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A Review of Poultry Nutritional Research Published in 1971*

Published online by Cambridge University Press:  18 September 2007

E. C. Naber
Affiliation:
674 West Lane Avenue, Ohio State University, Columbus, Ohio, U.S.A.43210
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Abstract

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Review Article
Copyright
Copyright © Cambridge University Press 1973

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References

Almquist, H. J. and Halloran, H. R., 1971. Crude fiber as a tracer in poultry nutrition studies. Poultry Sci. 50: 12331235.CrossRefGoogle Scholar
Anine, E. K. and Hegsted, D. M., 1971. Iron deficiency lipemia in the rat and chick. J. Nutr. 101: 15751582.CrossRefGoogle Scholar
Andrews, T. L., Damron, B. L. and Harms, R. H., 1971. The influence of dietary alfalfa meal on the availability of phosphorus from Curacao Island phosphate to the chick. Poultry Sci. 50: 104108.CrossRefGoogle Scholar
Andrews, T. L., Damron, B. L. and Harms, R. H., 1971. Single Comb White Leghorn cockerels versus broiler chicks for use in phosphorus assays. Poultry Sci. 50: 14851488.CrossRefGoogle ScholarPubMed
Anwar, A. and Clandinin, D. R., 1971. Nitrogen solubility as a means of estimating the gross protein value of rapeseed meal. Poultry Sci. 50: 135136.CrossRefGoogle Scholar
Anwar, A., Clandinin, D. R. and Robblee, A. R., 1971. Effects of equalizing gross protein value units in isocaloric rations containing rapeseed meals of different quality. Poultry Sci. 50: 181183.CrossRefGoogle Scholar
Arends, L. G., Kienholz, E. W., Shutze, J. V. and Taylor, D. D., 1971. Effect of suppldmental biotin on reproductive performance of turkey breeder hens and its effect on the subsequent progeny's performance. Poultry Sci. 50: 208214.CrossRefGoogle Scholar
Arscott, G. H., 1971. Effect of reduced isolated soybean protein and methionine level on-rep roductive performance of male chickens. Nutr. Rep. Int. 3: 111116.Google Scholar
Atkinson, R. L., Bradley, J. W., Couch, J. R. and Quisenberry, J. H., 1971. Use of sulfaquinoxaline in turkey laying rations. Nutr. Rep. Int. 3: 295301.Google Scholar
Atkinson, R. L., Bradley, J. W., Ferguson, T. M., Couch, J. R. and Quisenberry, J. H., 1971. Payzone nitrovin and early poult growth. Nutr. Rep. Int. 3: 363367.Google Scholar
Atwal, A. S., Robblee, A. R. and Milligan, L. P., 1971. Effects of dietary biotin on liver pyrivate carhoxylase and 32p incorporation into nucleic acids in livers of chicks. J. Nutr. 101: 15551562.CrossRefGoogle Scholar
Auckland, J. N. and Morris, T. R., 1971. Compensatory growth in turkeys: Effect of undernutrition on subsequent protein requirements. Brit. Poult. Sci. 12: 4148.CrossRefGoogle ScholarPubMed
Auckland, J. N. and Morris, T. R., 1971. Compensatory growth after under-nutrition in market turkeys: Effect of low protein feeding and realimentation on body composition. Brit. Poult. Sci. 12: 137150.CrossRefGoogle ScholarPubMed
Auckland, J. N. and Morris, T. R., 1971. The effect of dietary nutrient concentration and calorie to protein ratio on growth and body composition of male and female turkey poults. Brit. Poult. Sci. 12: 305311.CrossRefGoogle ScholarPubMed
Austic, R. E. and Nesheim, M. C., 1971. Arginine, ornithine, and proline metabolism of chicks: Influence of diet and heredity. J. Nutr. 101: 14031414.CrossRefGoogle ScholarPubMed
Bartov, I., Bornstein, S. and Budowski, P., 1971. Variability of cholesterol concentration in plasma and egg yolks of hens and evaluation of the effect of some dietary oils. Poultry Sci. 50: 13571364.CrossRefGoogle ScholarPubMed
Begin, J. J., 1971. The effect of antibiotic supplementation on growth and energy utilization of chicks. Poultry Sci. 50: 14961500.CrossRefGoogle ScholarPubMed
Berg, L. R. and Lawrence, W. W., 1971. Cottonseed meal, dehydrated grass and ascorbic acid as dietary factors preventing toxicity of vanadium for the chick. Poultry Sci. 50: 13991404.CrossRefGoogle ScholarPubMed
