Adams, M. R., Williams, J. K., and Kaplan, J. R. (1995). Effects of androgens on coronary artery atherosclerosis and atherosclerosis-related impairement of vascular responsiveness. Arteriosclerosis Thrombosis and Vascular Biology 15: 562–70CrossRefGoogle Scholar

Adelman, R., Saukm, R. L., and Ames, B. N. (1988). Oxidative damage to DNA: relation to species metabolic rate and life span. Proceedings of the National Academy of Science USA 85: 2706–8CrossRefGoogle ScholarPubMed

Albin, R. L. (1988). The pleiotropic gene theory of senescence: supportive evidence from human genetic disease. Ethology and Sociobiology 9: 371–82CrossRefGoogle Scholar

Albin, R. L. (1994). Antagonistic pleiotropy, mutation accumulation, and human genetic disease. In Genetics and Evolution of Aging, M. R. Rose and C. E. Finch (eds.). Amsterdam: Kluwer Academic PublishersCrossRef

Alexander, R. M. (1998). Mammalian life history. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, and M. A. Preece, (eds.). Cambridge: Cambridge University Press, p. 98

Alfie, J., Waisman, G. D., Galarza, C. R.et al. (1995). Relationships between systemic hemodynamics and ambulatory blood pressure level are sex dependent. Hypertension 26: 1195–99CrossRefGoogle Scholar

Allsopp, R. C. (1992). Models of initiation of replicative senescence by loss of telomeric DNA. Experimental Gerontology 31: 235–43CrossRefGoogle Scholar

Allsopp, R. C. (1996). Models of initiation of replicative senescence by loss of telomeric DNA. Experimental Gerontology 31: 235–43CrossRefGoogle ScholarPubMed

Aloia, J. F., Vaswani, A., Kuimei, M., and Flaster, E. (1996). Aging in women – the four-compartment model of body composition. Metabolism 45: 43–8CrossRefGoogle ScholarPubMed

Alterm, G. and Riley, J. C. (1989). Frailty, sickness, and death: models of morbidity and mortality in historic populations. Population Studies 43: 25–43CrossRefGoogle Scholar

Alvarez, H. P. (2000). Grandmother hypothesis and primate life histories. American Journal of Physical Anthropology 113: 435–503.0.CO;2-O>CrossRefGoogle ScholarPubMed

Alzheimer's Disease and Related Disorders Association, Inc. (ADRDA) (1996). The use of apo E testing in Alzheimer's disease. Research and Practice

American Heart Association (AHA). (1988). The Joint National Committee on Detection, Evaluation, and Treatment of High Blood Pressure: the 1988 Report. Archives of Internal Medicine 148: 1020–38

Ames, B. N., Shigenaga, M. K., and Hagen, T. M. (1993). Oxidants, antioxidants and the degenerative diseases of aging. Proceedings of the National Academy of Sciences USA 90: 7915–22CrossRefGoogle ScholarPubMed

Anderson, J. J. and Pollitzer, W. S. (1994). Ethnic and genetic differences in susceptibility to osteoporotic fractures. Advances in Nutritional Research 9: 129–49Google ScholarPubMed

Anderson, K., Launer, L. J., Dewey, M. E.et al. (1999). Gender differences in the incidence of AD and vascular dementia. The EURODEM Studies. Neurology 53: 1992–7CrossRefGoogle Scholar

Anderson, R. N. (2001). United States Life Tables, 1998. National Vital Statistics Report, 48. Hyattsville, M. D.: NCHS

Andres, R. (1971). Aging and diabetes. Medical Clinics of North America 55: 835–46CrossRefGoogle ScholarPubMed

Andres, R. (1980). Effects of obesity on total Mortality. International Journal of Obesity 4: 381Google Scholar

Anemone, R. L., Moorey, M. P., and Siegel, M. I. (1996). Longitudinal study of dental development in chimpanzees of known chronological age: implications for understanding the age at death of plio-pleistocene hominids. American Journal of Physical Anthropology 99: 119–333.0.CO;2-W>CrossRefGoogle ScholarPubMed

Arking, R. (1991). Biology of Aging: Observations and Principles. Englewood Cliffs N.J.: Prentice-Hall Inc

Arking, R. (1998). Biology of Aging: Observations and Principles, 2nd edition. Englewood Cliffs, N.J.: Prentice-Hall Inc.

Arking, R. and Dudas, S. P. (1989). A review of genetic investigations into aging processes of Drosophila. Journal of the American Geriatrics Society 37: 757–73CrossRefGoogle ScholarPubMed

Arking, R., Buck, S., Berrios, A., Dwyer, S., and Baker, G. T. (1991). Elevated paraquat resistance can be used as a bioassay for longevity in a genetically based long-lived strain of Drosophila. Developmental Genetics 12: 362–70CrossRefGoogle Scholar

Armelagos, G. J. (1991). Human evolution and the evolution of disease. Ethnicity and Disease 1: 21–5Google ScholarPubMed

Armstrong, D. (1984). Free radicals involvement in the formation of lipopigments. In Free Radicals in Molecular Biology, Aging, and Disease, D. Armstrong, R. S. Sohal, R. G. Cutler, and T. F. Slater (eds.). New York: Raven Press, pp. 129–42

Austad, S. N. (1992). On the nature of aging. Natural History 2: 25–57Google Scholar

Austad, S. N. (1994). Menopause: an evolutionary perspective. Experimental Gerontology 29: 255–63CrossRefGoogle Scholar

Austad, S. N. (1997). Comparative aging and life histories in mammals. Experimental Gerontology 32: 23–38CrossRefGoogle ScholarPubMed

Baker, P. T. (1979). The use of human ecological models in biological anthropology: examples from the Andes. Collegium Anthropologicum (Zagreb, Yugoslavia) 3: 157–71

Baker, P. T. (1982). Human population biology: a viable transdisciplinary science. Human Biology 54: 203–20Google ScholarPubMed

Baker, P. T. (1984). The adaptive limits of human populations. Man 19: 1–14CrossRefGoogle Scholar

Baker, P. T. (1990). Human adaptation theory: successes, failure and prospects. Journal of Human Ecology Special Issue 1: 41–50Google Scholar

Baker, P. T. (1991). Human adaptation theory: successes, failure and prospects. Journal of Human Ecology Special Issue 1: 41–50Google Scholar

Baker, P. T. and Baker, T. S. (1977). Biological adaptations to urbanization and industrialization: some research strategy considerations. In Colloquia in Anthropology, Volume I, R. K. Wetherington (ed.), Fort Burgwin Research Center, pp. 107–18

Baltes, M. M., Wahl, H. W., and Schmis-Furstoss, U. (1990). The daily life of elderly Germans: activity patterns, personal control, and functional health. Journal of Gerontology 45: P173–9CrossRefGoogle ScholarPubMed

Barker, D. J. P. (1989). The rise and fall of Western disease. Nature 338: 371–2CrossRefGoogle Scholar

Barker, D. J. P. (1998). Mothers, Babies and Health in Later Life, 2nd edition. New York: Churchill Livingston

Barker, D. J. P., Bull, A. R., Osmond, C., and Simmonds, S. J. (1990). Fetal and Placental Size and Risk of Hypertension in Adult Life. British Medical Journal 301: 259–62CrossRefGoogle ScholarPubMed

Barker, D. J. P., Hales, C. N., Fall, C. H. D., Osmond, C., Phipps, K., and Clark, P. M. S. (1993). Type 2 (non-insulin dependent) diabetes mellitus, hypertension and hyperlipidemia (syndrome X): relation to reduced fetal growth. Diabetologia 36: 62–7CrossRefGoogle ScholarPubMed

Barker, D. J. P., Osmond, C., and Golding, J. (1989b). Height and mortality in the counties of England and Wales. Annals of Human Biology 17: 1–6CrossRefGoogle Scholar

Barker, D. J. P., Winter, P. D., Osmond, C., Margetts, B., and Simmonds, S. J. (1989a). Weight in infancy and death from ischaemic heart disease. Lancet577–80CrossRefGoogle Scholar

Barinaga, G. T. (1991). How long is the human life span?Science 254: 936–8CrossRefGoogle Scholar

Barley, J., Blackwood, A., Carter, N.et al. (1994). Angiotensin converting enzyme insertion/deletion polymorphism – association with ethnic origin. Journal of Hypertension 12: 955–7CrossRefGoogle ScholarPubMed

Barzilai, N. and Shuldiner, A. R. (2001). Searching for human longevity genes: the future history of gerontology in the post-genomic era. Journals of Gerontology Series A, Biological Sciences and Medical 56: M83–7CrossRefGoogle ScholarPubMed

Baxter, J. D. (1997). Introduction to endocrinology. In Basic and Clinical Endocrinology, 5th edition, F. S. Greenspan and G. J. Strewler (eds.). Appleton and Lang

Beall, C. M. (1994). Aging and adaptation to the environment. In Biological Anthropology and Aging: Perspectives on Human Variation Over the Life Span, D. E. Crews and R. M. Garruto (eds.). New York: Oxford University Press, pp. 339–69

Beall, C. M. and Steegman, A. T. (2000). Human adaptations to climate: temperature, ultraviolet radiation and altitude. In Human Biology: An Evolutionary and Biocultural Approach, S. Stinson, B. Bogin, R. Huss-Ashmore and D. O'Rourke (eds.). New York: Wiley-Liss, pp. 163–224

Beall, C. M., Blangero, J., Williams-Blangero, S., and Goldstein, M. C. (1994). A major gene for percent of oxygen saturation of arterial hemoglobin in Tibetan highlanders. American Journal of Physical Anthropology 95: 271–6CrossRefGoogle Scholar

Bendich, A. (1995). Criteria for determining recommended daily allowances for healthy older adults. Nutrition Reviews 53: S105–10CrossRefGoogle ScholarPubMed

Bengtson, V. L. and Schaie, K. W. (eds.) (1999). Handbook of Theories of Aging. New York: Springer Publishing Company

Bengston, V. L., Burgess, E. O., and Parrot, T. M. (1997). Theory, explanation, and a third generation of theoretical development in social gerontology. Journal of Gerontology: Social Sciences 522: 577–8Google Scholar

Berkovitch, F. B. and Harding, R. S. O. (1993). Annual birth patterns of savanna baboons (Papio cynocephalus anubis) over a ten-year period at Gilgil, Kenya. Folia Priatol, 61: 115–22CrossRefGoogle Scholar

Bindon, J. R. and Crews, D. E. (1993). Changes in Some Health Status Characteristics of American Samoan Men: A 12-Year Follow-Up Study. American Journal of Human Biology 5: 31–8CrossRefGoogle ScholarPubMed

Bindon, J. R., Crews, D. E., and Dressler, W. (1992). Lifestyle, modernization, and adaptation among Samoans. Collegium Anthropologicum 15: 101–10Google Scholar

Bindon, J. R., Knight, A., Dressler, W. W., and Crews, D. E. (1997). Social context and psychosocial influences on blood pressure. American Journal of Physical Anthropology 103: 7–183.0.CO;2-U>CrossRefGoogle ScholarPubMed

Bockxmeer, F. (1994). ApoE and ACE genes: impact on human longevity. Nature Genetics 6: 4–5CrossRefGoogle ScholarPubMed

Bodkin, N. L., Ortmeyer, H. K., and Hansen, B. C. (1995). Long-Term Dietary Restriction in Old-Aged Rhesus Monkeys: Effects on Insulin Resistance. Journal of Gerontology 50A: B142–7Google Scholar

Bogin, B. (1998). Patterns of human growth. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, and M. A. Preece, (eds.). Cambridge University Press, pp. 91–95

Bogin, B. (1999). Patterns of Human Growth. 2nd edition. Cambridge: Cambridge University Press

Bogin, B. and Smith, H. (1996). Evolution of the human life cycle. American Journal of Human Biology 8: 703–163.0.CO;2-U>CrossRefGoogle ScholarPubMed

Bolzan, A. D., Brown, O. A., Goya, R. G., and Bianchi, M. S. (1995). Hormonal modulation of antioxidant enzyme activities in young and old rats. Experimental Gerontolology 30: 169–75CrossRefGoogle Scholar

