Condition indices for conservation: new uses for evolving tools.

Biologists have developed a wide range of morphological, biochemical and physiological metrics to assess the health and, in particular, the energetic status of individual animals. These metrics originated to quantify aspects of human health, but have also proven useful to address questions in life history, ecology and resource management of game and commercial animals. We review the application of condition indices (CI) for conservation studies and focus on measures that quantify fat reserves, known to be critical for energetically challenging activities such as migration, reproduction and survival during periods of scarcity. Standard methods score fat content, or rely on a ratio of body mass rationalized by some measure of size, usually a linear dimension such as wing length or total body length. Higher numerical values of these indices are interpreted to mean an animal has greater energy reserves. Such CIs can provide predictive information about habitat quality and reproductive output, which in turn can help managers with conservation assessments and policies. We review the issues about the methods and metrics of measurement and describe the linkage of CIs to measures of body shape. Debates in the literature about the best statistical methods to use in computing and comparing CIs remain unresolved. Next, we comment on the diversity of methods used to measure body composition and the diversity of physiological models that compute body composition and CIs. The underlying physiological regulatory systems that govern the allocation of energy and nutrients among compartments and processes within the body are poorly understood, especially for field situations, and await basic data from additional laboratory studies and advanced measurement systems including telemetry. For now, standard physiological CIs can provide supporting evidence and mechanistic linkages for population studies that have traditionally been the focus of conservation biology. Physiologists can provide guidance for the field application of conditions indices with validation studies and development of new instruments.

[1]  O. Cacho Protein and fat dynamics in fish: A bioenergetic model applied to aquaculture , 1990 .

[2]  J. Gaillard,et al.  Lasting effects of conditions at birth on moose body mass , 2004 .

[3]  W. R. Gardiner,et al.  The influence of body composition on the survival of juvenile salmon , 1980, Hydrobiologia.

[4]  R. Primack,et al.  Essentials of Conservation Biology , 1994 .

[5]  R. D. King Description of a growth simulation model for predicting the effect of diet on broiler composition and growth. , 2001, Poultry science.

[6]  J. Garrow,et al.  Quetelet's index (W/H2) as a measure of fatness. , 1985, International journal of obesity.

[7]  M. L. Brown,et al.  Seasonal dynamics of direct and indirect condition indices in relation to energy allocation in largemouth bass Micropterus salmoides (Lacèpede) , 2004 .

[8]  R. D. Howard,et al.  Individual variation in male vocal traits and female mating preferences in Bufo americanus , 1998, Animal Behaviour.

[9]  Y. Chilliard Dietary fat and adipose tissue metabolism in ruminants, pigs, and rodents: a review. , 1993, Journal of dairy science.

[10]  S. Adams,et al.  Physiological and condition-related indicators of environmental stress in fish. , 2002 .

[11]  R. Shine A New Hypothesis for the Evolution of Viviparity in Reptiles , 1995, The American Naturalist.

[12]  E. Cameron Facultative adjustment of mammalian sex ratios in support of the Trivers–Willard hypothesis: evidence for a mechanism , 2004, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[13]  K. Norris,et al.  A new approach for the estimation of body composition: infrared interactance. , 1984, The American journal of clinical nutrition.

[14]  T. M. Edwards,et al.  Reproductive physiology of free-living White Ibises (Eudocimus albus) in the Florida Everglades. , 2003, General and comparative endocrinology.

[15]  G. Stenhouse,et al.  A body-condition index for ursids , 2002 .

[16]  C. W. Helms,et al.  Winter and Migratory Weight and Fat Field Studies on Some North American Buntings , 1960 .

[17]  H. Gibbs,et al.  Genetic evidence for sexual selection in black ratsnakes, Elaphe obsoleta , 2005, Animal Behaviour.

[18]  R. Ogutu-ohwayo Deterioration in length–weight relationships of Nile perch, Lates niloticus L. in lakes Victoria, Kyoga and Nabugabo , 1999, Hydrobiologia.

[19]  C. Pennycuick,et al.  Burning the engine: a time‐marching computation of fat and protein consumption in a 5420‐km non‐stop flight by great knots, Calidris tenuirostris , 2003 .

[20]  M. Francis Condition cycles in juvenile Pagrus auratus , 1997 .

[21]  R. White,et al.  Calving success of female caribou in relation to body weight , 1993 .

[22]  Robert G. White,et al.  The porcupine caribou herd , 2002 .

