Dugan, F. M., and D. A. Glawe. 2006. Phyllactinia guttata is a host for Cladosporium uredinicola in Washington State. Pacific Northwest Fungi 1(1): 1-5. Published May 1, 2006 [file size: 187 kb]

doi: 10.2509/pnwf.2006.001.001

The powdery mildew fungus Phyllactinia guttata, parasitic on European hazelnut (Corylus avellana), is a host for the fungicolous hyphomycete Cladosporium uredinicola in Washington State. Mucilaginous penicillate cells at the apices of the Phyllactinia ascocarps are the primary site for colonization and sporulation by C. uredinicola. Range of morphological variation in C.uredinicola from P. guttata was congruent with previous descriptions from hosts in Uredinales.

Berryman, S., and B. McCune. 2006. Epiphytic lichens along gradients in topography and stand structure in western Oregon, USA. Pacific Northwest Fungi 1(2): 1-38. Published May 1, 2006 [file size: 323 kb]

doi: 10.2509/pnwf.2006.001.002

Epiphytic macrolichen communities were compared among forest stand types in the Blue River watershed of western Oregon. Stand types were defined by stand structure, according to age classes of the younger tree cohort and remnant tree retention. Remnant trees were those in an older cohort that remained following a stand disturbance that initiated tree regeneration, such as a timber harvest or natural forest fire. Stands were located in upland and riparian forests of two vascular plant series (western hemlock and true fir). Presence and abundance of all epiphytic macrolichen species were sampled in a 0.4 ha circular plot in 117 stands. Nonmetric multidimensional scaling (NMS) ordination revealed that the strongest differences in lichen community composition were related to elevation, which was correlated with vascular plant series. Cyanolichens were largely limited to lower elevation forests (470 – 950 m) of the western hemlock series, while matrix lichens and forage lichens with green-algal photobionts dominated high elevation stands (950 – 1470 m) of the true fir series. Lichen communities differed with stand age. In even-aged young stands, lichen communities were species poor and lichen community composition differed from all other stand types. In general, macrolichen species richness varied little among stand types. However, cyanolichen species were most diverse in old-growth and mature stands at lower elevations. Lichen communities in young stands (< 20 yr) with remnants differed from those in even-aged young forests in both plant series. As a stand develops, the presence of remnant trees may accelerate the development of the lichen community towards those found in older stands. We infer that remnant trees serve as refugia for lichens through a disturbance and provide lichen inoculum to younger trees. Hardwood patches were hotspots for lichen diversity, particularly cyanolichens that are infrequent on conifers. Hardwood patches were most prevalent along perennial streams. To maintain and enhance lichen communities at a landscape level, forest managers must consider the importance of features such as late-successional stands, remnant trees, hardwoods, and riparian areas to lichen communities. These features are especially important to retain in or near regenerating forests to promote colonization by dispersal-limited lichens.

Goetz, J. and F.M. Dugan. 2006. Alternaria malorum : A mini-review with new records for hosts and pathogenicity. Pacific Northwest Fungi 1(3): 1-8. Published May 1, 2006 [file size: 145 kb]

doi: 10.2509/pnwf.2006.001.003

Modern host-fungus indices and databases contain deceptively few entries for Alternaria malorum or its synonym, Cladosporium malorum . Close inspection of literature from the 1930s through the1960s indicates more hosts and wider prevalence than more modern indices and databases indicate. Reports from 2002 to the present document diverse additional hosts in the Pacific Northwest , including this report from roots of Pinus ponderosa and Pseudotsuga menziesii , the first reports from gymnosperms. Cherry tomato and grape tomato ( Lycopersicon esculentum ) were found to be hosts for A. malorum by artificial inoculation. Rarely documented in synoptic indices or databases in the last 20 years, the Cladosporium-like C. malorum is neither rare nor a true Cladosporium.

Matheny, P. B., and J. F. Ammirati. 2006. Cortinarius lucorum (Fr.) Karst., a Populus associate from North America. Pacific Northwest Fungi 1(4): 1-10. Published May 1, 2006 [file size: 717 kb]

doi: 10.2509/pnwf.2006.001.004

Cortinarius lucorum is reported from low-elevation forests in Washington where it associates with Populus trichocarpa . It shares affinities with C. saturninus, a species associated with Salix, Populus, Corylus, and perhaps other woody angiosperm hosts. Both species share a bulbous stipe, thick veil, and violaceous coloration in at least some part of the basidiomata. Analysis of nucleotide sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal RNA tandem repeat indicates a single base pair difference between North American and northern European material. These data also affirm the autonomy of C. lucorum and a possible sister relationship with C. saturninus .

