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Altman, PL., and Dittmer, D.S. (1972). Biology Data Book, Vol. 1. Federation of the American Sciences for Experimental Biology, Bethesda, MD.

Austad, S. (1997). Birds as models of aging in biomedical research. ILAR J. Online 38(3).

Austad, S.N. (1993). The comparative perspective and choice of animal models in aging research. Aging (Milano) 5, 259-267.

Austad, S.N., and Fischer, K.E. (1991). Mammalian aging, metabolism, and ecology: Evidence from the bats and marsupials. J. Gerontol.: Biol. Sci. 46, B47-B53.

Bahr, J.M., and Palmer, S.S. (1989). The influence of aging on ovarian function. Crit. Rev. Poult. Biol. 2, 103-110.

Barja, G. (1998). Mitochondrial free radical production and aging in mammals and birds. Ann. N. Y. Acad. Sci. 854, 224-238.

Barja, G., and Herrero, A. (1998). Localization at complex I and mechanism of the higher free radical production of brain nonsynaptic mitochondria in the short-lived rat than in the longevous pigeon. J. Bioenerg. Biomemb. 30, 235-243.

Barja, G., Cadenas, S., Roja, C., Perez-Campo, R., and Lopez-Torres, M. (1994). Low mitochondrial free radical production per unit of O2 consumption can explain the simultaneous presence of high longevity and high aerobic metabolic rate in birds. Free Rad. Res. 21, 317-328.

Barja, G., Cadenas, S., Roja, C., Lopez-Torres, M., and Perez-Campo, R. (1994). A decrease in free radical production near critical targets as a cause of maximum longevity in animals. Comp. Biochem. Physiol. Biochem. Molec. Biol. 108, 501-512.

Bennett, P.M., and Owens, I. P. F. (2002). Evolutionary Ecology of Birds. Life Histories, Mating Systems and Extinction, Oxford University Press, Oxford.

Bridgham, J.T., and Johnson, A.L. (2001). Expression and regulation of Fas antigen and tumor necrosis factor receptor type 1 in hen granulosa cells. Biol. Reprod. 65, 733-739.

Bronson, F.H. (1989). Mammalian Reproductive Biology, University of Chicago Press, Chicago, IL.

Byerly, R.C., Soares, J.H.J., and Ottinger, M.A. (1984). Severe vs. moderate restrictions of feed intake: Effects on body weight, egg production, energetic efficiency and male development of broiler breeders. Proceeding of XVII— World's Poultry Congress.

Carey, J.R., and Judge, D.S. (2000). Longevity Records: Life Spans of Mammals, Birds, Amphibians, Reptiles, and Fish. Odense Monographs on Population Aging 8, Odense University Press, Odense, Denmark. Cerami, A. (1985). Hypothesis: Glucose as a mediator of aging.

J. Amer. Geriatr. Soc. 33, 626-634. Cichon, M., Sendecka, J., and Gustafsson, L. (2003). Age-related decline in humoral immune function in Collared Flycatchers. J. Evol. Biol. 16, 1205-1210. Cheeseman, J.H., Kaiser, M.G., and Lamont, S.J. (2004). Genetic line effect on peripheral blood leukocyte cell surface marker expression in chickens. Poult. Sci. 83, 911-916. Clum, N.J. (1995) Effects of aging and mate retention on reproductive success of captive female peregrine falcons. Amer. Zool. 35, 329-339. Del Maestro, R.F. (1980). An approach to free radicals in medicine and biology. Acta Physiol. Scand. 492, 153-168. Delany, M.E., Krupkin, A.B., and Miller, M.M. (2000). Organization of telomere sequences in birds: Evidence for arrays of extreme length and for in vivo shortening. Cytogenet. Cell Genet. 90, 139-145. Doetsch, R., and Scharff, C. (2001). Challenges for brain repair: Insights from adult neurogenesis in birds and mammals. Br. Behav. Evol. 58, 306-322. Edney, E.B., and Gill, R.W. (1968). Evolution of senescence and specific longevity. Nature 220, 281-282. Finch, C.E. (1990) Longevity, Senescence, and the Genome,