[23]  R. White,et al.  The role of nutrition, body condition and lactation on calving success in muskoxen , 1997 .

[24]  J. Speakman,et al.  The isotope dilution method for the evaluation of body composition , 2001 .

[25]  A. Houston,et al.  Dynamic models of mass-dependent predation risk-sensitive foraging and premigratory fattening in birds , 1994 .

[26]  A. Villegas,et al.  Response of the haematocrit to body condition changes in Northern Bald Ibis Geronticus eremita. , 2004, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.

[27]  A. Møller,et al.  Climate, body condition and spleen size in birds , 2003, Oecologia.

[28]  C. Garroway,et al.  The quantitative effects of population density and winter weather on the body condition of white- tailed deer (Odocoileus virginianus) in Nova Scotia, Canada , 2005 .

[29]  P. Battley,et al.  Do body condition and plumage during fuelling predict northwards departure dates of Great Knots Calidris tenuirostris from north‐west Australia? , 2003 .

[30]  M. Ramsay,et al.  The effects of prolonged fasting of the body composition and reproductive success of female polar bears (Ursus maritimus) , 1995 .

[31]  J. Lovvorn,et al.  Diet and body condition of spectacled eiders wintering in pack ice of the Bering Sea , 2003, Polar Biology.

[32]  F. Cotterill Principles of Conservation Biology, 2nd Edition , 1999, Biodiversity & Conservation.

[33]  R. S. Cone,et al.  The Need to Reconsider the Use of Condition Indices in Fishery Science , 1989 .

[34]  Ingemar Jönsson,et al.  Body reserves and unpredictable breeding conditions in the Eurasian kestrel, Falco tinnunculus , 1999 .

[35]  A. Gunn,et al.  Calibration of Hunters' Impressions with Female Caribou Body Condition Indices to Predict Probability of Pregnancy , 2004 .

[36]  Christopher J Leary,et al.  Steroid hormone profiles and relative body condition of calling and satellite toads: implications for proximate regulation of behavior in anurans , 2004 .

[37]  David A Fields,et al.  Body-composition assessment via air-displacement plethysmography in adults and children: a review. , 2002, The American journal of clinical nutrition.

[38]  G. Hickling,et al.  RESTITUTION OF MASS–SIZE RESIDUALS: VALIDATING BODY CONDITION INDICES , 2005 .

[39]  A. Read Estimation of body condition in harbour porpoises, Phocoena phocoena , 1990 .

[40]  A. Green MASS/LENGTH RESIDUALS: MEASURES OF BODY CONDITION OR GENERATORS OF SPURIOUS RESULTS? , 2001 .

[41]  O. Pehrsson Effects of Body Condition on Molting in Mallards , 1987 .

[42]  Jason S. Link,et al.  Ecological Considerations in Fisheries Management: When Does it Matter? , 2002 .

[43]  A. Møller,et al.  Sexual ornamentation and immunocompetence in the barn swallow , 1996 .

[44]  E. Bolen,et al.  Variation in winter fat depots and condition indices of mallards , 1984 .

[45]  D. Johnston Cytological and Chemical Adaptations of Fat Deposition in Migratory Birds , 1973 .

[46]  M. Collyer,et al.  Experimental evidence for costs of parasitism for a threatened species, White Sands pupfish (Cyprinodon tularosa) , 2004 .

[47]  S. Ostojić SEASONAL ALTERATIONS IN BODY COMPOSITION AND SPRINT PERFORMANCE OF ELITE SOCCER PLAYERS , 2003 .

[48]  Marco Festa-Bianchet,et al.  Body mass and survival of bighorn sheep , 1997 .

[49]  David W. Willis,et al.  Proposed Standard Weight (Ws) Equations and Standard Length Categories for 18 Warmwater Nongame and Riverine Fish Species , 2000 .

[50]  J. Speakman,et al.  Body Composition Analysis of Animals: A Handbook of Non-Destructive Methods , 2008 .

[51]  J. Blank,et al.  A novel mechanism of body mass regulation. , 2001, The Journal of experimental biology.

[52]  Ø. Wiig,et al.  Relationships between PCBs and thyroid hormones and retinol in female and male polar bears. , 2004, Environmental health perspectives.

[53]  D. Jelliffe,et al.  Underappreciated pioneers. Quételet: man and index. , 1979, The American journal of clinical nutrition.

