The study of witness testimony raises questions which are fundamental for the student of other cultures, whether past or contemporary. What are the standards expected of a reliable informant and how is reliability to be recognised? How is reliable knowledge about the past established? The aim of this paper is to analyse the use of witnesses in classical Athenian lawcourts both for its epistemological implications — what does it tell us about Athenian ideas of ‘expert witnesses’, of reliability, of truthfulness and bias — and for the information it gives us about Athenian society and court practice. What kind of men did Athenian litigants select to act as witnesses for them, and what effect did they hope their witnesses’ testimonies would have on the jury? If we start out from the assumption of modern courts that witnesses are called to ‘establish the facts of the case’ we shall misunderstand the Athenian data. What witnesses actually testified often was not very important: their testimonies might be insignificant, irrelevant or repetitive. To understand their role it is necessary to see them as minor characters in a drama, whose presence provides the backdrop against which the litigant wishes his own actions and character to be seen. Respectable witnesses — officials, members of the ‘professions’, reputable politicians — establish his own respectability. The support of neighbours, associates and kin shows that those who know the milieu in which the dispute arose are on the litigant's side. Denigration Of the opponent's witnesses, kin and associates presents him as a vicious and unreliable character. In the construction of a character‐portrait in court witnesses had an important role to play. 相似文献
Dental calculus extracted from the teeth of 28 prehistoric human skeletons from coastal and valley archaeological sites in northern Chile that date from the Archaic period (∼2300 BC) to the Late Intermediate period (AD 1476) was analyzed for stable isotope (δ15N, δ13C) compositions. δ15N compositions were extremely heavy (+17.8 to +33.1‰), but comparable to some studies using conventional human biomaterials (hair, nail, muscle) at other prehistoric sites in northern Chile. There was a negative correlation between δ15N and δ13C for coastal sites, but a positive correlation for valley sites. Results for the valley sites point to a diet that was influenced by marine resources throughout all time periods. The unusually heavy δ15N values for the coastal sites require a dietary component with a δ15N composition significantly heavier than that of marine resources. The hyper-aridity at the study area (mean annual rainfall of 0.5–0.6 mm/year) is a likely contributing factor to the production of heavy δ15N values, but is unlikely to account for the heaviest δ15N values (>+30‰). One possible explanation for the heaviest δ15N values is that dietary components were impacted by isotopically-heavy guano, which is abundant in the region. Guano may have been used as a fertilizer during crop cultivation at the onset of the Formative period, continuing through the Historic period after Spanish contact. The indirect impact of guano from abundant bird habitats in the region may have influenced wild foodstuffs harvested throughout the pre-agricultural period. Results provide support for the utility of dental calculus as a proxy for obtaining stable carbon and nitrogen isotope signatures for use in paleodietary studies. 相似文献
“22 STAYED,” by Virginia Pasley. London, W. H. Allen, 1955. Pp. 224. 15/‐.
“MONOPOLY AND COMPETITION AND THEIR REGULATION, (ed.) E. H. Chamberlin. International Economic Association. Macmillan, London, 1954. Pp. xvi + 549. 36/‐ sterling.
“THE MAKING OF POST‐WAR EUROPE,” by Dt. E. Bramsted. 相似文献
CHINA AND THE OVERSEAS CHINESE. A STUDY OF PEKING'S CHANGING POLICY, 1949–1970. Stephen FitzGerald. Cambridge University Press, 1972. 268 pp. £5.90.
CHINA'S WORLD: THE FOREIGN POLICY OF A DEVELOPING STATE. J. D. Simmonds. Australian National University Press, 1970. 0–7081–0694–3. 200 pp. $6.95.
THE CONVENTIONS OF CRISIS: A STUDY IN DIPLOMATIC MANAGEMENT. Coral Bell. Oxford University Press for the Royal Institute of International Affairs, 1971. 0–19–285054–7. 131 pp. $3.40 paper.
FROM CRISIS TO CRISIS: PAKISTAN 1962–1969. Herbert Feldmon. Oxford University Press, London, 1972. 0–19–215192–4. 340 pp. $17.10.
INDIAN REVOLUTIONARIES ABROAD. A. C. Bose. Bha Rati Bhawan, Patna, 1971. 268 pp. Rs. 30.00.
THE AUSTRALIAN‐NEW ZEALAND AGREEMENT 1944. Robin Kay (ed.). A. R. Shearer, Government Printer, Wellington, New Zealand, 1972. 297 pp. $NZ7.50.