Glawe, D. A., and R. L. Hummel. 2006. New North American host records for Seifertia azaleae, cause of Rhododendron bud blight disease. Pacific Northwest Fungi 1(5): 1-6. Published May 1, 2006 [file size: 289 kb]

doi: 10.2509/pnwf.2006.001.005

Seifertia azaleae, cause of Rhododendron bud blight disease, is reported to occur on Rhododendron hemsleyanum, Rhododendron ponticum , and several named hybrids in western Washington State. This appears to be the first report of S. azaleae on these hosts in North America.

Robertson, C. P., L. Wright, S. Gamiet, N. Machnicki, J. Ammirati, J. Birkebak, C. Meyer, and A. Allen. 2006. Cortinarius rubellus Cooke from British Columbia, Canada and Western Washington, USA. Pacific Northwest Fungi 1(6): 1-7. Published May 1, 2006 [file size: 601 kb]

doi: 10.2509/pnwf.2006.001.006

Cortinarius rubellus is reported from British Columbia and Western Washington . This is the first report of C. rubellus from western North American since it was published as C. rainierensis by A. H. Smith and D. E. Stuntz in 1950.

Redman, R. S., J. Ranson, and R. J. Rodriguez. 2006. Genetic structure of Cantharellus formosus populations in a second-growth temperate rain forest of the Pacific Northwest. Pacific Northwest Fungi 1(7): 1-13. Published June 6, 2006 [file size: 459 kb]

doi: 10.2509/pnwf.2006.001.007

Cantharellus formosus growing on the Olympic Peninsula of the Pacific Northwest was sampled from September – November 1995 for genetic analysis. A total of ninety-six basidiomes from five clusters separated from one another by 3 - 25 meters were genetically characterized by PCR analysis of 13 arbitrary loci and rDNA sequences. The number of basidiomes in each cluster varied from 15 to 25 and genetic analysis delineated 15 genets among the clusters. Analysis of variance utilizing thirteen apPCR generated genetic molecular markers and PCR amplification of the ribosomal ITS regions indicated that 81.41% of the genetic variation occurred between clusters and 18.59% within clusters. Proximity of the basidiomes within a cluster was not an indicator of genotypic similarity. The molecular profiles of each cluster were distinct and defined as unique populations containing 2 - 6 genets. The monitoring and analysis of this species through non-lethal sampling and future applications is discussed.

D. A. Glawe. 2006. First report of white rust of Aurinia saxatilis (Alyssum saxatile) caused by Albugo candida in Washington State. Pacific Northwest Fungi 1(8): 1-5. Published July 11, 2006 [file size: 513 kb]

doi: 10.2509/pnwf.2006.001.008

Albugo candida , cause of white rust, is reported to occur on Aurinia saxatilis ( synonym : Alyssum saxatile). The pathogen was found on landscape plants growing in a private garden in Seattle , WA where it over-wintered on infected leaves. This appears to be the first report of A. candida on this host in the USA .

Machnicki, N., L. L. Wright, A. Allen, C. P. Robertson, C. Meyer, J. M. Birkeback, and J. F. Ammirati. 2006. Russula crassotunicata identified as host for Dendrocollybia racemosa. Pacific Northwest Fungi 1(9): 1-7. Published August 24, 2006 [file size: 365 kb]

doi: 10.2509/pnwf.2006.001.009

Russula crassotunicata was identified as a host species for the mycosaprobic basidiomycete Dendrocollybia racemosa. Sclerotia of the latter species were harvested from the gills of sporocarps known to be R. crassotunicata and isolated in pure culture. DNA sequences of the ribosomal ITS1-5.8S-ITS2 region of these sclerotia were used to identify and phylogenetically place the species as D. racemosa. This paper represents the first report of a confirmed host for D. racemosa.

Cripps, C. L. 2006. Western mycology loses a leader and a friend: in memoriam Orson K. Miller, Jr. (1930-2006) Pacific Northwest Fungi 1(10): 1-6. Published September 15, 2006 [file size: 133 kb]

doi: 10.2509/pnwf.2006.001.010

The life and work of the late mycologist Orson K. Miller is reviewed.