Bhargava, K. K., Hanson, R. P. and Sunde, M. L., 1971. EffeFts of methionine and valme on growth and antibody production in chicks infected with live or killed Newcastle disease virus. Poultry Sci. 50: 614619.CrossRefGoogle ScholarPubMed
Bhargava, K. K., Hanson, R. P. and Sunde, M. L., 1971. Effects of threonine on growth and antibody production in chicks infected with Newcastle disease virus. Poultry Sci. 50: 710713.CrossRefGoogle ScholarPubMed
Bhargava, K. K., Shen, T. F., Bird, H. R. and Sunde, M. L., 1971. Effect of glutamic acid on chick's proline requirement. Poultry Sci. 50: 726731.CrossRefGoogle ScholarPubMed
Biely, J. and Wood, C. W., 1971. A comparison of rations fed to laying birds in cages. Poultry Sci. 50: 969972.CrossRefGoogle ScholarPubMed
Bird, F. H., 1971. Distribution of trypsin and a-amylase activities in the duodenum of the domestic fowl. Brit. Poult. Sci. 12: 373378.CrossRefGoogle Scholar
Bird, H. R., Clandinin, D. R., Couch, J. R., Edwards, H. M. Jr., Hills, F. W., McGinnis, J. and Naber, E. C., 1971. Nutrient requirements of poultry. National Academy of Sciences, National Research Council Publication No. ISBN 0-309-01861-7.Google Scholar
Blamberg, D. L., 1971. A chick bioassay for evaluating the protein quality of dry breakfast cereals. Poultry Sci. 50: 300302.CrossRefGoogle Scholar
Bornstein, S. and Lipstein, B., 1971. Comparisons of sorghum grain (milo) and maize as the principal cereal grain source in poultrry ations. Brit. Poult. Sci. 12: 113.CrossRefGoogle Scholar
Bowen, T. E. and Sullivan, T. W., 1971. Influence of dietary cupric sulfate on the response of young turkeys to penicillin-streptomycin (1:3). Poultry Sci. 50: 273278.CrossRefGoogle Scholar
Bragg, D. B., Biely, J. and Goudie, C., 1971. Total dietary protein derived from wheat for rearing replacement pullets. Poultry Sci. 50: 761765.CrossRefGoogle ScholarPubMed
Bragg, D. B., Floyd, J. and Stephenson, E. L., 1971. Factors affecting the transfer of calcium (45Ca) from the hen's diet to the egg shell. Poultry Sci. 50: 167173.CrossRefGoogle Scholar
Britton, W. M., 1971. The influence of a diet containing Helminthosporium maydis blighted corn on laying hen performance. Poultry Sci. 50: 12091212.CrossRefGoogle ScholarPubMed
Candlish, J. K., 1971. The formation of mineral and organic matrix of fowl cortical and medullary bone during shell calcification. Brit. Poult. Sci. 12: 119127.CrossRefGoogle ScholarPubMed
Carew, L. B. Jr. and Foss, D. C., 1971. Monosodium glutamate in chicks. Poultry Sci. 50: 15011502.CrossRefGoogle ScholarPubMed
Cecil, J. C., Bitman, J. and Harris, S. J., 1971. Effects or dietary p, p-DDT and p, p-DDE on egg production and egg shell characteristics of Japancsc quail receiving an adequate calcium diet. Poultry Sci. 50: 657659.CrossRefGoogle Scholar
Christmas, R. B., Damron, B. L. and Harms, R. H., 1971. Further studies on a hominy fced basal for use in phosphorus assays. Nutr. Rep. Int. 3: 395401.Google Scholar
Clarenburg, R., Chung, I. A. K. and Wakefield, L. M., 1971. Reducing the egg cholesterol level by including emulsified sitosierol in standard chicken diet. J. Nutr. 101: 289298.CrossRefGoogle ScholarPubMed
Coleman, B. W., Reimann, E. M., Grummer, R. H., Sunde, M. L. and Hoekstra, W. G., 1971. Antagobistic effect of arginine on zinc metabolism in chicks. J. Nutr. 101: 16951702.CrossRefGoogle ScholarPubMed
Couch, J. R., Camp, A. A. and Farr, F. M., 1971. The supplementary effect of adding canthaxanthin to a diet containing natural source5 of pigmenting compounds on the pigmentation of broilers. Brit. Poult. Sci. 12: 205211.CrossRefGoogle Scholar
Couch, J. R., Creger, C. R. and Chavez, R., 1971. Vitamin A requirement for growing turkeys. Brit. Poult. Sci. 12: 367371.CrossRefGoogle ScholarPubMed
Couch, J. R. and Farr, F. M., 1971. The effect of adding canthazanthin and beta-apo-8'-carotenal to laying diets containing yellow corn and alfalfa on egg yolk pigmentation. Brit. Poult. Sci. 12: 4955.CrossRefGoogle Scholar
Couch, J. R. and Farr, F. M., 1971. Evaluation of bcta–apo–8'–carotenal as an egg yolk pigmenter Brit. Poult. Sci. 12: 8793.CrossRefGoogle Scholar
