. Chemical embryology. Embryology. 652 THE RESPIRATION AND [PT. Ill showed that no chemical energy disappeared to form morphological structures, for, had that been the case, the calorific quotient must have been different when development ceased. Again, for partheno- genetic eggs with membranes raised by valerianic acid, the corrected. hours 1 FERTILISATION AFTER FERTILISATION I cells 2 4 1^^ Meyerhof. W^ Shearer and Warburg. 1 1 Rogers & Cole. Fig. 117. calorific quotient was 2-6. A more unexpected result was the calorific quotient of eggs in sea water to which ammonia had been added. Her


. Chemical embryology. Embryology. 652 THE RESPIRATION AND [PT. Ill showed that no chemical energy disappeared to form morphological structures, for, had that been the case, the calorific quotient must have been different when development ceased. Again, for partheno- genetic eggs with membranes raised by valerianic acid, the corrected. hours 1 FERTILISATION AFTER FERTILISATION I cells 2 4 1^^ Meyerhof. W^ Shearer and Warburg. 1 1 Rogers & Cole. Fig. 117. calorific quotient was 2-6. A more unexpected result was the calorific quotient of eggs in sea water to which ammonia had been added. Here, as Warburg showed, no cleavage goes on, but the respiratory rate is slightly raised. Meyerhof found that the calorific quotient of such eggs was 3-25 to 3-35, and this was the only case in which. 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 Needham, Joseph, 1900-. New York: The MacMillan Co.


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Keywords: ., bookcentury1900, bookpublishernewyorkthem, booksubjectembryology