[54]  T. Piersma,et al.  Methods of studying the functional ecology of protein and organ dynamics in birds , 1999 .

[55]  D. Amadon Bird Weights as an Aid in Taxonomy , 1943 .

[56]  E. Alleva,et al.  Organochlorine and Heavy-Metal Contaminants in Wild Mammals and Birds of Urbino-Pesaro Province, Italy: An Analytic Overview for Potential Bioindicators , 2006, Archives of environmental contamination and toxicology.

[57]  R. Rideout,et al.  The reproductive cycle of male Atlantic cod (Gadus morhua L.) from Placentia Bay, Newfoundland. , 2000 .

[58]  Gary K. Meffe,et al.  Principles of Conservation Biology , 1995 .

[59]  M. Konarzewski,et al.  Effect of food shortage on the physiology and competitive abilities of sand martin (Riparia riparia) nestlings. , 2001, The Journal of experimental biology.

[60]  W. L. Hohman Body Composition of Wintering Canvasbacks in Louisiana: Dominance and Survival Implications , 1993 .

[61]  Anders Brodin,et al.  Why do hoarding birds gain fat in winter in the wrong way? Suggestions from a dynamic model , 2000 .

[62]  A. Schulte-Hostedde,et al.  Effects of sex and body size on ectoparasite loads in the northern flying squirrel (Glaucomys sabrinus) , 2005 .

[63]  M. Perret,et al.  Social inhibition of seasonal fattening in wild and captive gray mouse lemurs , 2005, Physiology & Behavior.

[64]  S. H. Birkett,et al.  Modeling chemical and physical body composition of the growing pig , 2003 .

[65]  B. Johnson,et al.  Density-dependent effects on physical condition and reproduction in North American elk: an experimental test , 2005, Oecologia.

[66]  Richard A. Stillman,et al.  Predicting shorebird mortality and population size under different regimes of shellfishery management , 2001 .

[67]  Sebastiaan A.L.M. Kooijman,et al.  Dynamic Energy and Mass Budgets in Biological Systems , 2000 .

[68]  M. Obbard,et al.  To weigh or not to weigh: conditions for the estimation of body mass by morphometry , 2005 .

[69]  M. Gochfeld,et al.  Metals in tern eggs in a New Jersey estuary: A decade of change , 1988, Environmental monitoring and assessment.

[70]  S. Amstrup,et al.  Recent observations of intraspecific predation and cannibalism among polar bears in the southern Beaufort Sea , 2006, Polar Biology.

[71]  Paul Beier,et al.  Population viability analysis. , 2016 .

[72]  G. L. Bennett,et al.  A computer model to predict the effects of level of nutrition on composition of empty body gain in beef cattle: I. Theory and development. , 1992, Journal of animal science.

[73]  J. V. van Gils,et al.  Cost-benefit analysis of mollusc-eating in a shorebird II. Optimizing gizzard size in the face of seasonal demands , 2003, Journal of Experimental Biology.

[74]  R. Furness,et al.  Effects of experimentally increased egg production on female body condition and laying dates in the great skua Stercorarius skua , 2004 .

[75]  R. White,et al.  Estimating Fat Content of Caribou from Body Condition Scores , 1996 .

[76]  C. Rogers New and continuing issues with using visible fat classes to estimate fat stores of birds , 2003 .

[77]  D. Wildt,et al.  Comparative Analysis of Gonadal and Adrenal Activity in the Black and White Rhinoceros in North America by Noninvasive Endocrine Monitoring , 2001 .

[78]  R N Pierson,et al.  How useful is body mass index for comparison of body fatness across age, sex, and ethnic groups? , 1996, American journal of epidemiology.

[79]  M. E. Brown Assessing Body Condition in Birds , 1996 .

[80]  S. Heymsfield,et al.  The five-level model: a new approach to organizing body-composition research. , 1992, The American journal of clinical nutrition.

[81]  G. Uetz,et al.  Estimating fitness : a comparison of body condition indices , 1996 .

[82]  S. Bollens,et al.  Variability in Length-Weight Relationships Used to Estimate Biomass of Estuarine Fish from Survey Data , 2005 .

[83]  K. McCann,et al.  Bioenergetic Prediction of Climate Change Impacts on Northern Mammals1 , 2004, Integrative and comparative biology.

[84]  A. Murumägi,et al.  Haematological health state indices of reproducing Great Tits: methodology and sources of natural variation , 1998 .

