Oral Electrolyte Therapy in Dairy Calves

By Robert Corbett, DVM, PAS, DIPL. ACAN, Dairy Health Consultant

The most common calfhood disease that results in the highest economic loss to the dairyman is diarrhea. Dehydration and acidosis are the most important issues that have to be corrected in the majority of diarrhea cases. Most individuals responsible for treating sick calves understand the importance of rehydrating the calf and are generally familiar with the use of oral electrolyte solutions.

However, choosing which oral electrolyte to use, unfortunately, is often based on price, or the recommendation of the animal health route person that visits the calf operation. The dairy industry has been suffering from low milk prices for the past several years, so the emphasis on using less expensive products has been a high priority on most operations. It is common for the larger operations to purchase their oral electrolyte product in bulk to reduce the cost per treatment. Even though the bulk products usually contain a scoop that is supposed to deliver the exact dose needed for 1 treatment, this is often increased by a heaping scoop or perhaps more than one scoop on the premise that if a little bit is good, a lot would be better.

When choosing which product to use, it is generally assumed by those purchasing the electrolyte that they are all created equal, so price is the major factor in determining which product to buy. Another factor often considered is how well the calf will drink the oral electrolyte solution so that administering it by stomach tube will be less frequent. When looking at the labels, it is very difficult to compare one product to another. The ingredients in electrolyte are often expressed in different ways such as percentage, grams, milliequivalents per liter, etc., making it next to impossible for those who are purchasing the product to determine which product is the best as far as its ability to rehydrate the calf. In addition to this, there hasn’t been much information provided to the dairyman as far as what concentrations of the individual ingredients are optimum to rapidly restore the normal physiological state of electrolyte balance and hydration. Dr. Geoff Smith from the University of North Carolina has published several articles on this complicated topic for veterinarians, to help them better understand the physiology of rehydrating the calf and correcting acidosis, and thus be able to better advise their clients on this topic. The majority of the information on electrolyte formulation in this article is taken from a chapter written by Dr. Geoff Smith from Veterinary Clinics of North America 2008.

Diarrhea results in rapid loss of the extracellular fluid volume (ECF) with a slight increase in intracellular fluid (ICF). As stated by Dr. Smith “Sodium is the osmotic skeleton of the ECF and therefore of plasma”. Since sodium is the main determinant of the ECF, it must be included in a well-formulated electrolyte product in sufficient amounts to rapidly reestablish a normal state of hydration. There is not an exact amount of sodium that is recommended, but rather a range which was determined by the various research articles that have been published on the topic. Dr. Smith recommends that the sodium concentration be between 90 and 130 mmol/L (millimoles per liter).

Even though calves do lose some chloride with diarrhea, it is not lost in near the amounts that sodium is. Dr. Smith recommends that the chloride concentration be between 40and 80 mEq/L (milliequivalents per liter) with concentrations toward the lower end of the scale probably being better.

Potassium is also lost in the feces of calves with diarrhea. All calves with diarrhea will have a total body deficit of potassium. However, some calves with acute severe diarrhea may actually have a level of potassium that is higher than normal at the same time. When a calf becomes dehydrated, it releases a hormone called aldosterone from the pituitary gland which tries to conserve sodium and water in the kidneys, but at the expense of potassium. Dr. Smith recommends a potassium concentration of 10 to 30 mmol/L in oral electrolyte formulations.

The absorption of sodium in the small intestine is a passive process. There must be some other substance that is actively absorbed in the product in order to facilitate the absorption of sodium. The most common ingredient added to an electrolyte product to enhance sodium absorption is glucose. Glucose is also an important energy source in the diarrheic calf since most calves are in a state of negative energy balance during the episode of diarrhea. Neutral amino acids such as glycine, alanine and glutamine have been shown to increase sodium absorption. Glycine is the most common one added to oral electrolyte solutions. It is generally assumed that including both glucose and a neutral amino acid will further improve sodium absorption above that of glucose alone. Volatile fatty acids such as acetate or propionate have also been shown to enhance sodium absorption. It is also thought that adding a volatile fatty acid to the electrolyte will further enhance sodium absorption as well.