Borkan, G. A. (1986). Biological age assessment in adulthood. In The Biology of Human Aging, A. H. Bittles and K. J. Collins (eds.). New York: Cambridge University Press, pp. 81–94CrossRef

Borkan, G. A. and Norris, A. H. (1980). Assessment of age using a profile of physical parameters. Journal of Gerontology 35: 177–84CrossRefGoogle ScholarPubMed

Borkan, G. A., Hults, D. E., and Mayer, P. J. (1982). Physical anthropological approaches to aging. Yearbook of Physical Anthropology 25: 181–202CrossRefGoogle Scholar

Boullion, R., Bex, M., Van, E. Hercket al. (1995). Influence of age, sex, and insulin on osteoblast function: osteoblast dysfunction in diabetes mellitus. Journal of Clinical Endocrinology and Metabolism 80: 1194–202Google Scholar

Boult, C., Kane, R. L., Louis, T. A., Boult, L., and McCaggrey, D. (1994). Chronic Conditions that Lead to Functional Limitations in the Elderly. Journal of Gerontology 49: M28–36CrossRefGoogle Scholar

Bowden, D. M. and Jones, M. L. (1979). Aging Research in Nonhuman Primates. In Aging in Nonhuman Primates, D. M. Bowden, (ed.). New York: Van Nostrand Reinhold

Bowling, A. C. and Beal, M. F. (1995). Bioenergetic and oxidative stress in neurodegenerative diseases. Life Sciences 56: 1151–71CrossRefGoogle ScholarPubMed

Brach, C. and Fraserirector, I. (2000). Can cultural competency reduce racial and ethnic health disparities? A review and conceptual model. Medical Research and Review 57: 181–217Google ScholarPubMed

Breitner, J. C., Welsh, K. A., Gau, B. A.et al. (1995). Alzheimer's disease in the National Academy of Sciences-National Research Council Registry of aging twin veterans III. Detection of cases, longitudinal results, and observations on twin concordance. Archives of Neurology 52: 763–71CrossRefGoogle ScholarPubMed

Brennan, P. A., Grekin, E. R., and Mednick, S. A. (1999). Maternal smoking during pregnancy and adult male criminal outcomes. Archives of General Psychiatry 56: 215–19CrossRefGoogle ScholarPubMed

Brock, D. B., Guralnik, J. M., and Brody, J. A. (1990). Demography and epidemiology of aging in the United States. In Handbook of the Biology of Aging, E. L. Schneider and J. W. Rose (eds.). San Diego: Academic Press, Inc., pp. 3–23

Brody, J. (1983). Limited importance of cancer and competing risk theories of aging. Journal of Clinical Experimental Gerontology 5: 141–54Google Scholar

Broe, G. A. and Creasey, H. (1995). Brain aging and neurodegenerative diseases: a minor public health issue of the twenty-first century. Perspectives in Human Biology, 1: 53–8CrossRefGoogle Scholar

Brown, D. T., Samuels, D.C., Michael, E. M., Turnbull, D. M., and Chinnery, P. F. (2001). Random genetic drift determines the level of mutant mtDNA in human primary oocytes. American Journal of Human Genetics 68: 533–6CrossRefGoogle ScholarPubMed

Brownlee, M., Cerami, A., and Vlassara, H. (1988). Advanced glycosylation end products in tissue and the biochemical basis of diabetic complications. Seminars in Medicine of the Beth Israel Hospital, Boston 318: 1315–21Google ScholarPubMed

Buck, S., Nicholson, M., Dudas, S.et al. (1993). Larval regulation of adult longevity in a genetically-selected long-lived strain of Drosophila. Heredity 71: 23–32CrossRefGoogle Scholar

Buckley, C. E. and Roseman, J. M. (1976). Immunity and survival. Journal of the American Geriatric Society 24: 241–8CrossRefGoogle Scholar

Burnet, F. M. (1970). An Immunological Approach to Aging. Lancet 2: 358–60CrossRefGoogle Scholar

Burnet, F. M. (1970). Immunological Surveillance. New York: Pergamon Press

Campbell, D. M., Hall, M. H., Barker, D. J. P., Cross, J., Shiell, A. W., and Godfrey, K. M. (1996). Diet in pregnancy and the offspring's blood pressure 40 years later. British Journal of Obstetrics and Gynecology 103: 273–80CrossRefGoogle ScholarPubMed

Carey, J. R. (1997). What demographers can learn from fruit fly actuarial models and biology. Demography 34: 17–30CrossRefGoogle ScholarPubMed

Carmichael, C. M. and McGue, M. (1995). A cross-sectional examination of height, weight, and body mass index in adult twins. Journals of Gerontology, Series A, Biological and Medical Sciences 50: B237–44CrossRefGoogle ScholarPubMed

Caro, T., Sellen, D., Parrish, A.et al. (1995). Termination of reproduction in nonhuman and human female primates. International Journal of Primatology 16: 205–20CrossRefGoogle Scholar

Carey, J. R., Liedo, P., Müeler, H.-G., Love, B., Harshman, L., and Partridge, L. (2001). Female sensitivity to diet and irradiation treatments underlies sex-mortality differentials in the Mediterranean fruit fly. Gerontology: Biological Sciences 56A: B89–95Google Scholar

Caspari, R. and Wolpoff, M. (2003). Race and Human Evolution. Cambridge, M. A.: Westview Press

Cassel, J. (1976). The contribution of the social environment to host resistance. American Journal of Epidemiology 104: 107–23CrossRefGoogle ScholarPubMed

Cassel, C. K. (2001). How increased life expectancy and medical advances are changing geriatric care. Geriatrics 56: 35–9Google ScholarPubMed

Cauley, J. A., Eichmer, J. E., Kamboh, M. I., Ferrell, R. E., and Kuller, L. H. (1993). Apolipoprotein E allele frequencies in younger (age 42–50) vs. older (65–90) women. Genetics and Epidemiology 10: 27–34CrossRefGoogle ScholarPubMed

The C. elegans Sequencing Consortium. (1998). Genome sequence of the nematode C. elegans: a platform for investigating biology. Science 282: 2012–18CrossRef

Cerami, A. (1985). Hypothesis: glucose as a mediator of aging. Journal of the American Geriatrics Society 33: 626–34CrossRefGoogle Scholar

Cerami, A. (1986). Aging of proteins and nucleic acids: what is the role of glucose?Trends in Biochemical Sciences, 11: 311–14CrossRefGoogle Scholar

Cerami, A., Vlassara, H., and Brownlee, M. (1987). Glucose and aging. Scientific American 256: 90–6CrossRefGoogle ScholarPubMed

Chagnon, N. A. (1968). Yanomamo: the Fierce People. New York: Rinehard and Winston

Chandra, R. (1992). Nutrition and immunity in the elderly. Nutrition Reviews 50: 367–71CrossRefGoogle ScholarPubMed

Chang-Claude, J., Frentzel-Beyrne, R., and Eliber, U. (1992). Mortality pattern of German vegetarians after 11 years of follow-up. Epidemiology 3: 395–401CrossRefGoogle ScholarPubMed

Charlesworth, B. (1994). Evolution in Age-Structured Populations, 2nd edition. Cambridge: Cambridge University Press

Charlesworth, B. (2001). Patterns of age-specific means and genetic variances of mortality rates predicted by the mutation-accumulation theory of aging. Journal of Theoretical Biology 210: 47–65CrossRefGoogle Scholar

Charnov, E. L. (1993). Life History Invariants: Some Explanations of Symmetry in Evolutionary Ecology. New York: Oxford University Press

Chartier-Harlin, M. C., Parfitt, M., Legrain, S.et al. (1994). Apolipoprotein E, epsilon 4 allele as a major risk factor for sporadic early and late onset forms of Alzheimer's disease: analysis of the 19q13.2 chromosomal region. Human Molecular Genetics 3: 569–74CrossRefGoogle ScholarPubMed

Chen, F.-C. and Lei, W.-H. (2001). Genomic divergences between humans and other hominoids and the effective population size of the common ancestor of humans and chimpanzees. American Journal of Human Genetics 68: 444–56CrossRefGoogle ScholarPubMed

Clare, M. J. and Luckinball, L. S. (1985). The effects of gene–environment interaction on the expression of longevity. Heredity 55: 19–29CrossRefGoogle ScholarPubMed

Clark, W. R. (1999). A Means to an End: The Biological Basis of Aging and Death. New York: Oxford University Press

Cohen, M. N. (1989). Health and the Rise of Civilization. New Haven, C. T.: Yale University Press

Comfort, A. (1979). Aging: The Biology of Senescence, 3rd edition. New York: Elsevier North Holland Inc.

Comuzzie, A. G., Blangero, J., Mahaney, M. C.et al. (1995). Major gene with sex-specific effects influences fat mass in Mexican Americans. Genetic Epidemiology 12: 475–88CrossRefGoogle ScholarPubMed

Coon, C. S. (1965). The Living Races of Man. New York: Alfred A. Knopf

Cooper, C., Fall, C., Egger, P., Eastell, R., and Barker, D. (1996). Growth in infancy and bone mass in later life. Annals of the Rheumatic Diseases 55: 1–6Google Scholar

Corr, J. A. (2000). The Effects of Aging on Social Behavior in Male and Female Rhesus Macaques of Cayo Santiago. Ph.D. dissertation, The Ohio State University

Corder, E. H., Lannfelt, L., Viitanen, M.et al. (1996). Apoliopoprotein E genotype determines survival in the oldest old (85 years or older) who have good cognition. Archives of Neurology 53: 418–22CrossRefGoogle Scholar

Cotton, P. (1994). Alzheimer's/Apo E link grows stronger. JAMA 272: 1483CrossRefGoogle Scholar

Cowgill, D. O. (1986). Aging Around the World. Belmont, C. A.: Wadsworth

Crews, D. E. (1988). Multiple causes of death and the epidemiological transition in American Samoa. Social Biology 35: 198–213Google ScholarPubMed

Crews, D. E. (1990a). Anthropological issues in biological gerontology. In: RL Rubinstein (ed.) Anthropology and Aging: Comprehensive Reviews. Dordecht, The Netherlands: D. Reidel Publishing Co., pp. 11–38

Crew, D. E. (1990b). Multiple causes of death, chronic diseases, and aging. Collegium Anthropologicum 14: 197–204Google Scholar

Crews, D. E. (1993a). Biological Anthropology and Aging: Some Current Directions in Aging Research. Annual Review of Anthropology, 22: 395–420CrossRefGoogle Scholar

Crews, D. E. (1993b). Cultural lags in social perceptions of the aged. Generations 17: 29–33Google Scholar

Crews, D. (1993c). The organizational concept and vertebrates with out sex chromosomes. Brain, Behavior, and Evolution 42: 202–14CrossRefGoogle Scholar

Crews, D. E. (1997). Aging and gerontology: a paradigm of transdisciplinary research. Collegium Anthropologicum 21: 83–92Google ScholarPubMed

Crews, D. E. and Bindon, J. R. (1991). Ethnicity as a taxonomic tool in biomedical and biosocial research. Ethnicity and Disease 1: 42–9Google ScholarPubMed

Crews D. E. and Gerber, L. M. (1994). Chronic degenerative diseases and aging. In Biological Anthropology and Aging: Perspectives on Human Variation Over the Lifespan. D. E. Crews and R. M. Garruto (eds.). New York, Oxford University Press, pp. 174–208

Crews D. E. and Gerber, L. M. (1999). Evolutionary perspectives on chronic degenerative diseases. In Evolutionary Medicine, W. Trevathan, J. McKenna, and N. Smith (eds.). New York: Oxford University Press, pp. 443–69

Crews D. E. and Garruto, R. M. (1994). Biological Anthropology and Aging: Perspectives on Human Variation Over the Life Span. Oxford: Oxford University Press

Crews, D. E. and Harper, G. J. (1998). Renin, ANP, ACE polymorphisms, Blood pressure, and Age in American Samoans. American Journal of Human Biology 10: 439–493.0.CO;2-B>CrossRefGoogle ScholarPubMed

