scholarly article | Q13442814 |
review article | Q7318358 |
P356 | DOI | 10.1016/J.TPB.2003.12.003 |
P698 | PubMed publication ID | 15136009 |
P5875 | ResearchGate publication ID | 8569889 |
P894 | zbMATH Open document ID | 1109.92038 |
P50 | author | James Vaupel | Q833843 |
Annette Baudisch | Q21254461 | ||
Deborah A. Roach | Q37369671 | ||
P2093 | author name string | Jutta Gampe | |
Martin Dölling | |||
P433 | issue | 4 | |
P6104 | maintained by WikiProject | WikiProject Mathematics | Q8487137 |
P1104 | number of pages | 13 | |
P304 | page(s) | 339-351 | |
P577 | publication date | 2004-06-01 | |
P1433 | published in | Theoretical Population Biology | Q15716541 |
P1476 | title | The case for negative senescence | |
P478 | volume | 65 |
Q46615460 | A multigenerational effect of parental age on offspring size but not fitness in common duckweed (Lemna minor). |
Q34995158 | A new metric of inclusive fitness predicts the human mortality profile |
Q51249733 | Actuarial senescence in a long-lived orchid challenges our current understanding of ageing. |
Q41690782 | Age and sex-specific mortality of wild and captive populations of a monogamous pair-bonded primate (Aotus azarae). |
Q28748396 | Age at the onset of senescence in birds and mammals is predicted by early-life performance |
Q36052275 | Age specificity of inbreeding load in Drosophila melanogaster and implications for the evolution of late-life mortality plateaus |
Q36876836 | Age, stage and senescence in plants |
Q37252807 | Ageing effects in an iteroparous plant species with a variable life span |
Q33680997 | Aging in a long-lived clonal tree |
Q26821995 | Aging is a simple deprivation syndrome driven by a quasi-programmed preventable and reversible drift of control system set points due to inappropriate organism-environment interaction |
Q51714560 | An empirical test of evolutionary theories for reproductive senescence and reproductive effort in the garter snake Thamnophis elegans. |
Q91723740 | Animal life history is shaped by the pace of life and the distribution of age-specific mortality and reproduction |
Q35780451 | Ant Colonies Do Not Trade-Off Reproduction against Maintenance |
Q36504251 | Beyond the evolutionary theory of ageing, from functional genomics to evo-gero |
Q33569733 | Biodemography of human ageing |
Q38040664 | Birds do it, bees do it, we do it: contributions of theoretical modelling to understanding the shape of ageing across the tree of life. |
Q35607268 | Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry. |
Q57176320 | Complexity of the relationship between life expectancy and overlap of lifespans |
Q38676518 | Computational Analysis of Lifespan Experiment Reproducibility. |
Q36726375 | Damage segregation at fissioning may increase growth rates: a superprocess model |
Q28597759 | Decades of field data reveal that turtles senesce in the wild |
Q35178815 | Deciphering death: a commentary on Gompertz (1825) 'On the nature of the function expressive of the law of human mortality, and on a new mode of determining the value of life contingencies'. |
Q90044307 | Demographic senescence and effects on population dynamics of a perennial plant |
Q33312853 | Density dependence triggers runaway selection of reduced senescence. |
Q51795995 | Deterioration, death and the evolution of reproductive restraint in late life. |
Q37164094 | Detoxification reactions: relevance to aging |
Q28606365 | Distinguishing between determinate and indeterminate growth in a long-lived mammal |
Q34039246 | Diversity of ageing across the tree of life. |
Q35236786 | Do age-specific survival patterns of wild boar fit current evolutionary theories of senescence? |
Q47177539 | Do reef corals age? |
Q34312906 | Dynamic energy budget approaches for modelling organismal ageing |
Q59299964 | Eco-evolutionary dynamics in plants: interactive processes at overlapping time-scales and their implications |
Q42274207 | Evolution. Getting to the root of aging. |
Q40136558 | Explaining the optimality of U-shaped age-specific mortality |
Q38371661 | Genes and quantitative genetic variation involved with senescence in cells, organs, and the whole plant |
Q28469271 | Genetic determinants of human health span and life span: progress and new opportunities |
Q58572366 | Hacking Aging: A Strategy to Use Big Data From Medical Studies to Extend Human Life |
Q46677705 | Hamilton's forces of natural selection after forty years |
Q33836474 | Hamilton's indicators of the force of selection |
