Gallery Systems Research Articles

New trace fossils of termites (Insecta: Isoptera) from the late Eocene‐early Miocene of Egypt, and the reconstruction of ancient isopteran social behavior

Three new ichnogenera and five new ichnospecies are described for new trace fossils of termitaria (including associated gallery systems) of subterranean termites from upper Eocene through lower Miocene rocks of northern Egypt. All but two ichnospecies (Krausichnus trompitus, ichnogen, and ichnosp. nov., and A’, altus, ichnosp. nov.) show varying degrees of affinity to nests of the extant subterranean termite species Sphaerotermes sphaerothorax (Termitidae, Macro‐termitinae). Termitichnus qatranii (Bown, 1982) is divided into two ichnospecies, the previously named T. qatranii, and a more generalized form, T. simplicidens, ichnosp. nov. Vondrichnus obovatus, ichnogen. and ichnosp. nov., is named for simple, possibly macrotermitine nests with oblate form, and Fleaglellius pagodus, ichnogen. and ichnosp. nov., records a nest form similar to V. obovatus, but one in which successive vertical growth by chamber apposition has produced a subterranean, tower‐like structure, reminiscent of that built by extant, epig...

REVIEW OF MITES OF THE GENUS MUCROSEIUS (ACARI: MESOSTIGMATA: ASCIDAE) ASSOCIATED WITH SAWYER BEETLES (CERAMBYCIDAE: MONOCHAMUS AND MECYNIPPUS) AND PINE WOOD NEMATODES [APHELENCHOIDIDAE: BURSAPHELENCHUS XYLOPHILUS (STEINER AND BUHRER) NICKLE], WITH DESCRIPTIONS OF SIX NEW SPECIES FROM JAPAN AND NORTH AMERICA, AND NOTES ON THEIR PREVIOUS MISIDENTIFICATION

AbstractSix new species of Mucroseius having adult females phoretic on adult sawyer beetles of the genus Monochamus are described: Mucroseius nipponensis and Mucroseius squamosus from Monochamus alternatus Hope in Japan, Mucroseius algonquian from three species of Monochamus in eastern Canada and eastern United States, Mucroseius disparisetus from Monochamus titillator (Fabricius) in southeastern United States, Mucroseius Californicus from Monochamus clamator (LeConte) in California, and Mucroseius mexicanus from Monochamus rubigineus (Bates) in Mexico. Mucroseius aciculatus (Ishikawa, 1968), new combination, from Mecynippus pubicornis Bates in Japan, and the type-species, Mucroseius monochami Lindquist, 1962, from several species of Monochamus widely distributed in North America, are redescribed. Misidentifications of these species in the Japanese and North American literature are noted, and a key is given for these eight species. One adult female of an undescribed species found on a sawyer, Monochamus sutor Linnaeus, from Europe, is noted as possibly belonging to Mucroseius.The taxon Mucroseius is redescribed, and its problematic status as a genus is reviewed. The phylogenetic position of Mucroseius, which appears to be derived within the genus Proctolaelaps, is discussed. Previous observations on biological and ecological aspects of Mucroseius mites, including those published in Japanese, are critically reviewed, with new data added for host ranges and specificities, distribution, phoretic behavior, occurrence in sawyer gallery systems, mode of reproduction, and their association with the pine wood nematode, Bursaphelenchus xylophilus (Steiner and Buhrer) Nickle. Cheliceral structure and speculations on the feeding habits of these mites are discussed; however, feeding preferences have not been clarified.

Relative effectiveness of Scolytus scolytus, S. multistriatus and S. kirschi as vectors of Dutch elm disease

AbstractThree scolytid species consistently associated with Dutch elm disease were assessed and compared for their effectiveness as vectors ofOphiostoma ulmi.Assessments were based on the number of beetles within a sample carrying any detectable O.ulmi, the number of O.ulmispores carried by individual beetles and the number of discrete gallery systems colonised by O.ulmi.