Couch, J. R., Trammell, J. H. and Tolan, A., 1971. Effect of low lysine diets on growth and subsequent reproductive performance of broiler breeder pullets. Nutr. Rep. Int. 3: 120.Google Scholar
Cox, A. C. and Balloun, S. L., 1971. Prediction of total skeleton mineralization from individual bonc data. Poultry Sci. 50: 186194.CrossRefGoogle Scholar
Creek, R. D., Lund, P., Thomas, O. P. and Pollard, W. O., 1971. The effect of lithium carbonate on egg shell formation and serum calcium level of the hen. Poultry Sci. 50: 577580.CrossRefGoogle ScholarPubMed
Creger, C. R., Couch, J. R. and Chavez, R., 1971. The conversion of B-carotene to vitamin A in turkeys. Nutr. Rep. Int. 3: 191196.Google Scholar
Creger, C. R., Couch, J. R. and Chavez, R., 1971. Alfalfa meal and an aquatic blend as a source of pro-vitamin A for the turkey poult. Nutr. Rep. Int. 3: 197205.Google Scholar
Damron, B. L. and Harms, R. H., 1971. Influence of varying calcium levels on the utilization of calcium meta- and pyrophosphate in chick diets. Poultry sci. 50: 14231428.CrossRefGoogle ScholarPubMed
De Groote, G., Reynthens, N. and Amich-GALI, J., 1971. Fat studies. 2. The metabolic efficiency of energy utilization of glucose, soybean oil and different animal fats by growing chicks. Poultry Sci. 50: 808819.CrossRefGoogle ScholarPubMed
Dewar, W. A. and Siller, W. G., 1971. Sodium toxicity resulting from feeding hen egg albumen powder to turkey poults. Brit. Poult. Sci. 12: 535543.CrossRefGoogle ScholarPubMed
Dingle, J. G., 1971. Feeding activity of caged layers. Poultry Sci. 50: 15201521.CrossRefGoogle ScholarPubMed
D'Mello, J. P. F. and Lewis, D., 1971. Amino acid interactions in chick nutrition. 4. Growth, food intake and plasma amino acid patterns. Brit. Poult. Sci. 12: 345358.CrossRefGoogle ScholarPubMed
Dorminey, R. W. and Arscott, G. H., 1971. Effects of bird density, nutrient density and perches on the performance of caged White Leghorn layers. Poultry Sci. 50: 619629.CrossRefGoogle Scholar
Dorr, P. E. and Nockels, C. F., 1971. Effects of aging and dietary ascorbic acid on tissue ascorbic acid in the domestic hen. Poultry Sci. 50: 13751382.CrossRefGoogle ScholarPubMed
Edwards, H. M. Jr. and Hart, P., 1971. Carcass composition of chickens fed carbohydrate-free diets containing various lipid energy sources. J. Nutr. 101: 989996.CrossRefGoogle ScholarPubMed
Erbersdobler, H. and Gropp, J., 1971. Growth of chickens fed corn with different protein value. Arch. Geflüg. 35: 3640.Google Scholar
Evans, R. J., Bauer, D. H. and Flegal, C. J., 1971. Influence of feeding cottonseed oil to layhg hens on the lipovitellins of their eggs. J. Nutr. 101: 355362.CrossRefGoogle ScholarPubMed
Evans, R. M. and Scholz, R. W., 1971. Metabolic responses of chicks during adaptation to a high protein, “carbohydrate-free” diet. J. Nutr. 101: 11271136.CrossRefGoogle ScholarPubMed
Fisher, H. and Quisenberry, J. H., 1971. Net protein utilization and amino acid deficiencies of glandless cottonseed meal. Poultry Sci. 50: 11971200.CrossRefGoogle Scholar
Flegal, C. J., Schaible, P. J. and Hall, H. H., 1971. The relative biopotency of fermentation beta-carotene, crystalline beta-carotene and vitamin A for poultry. Poultry Sci., 50: 349358.CrossRefGoogle Scholar
Foster, W. H., 1971. The use of low-protein rations including the feeding on only whole wheat to two breeds of replacement pullets. Brit. Poult. Sci. 12: 333343.CrossRefGoogle Scholar
Fox, M. R. S., Fry, B. E. Jr., Hafgafd, B. F., Schertel, M. E. and Weeks, C. E., 1971. Effect of ascorbic acid on cadmium toxicity in the young coturnix. J. Nutr. 101: 12951306.Google ScholarPubMed
Franti, C. E., Adlet, H. E. and Julian, L. M., 1971. Antibiotic growth promotion: Effects of bacitracin and oxytetracycline on intestines anh selected lymphoid tissues of New Hampshire cockerels. Poultry Sci. 50: 9499.Google Scholar
Fritz, J. C., Pla, W. and Boehne, J. W., 1971. Influence of chelating agents on utilization of calcium, iron and manganese by the chick. Poultry Sci. 50: 14441450.CrossRefGoogle ScholarPubMed