Glawe, D. A., and F. M. Dugan. 2006. First Report of Erysiphe (Uncinuliella) flexuosa in western North America . Pacific Northwest Fungi 1(11): 1-11. Published October 16, 2006 [file size: 1358 kb]

doi: 10.2509/pnwf.2006.001.011

Erysiphe flexuosa , a powdery mildew parasite of Aesculus species, is believed to have originated in North America where distribution records were confined to regions east of the Rocky Mountains . The fungus recently was found in eastern Washington State and northern Idaho . The fungus can be distinguished readily from other powdery mildews attacking Aesculus species by the presence of two distinctive kinds of chasmothecial appendages. Consistent with previous reports on similar species, observations determined that subulate appendages formed first, on dorsal sides of chasmothecia. The longer, uncinate appendages formed equatorially during later chasmothecial maturation. There are no Aesculus species native to northwest North America that could have hosted an undetected population of the fungus. It appears likely that E. flexuosa became established relatively recently in the inland Pacific Northwest, possibly being introduced on infected host material, similar to the situation in Europe where several reports documented the presence of the fungus beginning in 2000.

Glawe, D. A. 2006. Synopsis of genera of Erysiphales (powdery mildew fungi) occurring in the Pacific Northwest. Pacific Northwest Fungi 1(12): 1-27. Published December 5, 2006 [file size: 4062 kb]

doi: 10.2509/pnwf.2006.001.012

The Erysiphales (powdery mildew fungi) are Ascomycetes of major economic significance. Recent taxonomic research, mostly in Asia and Europe , has produced major changes in genus concepts complicating identification of powdery mildew fungi and communication about the diseases they cause. This paper provides a summary of genus concepts applicable to powdery mildew fungi known in the Pacific Northwest, as well as dichotomous keys based on both anamorphic and teleomorphic features, and brief summaries of diagnostic features. Salient morphological features are illustrated with photographs made from recent collections from the region. The following genera are included: Arthrocladiella, Blumeria, Erysiphe, Golovinomyces, Leveillula, Neoerysiphe, Phyllactinia, Podosphaera, and Sawadaea. Consistent with modern systems of classification, Microsphaera, Uncinula, and Uncinuliella are subsumed within the modern concept of Erysiphe, and Sphaerotheca species are included in Podosphaera.

Dugan, F. M., and D. A. Glawe. 2007. Powdery mildews on weeds in the Pacific Northwest: a miscellany of new records. Pacific Northwest Fungi 2(1): 1-7. Published January 4, 2007 [file size: 502 kb]

doi: 10.2509/pnwf.2007.002.001

Erysiphe polygoni on Rumex crispus, documented previously in California, is reported for the first time in the Pacific Northwest. Podosphaera (Sphaerotheca) fusca is reported in the Pacific Northwest for the first time on Taraxacum laevigatum, a host record documented previously in Europe. New host records for Idaho are Golovinomyces sordidus on Plantago major, Erysiphe convolvuli on Convolulus arvensus , and Podosphaera ( Sphaerotheca) aphanis on Geum macrophyllum. Golovinomyces (Erysiphe) cichoracearum on Cirsium arvense is reported for the first time in Washington.

Holt, E. A., B. McCune, and P. Neitlich. 2007. Succession and community gradients of arctic macrolichens and their relation to substrate, topography, and rockiness. Pacific Northwest Fungi 2(2): 1-21. Published January 12, 2007 [file size: 2440 kb]

doi: 10.2509/pnwf.2007.002.002

We describe lichen community structure and its relation to environment in the Bering Land Bridge National Preserve in northwestern Alaska. We used a stratified random sample to estimate macrolichen abundance and several environmental variables from 78 0.38-ha plots within lichen-dominated areas of the Preserve. We found a total of 140 macrolichen taxa. Two primary gradients in lichen species composition were related to habitat rockiness and a substrate-topographic gradient. The strongest gradient, rockiness, correlates with lichen succession. Rocky habitats have less competition from vascular plants and may be more resistant to soil disturbance. The substrate-topography gradient is largely driven by the presence of Sphagnum moss contrasting with calcareous parent rock material. To uncover additional underlying patterns in lichen community composition, we deleted rocky and calcareous plots and strictly saxicolous species from the analyses. Although we found similar patterns from the original analysis in this subset, diversity and community composition also varied with differing microtopography. These gradients of lichen community composition can also be divided into three major groups; rocky non-calcareous sites, calcareous areas, and the remaining plots form the alluvial lowland communities. We used two-way cluster analysis which combines independent clustering of sample units and species into a single diagram. This technique linked individual species and species assemblages with these major trends.

