In a total mixed ration (TMR) feeding system, forage and concentrate feed components are combined into a single feed mixture. The objective of this feeding method is to deliver to each cow, a well-balanced ration that is formulated to maintain health and maximize milk production. However, despite our best efforts in formulating and delivering the ration to cows there are indications that the composition of what an individual cow consumes is not the same as what was initially delivered.

Dairy cows have been shown to preferentially sort for the smaller grain particles and discriminate against longer forage components. This type of feeding behavior can lead to cows consuming less fiber and more concentrate than expected. As a result, these cows experience lower rumen pH, putting them at greater risk for sub-acute ruminal acidosis (SARA).

One of the most critical time periods during which dairy cattle experience SARA is in early lactation, in the weeks following calving. During this time cows experience a dramatic change in ration as they are switched from a high forage close-up ration fed before calving to a much lower forage lactation ration after calving. Until recently, we did not know what effect this dietary change had on the feed sorting behavior by cows.

We therefore set out to determine whether the forage concentration of a ration influences feed sorting by cows and whether the extent of this sorting changes as the cows adapt to a new ration. In our study six lactating Holstein cows, individually fed once per day, were provided each of two rations in a crossover design:
1. higher forage ration (62 percent forage)
2. lower forage ration (51 percent forage)

Dry matter intake, feeding and sorting behavior were monitored for the first seven days each cow was on each treatment. Sorting was determined by sampling the offered feed and refusals daily for each cow and undertaking particle size analysis using a Penn State Particle Separator. The particle size separator contained two screens (18 and 9 mm) and a bottom pan resulting in three fractions (long, medium and short).

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Sorting was calculated as the actual intake of each particle size fraction expressed as a percentage of the predicted intake of that fraction. We found that cows rapidly adjusted their sorting behavior within one day when their ration was changed. Cows sorted for the shorter concentrate particles and sorted against the longer forage particles to a greater extent when fed the lower forage ration.

We also found that when cows were provided a lower forage ration they increased their dry matter intake (22.2 versus 19.9 kilograms per day), decreased feeding time (193.3 versus 220.5 minutes per day) and increased feeding rate (0.15 versus 0.11 kilograms per minute), particularly during the time period following feed delivery. These findings are of interest as they provide evidence that feeding a lower forage ration may increase the risk of cows succumbing to SARA, particularly during early lactation when dry matter intake is rapidly increasing.

Another major concern with feed sorting is its varied effect in group-fed cows. When cows engage in sorting, the nutritive value of TMR remaining in the feedbunk changes for those cows which eat hours after feed delivery. Our work has shown that subordinate cows do not have primary access to feed when it is delivered. It is likely that these cows end up consuming a ration that is very different than what was originally formulated. In an extreme case cows may consume insufficient nutrients to maintain high milk production. To test this prediction we completed a study to investigate how feed sorting is affected by competition for feedbunk access.

Thirty-six dry Holstein cows, consuming a close-up TMR (31 percent corn silage, 40 percent alfalfa hay, 29 percent concentrate), were assigned to one of two treatments:
1. noncompetitive (1 cow per feed bin)
2. competitive (two cows per feed bin)

Feeding behavior, dry matter intake and sorting behavior were monitored on four separate days during weeks two and three before the cows’ expected calving dates. As seen in the previous study, regardless of treatment, cows sorted against longer forage particles and for the shorter concentrate particles. Interestingly, competition at the feedbunk dramatically increased the feeding rate of cows throughout the day (Figure 1a*).

Even though time spent feeding was similar (195 minutes per day), the competitively-fed cows had fewer meals per day, and tended to have larger and longer meals than the noncompetitively fed cows. Competition also changed the distribution of DMI over the course of the day (Figure 1b*), resulting in higher intakes during the later hours after feed delivery after much of the feed sorting had already occurred.

These results suggest that increased competition at the feedbunk promotes feeding behavior patterns that will likely increase the between-cow variation in composition of TMR consumed. In other words, the subordinate cow likely is even more vulnerable in competitive situations and may end up consuming a ration very different than what was initially formulated.

Overall, it is recommended that producers pay attention to what their cows are eating. Using a forage particle separator to compare the feed offered with what is left at the end of the day can provide an indication of what they are eating. If producers find evidence of feed sorting, they can manage it and its effects by changing dietary composition (increasing ration forage content) and by decreasing feedbunk competition by providing more bunk space. PD

*References and figures omitted but are available upon request at editor@progressivedairy.com

—This report is a summary of two studies published in the Journal of Dairy Science (Hosseinkhani et al. 2008. J. Dairy Sci. 91:1115-1121 and DeVries et al. 2007. J. Dairy Sci. 90:5572-5579).

Trevor DeVries
University of British Columbia
tdevries@kemptvillec.uoguelph.ca