Gardiner, E. E., 1971. Relationship of energy, phosphorus and breed of chicken to growth and food efficiency. Brit. Poult. Sci. 12: 3139.CrossRefGoogle ScholarPubMed
Garlich, J. D. and Wyatt, R. D., 1971. Effects of increased vitamin D3 on calcium retention and egg shell calcification. Poultry Sci. 50: 950956.CrossRefGoogle ScholarPubMed
Cleaves, E. W. and Dewan, S., 1971. The influence of dietary and environmental factors upon feed consumption and production responses in laying chickens. Poultry Sci. 50: 4655.CrossRefGoogle Scholar
Graber, G., Scott, H. M. and Baker, D. H., 1971. Sulfur amino acid nutrition of the growing chick: Ekect of age on the dietary methionink requirement. Poultry Sci. 50: 854858.CrossRefGoogle ScholarPubMed
Graber, G., Scott, H. M. and Baker, D. H., 1971. Sulfur amino acid nutrition of the growing chick: Effect of age on the capacity of cystine to spare dietary methionine. Poultry Sci. 50: 14501455.CrossRefGoogle ScholarPubMed
Grassman, E., Krichgessner, M., Hampel, G. and Roth-Maier, D. A., 1971. Studies concerning the metabolism of copper in chickens. Arch. Geflüg. 35: 6771.Google Scholar
Griminger, P. and Fisher, H., 1971. Medium-chain triglycerides as stress agents in Vitamin K deficiency. Poultry Sci. 50: 707710.CrossRefGoogle ScholarPubMed
Gropp, J. and Zucker, H., 1971. Vitamin Ds-Bioassay in the Japanese quail. Arch. Geflüg. 35: 4145.Google Scholar
Guenter, W., Bragg, D. B. and Kondra, P. A., 1971. Effect of dietary linoleic acid on fatty acid composition of egg yolk, liver and adipose tissue. Poultry Sci. 50: 845850.CrossRefGoogle ScholarPubMed
Gustafson, M. A. Jr., Flegal, C. J. and Schaible, P. J., 1971. The effects of microwave heating on the properties of raw unextracted soybeans for utilization by the chick. Poultry Sci. 50: 358364.CrossRefGoogle Scholar
Hamilton, P. B. and Garlich, J. D., 1971. Aflatoxin as a possible cause of fatty liver syndrome in laying hens. Poultry Sci. 50: 800804.CrossRefGoogle ScholarPubMed
Hammer, C., McDonald, K., Saylor, E. M., Buss, E. G. and Clagett, C. O., 1971. Avian renal riboflavinuria: 7. Riboflavinbinding protein transport and half-life. Poultry Sci. 50: 938944.CrossRefGoogle ScholarPubMed
Harms, R. H., Moreno, R. S., and Damron, B. L., 1971. Evidence for protein storage in laying hens and its utilization under nutritional stress. Poultry Sci., 50: 592595.CrossRefGoogle ScholarPubMed
Harms, R. H. and Waldroup, P. W., 1971. The effect ofhigh dietary calcium on the performance of laying hens. Poultry Sci. 50: 967969.CrossRefGoogle Scholar
Hartel, H., 1971. The influence of paprika on yolk colour from rations supplemented with rye, wheat or barley instead of corn. Arch. Geflüg. 35: 183190.Google Scholar
Hinkson, R. S. Jr., Gardiner, E. E., Kese, A. G., Reddy, D. N. and Smith, L. T., 1971 Calcium reauirement of the Dheasant chick. Poultrv Sci. 50: 3541.CrossRefGoogle ScholarPubMed
Hughes, B. O. and Dewar, W. A., 1971. A specific appetite for zinc in zinc-depleted domestic fowls. Brit. Poult. Sci. 12: 255258.CrossRefGoogle Scholar
Hurnik, J. F., Jerome, N., Reinhart, B. S. and Summers, J. D., 1971. Color as a stimulus for feed consnmution. Ponltrv Sci. 50: 944949.CrossRefGoogle Scholar
Hurwitz, S. and Bar, A., 1971. Calcium and phosphorus interrelationships in the intestine of the fowl. J. Nutr. 101: 677686.CrossRefGoogle ScholarPubMed
Hurwitz, S. and Bar, A., 1971. The effect of pre-laying mineral nutrition on the development, performance and mineral metabolism of pullets. Poultry Sci. 50: 10441055.CrossRefGoogle ScholarPubMed
Ichhponani, J. S. and Malik, N. S., 1971. Evaluation of de-oiled silkworm pupae meal and corn steep fluid as protein sources in chick rations. Brit. Poult. Sci. 12: 231234.CrossRefGoogle Scholar
Ivy, C. A., Bragg, D. B. and Stephenson, E. L., 1971. The availability of amino acids from soybean meal for the growing chick. Poultry Sci. 50: 408410.CrossRefGoogle Scholar
Janssen, W., 1971. The influence of feeding on gizzard erosion in broilers. Arch. Geflug. 35: 137141.Google Scholar
