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

Published online by Cambridge University Press:  31 May 2012

John C. Moser*
Affiliation:
Southern Research Station, USDA Forest Service, 2500 Shreveport Hwy., Pineville, Louisiana, United States 71360
Jorge E. Macías-Sámano
Affiliation:
Colegio de la Frontera Sur, Carret. Antiguo Aeropuerto Km 2.5, Apartado Postal 36, 30700 Tapachula, Chiapas, Mexico
*
1 Author to whom all correspondence should be addressed (E-mail: [email protected]).

Abstract

Seven 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.

Résumé

Sept espèces d’acariens (Acari : Tarsonemidae) ont été observées associées à deux foyers d’infestation du scolyte, Dendroctonus frontalis Zimmermann, dans l’état du Chiapas au Mexique. Trois de ces espèces sont nouvelles au Mexique et en Amérique Centrale. La morphologie et le comportement phorétique de ces acariens diffèrent peu chez les populations occidentales et méridionales des États-Unis. Cependant, parmi les différences principales, il faut mentionner que les ascospores hyperphorétiques du champignon mycangial du Dendroctone méridional du pin, Ceratocystiopsis sp. (Ophiostomataceae), sont fréquents dans les sporothèques de Tarsonemus krantzi Smiley et Moser (Acari : Tarsonemidae) et de Tarsonemus ips Lindquist au Chiapas (Mexique), alors que les ascospores du champignon de la tache bleue, Ophiostoma minus (Hedgcock) H. et P. Sydow (Ophiostomataceae), sont rares et que cette situation est inversée dans le sud des États-Unis. La rareté des différences morphologiques et éthologiques entre les deux populations de même que certains événements climatologiques semblent indiquer que l’apparition de D. frontalis dans le sud des États-Unis est vraisemblablement un événement récent.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 2000