Q58765738 | Horizons in the evolution of aging |
Q47813385 | How regularities of mortality statistics explain why we age despite having potentially ageless somatic stem cells |
Q92952663 | Implications of clonality for ageing research |
Q36520941 | Inadequate intensity of various components of total environmental signals can lead to natural aging |
Q35315386 | Interaction mortality: senescence may have evolved because it increases lifespan. |
Q47139948 | Intercellular competition and the inevitability of multicellular aging |
Q101631831 | Life history and age-dependent mortality processes in tropical reptiles |
Q38984330 | Live fast, die old: no evidence of reproductive senescence or costs of mating in a damselfly (Odonata: Zygoptera). |
Q35113591 | Longevity and ageing: appraising the evolutionary consequences of growing old. |
Q30366197 | Longitudinal analysis in Plantago: strength of selection and reverse-age analysis reveal age-indeterminate senescence |
Q30438423 | Longitudinal analysis of Plantago: age-by-environment interactions reveal aging |
Q58055195 | Matrix models and sensitivity analysis of populations classified by age and stage: a vec-permutation matrix approach |
Q35021119 | Maximum Shell Size, Growth Rate, and Maturation Age Correlate With Longevity in Bivalve Molluscs |
Q36802093 | Modalities of gene action predicted by the classical evolutionary biological theory of aging |
Q57208005 | No evidence of senescence in a 300-year-old mountain herb |
Q56990803 | No signs of meristem senescence in old Scots pine |
Q37147060 | On the evolution of intergenerational division of labor, menopause and transfers among adults and offspring |
Q60908947 | Ontogenetic trajectories of body coloration reveal its function as a multicomponent nonsenescent signal |
Q33357925 | Perennial roots to immortality |
Q41855557 | Perennially young: seed production and quality in controlled and natural populations of Cistus albidus reveal compensatory mechanisms that prevent senescence in terms of seed yield and viability |
Q26824904 | Phenoptosis, another specialized neologism, or the mark of a widespread revolution? |
Q57066736 | Photo-oxidative stress markers reveal absence of physiological deterioration with ageing inBorderea pyrenaica, an extraordinarily long-lived herb |
Q34819239 | Plants do not count… or do they? New perspectives on the universality of senescence |
Q56991312 | Potentially immortal? |
Q35585201 | Quantifying the shape of aging |
Q51611819 | Reproduction is adapted to survival characteristics across geographically isolated medfly populations. |
Q38604452 | Senescence is not inevitable |
Q47172735 | Static and dynamic expression of life history traits in the Northern Fulmar (Fulmarus glacialis). |
Q37432799 | Structure and function in mammalian societies |
Q31055357 | Terminal investment: individual reproduction of ant queens increases with age |
Q38257989 | Testing evolutionary models of senescence: traditional approaches and future directions |
Q34460257 | The Evolutionary Theory of Time Preferences and Intergenerational Transfers |
Q50101717 | The Williams' legacy: A critical reappraisal of his nine predictions about the evolution of senescence |
Q34803823 | The co-evolution of intergenerational transfers and longevity: an optimal life history approach |
Q33441459 | The evolution of aging phenotypes in snakes: a review and synthesis with new data |
Q36218481 | The evolution of transfers and life histories |
Q47767052 | The human post-fertile lifespan in comparative evolutionary context |
Q33743134 | The new biology of ageing |
Q57246614 | The pace and shape of senescence in angiosperms |
Q57947026 | The population structure and biology of the ocean quahog, Arctica islandica, in Belfast Lough, Northern Ireland |
Q36695462 | The two halves of U-shaped mortality |
Q36326935 | Theory and associated phenomenology for intrinsic mortality arising from natural selection |
Q37101633 | Toward a control theory analysis of aging |
Q42350248 | Uncovering variation in the patterns of aging |
Q55438317 | We age because we grow. |
Q21284533 | We are ageing |
Q58091424 | What does the community think about lifespan extension technologies? The need for an empirical base for ethical and policy debates |
Q34166645 | Who wants to live forever? |
Q46672817 | Within-species variation in long-term trajectories of growth, fecundity and mortality in the Collembola Folsomia candida. |
Search more.