University of Chicago Press, Chicago, IL. Gavrilov, V.M., and Dolnik, V.R. (1982). Basal metabolic rate, thermoregulation and existence energy in birds: World data. In Ilyichev, V.D., and Gavrilov, V.M. (Eds.). Acta XVIII. Congress Internationalis Ornithologici. Academy of Sciences of the USSR, Moscow, pp. 421-466. Giles, JR., Shivaprasad H.L., and Johnson, P.A. (2004). Ovarian tumor expression of an oviductal protein in the hen: a model for human serous ovarian aenocarcinoma. Gynecologic Oncology 95, 530-533. Gill, F.B. (1995). Ornithology, W.H. Freeman, New York. Granger, M.P., Wright, W.E., and Shay, J.W. (2002). Telomerase in cancer and aging. Crit. Rev. Oncol. Hematol. 41, 29-40.

Guraya, S.S. (1989). Ovarian Follicles in Reptiles and Birds,

Springer-Verlag, Heidelberg. Gustafsson, L., and Part, T. (1991). Acceleration of senescence in the collared flycatcher Ficedula albicollis by reproductive costs. Nature 347, 279-281. Hall, M., Nasir, L., Daunt, F., Gault, E., Croxall, J., Wanless, S., and Monaghan, P. (2004). Telemere loss in relation to age and early environment in long-lived birds. Proc. R. Soc. Lond.

Harley, C.B. (1995). Telomeres and aging. In Telomeres (Blackburn, E.H., and Greider, C.W., eds.) pp. 247-263, Cold Spring Harbor Laboratory Press, Cold Spring Harbor. Harman, D. (1956). Aging: A theory based on free radical and radiation chemistry. J. Gerontol. 11, 289-300. Haussmann, M.F., Winkler, D.W., O'Reilly, K.M., Huntington,

C.E., Nisbet, I.C.T., and Vleck, C.M. (2003). Telomeres shorten more slowly in long-lived birds and mammals than in short-lived ones. Proc. Roy. Soc. Lond. B Biol. Sci. 70, 1387-1392.

Herrero, A., and Barja, G. (1998). H2O2 production of heart mitochondria and aging rate are slower in canaries and parakeets than in mice: Sites of free radical generation and mechanisms involved. Mech. Age. Devel. 103, 133-146.

Hillier, L., Miller, W., Birney, E., Warren, W., Hardison, R., Ponting, C., et al. (2004). Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution. Nature 432, 695-716.

Holmes, D.J., and Austad, S.N. (1995). The evolution of avian senescence patterns: Implications for understanding primary aging processes. Amer. Zool. 35, 307-317.

Holmes, D.J., and Austad, S.N. (1995). Birds as animal models for the comparative biology of aging: A prospectus. J. Gerontol. Biol. Sci. 50A, 59-66.

Holmes, D.J., and Ottinger, M.A. (2003). Birds as long-lived animal models for the study of aging. Exp. Gerontol. 38, 1365-1375.

Holmes, D.J., and Austad, S.N. (2004). Declining Immunity with Age in the Wild? Evidence from Bird Populations. Science of Aging Knowledge Environment (SAGE KE), Science Online 21, pe22.

Holmes, D.J., Fluckiger, R., and Austad, S.N. (2001). Comparative biology of aging in birds: An update. Exp. Gerontol. 36, 869-883.

Holmes, D.J., Thomson, S.L., Wu, J., and Ottinger, M.A. (2003). Reproductive aging in female birds. Exp. Gerontol. 38, 751-756.

Iqbal, M., Probert, L.L., Alhumadi, N.H., and Klandorf, H. (1999). Protein glycosylation and advanced glycosylated endproducts (AGEs) accumulation: an avian solution? J. Gerontol.: Biol. Sci. 54, B171-B176.

Jaensch, S., Cullen, L., Morton, L., and Raidal, S.R. (2001). Normobaric hyperoxic stress in budgerigars: Non-enzymic antioxidants. Comp. Biochem. Physiol. Part C Pharmacol. Toxicol. Endocrinol. 128, 181-187.

