THE EFFECT OF THE FUNGI CERATOCYSTIS MINOR (HEDGECOCK) HUNT, CERATOCYSTIS MINOR (HEDGECOCK) HUNT VAR. BARRASII TAYLOR, AND SJB 122 ON REPRODUCTION OF THE SOUTHERN PINE BEETLE, DENDROCTONUS FRONTALIS ZIMMERMANN (COLEOPTERA: SCOLYTIDAE)

1990 ◽  
Vol 122 (3) ◽  
pp. 407-418 ◽  
Author(s):  
David S. Goldhammer ◽  
Frederick M. Stephen ◽  
Timothy D. Paine
Keyword(s):  
First Generation ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Blue Staining ◽  
Southern Pine ◽  
Pine Beetle ◽  
Blue Stain ◽  
Fungal Associations ◽  
Ceratocystis Minor ◽  
F1 Generation

AbstractThe southern pine beetle, Dendroctonus frontalis Zimmermann, was studied in the laboratory to determine the influence of associated fungi on its reproduction. First-generation (P) surface-sterilized beetles associated with mycangial fungi (Ceratocystis minor [Hedgecock] Hunt var. barrasii Taylor or SJB 122) constructed more galleries and laid more eggs, at faster rates, than P beetles not associated with these mycangial fungi. No significant differences occurred among non-surface-sterilized P beetles associated with the phoretic blue staining fungus Ceratocystis minor (Hedgecock) Hunt and mycangial fungi or among progeny of P beetles (F1 generation) carrying mycangial fungi. P and F1 surface-sterilized beetles produced more eggs at a greater density than non-surface-sterilized beetles associated with blue stain, but gallery length and the rate of construction were not different. P and F1 surface-sterilized beetles laid more eggs and constructed galleries faster than surface-sterilized beetles that carried no mycangial fungi. The re-emergence rate of beetles was fastest for P beetles associated with C. minor and significantly slower for fungus-free P beetles, P beetles carrying only mycangial fungi, and F1 beetles, respectively. The F1 generation emerged fastest when associated with both mycangial fungi and slowest when associated with SJB 122, and C. minor var. barrasii or no fungus, respectively. This study employed a successful new rearing technique for isolating specific southern pine beetle/fungal associations.

THE FEEDING POTENTIAL OF CORTICEUS GLABER AND CORTICEUS PARALLELUS (COLEOPTERA: TENEBRIONIDAE), FACULTATIVE PREDATORS OF THE SOUTHERN PINE BEETLE, DENDROCTONUS FRONTALIS (COLEOPTERA: SCOLYTIDAE)

1981 ◽  
Vol 113 (9) ◽  
pp. 807-811 ◽  
Author(s):  
Richard A. Goyer ◽  
Michael T. Smith
Keyword(s):  
Pinus Taeda ◽  
Loblolly Pine ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Southern Pine ◽  
Pine Beetle ◽  
Blue Stain ◽  
Feeding Potential ◽  
Ceratocystis Minor ◽  
Coleoptera Tenebrionidae

AbstractUnder laboratory conditions, Corticeus glaber (LeConte) and C. parallelus (Melsheimer) adults were facultative predators of southern pine beetle, Dendroctonus frontalis Zimmermann, eggs and first and second instar larvae. Southern pine beetle frass and blue stain fungus, Ceratocystis minor (Hedgecock) Hunt were also suitable for survival for both species of Corticeus. Loblolly pine (Pinus taeda L.) phloem was not utilized as a food source by either species. Corticeus spp. larvae were predators of D. frontalis eggs.

Response of loblolly pine to different inoculum doses of Ceratocystis minor, a blue-stain fungus associated with Dendroctonus frontalis

1987 ◽  
Vol 65 (10) ◽  
pp. 2093-2095 ◽  
Author(s):  
T. D. Paine ◽  
F. M. Stephen
Keyword(s):  
Loblolly Pine ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Inducible Defense ◽  
Defense System ◽  
Southern Pine ◽  
Pine Beetle ◽  
Affected Tissue ◽  
Blue Stain ◽  
Ceratocystis Minor

Infection and invasion by the southern pine beetle, Dendroctonus frontalis Zimm., and its associated fungi stimulate the inducible defense system of loblolly pine and result in production of a hypersensitive-like lesion around the affected tissue. The length of the lesion stimulated by inoculation is not related to the amount of inoculum introduced into the tree, even with an eightfold difference. The extent of the response is greater with large inoculum doses, but that is likely to be a function of initial inoculation wound size.