Crews, D. E. and Harper, G. J. (1997). Congregate care retirement communities, a case study of current directions. Gerontologist 37: 179Google Scholar

Crews, D. E. and James, G. D. (1991). Human evolution and the genetic epidemiology of chronic degenerative diseases. In Applications of Biological Anthropology of Human Affairs, G. W. Lasker and N. Mascie-Taylor (eds.). Cambridge: Cambridge University PressCrossRef

Crews, D. E. and Losh, S. R. (1994). Structural modeling of blood pressure in Samoans. Collegium Anthropologicum 18: 101–13Google Scholar

Crews, D. E. and MacKeen, P. C. (1982). Mortality related to cardiovascular disease and diabetes mellitus in a modernizing population. Social Science and Medicine 16:175–81CrossRefGoogle Scholar

Crews, D. E. and Williams, S. R. (1999). Molecular aspects of blood pressure regulation. Human Biology 71: 475–503Google ScholarPubMed

Crews, D. E., Murrell, S. A. and Lang, C. A. (1985). High mental health occurs in physically healthy elderly women. The Gerontologist 26: 165Google Scholar

Cristofalo, V. J., Allen, R. G., Pignolo, R. J., Martin, B. G., and Beck, J. C. (1998). Relationship between donor age and the replicative lifespan of human cells in culture: a reevaluation. Proceeding of the National Academy of Sciences USA 95: 10614–19CrossRefGoogle Scholar

Cristofalo, V. G., Tresini, M., Francis, M. K., and Volker, C. (1999). Biological theories of senescence. In Handbook of Theories of Aging, V. L. Bengston and K. W. Shaie (eds.). New York: Springer Publishing Company, pp. 98–112

Crognier, E., Baali, A., Hilali, M-K. (2001). Do helpers at the nest increase their parents' reproductive success?American Journal of Human Biololgy 13: 365–73CrossRefGoogle ScholarPubMed

Crose, R. (1997). Why Women Live Longer Than Men and What Men Can Learn From Them. San Francisco: Jossey-Bass Publishers

Cummings, S. R. and Nevitt, N. C. (1989). A Hypothesis: The Cause of Hip Fractures. Journal of Gerontology 44: M107–11CrossRefGoogle ScholarPubMed

Curtin, P. D. (1992). The slavery hypothesis for hypertension among African-Americans: the historical evidence. American Journal of Public Health 82: 1681–6CrossRefGoogle ScholarPubMed

Curtsinger, J. W., Fukui, H. H., Townsend, D. R., and Vaupel, J. W. (1992). Demography of genotypes: failure of the limited life-span paradigm in Drosophila melanogaster. Science 258: 461–3CrossRefGoogle ScholarPubMed

Cutler, R. G. (1975). Evolution of Human Longevity and the Genetic Complexity Governing Aging Rate. Proceedings of the National Academy of Sciences USA 72: 4664–8CrossRefGoogle ScholarPubMed

Cutler, R. G. (1976). Evolution of longevity in primates. Journal of Human Evolution 5: 169–202CrossRefGoogle Scholar

Cutler, R. G. (1980). Evolution of human longevity. In Aging, Cancer, and Cell Membranes, C. Borek, C. M. Fenoglis, and D. W. King (eds.). New York: Thieme-Straton, Inc., pp. 43–79

Cutler, R. G. (1991). Antioxidants and aging. American Journal of Clinical Nutrition 53: 373S–9SCrossRefGoogle ScholarPubMed

Darwin, C. R. (1859). On the Origin of Species by Means Of Natural Selection, or the Preservation of Favoured Races In the Struggle For Life, 2nd edition. London: Murray

Davies, K. J. A. (1987). Protein damage and degradation by oxygen radicals, I. General aspects. Journal of Biological Chemistry 262: 9895–901Google ScholarPubMed

Davignon, J., Gregg, R. E., and Sing, C. F. (1988). Apolipoprotein E polymorphism and atherosclerosis. Atherosclerosis 8: 1–21Google ScholarPubMed

Davison, A. N. (1987). Pathophysiology of the aging brain. Gerontology 33: 129–35CrossRefGoogle Scholar

Dawkins, R. (1976). The Selfish Gene. New York: Oxford Univeristy Press

Benedictus, , Ross, G., Carrieri, G.et al. (2000a). Mitochondrial DNA inherited variants are associated with successful aging and longevity in humans. FASEB Journal 13: 1532–1536CrossRefGoogle Scholar

Benedictus, , Ross, G., Carrieri, G.et al. (2000b). Inherited variability of the mitochondrial genome and successful aging in humans. Annals of the New York Academy of Sciences 908: 208–218CrossRefGoogle Scholar

Deevey, E. S. (1950). The probability of death. Scientific American 18: 58–30CrossRefGoogle Scholar

DeFronzo, R. A. and Ferrannini, E. (1991). Insulin Resistance: A Multifaceted Syndrome Responsible for NIDDM, Obesity, Hypertension, Dyslipidemia, and Atherosclerotic Cardiovascular Disease. Diabetes Care 14: 173–94CrossRefGoogle ScholarPubMed

Lange, T. (1998). Telomeres and senescence: ending the debate. Science 249: 334–5CrossRefGoogle Scholar

Grey, A. D. N.J. (1997). A proposed refinement of the mitochondrial free radical theory of aging. Bioessays 19: 161–6CrossRefGoogle ScholarPubMed

Haan, J. B., Cristano, F., Iannello, R. C., and Kola, I. (1995). Cu/Zn–superoxide dismutase and glutathione peroxidase during aging. Biochemistry and Molecular Biology International 35: 1281–97Google ScholarPubMed

Torre, M. R., Casado, A., Lopez-Fernandez, M. E.et al. (1996). Human aging brain disorders: role of antioxidant enzymes. Neurochemical Research 21: 885–8CrossRefGoogle ScholarPubMed

Demographic Yearbook (1996). New York: United Nations Department of Economic and Social Affairs

Demographic Yearbook (1998). New York: United Nations Department of Economic and Social Affairs

Dennison, E., Fall, C., Cooper, C., and Barker, D. (1997). Prenatal factors influencing long-term outcome. Hormone Research 48(Suppl. 1): 25–6CrossRefGoogle ScholarPubMed

DeRousseau, C. (1990). Primate Life History and Evolution. New York: Wiley-Liss

Dietz, J. M. and Baker, A. J. (1993). Polygyny and female reproductive success in golden lion tamarins, (Leotopithecus rosalia). Animal Behavior 46: 1067–78CrossRefGoogle Scholar

Dietz, J. M. and Baker, A. J. (1994). Seasonal variation in reproduction, juvenile growth, and adult body mass in golden lion tamarins. American Journal Primatology 34: 115–132CrossRefGoogle Scholar

Doblhammer, G. and Kytir, J. (2001). Compression or expansion of morbidity? Trend in healthy-life expectancy in the elderly Austrian population between 1978 and 1998. Social Science and Medicine 52: 385–91CrossRefGoogle ScholarPubMed

Dressler, W. W. (1991). Social class, skin color, and arterial blood pressure in two societies. Ethnicity and Disease 1: 60–77Google ScholarPubMed

Dressler, W. W. (1996). Hypertension in the African community: social, cultural, and psychological factors. Seminars in Nephrology 16: 71–82Google ScholarPubMed

Dressler, W. W., Bindon, J. R., and Neggers, Y. H. (1998). Culture, socioeconomic status and coronary heart disease risk factors in an African American community. Journal of Behavioral Medicine 21: 527–45CrossRefGoogle Scholar

Dressler, W. W., Grell, G. A., and Viteri, F. E. (1982). Intracultural diversity and the sociocultural correlates of blood pressure: a Jamaican example. Medical Anthroplogy Quarterly 9: 291–313CrossRefGoogle Scholar

Drinkwater, B. (1994). Does physical activity play a role in preventing osteoporosis?Research Quarterly for Exercise and Sports 65: 197–206CrossRefGoogle ScholarPubMed

Driscoll, M. (1995). Genes Controlling Programmed Cell Death: Relation to Mechanisms of Cell Senescence and Aging? In Molecular Aspects of Aging, K. Esser and G. M. Martin (eds.). New York: John Wiley and Sons, pp. 45–60

Duara, R., London, E. D., and Rapoport, S. I. (1985). Changes in structure and energy metabolisms of the aging brain. In Handbook of the Biology of Aging, 2nd edition, E. L. Schnieder and C. E. Finch (eds.). New York: Van Nostrand Reinhold, pp. 595–616

Dudas, S. P. and Arking, R. (1995). A Coordinate Upregulation of Antioxidant Gene Activities is Associated with the Delayed Onset of Senescence in a Long-Lived Strain of Drosophila. Journal of Gerontology 50A: B117–27Google Scholar

Dufour, D. L. (1992). Nutritional ecology in the tropical rainforests of Amazonia. American Journal of Human Biology 4: 197–207CrossRefGoogle Scholar

Dunbar, R. I. M. (1988). Primate Social Systems, Studies in Behavioral Adaptation. London: Croom Helm

Durham, W. H. (1991). Coevolution: Genes, Minds, and Human Diversity. Palo Alto, C. A.: Stanford University Press

Easterbrook, P. J., Berlin, J. A., Goplan, R., and Matthews, D. R. (1991). Publication bias in clinical research. Lancet 1: 867–72CrossRefGoogle Scholar

Eaton, S. B. and Konner, M. J. (1985). Paleolithic nutrition: a consideration of its nature and current implications. New England Journal of Medicine 312: 283–9CrossRefGoogle ScholarPubMed

Eaton, S. B. and Nelson, D. A. (1991). Calcium in evolutionary perspective. American Journal of Clinical Nutrition 54 (suppl.): 2815–75CrossRefGoogle ScholarPubMed

Eaton, S. B., Konner, M., and Shostak, M. (1988). Stone agers in the fast lane: chronic degenerative diseases in evolutionary perspective. American Journal of Medicine, 84: 739–749CrossRefGoogle ScholarPubMed

Elson, J. L., Samuels, D.C., Turnbull, D. M., and Chinnery, P. F. (2001). Random intercellular drift explains the clonal expansion of mitochondrial DNA mutations with age. American Journal of Human Genetics 68: 802–6CrossRefGoogle Scholar

Erdos, E. S. and Skidgel, R. A. (1987). The angiotensin I-converting enzyme. Laboratory Investigation 56: 345–348Google ScholarPubMed

Erhardt, C. L. and Berlin, J. E. (eds.) (1974). Mortality and Morbidity in the United States. Cambridge, M. A.: Harvard University PressCrossRef

Esser K. and Martin, G. E. (eds.). (1995). Molecular Aspects of Aging. New York: John Wiley & Sons

Fall, C. H. D., Barker, D. J. P., Osmond, C., Winter, P. D., Clark, P. M. S., and Hales, C. N. (1992). Relation of Infant Feeding to Adult Serum Cholesterol Concentration and Death from Ischaemic Heart Disease. British Medical Journal 304: 801–5CrossRefGoogle ScholarPubMed

Federal Interagency Forum on Aging Related Statistics (FIFARS). (2000). Older Americans 2000: Key Indicators of Well-Being. Washington, D.C.: U.S. Government Printing Office

Fenner, F. (1970). The Effects of Changing Social Organization on the Infectious Diseases of Man. In The Impact of Civilization on the Biology of Man, S. V. Boyden (ed.). Toronto: Toronto University Press, pp. 48–68

Fergusson, D. M. (1999). Prenatal smoking and antisocial behavior. Archives of General Psychiatry 56: 223–4CrossRefGoogle ScholarPubMed

Fergusson, D. M., Woodward, L. J., and Harwood, L. J. (1998). Maternal smoking during pregnancy and psychiatric adjustment in late adolescence. Archives of General Psychiatry 55: 721–7CrossRefGoogle ScholarPubMed

Ferrannini, E. S., Haffner, S. M., Mitchell, B. D., and Stern, S. P. (1991). Hyperinsulinemia: the key feature of a cardiovascular and metabolic syndrome. Diabetologia 34: 416–22CrossRefGoogle ScholarPubMed