Spatial Attack Pattern, Reproduction, and Brood Development of Ips calligraphus (Coleoptera: Scolytidae) in Relation to Slash Pine Phloem Thickness: A Field Study

Ips calligraphus (Germar) spatial attack pattern, reproduction, and development were studied in 55-cm-long bolts of slash pine (Pinus elliottii Engelm. var. elliottii) with thick (3–4 mm) or thin (1–2 mm) phloem. Bolts, artificially infested with two male beetles each, were placed in the field to allow colonization by wild populations. Quadrat and distance sampling methods indicated that the spatial pattern of male attacks (nuptial chambers) was uniform (ca. 9 cm apart) on bolts of both phloem classes. Males attacked predominantly (93%) through bark crevices. Attack, gallery, egg, and brood adult densities were all positively correlated with phloem thickness. Averages of 3.3 and 3.0 parent females per attacking male were found in thick and thin phloem, respectively. Gallery systems of introduced males tended to have more total gallery length and more eggs than those of wild males in both phloem classes. Brood adults from thick phloem emerged earlier and were larger than those from thin phloem. The sex ratios of brood adults reared from thick and thin phloem were similar (ca. 45% males). Results of this field study agreed with previous laboratory studies.

Quantitative variation of pheromone components in the spruce bark beetleIps typographus from different attack phases

Ips typographus beetles were collected in the field, separated into eight attack phases (from beetles walking on the trunk of a tree under attack to those excavating gallery systems with a mother gallery longer than 4 cm), and immediately frozen in liquid nitrogen. 2-Methyl-3-buten-2-ol,cis- andtrans-verbenol, verbenone, myrtenol, trans-myrtanol, ipsenol, ipsdienol, and 2-phenylethanol were quantified from excised hindguts against an internal standard, heptyl acetate, in the extraction solvent. Methylbutenol, the pinene alcohols, and 2-phenylethanol showed the same pattern of variation between attack phases in males, with the largest amounts present before accepting females and then a fast decline. Ipsenol and ipsdienol were not detected in males before the females were accepted, and the amounts increased when the females start their egg laying. Verbenone occurred only in trace amounts. The beetles were sampled from five Norway spruce trees (Picea abies) of differing resin flow. The correlations between the nine pheromone components and five major host monoterpenes in the gut showed that the variation in the amount of methyl-butenol, ipsenol, and ipsdienol could not be explained by the variation in the amounts of host monoterpenes. In contrast over 80% of the quantitative variation ofcis-verbenol,trans-verbenol, and myrtenol was explained by the amount of α-pinene. The nine pheromone components from 36 individual males were also quantified. Both methylbutenol andcis-verbenol showed a large variation in both amounts and proportions. Females containedtrans-verbenol and traces of most other components found in males. When accepted by the male, they also contained a female-specific compound, β-isophorone. Behavioral and biosynthetic implications of the results are discussed.

The evolution of mating systems in bark and ambrosia beetles (Coleoptera: Scolytidae and Platypodidae)