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BRAZIL: THE PEOPLE AND THE POWER. M. Arraes. Pelican Latin American Library. $1.35. 相似文献
A struggle between different forms of food production for the future of agriculture space has been occurring in many regions of the world. Drawing on the literature of the geography of food and the theory of productive worlds, we propose that the discourse strategies deployed by competing actors should be considered part of the set of conventions that guide productive activities. Two examples of discourse strategies are outlined: the use of articulation to position a desired outcome within a historically resonant discourse in order to gain legitimacy; and the maintenance of a strategic tension between isomorphism and differentiation such that a stance is perceived as a credible choice. We describe and map the impacts of these discourse strategies as they were deployed by anti- and pro-genetic modification groups in the struggle to become the “natural” successor to New Zealand's conventional agricultural heritage. The shifts in discourse positions of the two protagonists highlight the increased hybridity and regional complexity of the worlds of food and the battle for agricultural space. 相似文献
Rich, T.H., Hopson, J.A., Gill, P.G., Trusler, P., Rogers-Davidson, S., Morton, S., Cifelli, R.L., Pickering, D., Kool, L., Siu, K., Burgmann, F.A., Senden, T., Evans, A.R., Wagstaff, B.E., Seegets-Villiers, D., Corfe, I.J., Flannery, T.F., Walker, K., Musser, A.M., Archer, M., Pian, R. & Vickers-Rich, P., June 2016. The mandible and dentition of the Early Cretaceous monotreme Teinolophos trusleri. Alcheringa 40, xx–xx. ISSN 0311-5518.The monotreme Teinolophos trusleri Rich, Vickers-Rich, Constantine, Flannery, Kool & van Klaveren, 1999Rich, T.H., Vickers-Rich, P., Constantine, A., Flannery, T.F., Kool, L. & van Klaveren, N., 1999. Early Cretaceous mammals from Flat Rocks, Victoria, Australia. Records of the Queen Victoria Museum and Art Gallery106, 1–34.[Google Scholar] from the Early Cretaceous of Australia is redescribed and reinterpreted here in light of additional specimens of that species and compared with the exquisitely preserved Early Cretaceous mammals from Liaoning Province, China. Together, this material indicates that although T. trusleri lacked a rod of postdentary bones contacting the dentary, as occurs in non-mammalian cynodonts and basal mammaliaforms, it did not share the condition present in all living mammals, including monotremes, of having the three auditory ossicles, which directly connect the tympanic membrane to the fenestra ovalis, being freely suspended within the middle ear cavity. Rather, T. trusleri appears to have had an intermediate condition, present in some Early Cretaceous mammals from Liaoning, in which the postdentary bones cum ear ossicles retained a connection to a persisting Meckel’s cartilage although not to the dentary. Teinolophos thus indicates that the condition of freely suspended auditory ossicles was acquired independently in monotremes and therian mammals. Much of the anterior region of the lower jaw of Teinolophos is now known, along with an isolated upper ultimate premolar. The previously unknown anterior region of the jaw is elongated and delicate as in extant monotremes, but differs in having at least seven antemolar teeth, which are separated by distinct diastemata. The dental formula of the lower jaw of Teinolophos trusleri as now known is i2 c1 p4 m5. Both the deep lower jaw and the long-rooted upper premolar indicate that Teinolophos, unlike undoubted ornithorhynchids (including the extinct Obdurodon), lacked a bill.Thomas H. Rich [trich@museum.vic.gov.au], Sally Rogers-Davidson [srogers@museum.vic.gov.au], David Pickering [dpick@museum.vic.gov.au], Timothy F. Flannery [tim.flannery@textpublishing.com.au], Ken Walker [kwalker@museum.vic.gov.au], Museum Victoria, PO Box 666, Melbourne, Victoria 3001, Australia; James A. Hopson [jhopson@uchicago.edu], Department of Organismal Biology & Anatomy, University of Chicago,1025 East 57th Street, Chicago, IL 60637, USA; Pamela G. Gill [pam.gill@bristol.ac.uk], School of Earth Sciences, University of Bristol, Bristol BS8 1RJ, U.K. and Earth Science Department, The Natural History Museum, Cromwell Road, London SW7 5BD, UK; Peter Trusler [peter@petertrusler.com.au], Lesley Kool [koollesley@gmail.com], Doris Seegets-Villiers [doris.seegets-villiers@monash.edu], Patricia Vickers-Rich [pat.rich@monash.edu], School of Earth, Atmosphere and Environment, Monash University, Victoria 3800, Australia; Steve Morton [steve.morton@monash.edu], Karen Siu [karen.siu@monash.edu], School of Physics and Astronomy, Monash University, Victoria 3800, Australia; Richard L. Cifelli [rlc@ou.edu] Sam Noble Oklahoma Museum of Natural History, University of Oklahoma, Norman, OK 73072, USA; Flame A. Burgmann [flame.burgmann@monash.edu], Monash Centre for Electron Microscopy, 10 Innovation Walk, Monash University, Clayton, Victoria 3800, Australia; Tim Senden [Tim.Senden@anu.edu.au], Department of Applied Mathematics, Research School of Physical Sciences and Engineering, The Australian National University, Canberra, Australian Capital Territory 0200, Australia; Alistair R. Evans [alistair.evans@monash.edu], School of Biological Sciences, Monash University, Victoria 3800, Australia; Barbara E. Wagstaff [wagstaff@unimelb.edu.au], School of Earth Sciences, The University of Melbourne, Victoria 3010, Australia; Ian J. Corfe [ian.corfe@helsinki.fi], Institute of Biotechnology, Viikinkaari 9, 00014, University of Helsinki, Finland; Anne M. Musser [anne.musser@austmus.gov.au], Australian Museum, 1 College Street, Sydney NSW 2010 Australia; Michael Archer [m.archer@unsw.edu.au], School of Biological, Earth, and Environmental Sciences, University of New South Wales, Sydney, NSW 2052, Australia; Rebecca Pian [rpian@amnh.org], Division of Paleontology, American Museum of Natural History, Central Park West at 79th Street, New York, NY 10024-5192, USA. Received 7.4.2016; accepted 14.4.2016.相似文献