosystem function of future forests measured by FIA because ash comprises a small proportion of midwest and northeast U.S. forests, and it will be replaced by associated species. Although the transition from ash to other species could take decades, forests may eventually recover when associated species replace ash.

Parent Publication

Moving from status to trends: Forest Inventory and Analysis (FIA) symposium 2012

Keywords

statistics, estimation, sampling, modeling, remote sensing, forest health, data integrity, environmental monitoring, cover estimation, international forest monitoring

Citation

Desantis, Ryan D.; Moser, W. Keith; Hugett, Robert J. Jr.; Li, Ruhong; Wear, David N.; Miles, Patrick D. 2012. Emerald ash borer modeling methods for future forest projections. In: Morin, Randall S.; Liknes, Greg C., comps. Moving from status to trends: Forest Inventory and Analysis (FIA) symposium 2012; 2012 December 4-6; Baltimore, MD. Gen. Tech. Rep. NRS-P-105. Newtown Square, PA: U.S. Department of Agriculture, Forest Service, Northern Research Station. [CD-ROM]: 107-114.