Michael E. Ostry

Biological Control of Septoria Leaf Spot Disease of Hybrid Poplar in the Field

Biological control of Septoria leaf spot of hybrid poplars was investigated using disease-suppressive Streptomyces strains. Field experiments were conducted in 1998 and 1999 on potted trees placed in a hybrid poplar plantation near Rosemount, MN, and on field-planted trees in 1998 at St. Paul. At both locations, one resistant and three susceptible hybrid poplar clones were sprayed with Streptomyces spore suspensions and exposed to natural field inoculum of Septoria musiva. In the 1998 potted-tree experiment, strains GS-93-3, 93, and Mycostop in Tergitol or Triton X-100 solutions applied every 7 days significantly reduced leaf disease by 29 to 83% compared with the controls. In the 1999 potted-tree experiment, Streptomyces strain mixtures in Tergitol solution applied every 5 days significantly reduced leaf disease by 50 to 87% compared with the controls. In the 1998 plantation experiment, strains GS-93-3, 93, or Mycostop in Tergitol solution applied weekly, bi-monthly, or monthly significantly reduced leaf disease in all treatments by 64 to 78% compared with the controls.

Field guide to common macrofungi in eastern forests and their ecosystem functions

Macrofungi are distinguished from other fungi by their spore-bearing fruit bodies (mushrooms, conks, brackets). These fungi are critical in forests, causing disease, and wood and litter decay, recycling nutrients, and forming symbiotic relationships with trees. This guide is intended to assist in identifying macrofungi and provide a description of the ecological functions of some of the most frequently encountered macrofungi in aspen-birch, northern hardwood, lowland conifer, and upland conifer forests in the Midwest and Northeast.

Interactions of insects, woodpeckers, and hypoxylon canker on aspen

Describes the disease history in two aspen plantations and the role of various wounds in the infection process.

Inhibition of ophiognomonia clavigignenti-juglandacearum by Juglans species bark extracts

A rapid and reliable technique is needed for identifying butternut trees (Juglans cinerea) with resistance to butternut canker. We investigated the potential of a bark extract bioassay to detect levels of resistance to Ophiognomonia clavigignenti-juglandacearum (Oc-j), the causal agent of butternut canker. Both reagent grade naphthoquinones and crude bark extracts of Juglans species inhibited germination of Oc-j conidia. A disc diffusion bioassay was used to study the level of inhibition by these bark extracts and results indicated extensive variation within and between butternut and other species of Juglans tested. In many months over a 3 year period, bark from butternut trees selected for apparent disease resistance could be distinguished from that of unselected trees. Inhibition of conidia germination roughly correlated to the level of resistance observed in field inoculations of the trees. Quantification of the naphthoquinone compounds juglone and plumbagin in butternut bark was performed using ultra-high performance liquid chromatography mass spectrometry. While the concentrations of these two compounds varied by month and by individual tree, juglone levels correlated well with the bark extract bioassay in some months. These results suggest that juglone concentration may account in part for the observed range of inhibition observed in the bioassay and variation in canker resistance among selections of butternut field inoculated with Oc-j. The bark extract bioassay described in the following report may have potential use for selecting resistant butternut for conservation and restoration purposes.