Johnson, A.L. (2000a). Reproduction in the female. In Sturkie's Avian Physiology (Whittow, G.C., ed.), Academic Press, New York.

Johnson, A.L. (2000b). Granulosa cell apoptosis: Conservation of cell signaling in an avian ovarian model system. Biol. Sig. Receptors 9, 96-101.

Johnson, A.L., Langer, J.S., and Bridgham, J.T. (2002). Survivin as a cell cycle-related and antiapoptotic protein in granulosa cells. Endocrinology 143, 3405-3413.

Johnson, P.A., Dickerman, R.W., and Bahr, J.M. (1986). Decreased granulosa cell luteinizing hormone sensitivity and altered thecal estradiol concentration in the aged hen (Gallus domesticus). Biol. Reprod. 5, 641-646.

Kaetzel, D.M., and Soares, J.H. (1985). Effect of dietary calcium stress on plasma vitamin D3 metabolites in the egg-lying Japanese quail. Poult. Sci. 64, 1121-1127.

Kaiser, M.G., Lakshmanan, N., Arthur, J.A., O'Sullivan, N.P., and Lamont, S.J. (2003). Experimental population design for estimation of dominant molecular marker effect on egg-production traits. Anim. Genet. 34, 334-338.

Kim, J., O'Laughlin, B., Kasparian, S., and Nottebohm, F. (1994). Cell death and neuronal recruitment in the high vocal center of adult male canaries are temporally related to changes in song. Proc. Nat. Acad. Sci. USA 91, 7844-7848.

Kitamura, A., Yoshimura, Y., and Okamoto, T. (2002). Changes in the populations of mitotic and apoptotic cells in white follicles during atresia in hens. Poult. Sci. 81, 408-413.

Kristal, B.S., and Yu, B.P. (1992). An emerging hypothesis: Inductions of aging of free radicals and Maillard reactions. J. Gerontol. Biol. Sci. 47, B107-B114.

Ku, H., and Sohal, R.S. (1993). Comparison of mitochondrial pro-oxidant generation and anti-oxidant defenses between rat and pigeon: Possible basis of variation in longevity and metabolic potential. Mech. Age. Devel. 72, 67-76.

Lamont, S.J. (2003). Unique population designs used to address molecular genetics questions in poultry. Poult. Sci. 82, 882-884.

Lasiewski, R.C., and Dawson, W.R. (1967). A re-examination of the relation between standard metabolic rate and body weight in birds. Condor 69, 13-23.

Lozano, G., and Lank, D. (2003). Seasonal trade-offs in cellmediated immunosenescence in ruffs (Philomachus pugnax). Proc. Roy. Soc. Lond. B Biol. Sci. 270, 1203-1208.

Martin, G.M., Austad, S.N., and Johnson, T.E. (1996). Genetic analysis of aging: Role of oxidative damage and environmental stresses. Nat. Genet. 13, 25-34.

Masoro, E.J. (1993). Dietary restriction and aging. J. Amer. Geriatr. Soc. 41, 994-999.

Masoro, E.J. (2001). Dietary restriction: An experimental approach to the study of biology and aging. In Handbook of the Biology of Aging (Masoro, E.J., and Austad, S.N., eds.), pp. 396-422, Academic Press, New York.

McCleery, R.H., and Perrins, C.M. (1988). Lifetime reproductive success in the Great Tit. In Reproductive Success: Studies of Individual Variation in Contrasting Breeding Systems (Clutton-Brock, T.H., ed.), pp. 136-153, University of Chicago Press, Chicago.

McDaniel, G.R. (1983). Factors affecting broiler breeder performance. 5. Effects of preproduction feeding regime on reproductive performance. Poult. Sci. 62, 1949-1953.

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

Merry, B.J., and Holehan, A.M. (1979). Onset of puberty and duration of fertility in rats fed a restricted diet. J. Reprod. Fret. 57, 253-259.

Miles, S.A., and Leeson, S. (1990). Effects of feed restriction during the rearing period and age at photostimulation on the reproductive performance of turkey hens. Poult. Sci. 69, 1522-1528.

