The Red-Cockaded Woodpecker Cavity Tree: A Very Special Pine

The adaptation of red-cockaded woodpeckers (Picoides borealis) to fire-maintained southern pine ecosystems has included the development of behaviors that permit the species to use living pines for their cavity trees. Their adaptation to pine ecosystems has also involved a major adjustment in the species' breeding system to cooperative breeding, probably in response to the extended time period required to excavate a completed cavity in a living pine and the relative rarity of completed cavities for nesting. The characteristics of live pines make them variable in their suitability as cavity trees, leading to the evolution of selection important to the woodpecker. ~ed-cockaded woodpeckers can detect the pine's ability to produce resin and select pines that are high producers. Higher yields of resin likely create better barriers against rat snakes. The socially dominant breeding male red-cockaded woodpecker selects the cavity tree that produces the most resin for its roost tree, which during spring becomes the group's nest tree. Our recent research suggests that redcockaded woodpeckers also select pines with particular resin chemistries. High concentrations of diterpenes may increase resin viscosity, stickiness, irritability, or other factors that may be important for creating a barrier

[1]  Kathleen E. Franzreb,et al.  The Red-cockaded Woodpecker: Surviving in a Fire-Maintained Ecosystem , 2002 .

[2]  D. Kulhavy,et al.  Red-cockaded woodpecker nest-cavity selection: relationships with cavity age and resin production , 1998 .

[3]  R. R. Schaefer,et al.  Heartwood, sapwood, and fungal decay associated with red-cockaded woodpecker cavity trees , 1994 .

[4]  J. Walters,et al.  Induction of red-cockaded woodpecker group formation by artificial cavity construction , 1991 .

[5]  D. Kulhavy,et al.  Causes of Mortality of Red-Cockaded Woodpecker Cavity Trees , 1991 .

[6]  R. Hooper,et al.  Heart Rot and Cavity Tree Selection by Red-Cockaded Woodpeckers , 1991 .

[7]  W. F. Watson,et al.  OLEORESIN CHARACTERISTICS AND SUSCEPTIBILITY OF FOUR SOUTHERN PINES TO SOUTHERN PINE BEETLE (COLEOPTERA: SCOLYTIDAE) ATTACKS , 1979, The Canadian Entomologist.

[8]  W. F. Watson,et al.  Physical properties of the oleoresin system of the four major southern pines , 1977 .

[9]  J. A. Jackson Gray Rat Snakes versus Red-Cockaded Woodpeckers: Predator-Prey Adaptations , 1974 .

[10]  Daniel Sáenz,et al.  Extent of Phellinus pini decay in loblolly pines and red-cockaded woodpecker cavity trees in eastern Texas. , 2004 .

[11]  R. Conner,et al.  FUNGI AND RED-COCKADED WOODPECKER CAVITY TREES , 2002 .

[12]  D. Kulhavy,et al.  Does Red-Cockaded Woodpecker Excavation of Resin Wells Increase Risk of Bark Beetle Infestation of Cavity Trees? , 2001 .

[13]  S. Austin LOSSES OF RED-COCKADED WOODPECKER CAVITY TREES TO SOUTHERN PINE BEETLES , 1995 .

[14]  J. Walters,et al.  Test of the Ecological Basis of Cooperative Breeding in Red-Cockaded Woodpeckers , 1992 .

[15]  D. Rudolph,et al.  CAVITY TREE SELECTION BY RED-COCKADED WOODPECKERS IN RELATION TO TREE AGE , 1991 .

[16]  D. Rudolph,et al.  Red-cockaded woodpeckers vs rat snakes: the effectiveness of the resin barrier , 1990 .

[17]  C. K. Copeyon A technique for constructing cavities for the red-cockaded woodpecker. , 1990 .

[18]  R. Costa,et al.  Red-cockaded woodpecker: status and management in the southern region in 1986 , 1989 .

[19]  Kathleen A. O''Halloran,et al.  Cavity-tree selection by red-cockaded woodpeckers as related to growth dynamics of Southern pines , 1987 .

[20]  R. Conner,et al.  Effects of Prescribing Burn on Cavity Trees of Red-Cockaded Woodpeckers , 1979 .

[21]  H. Lyr,et al.  The physiology of woody plants. , 1967 .

[22]  W. G. Wahlenberg Longleaf Pine: its use, ecology, regeneration, protection, growth, and management. , 1946 .