[85]  R. Triebskorn,et al.  Assessment of the developmental success of brown trout (Salmo trutta f. fario L.) embryos in two differently polluted streams in Germany , 2004, Hydrobiologia.

[86]  T. Nagy Body Composition Analysis of Animals: The use of dual-energy X-ray absorptiometry for the measurement of body composition , 2001 .

[87]  G. Blackwell A potential multivariate index of condition for small mammals , 2002 .

[88]  A. Gosler,et al.  Body condition varies with migration and competition in migrant and resident South American vultures , 1994 .

[89]  S. Wasser,et al.  Noninvasive Physiological Measures of Disturbance in the Northern Spotted Owl , 1997 .

[90]  S. Kooijman,et al.  Quantitative aspects of metabolic organization: a discussion of concepts. , 2001, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[91]  M. Hunter Fundamentals of Conservation Biology , 1995 .

[92]  R. Smolders,et al.  Integrated condition indices as a measure of whole effluent toxicity in zebrafish (Danio rerio) , 2002, Environmental toxicology and chemistry.

[93]  C. Selman,et al.  Body Composition Analysis of Animals: The use of total body electrical conductivity (TOBEC) to determine body composition in vertebrates , 2001 .

[94]  Scott A. Bonar,et al.  Standard Sampling of Inland Fish: Benefits, Challenges, and a Call for Action , 2002 .

[95]  Kenneth H. Pollock,et al.  The relationship between body mass and survival of wintering canvasbacks , 1986 .

[96]  P. Deurenberg Multi-frequency impedance as a measure of body water compartments. , 1995 .

[97]  Milani Chaloupka,et al.  GREEN TURTLE SOMATIC GROWTH MODEL: EVIDENCE FOR DENSITY DEPENDENCE , 2000 .

[98]  A. Prentice,et al.  Beyond body mass index , 2001, Obesity reviews : an official journal of the International Association for the Study of Obesity.

[99]  R. O. Bailey Methods of estimating total lipid content in the redhead duck (Aythya americana) and an evaluation of condition indices. , 1979, Canadian journal of zoology.

[100]  G. Gauthier,et al.  Body Condition, Migration, and Timing of Reproduction in Snow Geese: A Test of the Condition‐Dependent Model of Optimal Clutch Size , 2003, The American Naturalist.

[101]  A A Moss,et al.  Quantification of body fat distribution in the abdomen using computed tomography. , 1984, The American journal of clinical nutrition.

[102]  T. Kunz,et al.  Body Composition Analysis of Animals: Standard methods for destructive body composition analysis , 2001 .

[103]  Laurie Marker,et al.  MORPHOLOGY, PHYSICAL CONDITION, AND GROWTH OF THE CHEETAH (ACINONYX JUBATUS JUBATUS) , 2003 .

[104]  J. Vijverberg,et al.  Contribution analysis of body mass dynamics in Daphnia , 2005, Oecologia.

[105]  H. Kollist,et al.  Repeatability of condition indices in captive greenfinches (Carduelis chloris) , 2002 .

[106]  B. Henen Body Composition Analysis of Animals: Gas dilution methods: elimination and absorption of lipid-soluble gases , 2001 .

[107]  Gustav A. Drasch,et al.  The urban pigeon (Columba livia, Forma urbana) — A biomonitor for the lead burden of the environment , 1987, Environmental monitoring and assessment.

[108]  J. Elser,et al.  FUNDAMENTAL CONNECTIONS AMONG ORGANISM C:N:P STOICHIOMETRY, MACROMOLECULAR COMPOSITION, AND GROWTH , 2004 .

[109]  T. Cole,et al.  Body composition techniques in health and disease: Contents , 1995 .

[110]  P. Battley,et al.  Empirical evidence for differential organ reductions during trans–oceanic bird flight , 2000, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[111]  DeLURY Db,et al.  Analysis of Covariance , 2020, Handbook of Regression Analysis With Applications in R.

[112]  E. Cren,et al.  THE LENGTH-WEIGHT RELATIONSHIP AND SEASONAL CYCLE IN GONAD WEIGHT AND CONDITION IN THE PERCH , 2022 .

[113]  B. O. Wolf,et al.  Sex differences in the thermoregulation and evaporative water loss of a heterothermic bat, Lasiurus cinereus, during its spring migration , 2003, Journal of Experimental Biology.

[114]  Kenneth G. Gerow,et al.  A New Method to Compute Standard-Weight Equations That Reduces Length-Related Bias , 2005 .