Osmalality is defined as the concentration of a solution expressed as the total number of solute particles per liter. The osmolality of the oral electrolyte solution is extremely important since it has a direct effect on how fast and complete the electrolyte solution is absorbed across the intestinal epithelium into the bloodstream of the calf. Osmalality is quite a complex subject, so only the basic information needed to determine which product would be recommended on farm will be provided. The osmolality of the various electrolyte products varies tremendously. Electrolyte products that are considered to be isotonic (the same osmolality as that of the ECF of the calf) would be in the range of 280-300 mOsm/L (milliosmoles per liter). Those that are extremely hypertonic (much more concentrated) may have an osmolality as high as 700-800 mOsm/L. If the osmolality of the electrolyte solution is significantly higher than the ECF the absorption of the electrolyte is greatly decreased, and could also result in the flow of fluids into the lumen of the intestine, causing the diarrhea to become more severe.

The main factor in determining the osmolality of an electrolyte solution is the amount of glucose in the product. The other ingredients also add to the osmolality. As mentioned previously, glucose not only enhances sodium absorption, but is an important energy source as well. The osmolality at the tip of the intestinal villus is approximately 600 mOsm/L. Therefore, the extremely hypertonic electrolyte solutions could actually result in fluid loss. Since there is already an excess secretion of fluids across the gut membrane, these extremely hypertonic solutions have the potential to increase fluid loss.

The amount of glucose in the electrolyte solution is important as an energy source, but also has a major influence on the osmolality of the product. The general recommendation is that there is between 2 and 3 grams of glucose per kg of body weight of the calf. When choosing which product to use, both the osmolality and the total amount of glucose in the electrolyte must be considered together. The extremely hypertonic electrolyte solutions often result in a slowing down of the abomasal emptying, often resulting in abomasal bloat and/or abomasitis. Dr. Smith recommends that the osmolality of an electrolyte solution be no more than 500 mOsm/L. The osmolality of the oral electrolyte solution is absolutely critical in how fast it is absorbed. For this reason, the dairyman should know what the osmolality is of the product they are using, and each company selling an oral electrolyte should know what the osmolality is. The osmolality is more important than having a high level of glucose in the product.

Almost all calves that have diarrhea will develop acidemia and metabolic acidosis. Correcting this acidosis is an important function of a well formulated oral electrolyte solution. Calves can be rehydrated but still suffer from metabolic acidosis. For this reason, it is important that an alkalinizing agent be added to the electrolyte formulation. This would include bicarbonate, acetate, and propionate. Bicarbonate is effective as an alkalinizing agent in its original state. Both acetate and propionate have to be metabolized in the liver to be effective as an alkalinizing agent. Even though this process is somewhat slower, it does not appear that there is any major difference between these two types of products as far as correcting metabolic acidosis in the calf.

Bicarbonate will lower the pH of the abomasum. If feeding whole milk, this will interfere with the normal clotting of the milk. Most milk replacers use whey protein as the protein source and these proteins do not form a clot in the abomasum, so bicarbonate will not have an effect on these types of milk replacers. Another important point is that a low pH in the abomasum is an important deterrent to bacterial pathogens such as E. coli and Salmonella. These pathogens are susceptible to a low pH and the majority of them are prevented from passing on into the small intestine if a low abomasal pH is maintained.

Acetate and propionate do not lower the abomasal pH. They also facilitate the absorption of sodium as previously mentioned. When metabolized in the liver, these volatile fatty acids are also an energy source, which bicarbonate is not. They will not interfere with the normal milk clotting process of whole milk.

Some electrolyte formulas contain Psyllium or some other gelling factor. This will slow down gastric emptying as well as absorb fluid from the intestine. However, this does not have an effect on rectifying dehydration since the fluid is still in the intestinal lumen and not in the ECF. It is generally not recommended to use these types of agents for this reason. These products will often result in less volume of diarrhea, giving the caretaker a false impression that the calf is improving, when in fact the process of improving hydration is not progressing.