Joshi, H. C. and Link, R. P., 1971. A study of chickens during water deprivation. Poultry Sci. 50: 15321534.CrossRefGoogle ScholarPubMed
Kazemi, R. and Daghir, N. J., 1971. Interrelationships between methionine and vitamin B6 in chick diets. Poultry Sci. 50: 12961302.CrossRefGoogle ScholarPubMed
Kelly, M. and Holmes, C. E., 1971. The use of reconstituted high-moisture corn in diets of laying hens. Poultry Sci. 50: 14891492.CrossRefGoogle Scholar
Keshavarz, K. and Fuller, H. L., 1971. Relationship of argjnine and methionine in the nutrition of the chick and the significance of creatine biosynthesis in their interaction. J. Nutr. 101: 217222.CrossRefGoogle ScholarPubMed
Kirkland, W. M. and Fuller, H. L., 1971. The effect of ethoxyquin on the chemical and nutritional changes of poultry by-product meal and poultry offal fat during storage. Poultry Sci. 50: 137143.CrossRefGoogle Scholar
Kummero, V. E., Jones, J. E. and Loadholt, C. B., 1971. Lysine and total sulfur amino acid requirements of turkey poults, one day to three weeks. Poultry Sci. 50: 752758.CrossRefGoogle ScholarPubMed
Larbier, M., Guillaume, J. and Blum, J. C., 1971. Muscle levels of free lysine and methionine in chicks fed a single daily meal. Nutr. Rep. Int. 3: 273276.Google Scholar
Latshaw, J. D. and Jensen, L. S., 1971. Choline level and its effect on egg weight in the Japanese quail. Poultry Sci. 50: 790794.CrossRefGoogle ScholarPubMed
Lee, P. J. W., Gulllver, A. L. and Morris, T. R., 1971. Restricted feeding of broiler breeder pullets during the rearing period and its effect on productivity and breeding. Brit. Poult. Sci. 12: 499510.CrossRefGoogle Scholar
Little, P. L. and Edgar, S. A., 1971. The effcct of vitamin C on performance of coccidia-infected chickens fed complete and vitamin-deficient semi-purified diets. Poultry Sci. 50: 2634.CrossRefGoogle Scholar
Loncstafp, M. and Hill, R., 1971. The influence of manganese in association with other dietary components on certain shell characteristics. Brit. Poult. Sci. 12: 169178.Google Scholar
Longstaff, M. and Hill, R., 1971. The influence of dietary manganese and stage of egg production on the hexosamine and hydroxyproline contents of parts of the oviduct. Brit. Poult. Sci. 12: 401411.CrossRefGoogle ScholarPubMed
MacAuliffe, T. and McCinnis, J., 1971. Effect of antibiotic supplements to diets containing eyc on chick growth. Poultry Sci. 50: 11301134.CrossRefGoogle Scholar
Madappally, M. M., Paquet, R. J., Meiilman, M. A. and Tobin, R. B., 1971. Gluconeogenic and lipogenic enzyme actes in growing chicks fed high fat and high carbohydrate diets. J. Nutr. 101: 755760.CrossRefGoogle Scholar
March, B. E. and Biely, J., 1971. Factors affecting the response of chicks to diets of different protein value: Breed and age. Poultry Sci. 50: 10361040.CrossRefGoogle ScholarPubMed
March, B. E., Biely, J., Ciaggett, F. C. and Tarr, H. L. A., 1971. Dogfish meals as supplements for poultry rations. Poultry Sci. 50: 10721076.CrossRefGoogle Scholar
Marusich, W. L. and Baijerneeind, J. C., 1971. Evaluation studies on the Animal Nutrition Research Council Vitamin E Rclerencc Standard in chickens. Poultry Sci. 50: 506511.CrossRefGoogle ScholarPubMed
Marusich, W. L., Ocrinz, E. F., Hecht, B. and Mitrovic, M., 1971. Safety of sulfadimethoxine potentiated miirture (Rofenaid), a new broad spectruni coccidiostat-antibacterial, in turkeys. Poultry Sci. 50: 512517.CrossRefGoogle ScholarPubMed
Mathers, J. W., Longstaff, M. and Hill, R., 1971. The influefice on shell formation of the pre-laying period for which a low mangancse diet is given. Brit. Poult. Sci. 12: 179185.CrossRefGoogle Scholar
Mathias, M. M. and Hogue, D. E., 1971. Effect of seleniuni, synthetic antioxidants, and vitamin E on the incidence of exudalive diathcsis in the chick. J. Nutr. 101: 13991402.CrossRefGoogle ScholarPubMed
Menge, H. 1971. The influence of dietary oils on chick growth rate. Poultry Sci. 50: 261266.CrossRefGoogle Scholar
Meyer, G. B., Babcock, S. W. and Sunee, M. L., 1971. Effect of various prelaying levels of dietary calcium upon subsequent performance in chickens. Poultry Sci. 50: 536547.CrossRefGoogle ScholarPubMed