[115]  Heather M. Pettis,et al.  Visual health assessment of North Atlantic right whales (Eubalaena glacialis) using photographs , 2004 .

[116]  S. Daniels,et al.  The utility of body mass index as a measure of body fatness in children and adolescents: differences by race and gender. , 1997, Pediatrics.

[117]  H. Vries,et al.  Dominance, fatness and fitness in female American bison, Bison bison , 2005, Animal Behaviour.

[118]  J. D. Bryan,et al.  Intra- and Interseasonal Changes in the Relative Condition and Proximate Body Composition of Broad Whitefish from the Prudhoe Bay Region of Alaska , 1995 .

[119]  D. Marcogliese,et al.  Exposure of leopard frogs to a pesticide mixture affects life history characteristics of the lungworm Rhabdias ranae , 2003, Oecologia.

[120]  M. Wikelski,et al.  Exposure to tourism reduces stress-induced corticosterone levels in Galápagos marine iguanas , 2002 .

[121]  W. Porter,et al.  Po'ouli landscape bioinformatics models predict energetics, behavior, diets, and distribution on Maui. , 2006, Integrative and comparative biology.

[122]  J. Takekawa,et al.  Relating Body Condition to Inorganic Contaminant Concentrations of Diving Ducks Wintering in Coastal California , 2002, Archives of environmental contamination and toxicology.

[123]  D. Ardia Super size me: an experimental test of the factors affecting lipid content and the ability of residual body mass to predict lipid stores in nestling European Starlings , 2005 .

[124]  H C Lukaski,et al.  Methods for the assessment of human body composition: traditional and new. , 1987, The American journal of clinical nutrition.

[125]  N. Burton,et al.  Impacts of sudden winter habitat loss on the body condition and survival of redshank Tringa totanus , 2006 .

[126]  P. Zane,et al.  Validation of procedures for quantitative whole-body autoradiography using digital imaging. , 1997, Journal of pharmaceutical sciences.

[127]  J. T. Schonewille,et al.  Lungworm and stomach worm infection in relation to body fat reserves and blood composition in wild boar (Sus scrofa). , 1994, The Veterinary quarterly.

[128]  P. Joly,et al.  Competition for basking places between the endangered European pond turtle (Emys orbicularis galloitalica) and the introduced red- eared slider (Trachemys scripta elegans) , 2003 .

[129]  P. Boersma,et al.  Population trends of the Galápagos Penguin : Impacts of el niño and la niña , 1998 .

[130]  The use of body dimensions of Lesser black- backed gulls Larus fuscus to indicate size and to estimate body reserves , 1987 .

[131]  Lynn B. Martin,et al.  Corticosterone suppresses immune activity in territorial Galápagos marine iguanas during reproduction , 2005, Hormones and Behavior.

[132]  T. Piersma,et al.  Avian pectoral muscle size rapidly tracks body mass changes during flight, fasting and fuelling. , 2000, The Journal of experimental biology.

[133]  Cecilia Kullberg Does diurnal variation in body mass affect take-off ability in wintering willow tits? , 1998, Animal Behaviour.

[134]  A. Dunham,et al.  Linking physiological effects on activity and resource use to population level phenomena. , 2006, Integrative and comparative biology.

[135]  J. Tellería,et al.  Effects of habitat heterogeneity and local adaptation on the body condition of a forest passerine at the edge of its distributional range , 2003 .

[136]  K. Flegal Ratio of actual to predicted weight as an alternative to a power-type weight-height index (Benn index). , 1990, The American journal of clinical nutrition.

[137]  Graeme Caughley,et al.  THE EDGE OF THE RANGE , 1988 .

[138]  D. Reznick,et al.  Fat cycling in the mosquitofish (Gambusia affinis): fat storage as a reproductive adaptation , 1987, Oecologia.

[139]  K. Patterson An improved method for studying the condition of fish, with an example using Pacific sardine Sardinops sagax (Jenyns) , 1992 .

[140]  G. Evans,et al.  Variability in condition and growth of Atlantic cod larvae and juveniles reared in mesocosms: environmental and maternal effects , 2003 .

[141]  S. Secor,et al.  Adaptive responses to feeding in Burmese pythons: pay before pumping. , 1995, The Journal of experimental biology.

[142]  J. Elser,et al.  Ecological Stoichiometry: The Biology of Elements from Molecules to the Biosphere , 2002 .