Finch, C. E. (1990). Longevity, Senescence, and the Genome. Chicago: Chicago University Press

Finch, C. E. (1994). Longevity, Senescence and the Genome. 2nd edition. Chicago: Chicago University Press

Finch, C. E. and Hayflick, L. (eds.) (1977). Handbook of the Biology of Aging. New York: Van Nostrand Reinhold Company

Finch, C. E. and Rose, M. R. (1995). Hormones and the physiological architecture of life history evolution. The Quarterly Review of Biology 70: 1–52CrossRefGoogle ScholarPubMed

Finch, C. E. and Seeman, T. E. (1999). Stress theories of aging. In Handbook of Theories of Aging, V. L. Bengston and K. W. Schaie (eds.). New York: Springer Publishing Co., pp. 81–97

Finch, C. E. and Tanzi, R. E. (1997). Advances in aging research: genetics of aging. Science 278: 407–11CrossRefGoogle Scholar

Fisher, R. A. (1930). The Genetical Theory of Natural Selection. Oxford: Clarendon Press

Fitton, L. J. (1999). Is Acculturation Healthy? Biological, Cultural, and Environmental Change Among the Cofan of Ecuador. Ph.D. Dissertation, The Ohio State University

Fozard, J. L., Metter, E. J., and Brant, L. J. (1990). Next steps in describing aging and disease in longitudinal studies. Journal of Gerontology 45: pp. 116–27CrossRefGoogle Scholar

Fridovich, I. (1978). The biology of oxygen radicals. Science 201: 875–880CrossRefGoogle ScholarPubMed

Fridovich, I. (1995). Superoxide radical and superoxide dismutases. Annals of Developmental Biochemistry 64: 97–112CrossRefGoogle ScholarPubMed

Fried, L. P., Tangen, C. M., Walston, J.et al. for the Collaborative Health Study Collaborative Research Group. (2001). Fraility in older adults: evidence for a phenotype. Journal of Gerontology 56A: M146–56Google Scholar

Friedlaender, J. S. (1987). The Solomon Islands Project. New York: Oxford University Press

Friedman, D. B. and Johnson, T. E. (1988). A mutation in the age-1 gene in Caenorhabditis elegans lengthens life and reduces hermaphrodite fertility. Genetics 118: 75–86Google ScholarPubMed

Fries, J. F. (1980). Aging, natural death, and the compression of morbidity. New England Journal of Medicine 303: 130–5CrossRefGoogle ScholarPubMed

Fries, J. F. (1983). The compression of morbidity. Milbank Memorial Fund Quarterly 61: 397–419CrossRefGoogle ScholarPubMed

Fries, J. F. (1984). The compression of morbidity: miscellaneous comments about a theme. The Gerontologist 24: 354–9CrossRefGoogle ScholarPubMed

Fries, J. F. (1988). Aging, illness, and health policy: implications of the compression of morbidity. Perspectives in Biology and Medicine 31: 407–28CrossRefGoogle ScholarPubMed

Fries, J. F. (2001). Aging, cumulative disability, and the compression of morbidity. Comprehensive Therapy 27: 322–9CrossRefGoogle ScholarPubMed

Fries, J. F. and Carpo, L. M. (1981). Vitality and Aging: Implications of the Rectangular Curve. San Francisco: W. H. Freeman and Company

Frisancho, A. R. (1993). Human Adaptation and Accommodation. Ann Arbor: University of Michigan Press

Frolkis, V. V. (1993). Stress-age syndrome. Mechanisms of Aging and Development 69: 93–107CrossRefGoogle ScholarPubMed

Garn, S. (1994). Fat, lipid, and blood pressure changes in adult years. In Biological Anthropology and Aging: Perspectives on Human Variation over the Life Span, D. E. Crews and R. M. Garruto (eds.). New York: Oxford University Press, pp. 301–20

Gavrilov, L. A. and Gavrilova, N. S. (1986). The Biology of Life Span: A Quantitative Approach. New York: Harwood Academic Publishers

Gavrilov, L. A. and Gavrilova, N. S. (1991). The Biology of Life Span: A Quantitative Approach, V. P. Skulachev (ed.), Trans. J. Payne and L. Payne, New York: Harwood Academic

Gavrilov, L. A. and Gavrilova, N. S. (2001). The reliability theory of aging and longevity. Journal of Theoretical Biology 213: 527–45CrossRefGoogle ScholarPubMed

Geodakian, V. A. (1982). Sexual dimorphism and the evolution of duration of ontogenesis and its stages. In Evolution and Environment, V. J. A. Novák and J. Mlikovsky (eds.). Prague: CSAV

Gerber, L. M. and Crews, D. E. (1999). Evolutionary perspective on chronic degenerative diseases. In Evolutionary Medicine, W. Trevathan, J. McKenna, and N. Smith (eds.). New York: Oxford University Press, pp. 443–69

Gibbons, A. (1990). Gerontology research comes of age. Science 250: 622–5CrossRefGoogle ScholarPubMed

Goodall, J. (1986). The Chimpanzees of Gombe: Patterns of Behavior. Cambridge, M. A.: Belknop Press of Harvard University Press

Goodman, A. and Leatherman, T. (1999). Building a Biocultural Synthesis. Ann Arbor, M. I.: University of Michigan Press

Goodman, L. A. (1969). The analysis of population growth when the birth and death rates depend upon several factors. Biometrics 25: 659–81CrossRefGoogle ScholarPubMed

Gould, S. J. (1996). The Mismeasure of Man: Revised and Expanded. New York: W. W. Norton and Co.

Greenberg, L. J. and Yunis, E. J. (1978). In Birth Defects: Original Article Series, Genetic Control of Autoimmune Disease and Immune Responsiveness and the Relationship to Aging, vol. XIV, no. 1, pp. 249–60

Grey, A. D. N.J. (1997). A proposed refinement of the mitochondrial free radical theory of aging. BioEssays 19: 161–5CrossRefGoogle ScholarPubMed

Grigsby, J. S. (1991). Paths for future population aging. Gerontologist 31: 195–203CrossRefGoogle ScholarPubMed

Grossman, C. J. (1985). Interactions between the gonadal steroids and the immune system. Science 227: 257–61CrossRefGoogle ScholarPubMed

Greksa, L. P., Hilde, S., and Caceres, E. (1994). Total lung capacity in young highlanders of aumara ancestry. American Journal of Physical Anthropology 94: 477–86CrossRefGoogle ScholarPubMed

Guralnik, J. M., Simonsick, E. M., Ferrucci, L.et al. (1994). A short physical performance battery assessing lower extremity function: association with self-reported disability and prediction of mortality and nursing home admission. Journal of Gerontology 49: M85–94CrossRefGoogle Scholar

Guralnik, J. M., Yanagishita, M., and Schneider, E. L. (1988). Projecting the older population of the United States: lessons from the past and prospects for the future. Milbank Memorial Fund Quarterly 66: 622–5Google ScholarPubMed

Hales, C. N. (1997). Fetal and infant origins of adult disease. Journal of Clinical Pathology 50: 359–60CrossRefGoogle ScholarPubMed

Hales, C. N. and Barker, D. J. P. (1992). Type 2 (non-insulin dependent) diabetes mellitus: the thrifty phenotype hypothesis. Diabetologia 35: 595–601CrossRefGoogle ScholarPubMed

Hamilton, W. D. (1966). The moulding of senescence by natural selection. Journal of Theoretical Biology, 12: 12–45CrossRefGoogle ScholarPubMed

Harley, C. B., Futcher, A. B. and Greider, C. W. (1990). Telomeres Shorten During Aging of Human Fibroblasts. Nature 345: 458–60CrossRefGoogle ScholarPubMed

Harman, D. (1956). Aging: a Theory Based on Free Radical and Radiation Chemistry. Journal of Gerontology 11: 298–300CrossRefGoogle ScholarPubMed

Harman, D. (1981). The aging process. Proceeding of the National Academy of Sciences USA 178: 7124–8CrossRefGoogle Scholar

Harman, D. (1984). Free radicals and the origination, evolution, and present status of the Free Radical Theory in Aging. In Free Radicals in Molecular Biology, Aging, and Disease, D. Armstrong, R. S. Sohal, R. G. Cutler, and T. F. Slater (eds.). New York: Raven Press, pp. 1–12

Harman, D. (1988). Free radicals in aging. Molecular and Cellular Biochemistry 84: 155–61CrossRefGoogle Scholar

Harman, D. (1999). Aging: prospects for further increases in the functional lifespan. Age 17: 119–46CrossRefGoogle Scholar

Harper, G. J. (1998). Stress and Adaptation Among Elders in Life-Care Communities, Ph.D. Dissertation, The Ohio State University

Harper, G. J. and Crews, D. E. (2000). Aging, senescence, and human variation. In Human Biology, S. Stinson, R. Huss-Ashmore, and D. O'Rourke (eds.). New York: Wiley-Liss, pp. 465–505

Harper, G. J., Crews, D. E. and Wood, J. W. (1996). Lack of Age-Related Blood Pressure Increase in the Gainj, Papua New Guinea: Another Low Blood Pressure population. American Journal of Human Biology 6: 122–3 (abstract)

Harrington, C. R. and Wischik, C. M. (1995). Pathogenic Mechanisms in Alzheimer Syndromes and Related Disorders. In Molecular Aspects of Aging, K. Esser and G. M. Martin (eds.). New York: John Wiley and Sons, pp. 227–40

Harris, M. (1983). Classification and diagnostic criteria for diabetes mellitus. Tohoku Journal of Experimental Medicine 141: 21–8CrossRefGoogle ScholarPubMed

Harrison, G. A. (1973). The effects of modern living. Journal of Biosocial Science 5: 217–28Google ScholarPubMed

Hart, R. W. and Tuturro, A. (1983). Theories of Aging. In Review of Biological Research in Aging, Vol. 1. New York: Alan R. Liss Inc., pp. 5–18

Harvey, P. H. and Bennet, P. M. (1983). Brain size, energetics, ecology and life history patterns. Nature 306: 314–15CrossRefGoogle ScholarPubMed

Harvey, P. H., Martin, R. D., and Clutton-Brock, T. H. (1987). Life histories in comparative perspective. In Primate Societies, B. B. Smuts et al. (eds.). Chicago: University of Chicago Press, pp. 181–96

Hastie, N. D., Dempster, M., Dunlop, M. G., Thompson, A. M., Green, D. K., and Allshire, R. C. (1990). Telomere reduction in human colorectal carcinoma and with ageing. Nature 346: 866–8CrossRefGoogle ScholarPubMed

Hauspie, R. C. and Susanne, C. (1998). Genetics of child growth. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, and M. A. Preece (eds.). Cambridge: Cambridge University Press, pp. 124–8

Hawkes, K., O'Connell, J. F., and Blurton Jones, N. G. (1997). Hadza women's time allocation, offspring provisioning, and the evolution of long postmenopausal life span. Current Anthropology 48: 551–77CrossRefGoogle Scholar

Hawkes, K., O'Connell, J. F., Blurton Jones, N. G., Alvarez, H., and Charnov, E. L. (1998). Grandmothering, menopause, and the evolution of human life histories. Proceedings of the National Academy of Science USA 95: 1336–9CrossRefGoogle ScholarPubMed

Hayflick, L. (1965). The Limited In Vitro Lifetime of Human Diploid Cell Strains. Experimental Cell Research 37: 614–36CrossRefGoogle ScholarPubMed

Hayflick, L. (1987). Origins of longevity. In Modern Biological Theories of Aging, H. R. Warner et al. (eds.). New York: Raven Press, pp. 21–34

Hayflick, L. (1988). Why do we live so long?Geriatrics 43: 77–83Google ScholarPubMed

Hayflick, L. and Moorhead, P. S. (1961). The Serial Cultivation of Human Diploid Cell Strains. Experimental Cell Research 25: 585–621CrossRefGoogle ScholarPubMed

Hazzard, W. R. (1986). Biological basis of the sex differential in longevity. Journal of the American Geriatric Society 34: 455–71CrossRefGoogle ScholarPubMed

