Effects of isoenergetic supplementation as water use mitigation strategy on water footprint and health of nursing bull calves
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Abstract
Sustainable livestock systems focus on mitigating natural resource use such as water. Dietary management strategies can significantly reduce the water footprint of livestock animals; however, animal health is of concern when animals reduce water intake due to subacute dehydration. To evaluate potential consequences of this nutritional management intervention, a total of 23, 60±3 days old nursing Holstein bull calves, weighing 94.7±12.07 kg, were distributed in a completely randomized design and received one of three diets. Control was a basal diet composed of a non-medicated milk replacer (milk replacer; n=7), and the additional two diets, were composed of the same non-medicated milk replacer in addition to either lipid [n=8; milk replacer+menhaden fish oil (3 %)] or soluble carbohydrate [n=8; milk replacer+corn starch (7%) isoenergetic to fat group] supplements. Animals were offered ad libitum mineral mix and water, as well as 120 g/day of a composite mix of dried microbrewery's spent grains. Data were analyzed as linear and generalized linear mixed models with diet as a fixed effect and animal as random utilizing R studio (R Core Team, 2021, Vienna, Austria; SAS Inst., Cary, NC). Within supplementation groups, lipid supplemented calves had the highest lymphocyte (63.24 vs 57.69 counts/100 lymphocytes; P<0.033), and lowest neutrophil counts (29.3 vs 35.3 counts/100 lymphocytes; P<0.047). Supplementation significantly increased total serum protein (P=0.001) and skin moisture (P<0.011), with carbohydrate group having the highest skin moisture (5.30 vs 3.99; P<0.047). Supplementation also decreased fecal fluidity scores (P<0.001) with no significant change in serum electrolytes (P>0.256). No significant differences were found amongst treatments for the ingestive behavior (P>0.338). The carbohydrate-supplemented calves significantly decreased all daily water footprints compared to the control and fat-supplemented groups: blue a 47.55 L decrease, (P<0.001), green a 265.62 L decrease (P=0.005), and gray a 55.87 L decrease (P=0.009) water footprint, as well as total water footprint (369.04 L, P=0.004). Our results indicate the potential to maintain animal performance while increasing water use efficiency through diet supplementation tailored to mitigate water use, without adverse effects on animal health.