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Abstract
Higher protein accretion rates are associated with productive energy (Arkansas Net Energy) efficiency (PE/AMEn) but not with classic net energy efficiency (CNE/AMEn)
Martinez, D., N. Suesuttajet, C. Umberson and C. Coon
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Abstract
Assessing productive energy for extruded full-fat soybean meals obtained from six different soybean sources in the U.S.
Scott, A., C. Umberson, C. Selby, J. Weil1, N. Suesuttajet, D. Martinez, M. Riaz and C. Coon
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Abstract
Productive energy: Exploring reasons for its superiority beyond apparent metabo-lizable energy and classic net energy
Martinez, D., N. Suesuttajit, C. Umberson and C. Coon
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Abstract
Productive energy (Arkansas Net Energy) value of diet and soybean meal for broilers as predicted by digestible nutrients
Martinez, D., N. Suesuttajit, C. Umberson and C. Coon
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Abstract
Productive energy (Arkansas Net Energy) is more sensitive than classic net energy determination to performance and actual net energy fractions for gain and maintenance
Martinez, D., N. Suesuttajit, C. Umberson and C. Coon
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Abstract
The digestible amino acid profile of soybean meal influences its productive energy (Arkansas Net Energy) value for broilers
Martinez, D., N. Suesuttajit, C. Umberson and C. Coon
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Abstract
Productive energy (Arkansas Net Energy) is a better predictor of broiler feed intake and feed conversion ratio compared to metabolizable energy and classic net energy
Martinez, D., N. Suesuttajit, C. Umberson and C.Coon
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Abstract
Productive energy (Ark NE), apparent metabolizable energy (AMEn) and net energy (NE) values for diets and ingredients for 5-56d broiler grow-out studies
Suesuttajit, N., J. Weil, C. Umberson, D. Martinez, A. Scott and C. Coon
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Abstract
Body composition and fasting heat production of modern broilers and their relationship with dietary productive energy (Arkansas Net Energy)
Martinez, D., N. Suesuttajit, K. Hilton, J. Weil, C. Umberson, A. Scott and C. Coon
U.S. Soy Center for Animal Nutrition and Health