Mitrovic, M., Fuslek, G. and Schildknecht, E. G., 1971. Antibacterial activity of sulfadimethoxine potentiatrd mixture (Rofenaid) in turkeys. Poultry Sci. 50: 525529.CrossRefGoogle ScholarPubMed
Mitrovic, M., Schildknecht, E. G. and Fuslek, G., 1971. Anticoccidial activity of sulfadimethoxine potentiated mixture (Rofenaid) in turkeys. Poultry Sci. 50: 517525.CrossRefGoogle ScholarPubMed
Nelson, T. S., Shieh, T. R., Wodzinski, R. J. and Ware, J. H., 1971. Effect of supplemental phytase on the utilization of phytate phosphorus by chicks. J. Nulr. 101: 12891294.Google ScholarPubMed
Neshejm, M. C., Norvell, M., Ceballos, E. and Leach, R. M. Jr.. 1971. The effect of choline supplerncntation of growing pullets and laying hen. Poultry Sci. 50: 820831.CrossRefGoogle Scholar
Nockels, C. F. and Phillips, R. W., 1971. Influence of vitamin A deficiency on tissue glycogen metabolism in growing chickens. Poultry Sci. 50: 174181.CrossRefGoogle ScholarPubMed
Ogunmodede, B. K. and Ogunlels, B., 1971. Utilization of palm, groundnut and melon seed oils by pullets. Brit. Poult. Sci. 12: 187196.CrossRefGoogle Scholar
Pastro, K. R. and Hunt, J. R., 1971. Effect of feeding system on protein metabolites in chick blood. Brit. Poult. Sci. 12: 529534.CrossRefGoogle ScholarPubMed
Payne, W. L., Kifer, R. R., Synder, D. G. and Combs, G. F., 1971. Studies of protein digestion in the chicken. 1. Investigation of apparent amino acid digestibility of fish meal protein using cecectomized adult male chickens. Poultry Sci. 50: 143150.CrossRefGoogle Scholar
Peter, V. and Lepkovsky, S., 1971. Effect of insulin injcctions upon plasma free fatty acids. (F.F.A.) and Lipolysis of adipose tissues of Whitc Leghorn hens. Poultry Sci. 50: 11811184.CrossRefGoogle Scholar
Peterson, D. W., Hamilton, W. H. and Lilyblade, A. L., 1971. Heredity susceptibility to dietary induction of gout in selected lines of chickens. J. Nutr. 101: 347354.CrossRefGoogle Scholar
Peterson, D. W., Hamilton, W. H. and Lilyblade, A. L., 1971. Retardation of fatty infiltration in atropic muscle of genetically dystrophic chickens by diet or exercise. J. Nutr. 101: 453464.CrossRefGoogle ScholarPubMed
Potter, L. M., Leighton, A. T. Jr., and Howes, C. E., 1971. The effects of fish meal, merhionine and different cereal grains in diets of young turkeys. Poultry Sci. 50: 11001108.CrossRefGoogle ScholarPubMed
Potter, L. M., Shelton, J. R. and Kelly, M., 1971. Effects of zinc bacitracin, dried bakery product and different fish meals in diets of young turkeys. Poultry Sci. 50: 11091115.CrossRefGoogle ScholarPubMed
Proudfoot, F. G., Lamoreaux, W. F. and Aitken, J. R., 1971. Performance of commercial broiler genotypes on fish meal diets with a charcoal supplement. Poultry Sci. 50: 11241130.CrossRefGoogle Scholar
Tathore, B. S. and Cnaturvedi, D. K.. 1971. Studies on cereal-free rations based on rice polishings and groundnut cake for growing chicks. 3. Effect of cheap protein supplcments. Poultry Sci. 50: 370374.Google Scholar
Rehfeld, B. M., Bradley, R. L. Jr. and Sunde, M. L., 1971. Toxicity studies on polychlorinated biphenyls in the chick. Poultry Sci. 50: 10901096.CrossRefGoogle ScholarPubMed
Reimann, E. M., Sunde, M. L. and Hoekstra, W. G.. 1971. Effect of zinc, certain related dietary factors and age on the histainine content of chick tissues. J. Nutr. 101: 16231630.CrossRefGoogle ScholarPubMed
Roland, D. A. Sr. and Edwards, H. M. Jr.. 1971. Effect of essential fatty acid deficiency and type of dietary fat supplementation on biotin deficient chicks. J. Nutr. 101: 811818.CrossRefGoogle ScholarPubMed
Salmon, R. E. and O'Neil, J. B., 1971. The effect of the level and source of dietary fat on the growth, feed efficiency, grade and carcass composition of turkeys. Poultry Sci. 50: 14561467.CrossRefGoogle Scholar
Saloma, A. E., Farr, F., Cooper, J. and Couch, J. R., 1971. The effect of dietary vegetable fats on egg production and fatty acid composition of egg yolk lipids. Nutr. Rep. Int. 3: 263272.Google Scholar
