Structural Root-Plate Characteristics of Wind-Thrown Norway Spruce in Hemiboreal Forests of Latvia

Abstract

An increase in extreme weather events is predicted with increasing climate changes. Changes indicate major problems in the future, as Norway spruce (Picea abies L. Karst.) is one of the most important forestry species in Northern Europe and one of the most susceptible to damage from extreme weather events, like windstorms. Root architecture is essential for tree anchorage. However, information of structural root‐plate volume and characteristics in relation to tree wind resistance in drained deep peat soils is lacking. Individual tree susceptibility to wind damage is dependent on tree species, soil properties, tree health and root‐plate volume. We assessed the structural root‐plate dimensions of wind‐thrown Norway spruce on freely drained mineral and drained deep peat soils at four trial sites in Latvia, and root‐plate measurements were made on 65 recently tipped‐up trees and 36 trees from tree‐pulling tests on similar soils. Tree height, diameter at breast height, root‐plate width and depth were measured. Measurements of structural root‐plate width were done in five directions covering 180° of the root‐plate; rooting depth was measured on the horizontal and vertical axes of root‐plate. Root‐plate volume was higher in drained peat soils in comparison to mineral soils, and root‐plate width was the main driver of root‐plate volume. A decreasing trend was observed in structural root depth distribution with increasing distance from the stem (i.e., from the center to the edge of the root plate) with a greater decrease in mineral soils.