common name: pine shoot beetle
scientific name: Tomicus piniperda (Linnaeus) (Insecta: Coleoptera: Curculionidae: Scolytinae)
Tomicus piniperda (Linnaeus), a pine shoot beetle native to Europe, was first discovered in the
United States in July 1992, in a Christmas tree plantation in Ohio. Since then, intensive surveying by the U.S. Department of Agriculture and state departments of agriculture has revealed its presence (as of 27 June 2006) in thirteen northern states: Illinois, Indiana, Iowa, Maine, Maryland, Michigan, New Hampshire, New York, Ohio, Pennsylvania, Vermont, West Virginia and Wisconsin (Anonymous 2004b, NAPPO 2006).
beetle in pine shoot
Because T. piniperda occurs about as far south in the Old World as the latitude of Florida, it is considered a potential threat to at least some of the pine species intensively cultivated in
Florida.
The beetle is reported from Algeria, Austria, Belgium, Bulgaria, Canary Islands, Cyprus, Czech Republic, Finland, France, Germany, Great Britain, Greece, Hungary, Italy, Japan, Korea, Madeira, Netherlands, Norway, Poland, Portugal, Rumania, Russia, Slovakia, Spain, Sweden, Switzerland, and Turkey (Anonymous 1972).
This species is also reported as a serious forest pest in China (Hui 1991). In the United States,
it has been found thus far in twelve northeastern and north central states. In Canada, it is
established in the Great Lakes regions of Ontario and Quebec (Humphreys and Allen 1998).
The adults are brown to black, 3.5 to 4.8 mm long, and somewhat resemble individuals of Dendroctonus (southern pine beetle and black turpentine beetle) in general appearance, but the funicle of the antenna is composed of six antennomeres. Tomicus piniperda can be distinguished from other members of the genus by the smooth second elytral interval on the declivity.
adult
adult
The following information is derived from Hanson (1940), who studied the life-cycle of Tomicus piniperda in Great Britain. This species overwinters as an adult, either in hollowed twigs or in galleries at the base of the tree, emerging as early as February in warm localities to construct brood galleries at the base of the tree trunk. Development from egg to adult requires about three months, with adults of the new generation beginning to emerge in June.
galleries
The new adults are sexually immature and move into the tree crown to feed on the growing tips throughout the summer. The adults which overwintered also move into the crowns for what is known as "regeneration feeding." These individuals then move back into the trunks to construct new galleries and to lay a second batch of eggs. The adults of this second brood usually emerge late in the summer. In Great Britain there is usually only one generation per year; in warmer countries there may be two generations annually.
Studies by the Canadian Forest Service confirms that the pine shoot beetle completes one generation per year in that region and the northern United States. Overwintering adults begin flights during March in the Great Lakes area, when daily maximum temperatures reach 10 to 12°C and the daily mean temperature is 7 to 8°C. The adults can fly for several kilometers to obtain a suitable host. The adult beetles prefer to colonize freshly cut stumps and slash but can attack stressed living trees. The females excavate galleries, 10 to 25 cm long, under the bark to lay their eggs with the galleries more numerous on the sides of logs and trees warmed by
the sun (Humphreys and Allen 1998).
galleries
After laying eggs in the galleries, the adult emerge and then die. The larvae soon emerge and
feed in separate galleries 2.5 to 10 cm long from April through June. In May or June, larvae
pupate at the end of their feeding galleries. The new generation emerges through the bark and
attacks new shoots on pine trees of all ages. The beetles damage the new growth by burrowing
up to 10 cm into the pith. In October, the adults move into the soil or the base of pine trees to
overwinter. While adults can overwinter in shoots in warmer climates, they must move under
the bark at the base of trees or the soil in colder weather. Snow pack adds insulation in many
areas of Canada and the more northern United States (Humphreys and Allen 1998).
This species is considered the most serious scolytid pest of pines in Europe. It attacks both the trunks and growing shoots of pines, especially Scotch pine, Pinus sylvestris L. In Europe, it occasionally attacks spruce (Abies sp.) and larch (Larix sp.). It especially attacks weakened, stressed, or dying trees, but will also attack and kill apparently healthy trees. In the United States, it has been found most commonly in P. sylvestris, but also in Austrian pine, P. nigra, and eastern white pine, P. strobus.
According to Hanson (1940), the worst damage caused by the beetle is the tip feeding: "This destruction of the growing points causes various forms of malformation ... and results in great reduction of the value of the crop." Trees may be destroyed by the tip feeding, or by the feeding in the trunk, or by attack of other insects caused by the stress. This kind of damage would be especially severe in Christmas tree plantations, where tree form is the primary consideration, as "...the injuries caused by [Tomicus] are of a permanent character and the record of the insect's attack is indelibly stamped on the tree..." (Hanson 1937). It has recently
been reported by Hui (1991) as a severe pest of Pinus yunnanensis L. in the Kunming Region of China, where it killed many apparently healthy trees and "...caused great economic losses."
damage
close up of damage
It is felt that four species of pines native to Florida might be susceptible to attack by Tomicus
piniperda, based primarily on resin flow and bark characteristics:
- sand pine, Pinus clausa (Chapm. ex Engelm.) Vasey ex Sarg.
