. The Biochemical journal, 1918. Biochemistry. ANTISCORBUTIC VALUE OF DRIED CABBAGE 1 \ 4o9 —10. O.' Fig suibjS u; iqoioAv A'pog 2. Conipaiison of growth on fresh and dried cabbage rations (Dunnington Farm Greens). — Cur\-e A represents standard growth on a 30 g. fresh cabbage ration. Curves B and C represent average gi-owth on diet of 3-4 g. dried cabbage (equivalent to 30 g. fresh) 2 3 weeks old and water. — Curve B represents the mean growth of Nos. 813, 814 in 90 days. — ,, C represents the mean growth of Nos. 815, 816, which both died of scurvy. Curves D and E represent growth on a diet o
. The Biochemical journal, 1918. Biochemistry. ANTISCORBUTIC VALUE OF DRIED CABBAGE 1 \ 4o9 —10. O.' Fig suibjS u; iqoioAv A'pog 2. Conipaiison of growth on fresh and dried cabbage rations (Dunnington Farm Greens). — Cur\-e A represents standard growth on a 30 g. fresh cabbage ration. Curves B and C represent average gi-owth on diet of 3-4 g. dried cabbage (equivalent to 30 g. fresh) 2 3 weeks old and water. — Curve B represents the mean growth of Nos. 813, 814 in 90 days. — ,, C represents the mean growth of Nos. 815, 816, which both died of scurvy. Curves D and E represent growth on a diet of 3-4 g. dried (equivalent to 30 g. fresh) cabbage 5-6 weeks old and water. - Curve D represents the mean growth of Nos. S24. 825. H27 and 82H. - ., E represents the mean growth of No. 825 .\, an animal of exceptional resistance. - ,, F represents average growth on 17 g. dried (equivalent to 15 g. fresh) cabbage 2-3 weeks old with autoclaved milk. This is the mean of Nos. 844. 845. Curves G and H represent the average growth on 1-7 g. dried (equivalent to 15 g. fresh i cabbage 3 months old with autoclaved milk. • Curve G represents the mean trrowth of Nos. 878. 879. both dying of Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Biochemical Society (Great Britain); University of Liverpool. Biochemical Dept. London [etc. ] Cambridge University Press
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