McCune, B., J. Grenon, L. S. Mutch, and E. P. Martin. 2007. Lichens in relation to management issues in the Sierra Nevada national parks. Pacific Northwest Fungi 2(3): 1-39. Published March 7, 2007 [file size: 437 kb]

doi: 10.2509/pnwf.2007.002.003

The central and southern Sierra Nevada are subjected to high levels of ozone, high and increasing nitrogen deposition, and unknown quantities of pesticides such as organophosphates from agricultural emissions in the Central Valley. Fire regimes have changed greatly over time, from relatively frequent fire historically, to fire exclusion, to its reintroduction as prescribed fire. Parts of the Sierra parks have been grazed by livestock, and some of this persists today. On top of these factors, climate is likely to change rapidly.

Although a large literature exists on human impacts on lichens, almost nothing is known on this topic in the Sierra Nevada specifically. We are largely ignorant of the biodiversity, ecology, and ecological roles of lichens in the Sierra Nevada Park system (the “Sierra parks”: Sequoia and Kings Canyon National Park, Yosemite National Park, and Devils Postpile National Monument ). This paper synthesizes existing data, written reports and other information about lichens in and near the Sierra Nevada parks, as a first step toward developing better baseline data and assessing lichen populations or communities as potential indicators of ecosystem change.

Lichens are diverse in their ecosystem roles and functional significance. Organizing the hundreds of lichen species present in the Sierra parks into functional groups helps us to understand, interpret, inventory, and monitor the diversity of lichens. We therefore divided lichens of the Sierra parks into the following functional groups: forage lichens, nitrogen fixers, acidophiles, wolf lichens, crustose lichens on rock, crustose lichens on bark and wood, biotic soil crusts, aquatic, other green algal macrolichens, and pin lichens (calicioids).

Management issues that relate to lichens include biodiversity, air quality, water quality, fire, grazing, and the possibility of draining Hetch Hetchy Reservoir. Existing lichen data from the west slope of the Sierra Nevada, of relevance to the management of Sierra parks include: extensive lichen community data from the Forest Inventory and Analysis program (FIA), a few floristic studies focused on the parks, photo points on prescribed fire transects, lichen biomass estimates from four locations, elemental analysis of lichens from a small number of locations, lichen communities in relation to various nitrogen species in Kings River watershed, the Western Airborne Contaminants Assessment Project, Bryoria fremontii studies at Teakettle Experimental Forest, and herbarium databases.

Putnam, M. L., and D. A. Glawe. 2007. New North American Records of Anamorphic Powdery Mildew Fungi (Erysiphales) Parasitizing Species of Leucothoë and Limnanthes. Pacific Northwest Fungi 2(4): 1-6. Published April 11, 2007 [file size: 733 kb]

doi: 10.2509/pnwf.2007.002.004

This paper documents the presence of two species of Erysiphales previously unreported in North America. The fungi were encountered on greenhouse-grown host plants in Oregon during the 2006 growing season. Oidium ericinum was found on potted plants of Leucothoë axillaris (Ericaceae) grown at a wholesale nursery where it resulted in a substantial financial loss to the grower. Oidium limnanthis was found on potted plants of Limnanthes alba (Limnanthaceae) where it was associated with premature senescence of plants and reduced seed production. This appears to be the first record of a powdery mildew fungus parasitizing a member of the Limnanthaceae in North America. Both species are described and illustrated.

Glawe, D. A., and E. C. S. Duffield. 2007. First report of powdery mildew of Lactuca sativa (garden lettuce) caused by Golovinomyces cichoracearum in the Pacific Northwest . Pacific Northwest Fungi 2(5): 1-4. Published April 16, 2007 [file size: 354 kb]

doi: 10.2509/pnwf.2007.002.005

During continuing surveys for powdery mildew fungi in the Pacific Northwest, Golovinomyces cichoracearum was found on Lactuca sativa (garden lettuce) in Seattle, King County, Washington. This paper documents the occurrence of G. cichoracearum on L. sativa in the Pacific Northwest with illustrations of the fungus from fresh material.