Miller, R. (1996). The aging immune system: Primer and prospectus. Science 273, 70-74.

Mobarak, M. (1990). Effect of Dietary-Endocrine Interactions on Reproduction in Male Japanese Quail. Thesis, University of Maryland.

Mobarak, M., Mench, J.A., and Ottinger, M.A. (1988). Effect of feed restriction on reproductive development of male Japanese quail. Poult. Sci. 67, 121.

Monnier, V.M. (1990). Nonenzymatic glycosylation: The Maillard reaction and the aging process. J. Gerontol.: Biol. Sci. 45, B105-B111.

Monnier, V.M., Sell, D.R., Ramanakoppa, H.N., and Miyata, S. (1991). Mechanisms of protection against damage mediated by the Maillard reaction in aging. Gerontol. 37, 152-165.

Monnier, V.M., Fogarty, J.F., Monnier, C.S., and Sell, D.R. (1999). Glycation, glycoxidation, and other Maillard reaction products. In Methods in Aging Research (Yu, B.P., ed.) pp. 657-681, CRC, Boca Raton, FL.

Murphy, M., and King, C.E. (1990). Diurnal changes in tissue glutathione pools of molting white-crowned sparrows: The influence of photoperiod and feeding schedule. Physiol. Zool. 63, 1118-1140.

Nelson, J.F., Karelus, K., Bergman, M.D., and Felicio, L. (1995). Neuroendocrine involvement in aging: Evidence from studies of reproductive aging and caloric restriction. Neurobiol. Aging 16, 837-843.

Newton, I., ed (1989). Lifetime Reproduction in Birds, Academic Press, London.

Newton, I., and Rothery, P. (1997). Senescence and reproductive value in sparrowhawks. Ecology 78, 1000-1008.

Nisbet, I., Apanius, V., and Friar, M.S. (2002). Breeding performance of very old common terns. J. Field Ornithol. 73, 117-124.

Nisbet, I., Finch, C.E., Thompson, N., Russek-Cohen, E., Proudman, J.A., and Ottinger, M.A. (1999). Endocrine patterns during aging in the common tern (Sterna hirundo). Gen. Comp. Endocrinol. 114, 279-286.

Nisbet, I.C.T. (2002). Common tern (Sterna hirundo). In The Birds of North America (Poole, A., and Gill, F.B., eds.), Vol. 618, pp. 1-40, The Birds of North America, Philadelphia, PA.

Nottebohm, F., O'Laughlin, B., Gould, K., Yohay, K., and Alvariez Buylla, A. (1994). The life span of new neurons in a song control nucleus of the adult canary brain depends on time of year when these cells are born. Proc. Nat. Acad. Sci. USA 91, 7849-7853.

Ogburn, C.E., Carlberg, K., Ottinger, M.A., Holmes, D.J., Martin, G.M., and Austad, S.N. (2001). Exceptional cellular resistance to oxidative damage in long-lived birds requires active gene expression. J. Gerontol.: Biol. Sci. 56A, B468-B474.

Ogburn, C.E., Austad, S.N., Holmes, D.J., Kiklevich, J.V., Gollahon, K., Rabinovitch, P.S., and Martin, G.M. (1998). Cultured renal epithelial cells from birds and mice: Enhanced resistance of avian cells to oxidative stress and DNA damage. J. Gerontol.: Biol. Sci. 53A, B287-B292.

Ottinger, M.A. (1991). Neuroendocrine and behavioral determinants of reproductive aging. Crit. Rev. Poult. Biol. 3, 131-142.

Ottinger, M.A. (1996). Aging in the avian brain: Neuroendocrine considerations. Seminars in Av. Exot. Pet Med. 5, 172-177.

Ottinger, M.A. (1998). Male reproduction: Testosterone, gonadotropins, and aging. In Functional Endocrinology of Aging (Mobbs, C.V., ed.), Vol. 29, pp. 105-126, Karger, Basel.

Ottinger, M.A. (2001). Quail and other short-lived birds. Exp. Gerontol. 36, 859-868.