Hendricks, J. and Achenbaum, A. (1999). Historical development of theories of aging. In: Handbook of Theories of Aging, V. L. Bengtson and K. W. Schaie (eds.). New York: Springer, pp. 21–39

Hernández, M. (1998). Hormonal regulation of fetal growth. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, M. A. Preece (eds.). Cambridge: Cambridge University Press, pp. 151–3

Hill, K. and Hurtado, A. M. (1991). The evolution of premature reproductive senescence in human females: an evaluation of the “Grandmother Hypothesis”. Human Nature 2: 313–50CrossRefGoogle ScholarPubMed

Hill, K. and Hurtado, A. M. (1999). Packer and colleagues' model of menopause for humans. Human Nature 10: 199–204CrossRefGoogle ScholarPubMed

Hindmarsh, P. (1998). Endocrinological regulation of post-natal growth. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Uljaszek, F. E Johnston, M. A. Preece (eds.). New York: Cambridge University Press, pp. 182–3

Hirokawa, K. (1992). Understanding the mechanism of the age-related decline in immune function. Nutrition Reviews 50: 361–6CrossRefGoogle ScholarPubMed

Hodge, A. M., Dowse, G. K., Gareeboo, H., Tuomilehto, J., Alberti, K. G. M. M., , J., and Zimmer, P. Z. (1996). Incidence, increasing prevalence, and prediction of change in obesity and fat distribution over 5 years in the rapidly developing population of Mauritius. International Journal of Obesity 20: 137–46Google Scholar

Hoffman, W. R. (1983). On the presumed coevolution of brain size and evolution. Journal of Human Evolution 13: 371–6CrossRefGoogle Scholar

Hoffman, W. R. (1984). Energy metabolism, brain size, and longevity in mammals. The Quarterly Review of Biology 58: 495–512CrossRefGoogle Scholar

Holden, C. (1987). Why do women live longer than men?Science 238: 158–60CrossRefGoogle ScholarPubMed

Holmes, L. D. and Rhodes, E. C. (1983). Aging and change in Samoa. In Growing Old in Different Societies: Cross-Cultural Perspectives, J. Sokolovsky (ed.). Belmont, C. A.: Wadsworth, pp. 119–29

Holt, I. J., Harding, A. E., and Morgan Hughes, J. A. (1988). Deletions of muscle mitochondrial DNA in patients with mitochondrial myopathies. Nature 331: 717–19CrossRefGoogle ScholarPubMed

Hong, Y., Faire, U., Heller, D. A., McClearn, G. E. and Pedersen, N. (1994). Genetic and environmental influences on blood pressure in elderly twins. Hypertension 24: 663–70CrossRefGoogle ScholarPubMed

Howell, T. H. (1963). Multiple pathology in nonagenarians. Geriatrics 18: 899–902Google ScholarPubMed

Hunt, K. D. (1994). The evolution of human bipedality: ecology and functional morphology. Journal of Human Evolution 26: 183–202CrossRefGoogle Scholar

Idler, E. L. and Kasl, S. (1991). Health perspectives and survival: do global evaluations of health status really predict mortality?Journal of Gerontology 46: S55–65CrossRefGoogle Scholar

Imahori, K. (1992). How I understand aging. Nutrition Reviews 50(12): 351–352CrossRefGoogle Scholar

Ingram, D. K., Cutler, R. G., Weindruch, R.et al. (1990). Dietary restriction and aging: the initiation of a primate study. Journal of Gerontology 45: B148–63CrossRefGoogle ScholarPubMed

Ivanova, R., Henon, N., Lepage, V., Charron, D., Vincent, E., and Schachter, F. (1998). HLA-Dr alleles display sex-dependent effects on survival and discriminate between individual and familial longevity. Human Molecular Genetics 7: 187–94CrossRefGoogle ScholarPubMed

James, G. D. and Baker, P. T. (1990). Human population biology and hypertension: evolutionary and ecological aspects of blood pressure. In Hypertension: Pathophysiology, Diagnosis, and Management, J. H. Laragh, B. M. Brenner (eds). New York: Raven Press, pp. 137–145

James, G. D., Crews, D. E., and Pearson, J. (1989). Catecholamine and stress. In Human Population Biology: A Transdisciplinary Science, M. A. Little and J. D. Haas (eds.), New York: Oxford University Press, pp. 280–95

Jialal, I. and Grundy, S. M. (1992). Influence of antioxidant vitamins on LDL oxidation. Annals of the New York Academy of Sciences 669: 237–48CrossRefGoogle ScholarPubMed

Johnson, R. J. and Wolinsky, F. D. (1994). Gender, race, and health: the structure of health status among older adults. The Gerontologist 34: 24–35CrossRefGoogle ScholarPubMed

Johnson, T. E. (1990). Increased Life-Span of Age-1 Mutants in Caenorhabditis elegans and lower Gompertz Rate of Aging. Science 249: 908–12CrossRefGoogle ScholarPubMed

Johnson, T. E. et al. (1995). Group report: research on diverse model systems and the genetic basis of aging and longevity. In Molecular Aspects of Aging, K. Esser and G. M. Martin (eds.). New York: John Wiley and Sons, pp. 5–15

Johnston, F. E. (1999). Screening for growth failure in developing countries. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston and M. A. Preece (eds.). Cambridge: Cambridge University Press

Joint National Committee V (JNC V) (1993). The Fifth Report of the Joint National Committee on Detection, Evaluation, and Treatment of High Blood Pressure. Archives of Internal Medicine 153: 154–83CrossRef

Judge, D. S. and Carey, J. R. (2000). Postreproductive life predicted by primate patterns. Journal of Gerontology 55A: B201–9Google Scholar

Jun, T., Ke-yan, F., and Catalano, M. (1996). Increased superoxide anion production in humans: a possible mechanism for the pathogenesis of hypertension. Journal of Human Hypertension 10: 305–9Google ScholarPubMed

Kaplan, G. A. (1991). Epidemiologic observations on the compression of mortality: evidence from the Alameda County Study. Journal of Aging Health 3: 155–71CrossRefGoogle Scholar

Katz, S. A. and Armstrong, D. A. (1994). Cousin marriage and the X-chromosome: evolution of longevity. In Biological Anthropology and Aging: Perspectives on Human Variation Over the Lifespan, D. E. Crews and R. M. Garruto (eds.). New York: Oxford University Press, pp. 101–26

Katz, S. A., Ford, A. B., Moskowitz, R. W., Jackson, B. A., and Jaffee, M. W. (1963). Studies of illness in the aged. The index of ADL: a standardized measure of biological and psychosocial function. Journal of the American Medical Association 185: 94–101Google ScholarPubMed

Katzmarzyk, P. T. and Leonard, W. R. (1998). Climatic influences on human body size and proportions: ecological adaptations and secular trends. American Journal of Physical Anthropology 106: 483–5033.0.CO;2-K>CrossRefGoogle ScholarPubMed

Kemnitz, J. W., Weindruch, R., Roecker, E. B., Crawford, K., Kaufman, P. L., and Ershler, W. B. (1993). Dietary Restriction of Adult Male Rhesus Monkeys: Design, Methodology and Preliminary Findings From the First Year of Study. Journal of Gerontology 45: B17–26CrossRefGoogle Scholar

Kerber, R. A., O'Brian, E., Smith, K. R., and Cawthan, R. M. (2001). Familial excess longevity in Utah genealogies. Journal of Gerontology: Biological Sciences 56A: B130–9Google Scholar

Keyfitz, N. (1968). Introduction to the Mathematics of Population. Reading, M. A.: Addison-Wesley

Khaw, K. T., Wareham, N., Luben, R.et al. (2001). Glycated hemoglobin, diabetes, and mortality in the Norfolk cohort of the European Prospective Investigation of Cancer and Nutrition (EPIC-Norfolk). British Medical Journal 322: 15–18CrossRefGoogle Scholar

Khazaeli, A. A., Xiu, L., and Curtsinger, J. W. (1996). Effect of adult cohort density on age-specific mortality in Drosophila: a density supplementation experiment. Genetica 98: 21–31CrossRefGoogle ScholarPubMed

Kiecolt-Glasser, J. K., Dura, J. R., Speicher, C. E., Trask, O. J., and Glasser, R. (1991). Spousal caregivers of dementia victims: longitudinal changes in immunity and health. Psychosomatic Medicine 53: 345–62CrossRefGoogle Scholar

Kiecolt-Glasser, J. K., Fisher, C. D., Ogrocki, P., Stout, J. C., Spencer, C. E., and Glasser, R. (1987). Marital quality, marital disruption, and immune function. Psychosomatic Medicine 49: 13–32CrossRefGoogle Scholar

Kinsella, K. and Suzman, R.. (1992). Demographic Dimensions of Population Aging in Developing Countries. American Journal of Human Biology 4: 3–8CrossRefGoogle ScholarPubMed

Kirkwood, TBL. (1977). Evolution of aging. Nature 270: 301–4CrossRefGoogle Scholar

Kirkwood, TBL. (1981). Repair and its evolution: survival versus reproduction. In Physiological Ecology: An Evolutionary Approach to Resource Use, C. R. Townsend and P. Calow (eds.). Oxford: Blackwell

Kirkwood, TBL. (1990). The Disposable Soma Theory of Aging. In Genetic Effects on Aging II, D. E. Harrison (ed.). New Jersey: Telford Press, pp. 9–19

Kirkwood, TBL. (1995). What can evolution theory tell us about the mechanisms of aging? In Molecular Aspects of Aging, K. Esser and G. M. Martin (eds.). New York: John Wiley and Sons

Kirkwood, TBL. (2000). Molecular gerontology – bridging the simple and the complex. Molecular and Cellular Gerontology 908: 14–20Google ScholarPubMed

Kirkwood, TBL. and Austad, S. N. (2000). Why do we age?Nature 408: 233–8CrossRefGoogle ScholarPubMed

Kirkwood, TBL. and Cremer, T. (1982). Cytogerontology since 1881: a reappraisal of August Weismann and a review of modern progress. Human Genetics 60: 101–21CrossRefGoogle Scholar

Kirkwood, T. B. and Kowald, A. (1997). Network theory of aging. Experimental Gerontology 32: 395–9CrossRefGoogle Scholar

Knopman, D., Boland, L. L., Mosley, T.et al. (2001). Cardiovascular risk factors and cognitive decline in middle-aged adults. Neurology 56: 42–8CrossRefGoogle ScholarPubMed

Kondo, O., Dode, Y., Akazawa, T., and Muhesen, S. (2000). Estimation of stature from the skeletal reconstruction of an immature Neanderthal from Dederiyeh Cave, Syria. Journal of Human Evolution, 38: 457–73CrossRefGoogle Scholar

Korpelainen, H. (2000). Variation in the heritability and evolvability of human lifespan. Naturwissenschaften 87: 566–8CrossRefGoogle ScholarPubMed

Kosciolek, B. A. and Rowley, P. T. (1998). Human lymphocyte telomerase is genetically regulated. Genes, Chromosomes, and Cancer 21: 124–303.0.CO;2-2>CrossRefGoogle ScholarPubMed

Kowald, A. and Kirkwood, TBL. (1994). Towards a network theory of aging: a model combining the free radical theory and the protein error theory. Journal of Theoretical Biology 168: 75–94CrossRefGoogle ScholarPubMed

Krall, E. (1997). Bone mineral density and biochemical markers of bone turnover in healthy elderly men and women. Journal of Gerontology 52: M61–7Google ScholarPubMed

Kreisberg, R. A. (1987). Aging, glucose, metabolism, and diabetes: current concepts. Geriatrics, 42: 67–72Google ScholarPubMed

Kurtz, T. W. and Spence, M. A. (1993). Genetics of essential hypertension. American Journal of Medicine 94: 77–84CrossRefGoogle ScholarPubMed

Kusnetsova, S. M. (1987). Polymorphism of heterochromatin areas on chromosomes 1, 9, 16, and T in long lived subjects and persons of different ages in two regions of the Soviet Union. Archives of Gerontology and Geriatrics 6: 177–86CrossRefGoogle Scholar