Ideally, administration of oral electrolyte solutions should be spaced evenly between milk feedings to gain the maximum benefit of rehydration. This is often difficult to implement from a management aspect. Milk feedings are rarely spaced evenly apart. If feeding two times a day, it is common that the two feedings are actually spaced less than 8 hours apart so that one shift of employees can handle both feedings. This results in periods of more than 16 hours before the next morning feeding. The electrolyte feeding should be administered midway between the two milk feedings. The ideal situation would be to feed two feedings of oral electrolyte solution per day, one between the two feedings and the other after the last feeding, as far apart as possible. However, this rarely happens without having at least two shifts of employees working in the calf operation.

It is also advisable not to mix the oral electrolyte solution with milk or milk replacer. Milk products also have an osmolality, and when mixed with an oral electrolyte solution, this will increase the osmolality of the combination, likely resulting in an extremely hypertonic solution that could exacerbate the diarrhea problem. If the electrolyte solution has to be fed close to the milk feeding, it might also be advantageous to feed the milk replacer at a level of 12 to 12.5% solids.

Many dairies are feeding an increased level of solids which is beneficial for increasing growth and average daily gain. If currently feeding an increased level of solids, it would be beneficial to reduce the solids to 12 to 12.5% if it is necessary to feed the oral electrolyte solution close to the milk feeding.

There are some common mistakes that are made in the treatment of calf diarrhea. One is discontinuing the feeding of milk during treatment. The milk is the major source of nutrients for the calf and also its immune system. If treated correctly, most calves should be able to maintain a positive weight gain during a bout with diarrhea. Another is the use of oral antibiotics to treat all cases of diarrhea. In general, unless the calf has an elevated temperature, oral and systemic antibiotics are contraindicated. This will have a significant negative effect on the microbiota of the gastrointestinal tract which is important in maintaining the mucin layer of the gut lining, maintaining the gut-associated immune system, competitive inhibition of pathogens, and digestion of nutrients passing into the small intestine.

Following is a summary of the general recommendations of a well-formulated oral electrolyte solution:

  • Sodium Concentration 90-130 mmol/L
  • Chloride 40-80 mEq/L
  • Potassium 10-30 mmol/L
  • Osmalality less than 500 mOsm/L
  • Strong Ion Difference at least 50 mEq/L
  • Contain one or more alkalizing agents: Bicarbonate, acetate, propionate
  • Glucose 2-3 grams per kg body of the calf
  • Contain glucose, neutral amino acids, and volatile fatty acids to facilitate sodium absorption

In his chapter in VCNA, Dr. Smith has an excellent summary statement to veterinarians: “Practitioners should focus on selecting oral electrolytes solutions that satisfy the following four requirements: (1) supply sufficient sodium to normalize the ECF volume, (2) provide agents that facilitate absorption of sodium and water from the intestine, (3) correct the metabolic acidosis usually present in calves with diarrhea, and (4) provide energy. Additionally, the oral electrolyte should not cause any deleterious effects (such as abomasal bloat). Because veterinarians are often not directly involved with the administration of oral electrolytes to calves, it is important that they examine the electrolyte product being used in their clients’ herds and make recommendations when appropriate.”

It is important that the dairy or calf ranch is familiar with these general recommendations of the levels of ingredients in a well-formulated oral electrolyte solution so they can choose the best electrolyte product possible that is available to them. Proper administration of a high-quality product is necessary to correct dehydration and metabolic acidosis, resulting in a more rapid correction of these issues and a decreased morbidity and mortality rate in young calves. Every dairy should be able to obtain the goal <1% death loss in the milk fed calves if a good nutrition program exists along with good management, hygiene and cleanliness of the environment. This should result in a lower incidence of calfhood diarrhea as well. Implementing the proper use of a high-quality oral electrolyte solution should also be part of a well-managed calf raising operation.

Dr. Robert Corbett, DVM, PAS, DIPL. ACAN earned his B.S. and D.V.M. degrees from Washington State University. He has worked in dairy practices in Idaho, Texas and Utah, including consulting work in 13 states and several countries worldwide. He has published over 160 articles, taught over 500 seminars, and continues to consult with five major companies worldwide involved in providing supplements and additives in dairy cattle rations. This article is reprinted with permission from the March-April 2020 issue of Dairy World, published by IBA, Inc.

