Climate Change-Driven Cumulative Mountain Pine Beetle-Caused Whitebark Pine Mortality in the Greater Yellowstone Ecosystem

Authors

William W. Macfarlane, Utah State UniversityFollow
Brian Howell, USDA Forest ServiceFollow
Jesse A. Logan, USDA Forest ServiceFollow
Ally L. Smith, Utah State UniversityFollow
Cashe C. Rasmussen, Utah State UniversityFollow
Robert E. Spangler, U.S. Fish and Wildlife ServiceFollow

Document Type

Article

Journal/Book Title/Conference

Forests

Author ORCID Identifier

William W. Macfarlane https://orcid.org/0000-0002-1876-5453

Volume

14

Issue

12

Publisher

MDPI AG

Publication Date

11-30-2023

Keywords

mountain pine beetle, Dendroctonus ponderosae, whitebark pine, Pinus albicaulis, aerial survey forest monitoring, mountain pine beetle outbreak detection, Greater Yellowstone Ecosystem, climate change impacts, GIS

First Page

1

Last Page

18

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Abstract

An aerial survey method called the Landscape Assessment System (LAS) was used to assess mountain pine beetle (Dendroctonus ponderosae)-caused mortality of whitebark pine (Pinus albicaulis) across the Greater Yellowstone Ecosystem (59,000 km²; GYE). This consisted of 11,942 km of flightlines, along which 4434 geo-tagged, oblique aerial photos were captured and processed. A mortality rating of none to severe (0–4.0 recent attack or 5.0–5.4 old attack) was assigned to each photo based on the amount of red (recent attack) and gray (old attack) trees visible. The method produced a photo inventory of 74 percent of the GYE whitebark pine distribution. For the remaining 26 percent of the distribution, mortality levels were estimated based on an interpolated mortality surface. Catchment-level results combining the photo-inventoried and interpolated mortality indicated that 44 percent of the GYE whitebark pine distribution showed severe old attack mortality (5.3–5.4 rating), 37 percent showed moderate old attack mortality (5.2–5.29 rating), 19 percent showed low old attack mortality (5.1–5.19 rating) and less than 1 percent showed trace levels of old attack mortality (5.0–5.09). No catchments were classified as recent attacks indicating that the outbreak of the early 2000’s has ended. However, mortality continues to occur as chronic sub-outbreak-level mortality. Ground verification using field plots indicates that higher LAS mortality values are moderately correlated with a higher percentage of mortality on the ground.

Referenced by

Macfarlane, W. (2023). Data From: Climate Change-Driven Cumulative Mountain Pine Beetle-Caused Whitebark Pine Mortality in the Greater Yellowstone Ecosystem [Data set]. Utah State University. https://doi.org/10.26078/0N3A-MT47

Recommended Citation

Macfarlane, W.W.; Howell, B.; Logan, J.A.; Smith, A.L.; Rasmussen, C.C.; Spangler, R.E. Climate Change-Driven Cumulative Mountain Pine Beetle-Caused Whitebark Pine Mortality in the Greater Yellowstone Ecosystem. Forests 2023, 14, 2361. https://doi.org/10.3390/f14122361