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References

Blackwell, M., Bridges, J.R., Moser, J.C., Perry, T.J. 1986. Hyperphoretic dispersal of a Pyxidiophora anamorph. Science (Washington, DC) 232: 993–5CrossRefGoogle ScholarPubMed
Bridges, J.R., Moser, J.C. 1986. Relationship of phoretic mites (Acari: Tarsonemidae) to the bluestaining fungus, Ceratocystis minor, in trees infested by southern pine beetle (Coleoptera: Scolytidae). Environmental Entomology 15: 951–3CrossRefGoogle Scholar
Cibrian, D., Mendez, J.T., Campos, R., Yates, H.O. III, Flores, J.E. 1995. Forest insects of Mexico. North American Forestry Commission FAO Publication 6Google Scholar
Gäbler, H. 1947. Milble als Eiparasit des Buchdruckers (Ips typographus L.). Nachrichtenblatt für den Deutschen Pflanzenschutzdienst 1: 113–5Google Scholar
Hoffman, A., Gispert, C. 1980. Los acaros como agentes de control-biológico de algunas plagas forestales. pp. 187–92 in Saenz-Colin, A., Salinas-Quinard, R., Tovar, D Cibrian (Eds), Primer Simposio Nacional Sobre Parasitologia Forestal 18 e 19 de febrero de 1980. Urupan, Michoacán: Memoria Sociedad Mexicana de EntomologíaGoogle Scholar
Kaliszewski, M., Sell, D. 1990. Tarsonemus fusarii Cooreman i Tarsonemus parafusarii Kaliszewski (Acari: Tarsonemidae) w Polsce, ze szczegolnym uwzglednieniem ekologii. Zeszyty Problemowe Postepow Nauk Rolniczych 373: 195215Google Scholar
Krantz, G. 1978. A manual of acarology. Corvallis: Oregan State University Book Stores, Inc.Google Scholar
Lanier, G.N. 1987. The validity of Ips cribricollis (Eich.) (Coleoptera: Scolytidae) as distinct from I. grandicollis (Eich.) and the occurrence of both species in Central America. The Canadian Entomologist 119: 179–87CrossRefGoogle Scholar
Lanier, G.N., Hendrichs, J.P., Flores, J.E. 1988. Biosystematics of the Dendroctonus frontalis (Coleoptera: Scolytidae) complex. Annals of the Entomological Society of America 81: 403–18CrossRefGoogle Scholar
Lanner, R.M., Van Devender, T. 1998. The recent history of pinyon pines in the American Southwest. pp. 177–82 in Richardson, R.M. (Ed), Ecology and biogeography of Pinus. Cambridge: Cambridge University PressGoogle Scholar
Lindquist, E.E. 1969 a. Review of the Holarctic tarsonemid mites (Acarina: Prostigmata) parasitizing eggs of pine bark beetles. Memoirs of the Entomological Society of Canada 60Google Scholar
Lindquist, E.E. 1969 b. New species of Tarsonemus (Acarina: Tarsonemidae) associated àwith bark beetles. The Canadian Entomologist 101: 1291–314CrossRefGoogle Scholar
Lombardaro, M.J., Klepzig, K.D., Moser, J.C., Ayres, M.P. 2000. Biology, demography and community interactions of Tarsonemus (Acarina: Tarsonemidae) mites phoretic on Dendroctonus frontalis (Coleoptera: Scolytidae). Agricultural and Forestry Entomology 2: 110Google Scholar
Moser, J.C. 1985. Use of sporothecae by phoretic Tarsonemus mites to transport ascospores of coniferous bluestain fungi. Transactions of the British Mycological Society 84: 750–3CrossRefGoogle Scholar
Moser, J.C., Bridges, J.R. 1983. Technique for rearing mite-free southern pine beetle, Dendroctonus frontalis Zimmermann (Coleoptera: Scolytidae) adults. Annals of the Entomological Society of America 76: 942–5CrossRefGoogle Scholar
Moser, J.C., Bridges, J.R. 1986. Tarsonemus (Acarina: Tarsonemidae) mites phoretic on the southern pine beetle (Coleoptera: Scolytidae): attachment sites and numbers of bluestain (Ascomycetes: Ophiostomataceae) ascospores carried. Proceedings of the Entomological Society of Washington 88: 297–9Google Scholar
Moser, J.C., Roton, L.M. 1971. Mites associated with the southern pine bark beetles in Allen Parish, Louisiana. The Canadian Entomologist 103: 1775–98CrossRefGoogle Scholar
Moser, J.C., Wilkinson, R.C., Clark, E.W. 1974. Mites associated with Dendroctonus frontalis Zimmermann (Coleoptera: Scolytidae) in Central America and Mexico. Turrialba 24: 379–81Google Scholar
Moser, J.C., Perry, T.J., Solheim, H. 1989. Ascospores hyperphoretic on mites associated with Ips typographus. Mycological Research 93: 513–7CrossRefGoogle Scholar
Moser, J.C., Perry, T.J., Bridges, J.R., Yin, H-F. 1995. Ascospore dispersal of Ceratocystiopsis ranaculosus, a mycangial fungus of the southern pine beetle. Mycologia 87: 84–6CrossRefGoogle Scholar
Ronco, F.P. Jr. 1990. Pinus edulis Englem., Pinyon. pp. 327–37 in Bums, R.M., Honkala, B.H. (Eds), Silvics of North America. US Department of Agriculture Agriculture Handbook 654Google Scholar
Sell, D., Kaliszewski, M. 1985. Tarsonemus fusarii Cooreman 1941 and Tarsonemus parafusarii Kaliszewski 1983 (Acari: Heterostigmanta) in Poland. pp. 589–92 in Striganova, B.R. (Ed), Soil Fauna and Soil Fertility, Proceedings of the 9th International Colloquium on Soil Zoology. Moscow: NaukaGoogle Scholar
Suski, Z.W. 1972. Tarsonemid mites on apple tress in Poland X. Laboratory studies on the biology of certain mites species of the family Tarsonemidae (Acarina, Heterostigmata). Zeszyty Problemowe Postepow Nauk Rolniczych 129: 111–37Google Scholar
Van Devender, T.R. 1990. Late Quaternary vegetation and climate of the Sonoran Desert, United States and Mexico. pp. 134–64 in Betancourt, J.L., Van Devender, T.R., Martin, P.S. (Eds), Packrat middens, the last 40,000 years of biotic change. Tuscon: The University of Arizona PressGoogle Scholar
Webb, T. III. 1986. Vegetational change in eastern North America from 18,000 to 500 yr B.P. pp. 63–9 in Rosenzweig, C., Dickenson, R. (Eds), Climate-vegetation interactions. Boulder: Office for Interdisciplinary Earth Studies, University Corporation for Atmospheric ResearchGoogle Scholar
Wood, S.L. 1982. The bark and ambrosia beetles of North and Central America (Coleoptera: Scolytidae), a taxonomic monograph. Great Basin Naturalist Memoirs 6Google Scholar