The extraordinary array of mating systems in the Scolytidae and Platypodidae has been largely overlooked by researchers interested in the evolution of sexual behaviour. This paper provides the first overview of reproductive behaviour in this important and widespread group, known to most biologists only by the reputations of tree-killing taxa. Referred to generally as ‘bark beetles’, these insects chew egg tunnels inside a variety of (usually dead) plant tissues, though most species are either phloeophagous (breeding in the inner bark of woody plants) or xylomycetophagous (all stages feeding on mutualistic fungi growing on sapwood or heartwood). In most species, permanent records of many aspects of reproductive behaviour are etched in the host; in many, engravings reveal female fecundity, eggs sired per male, hatching success, and offspring survivorship. Each gallery arm represents a good portion of a given female's lifetime reproduction, but in many species females commonly re-emerge to reproduce in one or two additional sites. In most species of bark beetles, each female initiates her own gallery, to be joined later by a male. These monogynous gallery systems are associated with mating systems defined by how long males stay with females: in a few species, males seldom if ever join females under the bark; in the vast majority of species, males stay for part or all of the oviposition period then leave to seek other mates; and a few groups exhibit permanent monogamy, in that both sexes die in their only gallery system. While these patterns emerge from an overview of the world scolytid fauna, the length of male residency has seldom been quantified, and the costs and benefits associated with male mating strategies have not been measured for any bark beetle. Male-initiated monogyny is uncommon in Scolytidae, though the rule in Platypodidae; all instances of which I am aware are summarized from a phylogenetic perspective. Inbreeding polygyny with highly biased sex ratios has arisen at least seven times in Scolytidae. These taxa are usually characterized by males being dwarfed, flightless, and uncommon. Sex determination is known for only a few examples, but both haplodiploidy and diplodiploidy have been reported. Multiple origins of harem polygyny (otherwise rare in invertebrates) add an exciting dimension to the comparative and experimental study of scolytid mating systems. In harem polygynous taxa, males initiate gallery construction. I summarize what little can be learned from the literature about the fine structure of harem polygynous mating systems in bark beetles, and the problem of measuring reproductive success. Data on the nature of harem polygyny in Pityophthorus lautus are presented, illustrating (a) the fluidity of harems; (b) that average eggs laid per gallery arm is relatively unaffected by harem size, but strongly influenced by resource quality; (c) that male egg-gain is strongly correlated with territory quality (a consequence of (b) above); and (d) the temporal patterning of immigration and emigration and its effects on gallery system sex ratios. The second half of this paper is a discussion of the evolution of bark and ambrosia beetle mating Mating systems, emphasizing sexual selection and the role of resources. Male, residence is interpreted as postcopulalory guarding—preventing sexual liaisons with wandering males. Operational sex ratio, encounter rate, synchrony of breeding, ejaculate competition, and spatiotemporal distribution of resources are discussed as evolutionary forces moulding scolytid and platypodid male postmating behaviour. The nature of male male competition is reviewed. The paucity of information on male behaviour in gallery systems is mentioned; whether or not males significantly aid females is not known. Three hypotheses are presented for why females re-emerge, a feature which strongly affects operational sex ratios. Finally, I summarize features of bark beetle existence predisposing them to the evolution of post-inseminative guarding. Male-initiated monogyny presents a puzzle. I propose that most uncontested examples can be explained by monogyny re-evolving from (male-initiated) harem polygyny, and I present an argument for the evolution of harem polygyny leading to the development of male gallery initiation. The evolution of harem polygyny in birds and mammals has attracted considerable attention. The Verner Willson Orians polygyny threshold model is discussed with respect to bark beetles in general and P. lautus in particular. Resource quality is a major factor in P. lautus harem dynamics: the cost to females of joining harems is apparently slight compared to benefits accrued from moving into sites with higher quality inner bark. Female-biased adult sex ratios have been suggested to lead to harem polygyny, and literature and original data pertinent to this hypothesis are examined. The geometric constraints model, based on the polygyny threshold concept but tailored to bark beetles, is proposed to account for the failure of most species to evolve harem polygyny, and testable predictions are derived that interrelate breeding systems, habitat quality, and progeny size. The evolution of Inbreeding is briefly covered, and two routes to inbreeding polygyny are suggested.

On the Social Organisation, Alarm and Fighting in the Primitive Cockroach Cryptocercus punctulatus Scudder

AbstractThe wood‐feeding cockroach Cryptocercus is usually believed to live in aggregations. Field observations, however, gave evidence for the existence of distinct family groups living in different gallery systems. This study investigates intraspecific behavioural interactions with respect to the social structure. The interactions among family members were observed in artificial burrows in the laboratory. Individuals from different families were brought together experimentally and the resulting alarm and fighting behaviour was studied. The importance of Cryptocercus for the evolution of termite sociality is discussed.

Ichnofossils and rhizoliths of the nearshore fluvial Jebel Qatrani Formation (Oligocene), Fayum Province, Egypt

The ichnofossils and rhizoliths of the Oligocene Jebel Qatrani Formation of Egypt are among the best preserved, most diverse in form, and most abundant of such structures yet recognized in fluvial rocks. Twenty-one forms are described. The ichnofauna contains traces (domichnia, fodinichnia, cubichnia) of probable annelid, insect, crustacean, and vertebrate origin. These include the first described fossil nest structures and gallery systems of subterranean termites (Isoptera), the first examples of Ophiomorpha from wholly fluvial rocks, and the first fossil vertebrate burrows from the African Tertiary. Rhizoliths associated with the ichnofauna and those occurring elsewhere document a variety of small, wetland plants, coastal mangroves, and much larger trees. The environment suggested by these traces is consistent with the coastal, tropical to subtropical, monsoonal rain forest, with adjacent more open areas, that is indicated by independent evidence of sedimentology, paleontology, and paleopedology.