Ottinger, M.A., and Soares, J.H. (1988). Comparative aspects of reproductive failure in aging male quail and broiler breeder chickens. Proc. 11th Internat. Congr. Anim. Reprod. Art. Insem.

Ottinger, M.A., and Bakst, M.R. (1995). Endocrinology of the avian reproductive system. J. Av. Med. Surg. 9, 242-250.

Ottinger, M.A., Thompson, N., Fan, Y., Panzica, G.C., Viglietti-Panzica, C., and Li, Q. (1997). Gonadotropin-releasing hormone (cGnRh-1) and neuropeptide systems reflect endocrine and behavioral changes during reproductive aging. In Perspectives in Avian Endocrinology (Harvery, S., and Etches, R.J., eds.), pp. 91-100, J.W. Arrowsmith, Ltd, Bristol.

Ottinger, M.A., Abdelnabi, M., Li, Q., Chen, K., Thompson, N., Harada, N., Viglietti-Panzica, C., and Panzica, G.C. (2004).

The Japanese quail: A model for studying reproductive aging of hypothalamic systems. Exp. Gerontol. 39, 1679-1693.

Ottinger, M.A., Mobarak, M., Abdelnabi, M. Roth, G., Proudman, J., and Ingram, D.K. (2005). Effects of calorie restriction on reproductive and adrenal systems in Japanese quail: Are responses similar to mammals, particularly primates? Mech. Aging Develop. 126, 967-975.

Pamplona, R., Portero-Otin, M., Requena, J.R., Thorpe, S.R., Herrero, A., and Barja, G. (1999). A low degree of fatty unsaturation leads to lower lipid peroxidation and lipoxidation-derived protein modification in heart mitochondria of the longevous pigeon than in the short lived rat. Mech. Age. Devel. 106, 283-296.

Pamplona, R., Prat, J., Cadenas, S., Roja, C., Perez-Campo, R., Lopez-Torres, M., and Barja, G. (1996). Low fatty acid unsaturation protects against lipid peroxidation in liver mitochondria from long-lived species: The pigeon and human case. Mech. Age. Dev. 86, 53-66.

Pamplona, R., Portero-Otin, M., Riba, D., Ledo, F., Gredilla, R., Herrero, A., and Barja, G. (1999). Heart fatty acid unsaturation and lipid peroxidation, and aging rate, are lower in the canary and the parakeet than in the mouse. Aging (Milano) 11, 44-49.

Panzica, G.C., Garcia-Ojeda, E., Viglietti-Panzica, C., Thompson, N.E., and Ottinger, M.A. (1996). Testosterone effects on vasotocinergic innervation of sexually dimorphic medial preoptic nucleus and lateral septum during aging in male quail. Br. Res. 712, 190-198.

Partridge, L., and Barton, N.H. (1993). Optimality, mutation and the evolution of ageing. Nature 362, 305-311.

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

Pomeroy, D. (1990). Why fly? The possible benefits for lower mortality. Biol. J. Linn. Soc. 40, 53-65.

Rose, M.R. (1991). Evolutionary Biology of Aging, Oxford University Press, New York.

Ryals, B.M., and Westbrook, E.W. (1988). Ganglion cell and hair cell loss in Coturnix quail associated with aging. Hear. Res. 36, 1-8.

Ryals, B.M., and Westbrook, E.W. (1990). Hair cell regeneration in senescent quail. Hear. Res. 50, 87-96.

Ryals, B.M., and Westbrook, E.W. (1994). TEM analysis of neural terminals on autoradiographically identified regenerated hair cells. Hear. Res. 72, 81-88.

Saino, N., Ferrari, R., Romano, M., Rubolini, D., and Moller, A. (2003). Humoral immune response in relation to senescence, sex and sexual ornamentation in the barn swallow (Hirundo rustica). J. Evol. Biol. 16, 1127-1134.

Sexton, K.J., Renden, J.A., Marple, D.N., and Kempainen, R.J. (1989). Effects of dietary energy on semen production, fertility, plasma testosterone, and carcass composition of broiler-breeder males in cages. Poult. Sci. 68, 1688-1694.

