Cuticular hydrocarbons of the host-specific ectoparasitoid Cephalonomia stephanoderis (Hymenoptera: Bethylidae) and its host the coffee berry borer (Coleoptera: Scolytidae)

Abstract

Cuticular hydrocarbons have been identified from larvae and adults of the bethylid wasp Cephalonomia stephamoderis Betrem and larval, prepupal, pupal, and adult stages of its host, the scohtid beetle Hypothenemus hampei (Ferrari). Larval, male and female wasps have the same cuticular hydrocarbons, but in different relative abundances. The major components of adults are n-alkanes (C21-C33), monomethyl alkanes (3-, 5-, 7-, 9-, 10-, 11-, 12-, 13-, 14-, 15-, 16-, and 17-methyl), and Z-(10)-monomethyl alkenes (with the methyl branch at C11-O16). Minor components include a series of 3,X-; 4,X-; 5,X-; 6,X-; 7,X-, and 8,X-dimethyl alkanes (with X at C14-C19) and a series of 3,9,13- and 3,11,15-trimrtbyl alkanrs, Male C stephanoderis are charactrized by high proportions of n-alkanes and lower proportions of the monomethyl alkanes and methylbranched alkenes. Female wasps are characterized by lower proportions of n-alkanes and higher proportions of the monomethyl alkanes and methylbranched alkanes. Larval C. stephanoderis are characterized by high proportions of the methylbranched components and lower cuticular hydrocarbons are totally saturated. Major branched alkanes. Host scolytid beetle cuticular hydrocarbons are totally saturated. Major components of all stages and sexes include n-alkans (C22 -C31), monomethyl alkanes (3-, 4-, 5-, 13-, 14-, 15-, 16-, and 17-methyl), and Z-(10)-monomethyl alkenes (with the methyl and a series of 4,14- and 4,16-dimethyl alkans and 5,17 and 5,19-dimethyl alkans. All immature beetle stages had similar hydrocarbon compositions, which differed modefately from T those of the adults. As with the adult wasps, relative compositions of male and female beetles differed. Males were characterized by a greater proportion of n-alkanes ans lesser proportions of monomethyl alkans and trimethyl alkanes. Females had lesser proportions of n-alkanes and greater proportions of monomethyl alkanes and trimethyl alkanes. The cuticular profiles of the parasitoid and host are compared and discussed in terms of both intraspecific and interspecific semiochemical interactions.