Lagaay, A. M., D'Amaro, J., Ligthart, G. J., Th. Schreuder, G. M., Rood, J. J., and Hijmans, W. (1991). Longevity and Heredity in Humans: Association with the Human Leucocyte Antigen Phenotype. Annals of the New York Academy of Sciences, 621: 78–89CrossRefGoogle ScholarPubMed

Lakatta, E. G. (1990). Heart and circulation. In Handbook of the Biology of Aging, E. L. Schneider and J. W. Rowe (eds.). San Diego: Academic Press, Inc., pp. 181–218

Lakowski, B. and Hekimi, S. (1996). Determination of life-span in Caenorhabditis elegans by Four Clock Genes. Science 272: 1010–13CrossRefGoogle ScholarPubMed

Lancaster, J. B. and King, B. J. (1985). An evolutionary perspective on menopause. In In Her Prime, J. K. Brown and V. Kerns (eds.). South Hadley, M. A.: Bergin and Garvey

Lane, M. A., Ingram, D. K., and Roth, G. S. (1997). Beyond the rodent model: calorie restriction in rhesus monkeys. Age 20: 45–56CrossRefGoogle ScholarPubMed

Lapidot, M. B. (1987). Does the brain age uniformly? Evidence from effects of smooth pursuit eye movements on verbal and visual tasks. Journal of Gerontology 42: 329–31CrossRefGoogle ScholarPubMed

Lasker, G. W., Crews, D. E. (1996). Behavioral influences on the evolution of human genetic evolution. Molecular Phylogenetics and Evolution 5: 232–40CrossRefGoogle Scholar

Laveist, T. A., Nickerson, K. J. and Bowie, J. V. (2000). Attitudes about racism, medical mistrust and satisfaction with care among African American and white cardiac patients. Medical Care Research and Review 57: 146–61CrossRefGoogle ScholarPubMed

Law, C. M. (1996). Fetal and infant influences on non-insulin dependent diabetes mellitus (NIDDM). Diabetic Medicine 13: 549–52Google Scholar

Law, C. M., Swiet, M., and Osmond, C. (1993). Initiation of Hypertension in Utero and its Amplification Throughout Life. British Medical Journal 306: 24–7CrossRefGoogle ScholarPubMed

Lee, P. C. (1998). Primate life-history. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, and M. A. Preece (eds.). Cambridge: Cambridge University Press, pp. 102–3

Leidy, L. E. (1999). Menopause in evolutionary perspective. In Evolutionary Medicine, W. R. Trevathan, E. O. Smith and J. J. McKenna (eds). New York: Oxford University Press, pp. 407–27

Leidy-Sievert, L. (2001). Menopause as a measure of population health: an overview. American Journal of Human Biology 13: 429–33CrossRefGoogle Scholar

Leigh, S. R. (1996). Evolution of human growth spurts. American Journal of Physical Anthropology 101: 455–743.0.CO;2-V>CrossRefGoogle ScholarPubMed

Sourd, B. (1995). Protein undernutrition as the major cause of decreased immune function in the elderly: clinical and functional implications. Nutrition Reviews 53: 586–91Google Scholar

LeSourd, B. (1997). Nutrition and immunity in the elderly: modification of immune responses with nutritional treatments. American Journal of Clinical Nutrition 66: 478S–84CrossRefGoogle ScholarPubMed

LeSourd, B., Mazori, L., and Ferry, M. (1998). The role of nutrition in immunity in the aged. Nutrition Reviews 56: S113–25CrossRefGoogle ScholarPubMed

Levi, L. and Anderson, L. (1975). Psychological Stress. New York: Spectrum Publications

Lezhava, T. (2001). Chromosome and aging: genetic conception of aging. Biogerontology 2: 253–60CrossRefGoogle Scholar

Lifton, R. P. (1996). Molecular aspects of human blood pressure variation. Science 272: 676–80CrossRefGoogle Scholar

Little, M. A. and Haas, J. D. (eds.). (1989). Human Population Biology: A Transdisciplinary Science. New York: Oxford University Press

Livshits, G., Karasik, D., Pavlovsky, O., and Kobyliansky, E. (1999). Segregation analysis reveals a major gene effect in compact and cancellous bone mineral density in 2 populations. Human Biology 71: 155–72Google Scholar

Loth, S. R., and Isçan, M. V. (1994). Morphological Indicators of Skeletal Aging: Implications for Paleodemography and Paleogerontology. In Biological Anthropology and Aging: Perspectives on Human Variation Over the Life Span, D. E. Crews and R. M. Garruto (eds.). Oxford: Oxford University Press, pp. 394–425

Luciani, F., Turchetti, G., Franceschi, C. and Valensin, S. (2001). A mathematical model for the immunosenescence. S. Rivista Di Biologia 94: 305–18Google ScholarPubMed

Luckinbill, L. S., Arking, R., Clare, M. J., Cirocco, W. C., and Buck, S. A. (1984). Selection for delayed senescence in Drosophila melangaster. Evolution 38: 996–1003CrossRefGoogle Scholar

Ly, D. H., Lockhart, D. J., Lerner, R. A., Schultz, P. G. (2000). Mitotic misregulation and human aging. Science 287: 2486–92CrossRefGoogle ScholarPubMed

Lynn, J. (1994). Bad to the bone. Prevention 46: 73Google Scholar

Macdonald, D. (1989). The Encyclopedia of Mammals, 2nd edition. Oxford: Equinox

Macintyre, S., Hunt, K., and Sweeting, H. (1996). Gender differences in health: are things really as simple as they seem?Social Science and Medicine 42: 617–24CrossRefGoogle Scholar

Macurová, H., Ivanyi, P., Sajdlova, H., and Trojan, J. (1975). HLA antigens in aged persons. Tissue Antigens 6: 269–71CrossRefGoogle ScholarPubMed

Malino, R. M. and Bouchard, C. (1991). Growth, Maturation, and Physical Activity. Champaign, I.L: Human Kinetics Books

Mancilha-Carvalho, J. J. (1985). Estudo da presso arterial de Indios Yanami. Rio de Janiero, Brazil: Fese de Doutorado

Mancilha-Carvalho, J. J. and Crews, D. E. (1990). Lipid profiles of Yanomamo Indians. Preventative Medicine 19: 66–75CrossRefGoogle ScholarPubMed

Mangel, M. (2001). Complex adaptive system, aging and longevity. Journal of Theoretical Biology 213: 559–71CrossRefGoogle Scholar

Mann, A., Lampl, M., and Monge, J. M. (1996). The evolution of childhood: dental evidence for the appearance of human maturation patterns. American Journal of Physical Anthropology 21(Suppl.): 156 (abstract)

Manton, K. G. (1986a). Cause Specific Mortality Patterns Among the Oldest Old: Multiple Cause of Death Trends 1968 to 1980. Journal of Gerontology 41: 282–9CrossRefGoogle Scholar

Manton, K. G. (1986b). Past and Future Life Expectancy Increases at Later Ages: Their Implications for the Linkage of Chronic Morbidity, Disability, and Mortality. Journal of Gerontology 41: 672–81CrossRefGoogle Scholar

Manton, K. G. and Gu, X. (2001). Changes in the prevalence of chronic disability in the United States black and nonblack population above age 65 from 1982 to 1999. Proceedings of the National Academy of Sciences of the United States 98: 6354–9CrossRefGoogle ScholarPubMed

Manton, K. G. and Stallard, E. (1984). Recent Trends in Mortality Analysis. Academic Press: New York

Manton, K. G., Corder, L., Stallard, E. (1997). Chronic disability trends in elderly United States populations: 1982–1994. Proceedings of the National Academy of Sciences of the United States 94: 2593–8CrossRefGoogle ScholarPubMed

Manton, K. G., Stallard, E., Tolley, H. D. (1991). Limits to human life expectancy. Population and Development Review 17: 603–37CrossRefGoogle Scholar

Manton, K. G., Woodbury, M., and Stallard, E. 1995. Sex differences in human mortality and aging at late ages: the effects of mortality selection and state dynamics. The Gerontologist 35: 597–608CrossRefGoogle Scholar

Marks, J. (1994). Human Biodiversity: Genes, Race, and History. New York: Aldine de Gruyter

Marmot, M. G., Shipley, M. J., Rose, G. (1984). Inequalities in sex-specific explanations of a general pattern?Lancet 1984(ⅰ): 1003–6CrossRefGoogle Scholar

Martin, G. M. (1978). Genetic syndromes in man with potential relevance to the pathobiology of aging. Birth Defects Original Article Series 14: 5–39Google Scholar

Martin, G. M. and Turker, M. S. (1994). Genetics of human disease, longevity, and aging. In Principles of Geriatric Medicine and Gerontology, W. R. Hazzard, E. L. Bierman, J. P. Blass et al. (eds.). New York: McGraw-Hill

Martin, G. M. et al. (1995). Group report: do common underlying mechanisms of aging contribute to the pathogenesis of major geriatric disorders? In Molecular Aspects of Aging, K. Esser and B. M. Martin (eds.). New York: John Wiley & Sons

Martin, G. M., Austad, S. N., and Johnson, T. E. (1996). Genetic analysis of ageing: role of oxidative damage and environmental stresses. Nature Genetics 13: 25–34CrossRefGoogle ScholarPubMed

Marx, J. (2000). Chipping away at the causes of aging. Science 287: 2390CrossRefGoogle Scholar

Mascie-Taylor, C. G. N. (1991). Nutritional status: its measurement and relation to health. In Applications of Biological Anthropology to Human Affairs C. G. N. Masice-Taylor and G. W. Lasker (eds). Cambridge: Cambridge University Press, pp. 55–82CrossRef

Masoro, E. J. (1995). McCay's Hypothesis: Undernutrition and Longevity. Proceedings of the Nutrition Society 54: 657–664CrossRefGoogle ScholarPubMed

Masoro, E. J. (1996). The biological mechanism of aging: is it still an enigma?Age 19: 141–5CrossRefGoogle Scholar

Mattock, C., Marmot, M., and Stern, G. (1988). Could Parkinson's disease follow intra-uterine influenza? A speculative hypothesis. Journal of Neurology, Neurosurgery, and Psychiatry 51: 753–6CrossRefGoogle ScholarPubMed

Mayer, P. J. (1982). Evolutionary advantage of the menopause. Human Ecology 10: 477–93CrossRefGoogle Scholar

Mayer, P. J. (1991). Inheritance of Longevity Evinces no Secular Trend Among Members of Six New England Families Born in 1650–1874. American Journal of Human Biology 3: 49–58CrossRefGoogle ScholarPubMed

Mayer, P. J. (1994). Human immune system aging: approaches, examples, and ideas. In Biological Anthropology and Aging: Perspectives on Human Variation over the Life Span, D. E. Crews and R. M. Garruto (eds.). Oxford: Oxford University Press, pp. 182–213

McCay, C. M., Crowell, M. F., and Maynard, L. A. (1935). The Effect of Retarded Growth on the Length of Life Span and upon Ultimate Body Size. Journal of Nutrition 10: 255–63CrossRefGoogle Scholar

McEwen, B. S. (1998). Protective and damaging effects of stress mediators. New England Journal of Medicine 338: 171–9CrossRefGoogle ScholarPubMed

McEwen, B. S. (1999). Allostasis and allostatic load: implications for neuropsychopharmacology. Neuropsycopharmacology 22: 108–24CrossRefGoogle Scholar

McEwen, B. S. and Seeman, T. (1999). Protecting and damaging effects of mediators of stress: elaborating and testing the concepts of allostasis and allostatic load. Annals of the New York Academy of Science 896: 30–47CrossRefGoogle Scholar

McEwen, B. S. and Steeler, E. (1993). Stress and the individual: mechanisms leading to disease. Archives of Internal Medicine 153: 2093–101CrossRefGoogle ScholarPubMed

McGarvey, S. T., Levinson, P. D., Bausserman, L., Galanis, D. L., and Hornick, C. A. (1993). Population Change in Adult Obesity and Blood lipids in American Samoa from 1976–1978 to 1990. American Journal of Human Biology 5: 17–30CrossRefGoogle ScholarPubMed

