Your search keyword '"Bruce Moltzan"' showing total 8 results

1. The Future of Forest Pathology in North America

Author

Denita Hadziabdic, Pierluigi Bonello, Richard Hamelin, Jennifer Juzwik, Bruce Moltzan, David Rizzo, Jane Stewart, and Caterina Villari

Subjects

forest pathology, changing climate, healthy forests, invasive pathogens, insect pests, chestnut blight, Forestry, SD1-669.5, Environmental sciences, GE1-350

Published

2021

2. The Future of Forest Pathology in North America

Author

David M. Rizzo, Bruce Moltzan, Jane Stewart, Jennifer Juzwik, Denita Hadziabdic, Pierluigi Bonello, Caterina Villari, and Richard C. Hamelin

Subjects

forest pathology, Global and Planetary Change, Ecology, insect pests, Agroforestry, Forestry, Environmental Science (miscellaneous), SD1-669.5, changing climate, Environmental sciences, healthy forests, Geography, Forest pathology, chestnut blight, GE1-350, invasive pathogens, Nature and Landscape Conservation

Published

2021

3. Three Colopterus Beetle Species Carry the Oak Wilt Fungus to Fresh Wounds on Red Oak in Missouri

Author

Bruce Moltzan, Jennifer Juzwik, and Maya C. Hayslett

Subjects

Oak wilt, education, Colopterus, Plant Science, Fungus, Biology, biology.organism_classification, Colopterus truncatus, Fagaceae, Vector (epidemiology), Botany, Ceratocystis fagacearum, Agronomy and Crop Science, Woody plant

Abstract

Beetles in the family Nitidulidae can transmit the oak wilt fungus, Ceratocystis fagacearum, to fresh wounds on healthy oak trees, leading to infection and disease development. Historically, nitidulid beetles have not been considered important vectors of the pathogen in Missouri. Studies were conducted in the spring of 2005 and 2006 to determine frequencies of nitidulid beetle species contaminated with C. fagacearum visiting fresh wounds on red oak trees in central Missouri. Colopterus truncatus, C. niger, and C. semitectus were the most abundant species collected from fresh wounds and the only species found to be contaminated with Ceratocystis fagacearum. Of 230 beetles assayed for C. fagacearum, 23 yielded the fungus. Contamination frequencies were higher for beetles collected in April than May; no beetles collected in June were contaminated. We hypothesize that Colopterus truncatus, C. niger, and C. semitectus are principal nitidulid beetle vector species in Missouri during spring. The risk for pathogen transmission by these beetles appears to be greatest in April and least in June.

Published

2008

4. Missouri's forest resources in 2004

Author

W. Keith Moser, Robert Lawrence, Gary J. Brand, Mark H. Hansen, Bruce Moltzan, and Thomas B. Treiman

Subjects

Biomass (ecology), Forest resource, Forest type, Environmental science, Forestry, Forest health

Abstract

Reports the initial results of five annual panels (2000-2004) of the inventory of Missouri's forest resources and one panel (2004) of growth, removals, and mortality. Includes information on forest area, number of trees, volume, biomass, growth, removals, mortality, and forest health.

Published

2006

5. Missouri's forest resources in 2003

Author

W. Keith, Moser, Treiman, Thomas Treiman, Thomas, Bruce Moltzan, Robert Lawrence, and Gary J. Brand

Subjects

Biomass (ecology), Forest type, Forest resource, Volume (thermodynamics), Environmental science, Forestry, Forest health

Abstract

Reports the initial results of all five annual panels (1999-2003) of the fifth inventory of Missouri`s forest resources, the first annual inventory of the State. Includes information on forest area; volume; biomass; growth, removals, and mortality; and forest health.

Published

2005

6. Missouri's forest resources in 2002

Author

Robert Lawrence, W. Keith Moser, Thomas B. Treiman, Bruce Moltzan, and Gary J. Brand

Subjects

Biomass (ecology), Forest type, Geography, Forest resource, Oak decline, Forestry

Abstract

Results of the 2002 annual inventory of Missouri''s forest resources show an estimated 14.5 million acres of forest land. The oak-hickory type is the predominant forest type on the landscape, making up over 70 percent of all forested land. Pinyon-juniper (primarily eastern redcedar) is the primary softwood component by acreage, although shortleaf pine makes up the majority of the volume. Between 1989 and 1999-2002, the net volume of all live trees on timberland increased by 24 percent, from 13.8 billion cubic feet to 17.2 billion cubic feet. The continued drought, along with the mature age of many of the oak forests and overstocked forest stands, may worsen oak decline.