Trichogramma semblidis [Chalcidoidea: Trichogrammatidae] as a parasite of the bark beetle eggs [Coleoptera: Scolytidae

It has been found thatTrichogramma semblidis (Aurv.) parasitizes the eggs ofleperisinus fraxini (Panz.),L. orni (Fuchs) andHylesinus crenatus (Fabr.) in typical variant ofCircaeo-Alnetum Oberdorfer 1953 in the Laski Experimental Forestry near Kepno. Thorough studies were conducted on exposed European ash logs and split wood in 3 methodical variants. The analysis of the galleries ofLeperisinus fraxini has showed that the average egg infestation amounted to 14.1%, 13.0% and 11.1% respectively. The egg infestation of individual gallery systems in the exposed control logs and split wood ranged between 2.7–51.2%, 1.2–44.1% and 1.7–69.2%, respectively, in different variants and the average effectiveness of the parasite amounted to 12.7% of the host egg mortality in 1970. Earlier observations and analyses of the gallery systems made on the ash trunks and branches in 1967 and 1968 showed 80.0% and 98.0% infestation of the eggs ofL. fraxini and 10.0% and 1.5% infestation of the eggs ofL. orni. Separate developmental stages of the parasite, the behaviour of the latter and penetration of the gallery systems were observed too. The most important data on the host species ofT. semblidis have been compared.

Pinhole Borers in Green Timber

SUMMARY A short account is given of the world wide problem of pinhole borers and the situation in Victoria is described. Only green timber is susceptible and both sapwood and heartwood are deeply penetrated by gallery systems. Platypodid and Scolytid pinhole borers are always, and Lymexylids may be, symbiotically associated with nutritive ‘ambrosia’ fungi. These permanently stain the wood along galleries and can reduce timber strength. Most economic loss occurs in tropical forests. In these, felled timber is usually attacked, in contrast to Australian forests where degrade occurs most frequently in living trees. Substantial pinhole borer damage in some Victorian temperate forests, notably in east Gippsland, can significantly reduce the value and quantity of sawn produce. The pinhole borer problem is seen largely as a matter of preventing timber degrade in forests, as seasoned timber is immune from attack.

Some relations of the meat ant, Iridomyrmex purpureus (hymenoptera: formicidae) with soil in South Australia

Iridomyrmex purpureus F. Smith is common in southern Australia and nests in conspicuous. often gravel-covered mounds. The effects of the ant on some properties of soil in its nests, and the effects of soil type on the distribution of the ant were studied by comparing the distribution of particle sizes in soil of nests and undisturbed soil profiles. Particle size analysis was used also to determine the relationships of nests and more or less truncated profiles on a naturally eroding, lateritic podzolic soil. Nests are constructed by excavation of gallery systems in the upper part of the profile, with a few shafts extending downwards for 1 metre or more. Excavated material is incorporated in the mound which is usually composed of soil from the A horizon with additions from the B horizon and imported gravel. The density and rate of turnover of nests both appear to he too low for I. purpureus to have any significance to pedogenesis. But soil texture and consistency do influence the distribution of the ant. for nests are not constructed in sands or in very loose, structureless soils. Examination of the distribution of particle sizes in material from nests on the lateritic podzolic soil suggests that establishment of some existing mounds may have pre-dated erosion which has, subsequently, removed more than 20 cm of A horizon. The erosion process would probably require at least hundreds of years, and. if the interpretation of these nests is correct, suggests that they are very old. This is not inconsistent with other observations on rates of change in this population of I. purpurens.

Biological studies of Brazilian Scolytidae and Platypodidae (Coleoptera) III. The tribe Hylesinini

Summary The distribution and host plants of eight neotropical species of Scolytidae in the genera Chramesus, Pseudochramesus, Phloeotribus and Cladoctonus are given. The known host plant families of all Central and South American species in these genera are tabulated. The gallery systems and life histories of Ps. opacus, Ph. pilula, Ph. rudis and Ph. nanus are described in detail. The effects of attack density, desiccation, parasites, predators and competition on the development of the gallery systems and the survival of the immature stages are discussed. None of the species studied are thought to be of economic importance.