[143]  David W. Willis,et al.  Relative Weight (Wr) Status and Current Use in Fisheries Assessment and Management , 2000 .

[144]  C. Bradshaw,et al.  Geographic and temporal variation in the condition of pups of the New Zealand fur seal (Arctocephalus forsteri): evidence for density dependence and differences in the marine environment , 2000 .

[145]  A. Kaiser,et al.  A new multi-category classification of subcutaneous fat deposits of songbirds , 1993 .

[146]  Yan Liu,et al.  Validation of a new pediatric air-displacement plethysmograph for assessing body composition in infants. , 2004, The American journal of clinical nutrition.

[147]  Gordon H. Orians,et al.  Conservation biology : research priorities for the next decade , 2002 .

[148]  C. Bradshaw,et al.  Blubber and buoyancy: monitoring the body condition of free-ranging seals using simple dive characteristics , 2003, Journal of Experimental Biology.

[149]  S. Bradshaw,et al.  Salmonella infections in a marsupial, the quokka (Setonix brachyurus), in relation to seasonal changes in condition and environmental stress , 1985, Applied and environmental microbiology.

[150]  M. Blows,et al.  Genetic covariance between indices of body condition and immunocompetence in a passerine bird , 2005, BMC Evolutionary Biology.

[151]  R. Engeman,et al.  BODY SIZE AND CONDITION OF COYOTES IN SOUTHERN TEXAS , 1991, Journal of wildlife diseases.

[152]  W. Bowen,et al.  Sex differences in the seasonal patterns of energy storage and expenditure in a phocid seal , 2003 .

[153]  S. Adams Biological Indicators of Aquatic Ecosystem Stress , 2002 .

[154]  G. Golet,et al.  Raising young reduces body condition and fat stores in black-legged kittiwakes , 1999, Oecologia.

[155]  R. Shine,et al.  Short and chubby or long and slim? Food intake, growth and body condition in free‐ranging pythons , 2002 .

[156]  J. Conroy,et al.  Mortality of otters (Lutra lutra) in Shetland , 1991 .

[157]  M. Hinds,et al.  Relative merits of the weight-corrected-for-height indices. , 1981, The American journal of clinical nutrition.

[158]  T. Williams,et al.  Indirect, physiological assessment of reproductive state and breeding chronology in free‐living birds: an example in the Marbled Murrelet (Brachyramphus marmoratus) , 2000 .

[159]  R. White,et al.  Comparative body composition strategies of breeding and nonbreeding female caribou , 1999 .

[160]  K. Pope,et al.  INFLUENCE OF ANURAN PREY ON THE CONDITION AND DISTRIBUTION OF RANA MUSCOSA IN THE SIERRA NEVADA , 2002 .

[161]  J. Berger,et al.  Variability in Size-Weight Relationships of Bison bison , 1988 .

[162]  W. L. Anderson Dynamics of Condition Parameters and Organ Measurements in Pheasants , 1972 .

[163]  J. Wingfield,et al.  Seasonal changes of the adrenocortical response to stress in birds of the Sonoran Desert. , 1992, The Journal of experimental zoology.

[164]  I. Stirling,et al.  Polar Bears in a Warming Climate1 , 2004, Integrative and comparative biology.

[165]  J. M. Starck,et al.  Structural flexibility of the intestine of Burmese python in response to feeding. , 2001, The Journal of experimental biology.

[166]  Daniel Pauly,et al.  Using modified length–weight relationships to assess the condition of fish , 1999 .

[167]  L. Baur,et al.  Adiposity and body mass indices in children: Benn's index and other weight for height indices as measures of relative adiposity. , 1996, International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity.

[168]  M. Brown,et al.  Relationship of relative weight (Wr) to proximate composition of juvenile striped bass and hybrid striped bass , 1991 .

[169]  U. Bauchinger,et al.  Flexible remodeling of organ size during spring migration of the garden warbler (Sylvia borin). , 2005, Zoology.

[170]  R. Boonstra,et al.  15N signatures do not reflect body condition in arctic ground squirrels , 1999 .

[171]  M. Staun,et al.  Accuracy of body composition measurements by dual energy x-ray absorptiometry in underweight patients with chronic intestinal disease and in lean subjects , 2005, Dynamic medicine : DM.

[172]  J. Gillooly,et al.  Reproductive success and the energetic cost of parental care in male smallmouth bass , 1999 .