Sibley, C.G., and Monroe, B.L.J. (1990). Distribution and Taxonomy of Birds of the World, Yale University Press, New Haven, CT.

Sibley, C.G., and Monroe, B.L.J. (1993). A Supplement to Distribution and Taxonomy of Birds of the World, Yale University Press, New Haven, CT.

Smith, E.J., Kamara, D., Pimentel, G., Geng, T., Guan, X., Lin, K., and Hartman, S. (2005). Avian genomes: Important resources for understanding vertebrate biology. Curr. Genom. 6, 75-80.

Tokarz, R.R. (1978). Oogonial proliferation, oogenesis, and folliculogenesis in nonmammalian vertebrates. In The Vertebrate Ovary: Comparative Biology and Evolution (Jones, R.E., ed.), pp. 145-179, Plenum Press, New York.

Vleck, C.M., Haussmann, M.F., and Vleck, D. (2003). The natural history of telomeres: Tools for aging animals and exploring the aging process. Exp. Gerontol. 38, 791-795.

Volentine, K.K., Yao, H.H., and Bahr, J.M. (1998). Epidermal growth factor in the germinal disc and its potential role in follicular development in the chicken. Biol. Reprod. 59, 522-526.

vom Saal, F.S., Finch, C.E., and Nelson, J.F. (1994). Natural history and mechanisms of reproductive aging in humans, laboratory rodents, and other selected vertebrates. In The Physiology of Reproduction (Knobil, E., and Neill, J.D., eds.), pp. 1213-1314, Raven Press, New York.

Waddington, D., and Walker, M.A. (1988). Distribution of follicular growth, atresia and ovulation in the ovary of the domestic hen (Gallus domesticus) at different ages. J. Reprod. Fert. 84, 223-230.

Waddington, D., Perry, M.M., Gilbert, A.B., and Hardie, M.A. (1985). Follicular growth and atresia in the ovaries of hens (Gallus domesticus) with diminished egg production rates. J. Reprod. Fert. 74, 399-405.

Wade, J., Peabody, C., Coussens, P., Tempelman, R.J., Clayton, D.F., Liu, L., Arnold, A.P. and Agate, R. (2004). A cDNA microarray from the telencephalon of juvenile male and female zebra finches. J. Neurosci. Meth. 138, 199-206.

Walsh, T.J., and Brake, J. (1999). Effects of feeding program and crude protein intake during rearing on fertility of broiler breeder females. Poult. Sci. 78, 827-832.

Weindruch, R., and Walford, R.L. (1988). The Retardation of Aging and Disease by Dietary Restriction, Charles C. Thomas, Springfield, IL.

Williams, G.C. (1957) Pleiotrophy, natural selection and the evolution of senescence. Evolution 11, 398-411.

Williams, J.B., and Sharp, P.J. (1978). Age-dependent changes in the hypothalamo-pituitary-ovarian axis of the laying hen. J. Reprod. Fertil. 53, 141-146.

Wollscheid-Lengeling, E., Müller, R.-J., R. Balling, R., and K. Schugart, K. (2004). Maintaining your immune system—one method for enhanced longevity. Sci. Aging Knowl. Environ. pe2 (2004).

Woodard, A.E., and Abplanalp, H. (1971). Longevity and reproduction in Japanese quail maintained under stimulatory lighting. Poult. Sci. 50, 688-692.

Wong, G.K, Liu, B. Wang, J., Zhang, Y., Yang, X., Meng, Q., et al. (2004). A genetic variation map for chicken with 2.8 million single-nucleotide polymorphisms. Nature 432, 717-722.

Zuidhof, M.J., Robinson, F.E., Feddes, J.J., Hardin, R.T., Wilson, J.L., McKay, R.I., and Newcombe, M. (1995). The effects of nutrient dilution on the well-being and performance of female broiler breeders. Poult. Sci. 74, 441-456.

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How To Add Ten Years To Your Life

How To Add Ten Years To Your Life

When over eighty years of age, the poet Bryant said that he had added more than ten years to his life by taking a simple exercise while dressing in the morning. Those who knew Bryant and the facts of his life never doubted the truth of this statement.

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