TARSONEMID MITE ASSOCIATES OF DENDROCTONUS FRONTALIS (COLEOPTERA: SCOLYTIDAE): IMPLICATIONS FOR THE HISTORICAL BIOGEOGRAPHY OF D. FRONTALIS

2000 ◽  
Vol 132 (6) ◽  
pp. 765-771 ◽  
Author(s):  
John C. Moser ◽  
Jorge E. Macías-Sámano
Keyword(s):  
United States ◽  
The United States ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Southern United States ◽  
Southern Pine ◽  
Historical Climatology ◽  
Pine Beetle ◽  
Blue Stain ◽  
Morphological Differences

AbstractSeven species of mites (Acari: Tarsenomidae) were associated with two local outbreaks of the southern pine beetle, Dendroctonus frontalis Zimmerman, in Chiapas, Mexico; three of these species were new records for Mexico and Central America. The morphology and phoretic behavior of these mites differed little between the western and southern populations from the United States. One major difference was that the hyperphoretic ascospores of the southern pine beetle mycangial fungus, Ceratocystiopsis sp. (Ophiostomataceae), were common in sporothecae of Tarsonemus krantzi Smiley and Moser (Acari: Tarsonemidae) and Tarsonemus ips Lindquist in Chiapas, Mexico, whereas the ascospores of the blue stain fungus, Ophiostoma minus (Hedgcock) H. and P. Sydow (Ophiostomataceae), were rare; this situation in the southern United States is reversed. The paucity of behavioral and morphological differences between the two southern pine beetle populations and the relevant historical climatology suggest that the appearance of D. frontalis in the southern United States may be a recent event.

The role of oleoresin flow in the induced response of loblolly pine to a southern pine beetle associated fungus

2003 ◽  
Vol 81 (4) ◽  
pp. 368-374 ◽  
Author(s):  
Robert A Tisdale ◽  
T Evan Nebeker ◽  
John D Hodges
Keyword(s):  
Loblolly Pine ◽  
Bark Beetles ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Induced Response ◽  
Resin Flow ◽  
Southern Pine ◽  
Pine Beetle ◽  
Blue Stain ◽  
Induced Reaction

The influence of total resin flow in loblolly pine, Pinus taeda L., on initial inoculation of the blue stain fungus Ophiostoma minus (Hedgc.) Syd. & P. Syd., a fungal associate of southern pine beetle (Dendroctonus frontalis Zimmermann (Coleoptera:Scolytidae)), was investigated. Resin flow of trees was mechanically manipulated so that it followed the same pattern of decrease and near cessation as seen in trees successfully attacked by southern pine beetle. There were also intermediate treatments where resin flow was allowed to recover. The fungus was inoculated into holes drilled to the xylem surface and allowed to grow for a specified time period. The lesion that formed as a result of the induced reaction was then measured and compared with lesions formed in trees for which resin flow was not manipulated. The experiment was conducted three times in 1993 and 1994 and twice in 1995. It was hypothesized that with decreased resin flow, O. minus would be less inhibited and that growth would be greater before being stopped by the induced reaction. It was found that longer lesions occurred in trees where wounding was prolonged and resin flow was decreased below that of control trees. Mixed results were obtained for trees in intermediate wounding treatments.Key words: oleoresin, blue stain fungus, defenses, bark beetles, induced reaction, Dendroctonus.

scholarly journals Blue-stain Fungi Associated with Roots of Southern Pine Trees Attacked by the Southern Pine Beetle, Dendroctonus frontalis

Plant Disease ◽  
1997 ◽  
Vol 81 (8) ◽  
pp. 942-945 ◽  
Author(s):  
William J. Otrosina ◽  
Nolan J. Hess ◽  
Stanley J. Zarnoch ◽  
Thelma J. Perry ◽  
John P. Jones
Keyword(s):  
Basal Area ◽  
Fungal Species ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Southern Pine ◽  
Pine Beetle ◽  
Blue Stain Fungi ◽  
Pine Trees ◽  
Blue Stain ◽  
Stand Basal Area

