scholarly journals Resolving host and species boundaries for perithecia-producing nectriaceous fungi across the central Appalachian Mountains

2020 ◽  
Author(s):  
Cameron M. Stauder ◽  
Nicole M. Utano ◽  
Matt T. Kasson
Keyword(s):  
Appalachian Mountains ◽  
Liriodendron Tulipifera ◽  
Fagus Grandifolia ◽  
Picea Rubens ◽  
Species Boundaries ◽  
Beech Bark Disease ◽  
Central Appalachians ◽  
Canker Pathogens

AbstractThe Nectriaceae contains numerous canker pathogens. Due to scarcity of ascomata on many hosts, comprehensive surveys are lacking. Here we characterize the diversity of perithecia-producing nectriaceous fungi across the central Appalachians. Ten species from twelve hosts were recovered including a novel Corinectria sp. from Picea rubens. Neonectria ditissima and N. faginata were most abundant and associated with Fagus grandifolia with beech bark disease (BBD). N. ditissima was also recovered from additional cankered hardwoods, including previously unreported Acer spicatum, Ilex mucronata, and Sorbus americana. Cross-pathogenicity inoculations of N. ditissima confirmed susceptibility of Acer and Betula spp. Neonectria magnoliae was recovered from cankered Liriodendron tulipifera and Magnolia fraseri and pathogenicity on L. tulipifera was confirmed. Fusarium babinda was consistently recovered from beech with BBD, although its role remains unclear. This survey provides a contemporary snapshot of Nectriaceae diversity across the Appalachian Mountains. The following nomenclatural changes are proposed: Neonectria magnoliae comb. nov.

Phenotypic Variation in Climate-Associated Traits of Red Spruce (Picea rubens Sarg.) along Elevation Gradients in the Southern Appalachian Mountains

Castanea ◽  
2019 ◽  
Vol 84 (2) ◽  
pp. 128
Author(s):  
John R. Butnor ◽  
Brittany M. Verrico ◽  
Kurt H. Johnsen ◽  
Christopher A. Maier ◽  
Victor Vankus ◽  
...  
Keyword(s):  
Phenotypic Variation ◽  
Appalachian Mountains ◽  
Picea Rubens ◽  
Red Spruce ◽  
Elevation Gradients ◽  
Southern Appalachian Mountains ◽  
Southern Appalachian

scholarly journals Evaluation of Resistance to the Beech Scale Insect (Cryptococcus fagisuga) and Propagation of American Beech (Fagus grandifolia) by Grafting

2007 ◽  
Vol 56 (1-6) ◽  
pp. 163-169 ◽  
Author(s):  
M. Ramirez ◽  
J. Loo ◽  
M. J. Krasowski
Keyword(s):  
Developmental Stages ◽  
Scale Insect ◽  
Fagus Grandifolia ◽  
Life Stages ◽  
Total Resistance ◽  
Beech Bark Disease ◽  
American Beech ◽  
Insect Colonies ◽  
Cryptococcus Fagisuga

Abstract Scions collected from diseased trees and from those without symptoms of beech bark disease (BBD) were cleft-grafted in 2003 and 2004 onto rootstock of unknown resistance to BBD. Grafting success varied among genotypes and year (30% in 2003 and 12% in 2004), and improved with increasing rootstock diameter. Successful grafts were used to test resistance to the beech scale insect, Cryptococcus fagisuga (the initiating agent of BBD) by introducing eggs onto the bark of scions and allowing time for the emergence of all developmental stages of the insects. Significantly fewer insects colonized scions collected from putatively resistant trees than those collected from diseased trees. In some cases, where egg placement overlapped a portion of the rootstock, insect colonies developed on the rootstock but not on the scion collected from resistant trees. Occasionally, scions from putatively resistant trees were colonized, whereas some of those from diseased trees were not. When scions from putatively resistant trees were heavily colonized, only adult insects were present and no eggs or other life stages of the insect were found. The findings indicate that the extent of resistance to the scale insect (hence to BBD) ranges from partial to total resistance.

Effects of an introduced pathogen on resistance to natural disturbance: beech bark disease and windthrow

2005 ◽  
Vol 35 (8) ◽  
pp. 1832-1843 ◽  
Author(s):  
Michael J Papaik ◽  
Charles D Canham ◽  
Erika F Latty ◽  
Kerry D Woods
Keyword(s):  
Community Dynamics ◽  
Species Coexistence ◽  
Basal Area ◽  
Natural Disturbance ◽  
Fagus Grandifolia ◽  
Forest Composition ◽  
Direct Result ◽  
Betula Alleghaniensis ◽  
Beech Bark Disease ◽  
Composition And Structure

In forests of eastern North America, introduced pathogens have caused widespread declines in a number of important tree species, including dominant species such as American beech (Fagus grandifolia Ehrh.). Most studies have focused on changes in forest composition and structure as a direct result of mortality caused by a pathogen. Our field studies of windthrow resistance in forests of northern New York and northern Michigan demonstrate that resistance of beech trees to windthrow is severely reduced by beech bark disease (BBD). This reduced resistance was primarily due to the increase in the probability of stem breaks of moderately and highly infected beech trees. The severity of BBD infection on individual trees has a significant negative effect on resistance to windthrow. We tested potential consequences of this for long-term composition and structure in these forests by using a simulation model, SORTIE. We found that species such as yellow birch (Betula alleghaniensis Britt.) and eastern hemlock (Tsuga canadensis (L.) Carr.) increased in basal area primarily because of the effect BBD had on the creation of new seedbed substrates. Our results highlight the indirect effects that host-specific pathogens can have on community dynamics and species coexistence in forests.

A beech bark disease induced change in tree species composition influences forest floor acid–base chemistry

2017 ◽  
Vol 47 (7) ◽  
pp. 875-882 ◽  
Author(s):  
M.A. Arthur ◽  
K.C. Weathers ◽  
G.M. Lovett ◽  
M.P. Weand ◽  
W.C. Eddy
Keyword(s):  
Species Composition ◽  
Tree Species ◽  
Forest Floor ◽  
Acer Saccharum ◽  
Sugar Maple ◽  
Base Cations ◽  
Fagus Grandifolia ◽  
Beech Bark Disease ◽  
Acid Base ◽  
Tree Species Composition

Beech bark disease (BBD) has demonstrable ecosystem consequences for eastern US forests stemming from American beech (Fagus grandifolia Ehrh.) mortality, often leading to increased dominance by its competitor, sugar maple (Acer saccharum Marsh.). We hypothesized that this BBD-induced shift in tree species composition leads to changes in soil acid–base chemistry, mediated through differences in leaf litter chemistry of the two species. Using a sequence of plots representing the progression of the disease in the Catskill Mountains, NY, USA, we examined the influence of tree species composition shift on soil chemistry. The BBD impact on tree species composition was confounded by variability in substrate (or nonexchangeable soil) calcium (Ca). While substrate Ca explained much of the variation in acid–base chemistry, increasing BBD was associated with increasing forest floor exchangeable Ca, sum of base cations, base saturation, cation-exchange capacity, and decreasing hydrogen. An apparent threshold effect of substrate Ca on sugar maple litter Ca concentration suggests that underlying soil Ca availability may contribute to the spatial extent and timeframe of BBD-induced shifts in species composition. The species compositional shift is a mechanism contributing to a vegetation effect on soil acid–base status and may partially counteract soil acidification in this acid deposition impacted region.

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