[173]  F. Casanueva,et al.  Serum leptin concentrations in patients with anorexia nervosa, bulimia nervosa and non‐specific eating disorders correlate with the body mass index but are independent of the respective disease , 1997, Clinical endocrinology.

[174]  David A. S. Rosen,et al.  Pollock and the decline of Steller sea lions: testing the junk-food hypothesis. , 2000 .

[175]  G. Iwama,et al.  A Simple Growth Model for Salmonids in Hatcheries , 1981 .

[176]  T. M. Edwards,et al.  Water Quality Influences Reproduction in Female Mosquitofish (Gambusia holbrooki) from Eight Florida Springs , 2005, Environmental health perspectives.

[177]  T. G. Smith,et al.  Variation in Reproduction and Body Condition of the Ringed Seal ( Phoca hispida ) in Western Prince Albert Sound, NT, Canada, as Assessed Through a Harvest-based Sampling Program , 2000 .

[178]  S. Pledger,et al.  The recent decline of a New Zealand endemic: how and why did populations of Archey's frog Leiopelma archeyi crash over 1996–2001? , 2004 .

[179]  N. Metcalfe,et al.  Changing nutritional status causes a shift in the balance of nocturnal to diurnal activity in european minnows , 2001 .

[180]  Luca M. Cargnelli,et al.  Relationships between condition factors, parasite load and paternity in bluegill sunfish, Lepomis macrochirus , 2004, Environmental Biology of Fishes.

[181]  J. M. Starck,et al.  Structural flexibility of the small intestine and liver of garter snakes in response to feeding and fasting. , 2002, The Journal of experimental biology.

[182]  D. M. Leslie,et al.  SENSITIVITY OF CONDITION INDICES TO CHANGING DENSITY IN A WHITE-TAILED DEER POPULATION , 1998, Journal of wildlife diseases.

[183]  A. Hewison,et al.  Annual variation in body composition of roe deer (Capreolus capreolus) in moderate environmental conditions , 1996 .

[184]  A. Prentice,et al.  Body composition techniques in health and disease: Application of dual-energy X-ray absorptiometry and related techniques to the assessment of bone and body composition , 1995 .

[185]  T. Walley,et al.  An alternative to body mass index for standardizing body weight for stature. , 2000, QJM : monthly journal of the Association of Physicians.

[186]  Nicky J Welton,et al.  Acquisition and maintenance costs in the long-term regulation of avian fat reserves , 1997 .

[187]  D A Revicki,et al.  Relationship between body mass indices and measures of body adiposity. , 1986, American journal of public health.

[188]  H. Pulliam,et al.  Sources, Sinks, and Population Regulation , 1988, The American Naturalist.

[189]  R. Lochmiller,et al.  SENSITIVITY OF SELECTED IMMUNOLOGICAL, HEMATOLOGICAL, AND REPRODUCTIVE PARAMETERS IN THE COTTON RAT (SIGMODON HISPIDUS) TO SUBCHRONIC LEAD EXPOSURE , 1995, Journal of wildlife diseases.

[190]  S A Jebb,et al.  Healthy percentage body fat ranges: an approach for developing guidelines based on body mass index. , 2000, The American journal of clinical nutrition.

[191]  D. Macdonald,et al.  Body size, and interactions between European and American mink (Mustela lutreola and M. vison) in Eastern Europe , 1999 .

[192]  Richard Shine,et al.  The adjustment of reproductive threshold to prey abundance in a capital breeder , 1999 .

[193]  B. Tiplady,et al.  Seasonal body weight, body condition, and lactational trends in muskoxen , 1989 .

[194]  S. S. Silva Body condition and nutritional ecology of Oreochromis mossambicus (Pisces, Cichlidae) populations of man‐made lakes in Sri Lanka , 1985 .

[195]  E. A. MacDougall-Shackleton,et al.  Effects of day-length and food availability on food caching, mass and fat reserves in black-capped chickadees (Poecile atricapillus) , 2005, Physiology & Behavior.

[196]  E. García‐Berthou,et al.  On the misuse of residuals in ecology: testing regression residuals vs. the analysis of covariance , 2001 .

[197]  T. Bolger,et al.  The selection of suitable indices for the measurement and analysis of fish condition , 1989 .

[198]  K. Frank,et al.  Comparison of lipid, otolith and morphometric condition indices of pelagic juvenile cod Gadus morhua from the Canadian Atlantic , 1992 .

