Vergil’s depiction of Juno as saeva does not correspond to Homer’s depiction of Hera, but rather to a combination of Homer’s Hera and Pallas. Vergil’s Juno, moreover, is far less subservient to Jupiter (who is not really as active in the Aeneid as Zeus is in the Iliad). While Homer frequently pairs Hera with Pallas Athena, Vergil’s Juno acts independently, while assuming in particular many of the traits of Homer’s Pallas Athena.
A driving force in Vergil’s Aeneid is the hostility of Juno to the Trojans as they approach, and finally arrive in Italy. The epic in some ways mirrors the opposition encountered by Augustus as the new ruler of Rome. Juno’s opposition to the Trojans has its origin not only in Greek mythology, but in the history of the local peoples of Italy with whom early Romans had to contend. From the outset of the poem she becomes the personification of these opposing forces. Once the Trojans finally reach mainland Italy, she sets in motion a long war, although the one depicted in the Aeneid was not as long as the real wars Romans waged with the Latin League and with the many of the tribes of Italy, including the Veii. The reality of the wars Rome had to contend with are here compared to the relatively brief one depicted in the Aeneid, and the pacification of Juno reflects the merging of the different peoples of Rome with their subjugator.
Authors:A. Murray, R. Marten, A. Johnston, and P. Martin
The analytical potential of low level, high resolution gamma-ray spectrometry for naturally occurring radionuclides at environmental levels is described, with particular emphasis on detector background levels and sensitivity. Comparisons are drawn between the performance of a specially designed low background detector system, and that of standard off the shelf devices. Sample characteristics, calibration procedures and checks, are described, and empirical minimum detection limits of between 0.4 Bq·kg–1 (226Ra,228Th) and 10 Bq·kg–1 (210Pb) are derived for soil or sediment samples of about 250 g. Representative analyses of a variety of environmental samples, including water, plant material, animal tissue and sediment, are given to illustrate the routine use of the spectrometer.