Salter, D. N. and Coates, M. E., 1971. The influence of the microflora of the alimentary tract on protein digestion in the chick. Brit. J. Nutr. 26: 5569.CrossRefGoogle ScholarPubMed
Salter, D. N., Coates, M. E. and Westgarth, D. R., 1971. Studies on the incorporation of 41C-labelled amino acids into egg proteins. Brit. Poult. Sci. 12: 483498.CrossRefGoogle ScholarPubMed
Scott, M. L., Hull, S. J. and Mullenhoff, P. A., 1971. The calcium requirements of laying hens and effects of dietary oyster shell upon egg shell quality. Poultry Sci. 50: 10551063.CrossRefGoogle Scholar
Seifter, E., Rettura, G., Seifter, J., Nagler, A. and Levenson, S. M., 1971. Gall bladder distension in choline-deficient chicks. J. Nutr. 101: 12331240.CrossRefGoogle ScholarPubMed
Sheppard, A. J., Fritz, J. C., Hooper, W. H., Roberts, T., Hubbard, W. D., Prosser, A. R. and Boehne, J. W., 1971. Crambe and rapeseed oils as energy sources for rats and chicks and some ancillary data on organ weights and body cavity fat composition. Poultry Sci. 50: 7984.CrossRefGoogle Scholar
Simpson, C. F., Robbins, R. C. and Harms, R. H., 1971. Microscopic and biochemical observations of aortae of turkeys fed copper-deficient diets with and without ascorbic acid. J. Nutr. 101: 13591366.CrossRefGoogle ScholarPubMed
Sloan, D. R., Bowen, T. E. and Waldroup, P. W., 1971. Expansion-extrusion processing of corn, milo and raw soybeans before and after incorporation in broiler diets. Poultry Sci. 50: 257261.CrossRefGoogle Scholar
Smith, A. H., Burton, R. R. and Kelly, C. F., 1971. Influence of gravity on the maintenance feed requirement of chickens. J. Nutr. 101: 1324.CrossRefGoogle ScholarPubMed
Smith, C. J. V. and Pilz, D. R., 1971. Feeding behavior Of chickens: Effect of cropectomy. Poultry Sci. 50: 226229.CrossRefGoogle Scholar
Smith, J. W., Hill, C. H. and Hamilton, P. B., 1971. The effect of dietary modifications of aflatoxicosis in the broiler chicken. Poultry Sci. 50: 768774.CrossRefGoogle ScholarPubMed
Soares, J. H. Jr. and Kifer, R. R., 1971. Evaluation of protein quality based on residual amino acids in the ileal contents of chicks. Poultry Sci. 50: 4146.Google Scholar
Soares, J. H. Jr., Miller, D., Fritz, N. and Sanders, M., 1971. Some factors affecting the biological availability of amino acids in fish protein. Poultry Sci. 50: 11341143.CrossRefGoogle ScholarPubMed
Solberg, J., Buttery, P. J. and Boorman, K. N., 1971. Effect of moderate methionine deficiency on feed, protein, and energy utilisation in the chick. Brit. Poult. Sci. 12: 297304.CrossRefGoogle ScholarPubMed
Solomon, S. E., 1971. Fluctuations in total calcium and magnesium in the plasma and uterine fluid of the domestic fowl. Brit. Poult. Sci. 12: 165167.CrossRefGoogle ScholarPubMed
Speers, G. M., Meronuck, R. A., Barnes, D. M. and Mirocha, C. J., 1971. Effect of feeding Fusarium roseum F. Sp. graminearum contaminated corn and the mycotoxin F-2 on the growing chick and laying hen. Poultry Sci. 50: 627633.CrossRefGoogle ScholarPubMed
Squibb, R. L., 1971. Estimating the metabolizable energy of foodstuffs with an avian model. J. Nutr. 101: 12111216.CrossRefGoogle ScholarPubMed
Stephens, J. F., Harpster, S. and Orton, C. T., 1971. Rofenaid treatment of Arizona (paracolon 7: 1, 7, 8) and Salmonella typhimurium infections in young turkeys. Poultry Sci. 50: 925931.CrossRefGoogle ScholarPubMed
Stephenson, E. L., York, J. O., Bragg, D. B. and Ivy, C. A., 1971. The amino acid content and availability of different strains of grain sorghum to the chick. Poultry Sci. 50: 581584.CrossRefGoogle Scholar
Stillmak, S. J. and Sunde, M. L., 1971. The use of high magnesium limestone in the diet of the laying hen. 1. Egg production. Poultry Sci. 50: 533564.CrossRefGoogle Scholar
Stillmak, S. J. and Sunde, M. L., 1971. The use of high magnesium limestone in the diet of the laying hen. 2. Calcium and magnesium availability. Poultry Sci. 50: 564572.CrossRefGoogle Scholar
Stone, H. A., Collins, W. M. and Urban, W. E. Jr., 1971. Evaluation of carotenoid concentration in chicken tissues. Poultry Sci. 50: 675681.CrossRefGoogle ScholarPubMed