[199]  Roy C. Averill-Murray,et al.  Desert Tortoise Recovery Plan Assessment , 2004 .

[200]  S. Secor,et al.  Rapid upregulation of snake intestine in response to feeding: a new model of intestinal adaptation. , 1994, The American journal of physiology.

[201]  D. C. Thomas The relationship between fertility and fat reserves of Peary caribou , 1982 .

[202]  K. Ellis,et al.  Selected body composition methods can be used in field studies. , 2001, The Journal of nutrition.

[203]  S. Verhulst,et al.  Estimating Organ Size in Small Migrating Shorebirds with Ultrasonography: An Intercalibration Exercise , 1999, Physiological and Biochemical Zoology.

[204]  R. Hermes,et al.  Ultrasonography of the estrous cycle in female African elephants (Loxodonta africana) , 2000 .

[205]  Nancy A. Nate,et al.  A Method for Correcting the Relative Weight (Wr) Index for Seasonal Patterns in Relative Condition (Kn) with Length as Applied to Walleye in Wisconsin , 2005 .

[206]  M. Cichoń,et al.  Seasonal decline in health status of Great Tit (Parus major) nestlings , 2001 .

[207]  Angelo Pietrobelli,et al.  Validity of body mass index compared with other body-composition screening indexes for the assessment of body fatness in children and adolescents. , 2002, The American journal of clinical nutrition.

[208]  M. Onis,et al.  Anthropometric reference data for international use: recommendations from a World Health Organization Expert Committee. , 1996, The American journal of clinical nutrition.

[209]  A. Velando,et al.  Differential body condition regulation by males and females in response to experimental manipulations of brood size and parental effort in the blue‐footed booby , 2003 .

[210]  David W. Willis,et al.  The Relative Weight Index in Fisheries Management: Status and Needs , 1991 .

[211]  M. Appelberg,et al.  Effect of fish shape on gillnet selectivity: a study with Fulton’s condition factor , 2002 .

[212]  T. Piersma,et al.  Time course and reversibility of changes in the gizzards of red knots alternately eating hard and soft food. , 2001, The Journal of experimental biology.

[213]  I. Stirling,et al.  Possible Impacts of Climatic Warming on Polar Bears , 1993 .

[214]  E. Nordøy,et al.  Energy sources in fasting grey seal pups evaluated with computed tomography. , 1985, The American journal of physiology.

[215]  W. Ricker Computation and interpretation of biological statistics of fish populations , 1977 .

[216]  Ø. Wiig,et al.  Geographic variation of PCB congeners in polar bears (Ursus maritimus) from Svalbard east to the Chukchi Sea , 2001, Polar Biology.

[217]  O. Gorman,et al.  Spatiotemporal Variation in Length–Weight Relationships of Endangered Humpback Chub: Implications for Conservation and Management , 2000 .

[218]  Grant R. Singleton,et al.  Indices of Condition for Small Mammals , 1993 .

[219]  S Ward,et al.  Body composition analysis of animals , 2001 .

[220]  M. Wikelski,et al.  Severe Effects of Low-Level Oil Contamination on Wildlife Predicted by the Corticosterone-Stress Response : Preliminary Data and a Research Agenda , 2002 .

[221]  R. Thomas Strategic diel regulation of body mass in European robins , 2000, Animal Behaviour.

[222]  C. Lowe,et al.  Indices of obesity derived from body weight and height. , 1967, British journal of preventive & social medicine.

[223]  M. Wikelski,et al.  Corticosterone levels predict survival probabilities of Galápagos marine iguanas during El Niño events , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[224]  R. Shine,et al.  Prey abundance and predator reproduction: rats and pythons on a tropical Australian floodplain , 1997 .

[225]  Robert E. Kenward,et al.  HAWKS AND DOVES: FACTORS AFFECTING SUCCESS AND SELECTION IN GOSHAWK ATTACKS ON WOODPIGEONS. , 1978 .

[226]  J. Berger Facilitation of Reproductive Synchrony by Gestation Adjustment in Gregarious Mammals: A New Hypothesis , 1992 .

[227]  James H. Brown,et al.  Toward a metabolic theory of ecology , 2004 .

[228]  A. Frid,et al.  Biology of sea turtles under risk from tiger sharks at a foraging ground , 2005 .

[229]  Alan R. Johnson,et al.  Phenotypic correlates of post-fledging dispersal in a population of greater flamingos: the importance of body condition , 2003 .