Forty paired plots were established from eastern Texas to Alabama to study root-infecting, blue-stain fungi in southern pine stands undergoing southern pine beetle (SPB) attack. Woody roots were sampled in plots undergoing recent or current attack by the SPB. Comparisons were made between occurrence of Leptographium spp. and related fungi and data on various characteristics of natural stands and plantations studied. Three fungal species, L. terebrantis, L. procerum, and Ophiostoma ips, along with unidentified Leptographium and Graphium species, were isolated from sampled roots. L. terebrantis was isolated more frequently from SPB-attacked plots (P < 0.001) than was either L. procerum or O. ips. More blue-stain fungal species and related genera were isolated from SPB-attacked plots than from control plots (P < 0.001). This also was true for combined isolation percentages of L. terebrantis, L. procerum, and O. ips (P = 0.03). Presence of blue-stain fungi also was associated with higher stand basal area in the control plots (P = 0.045). Isolation frequencies of O. ips and L. procerum, along with the combination of these fungal species with L. terebrantis, were logistically related to increasing stand basal area in the control plots (P = 0.02, 0.02, and 0.01, respectively). No logistic relationship was found for frequency of any of the three blue-stain species with respect to basal area in SPB-attacked plots. These results suggest blue stain fungi are important in the dynamics of susceptibility of southern pines to SPB attack.

Bark beetle – fungal symbiosis. III. Ultrastructure of conidiogenesis in a Sporothrix ectosymbiont of the southern pine beetle

1975 ◽  
Vol 53 (23) ◽  
pp. 2702-2711 ◽  
Author(s):  
George M. Happ ◽  
Christine M. Happ ◽  
Stanley J. Barras
Keyword(s):  
Continuous Culture ◽  
Bark Beetle ◽  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Southern Pine ◽  
Imperfect State ◽  
Pine Beetle ◽  
Dividing Cells ◽  
Fungal Symbiosis ◽  
Ceratocystis Minor

SJB 133 is an isolate of a variety of Ceratocystis minor that is found in a Sporothrix imperfect state as an ectosymbiont of Dendroctonus frontalis Zimm. Within the mycangium (fungal transport pocket of the beetle), SJB 133 grows in yeast-like fashion. Cells contain prominent vacuoles which appear to bridge between dividing cells. Hypha-like transition cells are also present. In continuous culture on potato carrot agar, SJB 133 produces sympodial conidiophores. The resulting conidia are quite similar to the yeast-like cells in the mycangium and the conidiophores resemble some of the transition cells.

scholarly journals Effects of Subzero Fahrenheit Temperatures on Southern Pine Beetle Populations in the Southern Appalachians

1980 ◽  
Vol 4 (4) ◽  
pp. 201-203 ◽  
Author(s):  
Iral Ragenovich
Keyword(s):  
Dendroctonus Frontalis ◽  
Southern Pine Beetle ◽  
Southern Appalachians ◽  
Southern Pine ◽  
Pine Beetle ◽  
Winter Temperatures

Abstract Several areas throughout the southern Appalachians were sampled to determine the extent of southern pine beetle (Dendroctonus frontalis Zimmerman) brood mortality following a winter with subzero (F°) temperatures. Although 95-percent brood mortality may occur, results suggest that low winter temperatures may not be the sole reason for the decline of a southern pine beetle outbreak.

SPBCMP—A Program to Assess the Likelihood of Major Changes in the Distribution of the Southern Pine Beetle

1986 ◽  
Vol 10 (3) ◽  
pp. 158-161 ◽  
Author(s):  
Patrick J. Michaels ◽  
David E. Sappington ◽  
Philip J. Stenger
Keyword(s):  
Computing System ◽  
Maximum Activity ◽  
Dendroctonus Frontalis ◽  
Sensitivity Analyses ◽  
Southern Pine Beetle ◽  
Climatic Data ◽  
Southern Pine ◽  
Large Area ◽  
Quarter Century ◽  
Pine Beetle

Abstract A statistical model has been developed that relates percentage change in the large area coverage of southern pine beetle outbreaks (Dendroctonus frontalis Zimm.) to temperature and moisture status indices. It is applicable over the entire range of epidemic outbreaks during the last quarter-century. The interactive computer program, SPBCMP, can be used to assess the likelihood of major changes in coverage several months prior to the period of maximum activity. SPBCMP requires only location and four easily accessed climatic parameters. Climatic data for these driving variables can be supplied by the user obtained from a file maintained on the University of Virginia Academic Computing System. The program instructs the user on how to access that data. An additional feature of SPBCMP is that it allows for sensitivity analyses based on weather scenarios for upcoming months. South. J. Appl. For. 10:158-61, Aug. 1986.

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