McIntosh, W. A., Kaplan, H. B., Kubena, K. S., and Landman, W. A. (1993). Life events, social support, and immune response in elderly individuals. International Journal of Aging and Human Development 37: 23–36CrossRefGoogle ScholarPubMed

McLong, P. A. (2000). Aging and Glycemia in a Nonwesternized Context: Rural Maya Females in Yucatan, Mexico, Ph.D. Dissertation, Southern Illinois University, Carbondale, I. L

Mead, J. F. (1976). Free radical mechanisms of lipid damage and consequences for cellular membranes. In Free Radicals in Biology, vol. 1, W. A. Pryor (ed.). New York: Academic Press, pp. 51–68CrossRef

Medawar, P. B. (1946). Old age and natural death. Mod. Quart. 1: 30–56Google Scholar

Medawar, P. B. (1952). An Unsolved Problem of Biology. London: H. K. Lewis

Menzel, H-J., Kladetzky, R-G., and Assmann, G. (1983). Apoliopoprotein E polymorphism and coronary artery disease. Arteriosclerosis 3: 310–15CrossRefGoogle Scholar

Miller, R. A. (1995). Geroncology: The Study of Aging as the Study of Cancer. In Molecular Aspects of Aging, K. Esser and G. M. Martin (eds.). New York: John Wiley and Sons, pp. 265–80

Minc-Golomb, D., Knobler, H., and Groner, Y. (1991). Gene dosage of CuZnSOD and Down's Syndrome: diminished prostaglandin synthesis in human trisomy 21, transfected cells and transgenic mice. EMBO. J. 10: 2119–2124Google ScholarPubMed

Mitrushina, M., Fogel, T., D'Elia, L., Uchiyama, C., and Satz, P. (1995). Performance on motor tasks as an indication of increased behavioral asymmetry with advancing age. Neuropsychologia 33: 359–64CrossRefGoogle ScholarPubMed

Mitrushina, M., Uchiyama, C., and Satz, P. (1995). Heterogeneity of cognitive profiles in normal aging: implications for early manifestations of Alzheimer's disease. Journal of Clinical and Experimental Neuropsychology Research 17: 374–82CrossRefGoogle ScholarPubMed

Miyamoto, H., Manabe, N., Akiyama, Y., Mitani, Y., Sugimoto, M., and Salo, E. (1994a). Quantitative studies on spermatogenesis in the senescence accelerated mouse. In The SAM Model of Senescence, T. Takeda (ed.). Elsevier Science B. V., Amsterdam, pp. 275–8

Miyamoto, H., Manabe, N., Watanabe, T. et al. (1994b). Female reproductive characteristics of the senescence accelerated mouse. In The SAM Model of Senescence, T. Takeda (ed.). Elsevier Science B. V., Amsterdam, pp. 279–90

Molnar, S. (2000). Human Variation: Races, Types, and Ethnic Groups, 5th edition. Englewood Cliffs, Prentice Hall

Monnier, V. M., Sell, D. R., Nagara, R. H., and Miyata, S. (1991). Mechanisms of protection against damage mediated by the maillard reactions in aging. Gerontology 37: 152–65CrossRefGoogle Scholar

Montagu, M. F. A. (1962). The concept of race. American Anthropologist 64: 919–28CrossRefGoogle Scholar

Morrison, N. A., Tokita, A., Kelly, P. J., Crofts, L., Nguyen, T. V., Sambrook, N., and Eisman, J. A. (1994). Prediction of bone density from vitamin D reception alleles. Nature, 367: 284–87CrossRefGoogle Scholar

Mossey, J. M. and Shapiro, E. (1982). Self-related health: a predictor of mortality among the elderly. American Journal of Public Health 72: 800–8CrossRefGoogle Scholar

Mueller, W. H. (1998). Genetic and environmental influences on fetal growth. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, and M. A. Preece (eds.). Cambridge: Cambridge University Press, pp. 133–56

Muldoon, M. F., Manuck, S. B., and Matthews, K. A. (1990). Lowering cholesterol of concentrations and mortality: a quantitative review of primary prevention trials. British Medical Journal 301: 309–14CrossRefGoogle ScholarPubMed

Mulrow, C. D., Gerety, M. B., Cornell, J. E., Lawrence, V. A., and Katen, D. N. (1994). The relationship of disease and function and perceived health in very frail elders. Journal of the American Geriatrics Society 42: 374–80CrossRefGoogle ScholarPubMed

Multhaup, G., Ruppert, T., Schlicksupp, A.et al. (1997). Reactive oxygen species and Alzheimer's disease. Biochemical Pharmacology 54: 533–9CrossRefGoogle ScholarPubMed

Murphy, S. L. 2000. Deaths: Final Report for 1998. National Vital Statistics Reports 48. Hyattsville, M. D.: NCHS

Myers, G. C. and Manton, K. G. (1984). Compression of mortality: myth or reality?The Gerontologist 24: 346–53CrossRefGoogle ScholarPubMed

Namba, Y., Tomonaga, M., Kawasaki, H., Otomo, E., and Ikeda, K. (1991). Apolipoprotein E immunoreactivity in cerebral amyloid deposits and neurofibrillary tangles in Alzheimer's disease and kuryplaque amyloid in Creutzfeldt-Jakob disease. Brain Research 541: 163–6CrossRefGoogle ScholarPubMed

Nathanielsz, P. W. (1996). The timing of birth. American Scientist 84: 562–9Google Scholar

National Center for Health Statistics. (1987). Aging in the eighties, functional limitations of individuals age 65 years and over. Advance Data from Vital Health Statistics (No. 133. DHHS Publ. No (PHS) 87–1250). Hyattsville, M. D.: Public Health Services

National Cholesterol Education Program Expert Panel (NCEP) (1993). Expert Panel on Detection and Treatment of High Blood Cholesterol in Adults. Summary of the second report of the National Cholesterol Education Program (NCEP) Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel II). Journal of the American Medical Association 269: 3015–23CrossRef

Neel, J. V. (1962). Diabetes mellitus: a “thrifty” genotype rendered detrimental by “progress.”American Journal of Human Genetics 14: 353–62Google ScholarPubMed

Neel, J. V. (1982). The thrifty genotype revisited. In The Genetics of Diabetes Mellitus, J. Kobberling and R. Tattersall (eds.). London: Academic Press

Newcomb, T. G. and Leob, L. A. (1998). Oxidative DNA damage and mutagenesis. In DNA Damage and Repair, J. Nickoloff and M. Hoekstra (eds.). New Jersey: Human PressCrossRef

Nimchimsky, E. A., Gilssen, E., Allman, J. M., Perl, D. P.Erwin, J. M., and Hof, P. R. (1999). A neuronal morphologic type unique to humans and great apes. Proceedings of the National Academy of Science 96: 5268–73CrossRefGoogle Scholar

O'Hara, R., Yesavage, J. A., Kraemer, H. C.et al. (1998). The APOE 4 allele is associated with decline on delayed recall performance in community-dwelling elderly. Journal of the American Geriatrics Society 46: 1493–8CrossRefGoogle Scholar

O'Connor, K., Holman, D. J., and Wood, J. W. (1998). Declining fecundity and ovarian aging in natural fertility populations. Maturitas 21: 103–13; 30: 127–36Google Scholar

Okabe, T., Hamaguchi, K., Inafuku, T., and Hara, M. (1996). Aging and superoxide dismutase activity in cerebrospinal fluid. Journal of Neurological Science 141: 100–4CrossRefGoogle ScholarPubMed

Olofsson, P., Schwalb, O., Chakraborty, R., and Kimmel, M. (2001). An application of a general branching process in the study of the genetics of aging. Journal of Theoretical Biology 213: 547–57CrossRefGoogle Scholar

Oliver, D. L. (1961). The Pacific Islanders. Garden City, N.Y.: Doubleday and Company. Inc.

Oliver, M. F. (1992). Doubts about preventing coronary heart disease. Multiple interventions in middle aged men may do more harm than good. British Medical Journal 304: 393–4CrossRefGoogle Scholar

Olovnikov, A. M. (1996). Telomeres, telomerase, and aging: origin of the theory. Experimental Gerontology 4: 443–8CrossRefGoogle Scholar

Olshansky, S. J. and Carnes, B. A. (1994). Demographic perspectives of human senescence. Population and Development Review 20: 57–80CrossRefGoogle Scholar

Olshansky, S. J., Carnes, B. A., and Cassel, C. (1990). In search of Methuselah: estimating the upper limits to human longevity. Science 250: 634–40CrossRefGoogle ScholarPubMed

Olshansky, S. J., Carnes, B. A., and Grahn, D. (1998). Confronting the boundaries of human longevity. American Scientist 86: 52–61CrossRefGoogle Scholar

Omran, A. R. (1971). The epidemiologic transition: a theory of the epidemiology of population change. Milbank Memorial Fund Quarterly 49: 509–38CrossRefGoogle ScholarPubMed

Omran, A. R. (1983). The epidemiological transition theory. A preliminary update. Journal of Tropical Pediatrics 29: 305–16CrossRefGoogle ScholarPubMed

Orgel, L. E. (1970). The maintenance of the accuracy of protein synthesis and its relevance to aging. Proceedings of the National Academy of Sciences USA 49: 517–21CrossRefGoogle Scholar

Orgel, L. E. (1973). Aging of clones of mammalian cells. Nature 243: 441–5CrossRefGoogle ScholarPubMed

Orr, W. C. and Sohal, R. S. (1994). Extension of life span by overexpression of superoxide dismutase and catalase in Drosophila melanogaster. Science 263: 1128–30CrossRefGoogle ScholarPubMed

Ossa, K. and Crews, D. E. (in press). Biological and genetic theories of the process of aging throughout life. In Age-Between Nature and Culture, C. Sauvain-Dugergil and N. Mascie-Taylor (eds.). International Union for the Scientific Study of Population

Packer, C., Tatar, M., and Collin, A. (1998). Reproductive cessation in female mammals. Nature 392: 807–10CrossRefGoogle ScholarPubMed

Paffenbarger, R. S., Hyde, R. T., Wing, A. L., and Hsieh, C. (1986). Physical activity, all-cause mortality, and longevity of college alumni. New England Journal of Medicine 314: 605–13CrossRefGoogle ScholarPubMed

Page, et al. (1974)

Pamuk, E., Makue, D., Heck, K., Reuben, C., and Lochner, K. (1998). Socioeconomic Status and Health Chartbook. Hyattsville, M. D.: National Center for Health Statistics

Papasteriades, C., Boki, K., Pappa, H., Hedonopoulos, S., Papasteriadis, E., and Economidou, J. (1997). HLA phenotypes in healthy aged subjects. Gerontology 43: 176–81CrossRefGoogle ScholarPubMed

Partridge, L. and Fowler, K. (1992). Direct and correlated responses to selection on age at reproduction in Drosophila melangaster. Evolution 46: 76–91CrossRefGoogle Scholar

Pavelka, M. S. M. and Fedigan, L. M. (1991). Menopause: a comparative life history perspective. Yearbook of Physical Anthropology. 34: 13–38CrossRefGoogle Scholar

Paz, et al. (1995). Chapter 11. In Molecular Aspects of Aging K. Esser and G. M. Martin (eds.). New York: John Willey and Sons

Pearl, R. (1922). The Biology of Death. Philadelphia: J. B. Lippincott Co.