Petrology and Sedimentology of Ophiomorpha Nodosa and Modern Callianasid Burrows: ABSTRACT

The trace fossil, Ophiomorpha nodosa Lundgren, callianasid burrows, and other similar decapod domichnia exhibit petrographically distinct wall structures that are formed by the mandibular activities of the decapods during construction of their tubular domiciles. These decapod burrows are lined with one or two layers of aggregated sand pellets, 1-10 mm in diameter. The pellets, in turn, are composed of radially oriented, 0.025-0.5-mm subspherical masses of sand grains in a fine-grained, organo-clay matrix. Callianasid decapods live and construct ophiomorphid burrows in a wide range of marine and brackish-water environments, including estuaries, bays, lagoons, tidal pools and creeks, beaches, shallow-littoral deposits, and in sediments at least 1.5 km offshore at depths of at least 12 m. Ophiomorphid burrows of Callianasa major and C. atlanticus average only about 5 burrows/sq m in the high-energy, open-marine shore zones and increase to an average of 20 burrows/sq m in 10 m of water, 1 km offshore. The highest concentrations of actively used ophiomorphid burrows, up to 450/sq m, are in the protected, low-energy, tidal pools of the bay and lagoon shores. Contrary to previous reports, callianasid burrows and their ancient equivalents, Ophiomorpha nodosa Lundgren, are not indicators of the high-energy, open-marine littoral zone. Callianasa major and C. atlanticus burrows extend down, vertically, to depths of 4.7 m below the sediment surface, where they branch laterally as interconnected, horizontal gallery systems of wide extent. Identical configurations of Ophiomorpha nodosa Lundgren are present in the Gulf Coastal Plain Mesozoic and Cenozoic sediments. End_of_Article - Last_Page 801------------

Biological studies of Brazilian Scolytidae and Platypodidae (Coleoptera). I. Camptocerus Dejean

Observations were made on Camptocerus aeneipennis (F.), C. aterrimus Eggers, C. niger (F.) and C. aquilus Wood infesting felled trees in the gallery and valley forests of the north-eastern Mato Grosso between September and December, 1968. The lifecycles of all four species are completed in 7–10 weeks. The gallery systems resemble those of the Xyloterini and Scolytoplatypus. The maternal galleries penetrate the wood and either lie in the transverse plane or run longitudinally, depending on the stem diameter. Trees of the family Burseraceae are especially attacked. The larvae are mycetophagous, developing in cradles which they enlarge as they grow. Larvae were attacked by an ectoparasitic Braconid wasp and predatory beetle larvae. Larval mortality is lower when one or both parents remain in the gallery. The potential forest importance of the four species could be contained by bark removal and rapid drying.

BIOSYSTEMATICS OF THE GENUS IPS (COLEOPTERA: SCOLYTIDAE) IN NORTH AMERICA. HOPPING’S GROUP III

Abstract Ips integer (Eichhoff) is removed from synonymy with plastographus (Leconte), which in turn is divided into two subspecies: p. plastographus (Leconte) and p. maritimus n. subsp. The former occurs in the subalpine zone of the Sierra Nevada, Cascade, and northern Rocky Mountain ranges; the latter is apparently restricted to the California coast.I. integer and p. plastographus are partially sympatric, but even in a mixed attack on the same host the two species were rarely found in the same gallery systems. In field experiments females showed strong preference for the sex pheromone of conspecific males. Laboratory-produced hybrid males were intermediately attractive to both species.In breeding experiments the plastographus subspecies were fully interfertile but fertility of backcross and F2 generations was reduced. Egg hatchability was low in interspecific combinations of integer and plastographus. However, results were different for the reciprocal pairings and the backcrosses showed increased fertility. These data defy explanation by nuclear genetics but may result from cytoplasmic incompatibility.Although integer and the two plastographus subspecies have the same karyotypic formula, 15 A A + Xyp, the three entities can be differentiated by the size of heteropycnotic segments in pachytene chromosomes and the shapes (centromere position) of some of the five largest chromosomes at second metaphase. Univalents, multivalents, bridged anaphases, and other abnormalities were common in hybrids of plastographus and integer. Heteromorphic bivalents, but no other abnormalities, were observed in hybrids of the plastographus subspecies.