Stutz, M. W., Savage, J. E. and O'Dell, B. L., 1971. Relation of dietary cations to argininelysine antagonism and free amino acid patterns in chicks. J. Nutr. 101: 377384.CrossRefGoogle ScholarPubMed
Summers, J. D. and Moran, E. T. Jr., 1971. Protein requirement of poults to 8 weeks of age. Poultry Sci. 50: 858861.CrossRefGoogle ScholarPubMed
Summers, J. D., Pepper, W. F. and Wood, A. S., 1971. The value of rapeseed meal in broiler breeder diets. Poultry Sci. 50: 13871391.CrossRefGoogle Scholar
Summers, J. D., Rajaratnam, G. and Peper, W. F., 1971. Evaluation of rapeseed meal as a protein supplement for laying hen diets. Poultry Sci. 50: 13821386.CrossRefGoogle Scholar
Tasaki, I. and Tohno, , 1971. Effect of dietary protein level on plasma free amino acids in the chicken. J. Nutr. 101: 12251232.CrossRefGoogle ScholarPubMed
Torges, H. G., 1971. Potato meal in laying rations. Arch. Geflüg. 35: 159164.Google Scholar
Touchburn, S. P. and Nestor, K. E., 1971. Effect of dietary Neomycin-Terramycin on reproductive performance in turkeys. Poultry Sci. 50: 151155.CrossRefGoogle ScholarPubMed
Turk, D. E. and Barnett, B. D., 1971. Cholesterol content of market eggs. Poultry Sci. 50: 13031306.CrossRefGoogle ScholarPubMed
Vanschoubroek, F., Vermeersch, G. and DeSchrijver, R., 1971. A comparison of the effect of lard and soybean oil on food and water intake, body weight, food conversion efficiency and mortality of broiler chicks. Poultry Sci. 50: 495501.CrossRefGoogle Scholar
Velu, J. G., Baker, D. H. and Scott, H. M., 1971. Protein and energy utilization by chicks fed graded levels of a balanced mixture of crystalline amino acids. J. Nutr. 101: 12491256.CrossRefGoogle ScholarPubMed
Vilhjalmsdottir, L. and Fisher, H., 1971. Castor bean meal as a protein source for chickens: Detoxification and determination of limiting amino acids. J. Nutr. 101: 11851192.CrossRefGoogle ScholarPubMed
Vogt, H., 1971. Needs for chloride in feedstuffs for fattening birds. Arch. Geflüg. 35: 1720.Google Scholar
Vogt, H., 1971. The influence of sodium, potassium and chloride content in broiler rations on the water content of faeces. Arch. Geflüg. 35: 151155.Google Scholar
Vogt, H., Nezel, K., Rauch, W. and Stute, K., 1971. Requirements and compatability of sodium by broiler chickens and laying hens. Arch. Geflüg. 35: 116122.Google Scholar
Vogt, H. and Stute, K., 1971. Observations concerning the digestibility of certain fractions of carbohydrates (sugar, starch, pentosans, raw cellulose, lignin) forming part of the diet of hens. Arch. Geflüg. 35: 2935.Google Scholar
Vohra, P. and Roudybush, T., 1971. The effect of various levels of dietary protein on the growth and egg production of Coturnix Coturnix Japonica. Poultry Sci. 50: 10811084.CrossRefGoogle Scholar
Washburn, K. W. and Britton, W. M., 1971. Effects of diets containing Helminthosparium maydis blighted corn on growth rate, feed conversion, mortality and blood clotting time of broilers. Poultry Sci. 50: 11611164.CrossRefGoogle ScholarPubMed
Waldroup, P. W., Hillard, C. M. and Mitchell, R. J., 1971. The nutritive value of yeast grown on hydrocarbon fractions for broiler chicks. Poultry Sci. 50: 10221029.CrossRefGoogle Scholar
Whitehead, C. C., Dewar, W. A. and Downie, J. N., 1971. Effect of dietary fat on mineral retention in the chick. Brit. Poult. Sci. 12: 249254.CrossRefGoogle Scholar
Wilson, H. R., Rowland, L. O. Jr. and Harms, R. H., 1971. Use of low protein grower diets to delay sexual maturity of broiler breeding males. Brit Poult. Sci. 12: 157163.CrossRefGoogle Scholar
Wood, A. S., Summers, J. D., Moran, E. T. Jr. and Pepper, W. F., 1971. The utilization of unextracted raw and extruded full-fat soybeans by the chick. Poultry Sci. 50: 13921399.CrossRefGoogle ScholarPubMed
Yeh, Y. and Leveille, G. A., 1971. In vitro and in vivo restoration of hepatic lipogenlsis in fasted chicks. J. Nutr. 101: 803810.CrossRefGoogle ScholarPubMed
Yeh, Y. and Leveille, G. A., 1971. Studies on the relationship between Iipogenesis and the level of coenzyme A derivatives, lactate and pyruvate in chick liver. J. Nutr. 101: 911918.CrossRefGoogle ScholarPubMed