Pearl, R. (1928). The Rate of Living Theory. New York: A. A. Knopf

Pearl, R. (1931). Studies on human longevity III: the inheritance of longevity. Human Biology 3: 245–53Google Scholar

Pearl, R. and Pearl, H. D. (1934). The Ancestry of the Long-Lived. Baltimore: Johns Hopkins University Press

Pearson, J. D. and Crews, D. E. (1998). Apoptosis: programmed cell death. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E Johnston, M. A. Preece (eds.). Cambridge: Cambridge University Press, p. 431

Peccei, J. S. (1995a). A hypothesis for the origin and evolution of menopause. Mauritas 21: 83–9Google Scholar

Peccei, J. S. (1995b). The origin and evolution of menopause: the altriciality-lifespan hypothesis. Etiology and Sociobiology 16: 425–49CrossRefGoogle Scholar

Peccei, J. S. (2001a). A critique of the grandmother hypotheses: old and new. American Journal of Human Biology 13(4): 434–452CrossRefGoogle Scholar

Peccei, J. S. (2001b). Menopause: Adaptation or Epiphenomenon?Evolutionary Anthropology. 10 (2001): 43–57CrossRefGoogle Scholar

Perls, T. T. (1995). The oldest old. Scientific American 272: 70–5CrossRefGoogle ScholarPubMed

Perls, T. T. (2001). Genetic and phenotypic markers among centenarians. Journal of Gerontology 56A: M67–70Google Scholar

Perls, T. P. and Silver, M. H. with Lanerman, J. F. (1995). Living to 100: Lessons in Living to your Maximum Potential at any Age. New York: Basic Books

Pfeiffer, S. (1982). The evolution of human longevity: distinctive mechanisms?Canadian Journal on Aging 9: 95–103CrossRefGoogle Scholar

Plassman, B. L., Welsh, K. A., Helms, M., Brandt, J., Page, W. F., and Breitner, J. C. (1995). Intelligence and education as predictors of cognitive state in late life: a 50-year follow-up. Neurology 45: 1446–50CrossRefGoogle Scholar

Pletcher, S. D. and Curtsinger, J. W. (1998). Age-specific properties of spontaneous mutations affecting mortality in Drosophila melangaster. Genetics 148: 287–303Google Scholar

Prothero, J. and Jürgens, K. D. (1987). Scaling of maximum life span in mammals: a review. Basic Life Sciences 42: 49–74Google Scholar

Proust, J., Moulias, R., Fumero, F., Bekkhoucha, F., Busson, M., and Schmid, M. (1982). HLA and longevity. Tissue Antigens 19: 168–73CrossRefGoogle ScholarPubMed

Pryor, W. A. (1984). Free radicals in autoxidation and in aging. In Free Radicals in Molecular Biology, Aging, and Disease, D. Armstrong, R. S. Sohal. R. G. Cutler, and T. F. Slater (eds.). New York: Raven Press, pp. 13–42

Puca, A., Shea, M., Bowen, J.et al. (2000). Familial clustering for extreme longevity and patterns of inheritance. Journal of the American Geriatrics Society 48: 1483–5Google Scholar

Raeven, G. M. and Raeven, E. P. (1985). Age, glucose intolerance, and non-insulin-dependent diabetes mellitus. Journal of the Geriatric Society 33: 286–90CrossRefGoogle Scholar

Raeven, G. M. (1988). Banting Lecture. Role of Insulin Resistance in Human Disease. Diabetes 37: 1595–607Google Scholar

Rakowski, W., and Pearlman, D. N. (1995). Demographic aspects of aging: current and future trends. In Care of the Elderly: Clinical Aspects of Aging, W. Reichel (ed.). Baltimore: Williams and Wilkins, pp. 488–495

Reff, M. E. (1985). RNA and protein metabolism. In Handbook of the Biology of Aging, 2nd edition, C. E. Finch and E. L. Schneider (eds.). New York: Van Nostrand Reinhold CO.: pp. 225–54

Resnick, D. (1985). Costs of reproduction: an evaluation of the empirical evidence. Oikos 44: 257–67CrossRefGoogle Scholar

Richter, C. (1988). Do mitochondrial DNA fragments promote cancer and aging?FEBS Letters 241: 1–5CrossRefGoogle ScholarPubMed

Richter, C. (1995). Oxidative damage to mitochondrial DNA and its relationship to aging. In Molecular Aspects of Aging, K. Esser and G. M. Martin, (eds.). New York: John Wiley and Sons, pp. 99–108

Richter, C., Park, J. W., and Ames, B. N. (1988). Normal oxidative damage to mitochondrial nuclear DNA is extensive. Proceedings of the National Academy of Sciences of the United States 85: 6465–67CrossRefGoogle ScholarPubMed

Rogers, R. (1992). Living and dying in the U.S. A.: sociodemographic determinants of death among blacks and whites. Demography, 29: 287–303CrossRefGoogle ScholarPubMed

Rose, M. R. (1984). Laboratory evolution of postponed senescence in Drosophila melangaster. Evolution 38: 1004–10CrossRefGoogle Scholar

Rose, M. R. (1991). The Evolutionary Biology of Aging. Oxford: Oxford University Press

Rosen, D. R., Siddique, T., and Patterson, D. (1993). Mutations on Cu/Zn superoxide dismutase gene are associated with familial amyotrophic lateral sclerosis. Nature 362: 59–62CrossRefGoogle ScholarPubMed

Rosenwaike, L. (1985). A demographic portrait of the oldest old. Milbank Memorial Fund Quarterly 63: 187–205CrossRefGoogle ScholarPubMed

Roth, G. S., Ingram, D. K., and Lane, M. A. (1995). Slowing aging by caloric restriction. Nature Medicine 1: 414–15CrossRefGoogle ScholarPubMed

Rowland, R. and Roberts, J. (1982). Blood pressure levels and hypertension in persons ages 6–74 years: United States, 1976–1980. In Vital Health Statistics, no. 84. Department of Health and Human Services Publication 82–1250. Washington D.C.: Government Printing Office

Sacher, G. A. (1975). Maturation and longevity in relation to cranial capacity in hominid evolution. In Primate Functional Morphology and Evolution, R. Tuttle (ed.). The Hague: Mouton, pp. 417–41CrossRef

Sacher, G. A. (1977). Life table modification and life prolongation. In Handbook of the Biology of Aging, L. Hayflick and C. E. Finch (eds.). New York: Academic Press, pp. 582–638

Sacher, G. A. (1980). Mammalian life histories: their evolution and molecular genetic mechanism. In Aging, Cancer, and Cell Membranes, C. Borek, C. M. Fenoglis and D. W. King (eds.). New York: Thieme-Straton Inc.

Santos, R. V. and Coimbra, C. A. E. (1996). Socioeconomic differentiation and body morphology in the Surui of Southwestern Amazonia. Current Anthropology 37: 851–6CrossRefGoogle Scholar

Sapolsky, R. M. (1990). The adrenocortical axis. In Handbook of the Biology of Aging, E. L. Schneider and J. W. Rowe (eds.). San Diego: Academic Press, Inc., pp. 330–48

Sapolsky, R. M. (1992). Stress, the Aging Brain, and the Mechanism of Neuron Death. Cambridge, M. A.: NIT Press

Satta, Y., O'Huigin, C., Takahata, N., and Klein, J. (1994). Intensity of natural selection at the major histocompatibility complex loci. Proceedings of the National Academy of Sciences of the United States 91: 7184–8CrossRefGoogle ScholarPubMed

Schächter, F., Faire–Delanef, L., Guenot, F.et al. (1994). Genetic association with human longevity at the APOE and ACE loci. Nature Genetics 6: 29–32CrossRefGoogle Scholar

Schell, L. M. (1991). Pollution and human growth: lead, noise, polychlorobiphenyl compounds and toxic wastes. In Applications of Biological Anthropology in Human Affairs, C. G. N. Mascie-Taylor and G. W. Lasker (eds.). New York Cambridge University Press, pp. 83–116CrossRef

Schlenker, E. (1998). Nutrition in Aging. Dubuque, I. A.: WCB/McGraw-Hill

Schoenfeld, D. E., Malmrose, L. C., Blazer, D. G., Gold, D. T., and Seeman, T. E. (1994). Self-rated health and mortality in the high-functioning elderly – a closer look at healthy individuals: MacArthur field study of successful aging. Journal of Gerontology 49: M109–15CrossRefGoogle Scholar

Schulz-Aellen, M. F. (1997). Aging and Human Longevity. Boston: Birkhauser

Schuster, H., Wienker, T. F., Stremmler, U., Noll, B., Steinmetz, A., and Luft, F. C. (1995). An angiotensin-converting enzyme gene variant is associated with acute myocardial infarction in women but not in men. American Journal of Cardiology 76: 601–3CrossRefGoogle Scholar

Schrimshaw, N. S. and Young, V. R. (1989). Adaptation to low protein and energy intakes. Human Organization 48: 20–30CrossRefGoogle Scholar

Seeman, T. E., Singer, B. H., Rowe, J. W., Horowitz, R. I., and McEwen, B. S. (1997). Price of adaptation – allostatic load and its consequences. Archives of Internal Medicine 157: 2259–68CrossRefGoogle Scholar

Seltzer, C. C. (1966). Some re-evaluations of the build and blood pressure study, 1959, as related to ponderal index, somatotype and mortality. New England Journal of Medicine 274: 254–9CrossRefGoogle ScholarPubMed

Selye, H. (1956). The Stress of Life. New York: McGraw-Hill

Service, P. M. (1987). Physiological mechanisms of increased stress resistance in Drosophila melanogaster selected for postponed senescence. Physiological Zoology 60: 321–6CrossRefGoogle Scholar

Service, P. M. (2000a). The genetic structure of female life history in D. melanogaster: comparisons among populations. Genetic Research 75: 153–66CrossRefGoogle Scholar

Service, P. M. (2000b). Heterogeneity in individual mortality risk and its importance for evolutionary studies of senescence. The American Naturalist 156: 1–13CrossRefGoogle Scholar

Service, P. M., Hutchinson, E. W., Mackinley, M. D., and Rose, M. R. (1985). Resistance to environmental stress in Drosophila melangaster selected for postponed senescence. Physiological Zoology 58: 380–9CrossRefGoogle Scholar

Service, P. M., Micheli, C. A., and McGill, . (1998). Experimental evolution of senescence: an analysis using a “heterogeneity” mortality model. Evolution 52: 1844–50Google ScholarPubMed

Sevanian, A. (1985). Mechanisms and consequences of lipid peroxidation in biological systems. Annual Review of Nutrition 5: 365–90CrossRefGoogle ScholarPubMed

Severson, L. D. (2001). HLA, microsatellite, and viral DNA sequences in American Samoans and Yanomami Indians. Ph.D. dissertation, The Ohio State University

Severson, L. D., Crews, D. E., and Lang, R. W. (1997). Application of SSP/ARMS to HLA class 1 loci in Samoans. In: Proceedings of the 12th International Histocompatibility Workshop and Conference, vol. 11 (ed. D. Charron). Paris: EDK

Shay, J. W. (1997). Molecular pathogenesis of aging and cancer: are telomeres and telomerase the connection?Journal of Clinical Pathology 50: 799–800CrossRefGoogle ScholarPubMed

Shay, J. W. and Werbin, H. (1992). New evidence for the insertion of mitochondrial DNA into the human genome: significance for cancer and aging. Mutation Research 275: 227–35CrossRefGoogle ScholarPubMed

Shay, J. W. et al. (1995). Chapter 13. In Molecular Aspects of Aging, K. Esser and G. M. Martin (eds.). New York: John Wiley and Sons

Shay, J. W. (1998). Molecular pathogenesis of aging and cancer: are telomeres and telomerase: the connection. Journal of Clinical Pathology 50: 799–800CrossRefGoogle Scholar

Shea, B. (1998). Growth in non-human primates. In The Cambridge Encyclopedia of Human Growth and Development, S. J. Ulijaszek, F. E. Johnston, and M. A. Preece (eds.). Cambridge: Cambridge University Press, pp. 100–3

Shimokata, H., Muller, D.C., Fleg, J. L., Sorkin, J., Ziemba, A. W., and Andres, R. (1991). Age as an independent determinant of glucose tolerance. Diabetes Care 40: 44–51CrossRefGoogle ScholarPubMed

Shippen, D. E. (1993). Telomeres and telomerase. Current Opinions in Genetics of Development 3: 759–63CrossRefGoogle Scholar

Shock, N. W. (1984). Normal Human Aging: The Baltimore Longitudinal Study of Aging. U.S. Department of Health and Human Services: NIH Publication No. 84–2450