2003 Seattle Annual Meeting (November 2–5, 2003)

Paper No. 7
Presentation Time: 1:30 PM-5:30 PM

GEOLOGIC CONTROLS ON TREE NUTRITION AND FOREST HEALTH IN THE INLAND NORTHWEST


GARRISON-JOHNSTON, Mariann T., Intermountain Forest Tree Nutrition Cooperative, Univ of Idaho, Moscow, ID 83844, LEWIS, Reed S., Idaho Geol. Survey, Univ. of Idaho, Moscow, ID 83844-3014 and FROST, Thomas P., U.S. Geol Survey, W. 904 Riverside Ave. #202, Spokane, WA 99201-1087, reedl@uidaho.edu

The Intermountain Forest Tree Nutrition Cooperative (IFTNC) has been studying forest growth and health throughout the Inland Northwest since the early 1980's. Early fertilization work indicated that while nitrogen (N) was important to tree growth, other elements were important to tree physiological processes and forest health. In particular, potassium (K) appeared to alleviate tree susceptibility to fungal disease and insect attack. To further test this theory, the IFTNC designed an N-and-K fertilization-rate experiment encompassing three vegetation series (an expression of climatic regimes) and four rock types (basalt, granite, glacial deposit, and metasedimentary rock). Of the 36 sites required by the experimental design, only 31 were established because of difficulty in finding suitable, healthy and intact forest stands on metasedimentary rock types. Further examination of the effect of rock on forest growth and health was deemed necessary. With the exception of N and sometimes sulfur, all elements essential for plant growth originate from rock. Rock samples were collected from a variety of IFTNC research sites and analyzed for major and selected trace elements. While this allowed for quantitative comparison of individual elements such as K, an assessment of overall elemental availability to plants via rock weathering was also desired. A modification of Reiche’s (1943) weathering potential index (WPI) was selected to evaluate rock contribution to plant-available nutrient pools. Comparison of WPI calculations across 30 IFTNC research sites showed that while basalts and granites had fairly narrow WPI ranges, metasedimentary rocks varied widely. Most of the metasedimentary rocks underlying Inland Northwest forests belong to the Belt Supergroup, which encompasses several formations and a wide variety of lithologies. In order to better categorize the geochemical variation of metasedimentary and other rocks, WPI values were calculated for a wide variety of samples collected by Idaho Geological Survey and U.S. Geological Survey personnel throughout northern Idaho. The WPI values were tabulated by lithology and formation and analyzed for differences that might help explain variation in forest nutritional status.