Published

2004

7. Missouri's forest resources in 2001

Author

Gary J. Brand, Thomas B. Treiman, Robert Lawrence, Bruce Moltzan, and W. Keith Moser

Subjects

Biomass (ecology), Forest type, Forest resource, Volume (thermodynamics), Environmental science, Forestry

Abstract

Results of the 2001 fifth annual inventory of Missouri?s forest resources show an estimated 14.7 million acres of forest land in the State. The oak hickory type is the predominant forest type on the landscape, making up over 70 percent of all forested land. Between 1989 and 1999-2001, the net volume of all live trees on timberland increased by 29 percent, from 13.8 billion cubic feet to 17.8 billion cubic feet. The continued drought, along with

Published

2003

8. Phytophthora Species in Soils Associated with Declining and Nondeclining Oaks in Missouri Forests

Author

Jennifer Juzwik, J. Eggers, Bruce Moltzan, and B.W. Schwingle

Subjects

Quercus robur, Taxon, biology, Velutina, Botany, Soil water, Oak decline, Soil classification, Plant Science, Phytophthora, Internal transcribed spacer, biology.organism_classification, Agronomy and Crop Science

Abstract

Periodic episodes of oak decline have occurred in the Missouri Ozark forests since the early 1900s and the disease is currently severe (2). Several Phytophthora spp. contribute to oak decline in Europe (1), but the role of Phytophthora spp. in oak decline in the eastern United States is not known. Mineral soils collected around the bases of declining and nondeclining oaks in paired sites in central Missouri forests were assayed for the presence of these taxa by baiting flooded soil with Quercus robur leaves. Q. rubra and Q. velutina were the oak species on three sites and Q. alba was on the fourth. Isolates from symptomatic baits plated on PARPNH selective medium were identified tentatively on classical taxonomic characteristics. Five isolates of P. cambivora, two of P. quercina, and eight of P. cinnamomi were obtained from soils around one, one, and three trees, respectively, on decline sites. The internal transcribed spacer sequences for each isolate were compared to those in GenBank; BLAST searches for all isolates had nucleotide identities of 99% and E values of 0, which confirmed the identifications. Greenhouse pot trials were conducted to assess pathogenicity of isolates on stems of 2-year-old Q. alba and Q. rubra. A mycelial agar plug was inserted into a 1-cm long slit cut into the cambium 5 cm above the root collar and covered with sterile, moist cotton and wrapped with laboratory film. The treatments included two isolates of P. cambivora, one of P. quercina, three of P. cinnamomi, and a sterile agar plug. Each host × isolate combination was replicated four times, and the experiment was conducted twice in the greenhouse (natural lighting; temperature ≤32°C in summer and ≥7°C in winter). Stem lesions were produced commonly by P. cambivora (28 of 32 seedlings) and P. cinnamomi (46 of 48 seedlings) within 3 months; none was found on control seedlings or those inoculated with P. quercina. Mean lengths (cm) of lesions caused by P. cinnamomi were greater for Q. rubra (5.6) than for Q. alba (4.3) and lesion lengths for P. cambivora were greater for Q. alba (5.2) than for Q. rubra (4.4). Seven Q. alba seedlings inoculated with P. cambivora and one Q. alba inoculated with P. cinnamomi died before 3 months. All Phytophthora species were recovered from inoculated stems at 3 months except that P. quercina was not recovered in one trial. To our knowledge, this is the first report of Phytophthora species in soils of Missouri oak forests, of P. quercina in the United States, and of the ability of P. cambivora to cause stem lesions on Q. alba. P. cinnamomi and P. cambivora should be investigated in situ as possible contributing factors of oak decline in Missouri. References: (1) T. Jung et al. Plant Pathol. 49:706, 2000. (2) R. Lawrence et al. MO. Conserv. 63:11, 2002.

Published

2007