SOUND PRODUCTION IN SCOLYTIDAE (COLEOPTERA) WITH EMPHASIS ON THE GENUSIPS

AbstractThe "pars stridens–plectrum" terminology of stridulatory organs is discussed. A list of 77 species of Scolytidae known or presumed to bear stridulatory structures is presented. The three types of scolytid stridulatory organs, vertex–pronotal, gula–prosternal, and elytra–abdominal tergites, are described and discussed.All North American species in the genusIpswere examined for stridulatory organs. The gula–prosternal type was found on females, and possibly males, ofI.concinnus(Mannerheim) andI.mexicanus(Hopkins). The vertex–pronotal type occurs on females of 14 other species. No stridulatory structures were found on either sex of the remaining 17Ipsspecies. Females of 15 of the 18 pine-infesting species have stridulatory organs, while 14 of the 15 spruce-infesting species apparently lack them. FemaleI.confusus(LeConte) stridulate when entering the male entrance tunnels. Removal of the stridulatory organ has two effects: males do not permit some of these non-stridulating females to enter, and they deny entry to others for an unusually long period of time.Possession of a stridulatory apparatus in the Scolytidae appears to be associated with the sex opposite to that which initiates the entrance tunnel.No significant differences were found between gallery systems constructed by femaleI.confususwith the stridulatory organ removed and those constructed by stridulating females except that more single stridulating females excavated two or more egg galleries from a nuptial chamber.

NEW HOSTS, DISTRIBUTION, AND BIOLOGICAL NOTES ON AN IMPORTED AMBROSIA BEETLE, XYLOSANDRUS GERMANUS (COLEOPTERA: SCOLYTIDAE)

AbstractNew hosts of an introduced Oriental ambrosia beetle were tupelo (Nyssa aquatica), swamp cypress (Taxodium distichum), and black cherry (Prunus serotina). Known distribution was extended southward into North Carolina. A partial seasonal development with simple through complex gallery systems was observed.

Studies of foraging galleries and the invasion of living tres bu Coptotermes acinaciformis and C. brunneus (Isoptera)

The establishment of colonies of Coptotermes acinaciformis (Froggatt) in living trees results in a central "pipe" being eaten out, this being filled with "mudgut" material. Adjacent trees sometimes contain a clear pipe in the trunk and the connection between these trees and the central colony tree was investigated. The gallery systems radiating from colonies in trees in coastal forests of eastern Australia were studied. In the first study subterranean galleries from one colony were traced to nine other living trees; in the second study, in a different tree association, 15 living trees were attacked from the central colony. Galleries from a colony persisting in a high stump were traced to three living trees in a further study. In each colony studied, dead trees, logs, and stumps were also attacked. The galleries from each colony extended over an area of 0.4 acre, the maximum length of any gallery being 156 ft. In some areas of Australia C. acinaciformis can persist in mound colonies after the host trees have been eaten out, and foraging galleries from a mound colony in Western Australia were traced to several gimlet gums (Eucalyptus salubris F. Muell.). In the Murchison River basin of Western Australia, mound colonies of Coptotermes brunneus Gay occur in an area of sclerophyll woodland and mallee. The foraging galleries were traced to two species of Eucalyptus, one of which was much more susceptible than the other. The sand adjacent to the galleries of C. brunneus is impregnated with some cementing substance. Evidence on the maximum foraging distance of 150 ft for C. brunneus is given. In both species the invasion of trees was often through the living bark tissue covering a root or at the base of the tree trunk. This is in contrast to the initial entry of colony-founding pairs, which can only enter through a tree injury.

TERMITES AS FOREST PESTS

SUMMARY The attack toy termites on indigenous eucalypt forests in Australia results in a serious loss of timber. Porotermes adamsoni is the most serious pest of alpine forests in New South Wales, Tasmania, and Victoria; and two species of Coptotermes (C. acinaciformis and C. frenchi) are very serious pests of trees in coastal forests and savannah woodland areas. Healthy trees in plantations of exotic pines are not attacked. It is possible that the attack by P. adamsoni can be reduced considerably by a sound regeneration program involving the removal of veteran trees and good silvicultural treatment of all trees before they reach the veteran stage. Such programs are being carried out in Australia. In contrast to P. adamsoni the damage to highly developed coastal eucalypt forests by the two Coptotermes spp. remains severe. Trees are often attacked well before they reach mill log size. Studies of tile gallery systems of C. acinaciformis have shown that the termites from a colony within one living tree can at...