- spruce pine, P. glabra Walt.
- pond pine, P. serotina Michx. and
- loblolly pine, P. taeda L.
Forest resources that may be threatened include Christmas trees, pine landscape/nursery
products, and pine timber. Loblolly pine is the most important commercial species with a
growing volume in Florida of almost 675 million cubic feet. Sand pine is the primary
Christmas tree crop and annual retail sales of Florida Christmas trees amount to about $3
million. Figures were gathered from federal, state, and industry sources.
Symptoms of attack include dieback, yellowing, and especially dead, bored-out shoots littering
the ground under infested trees (Anonymous 1972). Damage may resemble that sometimes caused by Ips spp. or by pine tip moths (Rhyacionia spp.) and any shoot damage should be carefully examined. Look for 2 to 3 mm circular exit and entrance holes created by the adults near the broken ends of the shoots. In addition, first and second year shoots droop and become yellow or red in early summer (Humphreys and Allen 1998).
circular hole in pine shoot
close up of damage
adult feeding damage - green flags
adult feeding damage - brown flags
There apparently is no practical chemical control for this pest. Cultural practices used in Europe include precise timing of cutting operations and the debarking of cut timber. A predatory beetle, Thanasimus formicarius Linnaeus, can eat several pine shoot beetles daily. T. formicarius disperse just before the flight of their prey (Tomicus piniperda and T. minor as well as other bark beetles) or during, or just after. Often they are waiting on the fallen pine trees and begin feeding on bark beetles as they land. Both T. formicarius and the bark beetles are attracted to monoterpenes from the damaged areas of the fallen trees.
T. formicarius
A quarantine on the movement of host trees from infested states exists, both from states that
are not infested and between infested and non-infested of areas of states where the pine shoot
beetle is established. Check to see if a state has a pine shoot beetle compliance program before
moving or accepting trees from infested areas (Anonymous 2001, McCullough 2004).
- Anonymous. 1972. Insects not known to occur in the United States. A bark beetle (Tomicus
piniperda (Linnaeus). USDA Cooperative Economic Institute Report 22: 234-236.
- Anonymous. (2001). Summary - State of Maine pine shoot beetle regulations. http://www.state.me.us/doc/mfs/PSBsum.HTM (15 March 2004).
- Anonymous. (2004a). Pine shoot beetle, Tomicus piniperda. National Agricultural Pest
Information System.
http://www.ceris.purdue.edu/napis/pests/psb/ (15 March 2004).
- Anonymous. (2004b). Pine shoot beetle. USDA Aphis Plant Detection and Management Programs. http://www.aphis.usda.gov/ppq/ispm/psb/ (15 March 2004).
- Byers J. (2004). Thanasimus formicarius. Chemical Ecology of Insects.
http://www.wcrl.ars.usda.gov/cec/insects/tformi.htm (23 July 2004).
- Cedervind J, Pettersson M, Långström B. (2003). Attack dynamics of the pine shoot beetle, Tomicus piniperda (Col.; Scolytinae) in Scots pine stands defoliated by Bupalus piniaria (Lep.; Geometridae). Agricultural and Forest Entomology 5: 253
http://www.blackwell-synergy.com/links/doi/10.1046/j.1461-9563.2003.00187.x/full/ (15 March 2004).
- Hanson S. 1937. Notes on the ecology and control of pine beetles in Great Britain. Bulletin
of Entomological Research 28: 185-236.
- Hanson S. 1940. The prevention of outbreaks of the pine beetles under war-time conditions.
Bulletin of Entomological Research 31: 247-251.
- Hui Y. 1991. On the bionomy of Tomicus piniperda (L.) (Col., Scolytidae) in the Kunming
region of China. Journal of Applied Entomology 112: 366-369.
- Humphreys N, Allen E. (1998). The pine shoot beetle. http://warehouse.pfc.forestry.ca/pfc/5134.pdf (15 March 2004).
- McCullough DG. (2004). Pine shoot beetle compliance management program.
http://www.michigan.gov/mda/0,1607,7-125-1568_2390_5974-11726--,00.html (15 March 2004).
- NAPPO. (2006). Update on Quarantine Areas for Pine Shoot Beetle (PSB), (Tomicus piniperda), in Iowa, Michigan, and Ohio. Phytosanitary Alert System. http://www.pestalert.org/oprDetail.cfm?oprID=207 (28 June 2006).
Authors: Michael C.Thomas and Wayne N. Dixon, Florida Department of Agriculture and Consumer Services, Division of Plant Industry; and Thomas R. Fasulo, University of Florida
Originally published as DPI Entomology Circular 354. Updated for this publication.
Photographs: www.forestryimages.org and USDA
Project Coordinator: Thomas R. Fasulo, University of Florida
Publication Number: EENY-321
Publication Date: April 2004. Latest revision: June 2006.
Copyright 2004-2006 University of Florida
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