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Details turn healthy calves to productive herd members

by James Umphrey, MS – Eastern US Udder Care & Sanitation Manager for ABS Global

In today’s profit-driven world of dairying, it is important to review all areas and find the opportunities in our operation. Where can we improve and solidify our processes that lead to a successful outcome? In the last few years, we have made unimagined advances in genetics through genomics and sexed semen, getting the best replacement heifers out of our best cows at a higher rate than ever before. High-end heifers are as valuable today as ever, but what about the offspring from the lower end of the herd? Those offspring can create opportunities to bring more value through either the use of sexed high genetic merit semen or beef semen. Either way, producers are looking at the options and making decisions right for them and their operations, then dialing in on the details critical to assuring every calf makes it to become an income stream and not a drag on the bottom line. Every calf needs to do more than survive. They must thrive.

The keys to raising healthy calves are many and complex. One key area is hygiene. To understand hygiene, we need to talk in a similar language. Often these words are used synonymously but truly mean different things:

  • Cleaning: the process of removing any visible soils and organic matter including milk, saliva and feces off the surface. This is a great start to any hygiene process but not the end goal for our calf program. In cow prep procedures this is simply a dusting off or dry rub that might be performed before pre dipping the teats.
  • Sanitizing: the process where we attempt to reduce the number of microorganisms in an area or on a surface that could be harmful to our health according to public health standards or requirements. Sanitizing reduces, not kills, the number and growth of bacteria, viruses, and fungi.
  • Disinfecting: the process that eliminates many or all pathogenic (disease-causing) microorganisms, except bacterial spores, on inanimate objects. The goal of a pre-dip is to disinfect the udder but often falls short due to several factors.
  • Sterilization: the process that destroys or eliminates all forms of microbial life (microorganisms). As an example, this is the process applied to surgical instruments in hospitals or in critical areas of an operation where even a small number of bacteria, viruses or spores can cause major issues. Sanitation and disinfection processes are not designed to kill spore formers due to the lack of efficacy of the germicide used or the time needed to kill them.

Numerous microorganisms concern calf raisers. There are also several articles available to review each of these pathogens, their mode of action, and causes of death in calves. A short review of each is below and at what age calves are typically infected.

  • Cryptosporidium is a spore-forming pathogen that can affect calves around 5-35 days of age but most prevalent at 7-14 days of age. It is important to note that Cryptosporidium is not generally considered to be a “calf killer” but makes the calf’s immune system more fragile, allowing more opportunistic pathogens to get a stronghold and kill or weaken a calf beyond recovery.
  • Rota virus and Coronavirus are both of major concern as they are also most prevalent at 7-14 days of age and are often associated with a calf dealing with a high Crypto load.
  • E. coli is a very common pathogen in the calf rearing area and can impact any age but tends to be more devastating very early, with it being most prevalent at less than 7 days of age.
  • Salmonella usually hits older calves but can vary greatly depending on the strain.

Hygiene Program for Calf Housing and Equipment

There are two major areas of concern; the pieces that you use to feed calves (buckets, bottles, nipples and mixing utensils) and the housing units. Both are key to keeping calves healthy.

The debate over whether to pressure wash or not is real and is a decision to be made based on your farm factors. My opinion is, if you can isolate the hutches or pen dividers to be pressure washed away from housing units with calves in them, there is little chance of cross-contamination. In general, pressure washing is a great idea and helps ensure that calf housing units are cleaned thoroughly. However, pressure washing can be a point source of bacterial spread to calves when completed within close proximity.

The proper process to sanitize a calf area:

Calf-Tel.com has a good SOP for the process and you can find it here:

Calf Hutch & Pen Cleaning Guide

Steps to the Goal (process)

  1. The initial step is to remove the interfering agents like organic load and biofilms by cleaning the visible signs of organic matter with warm water at a temperature of 90oF.
  2. Scrub with a chlorinated alkaline detergent (CAD) at no less than 130oF water. The CAD helps to breakdown the biofilms and fats that many organisms thrive in. The use of a CAD will also create a higher pH (11-12), which aids the destruction of certain organisms and the removal of the biofilms that can interfere and reduce the effectiveness of your germicide used to disinfect.
  3. Rinse with a solution of Chlorine Dioxide (ClO2)/Acidified Sodium Chlorite (ASC) at a minimum of 50-75 ppm per research completed by Dr. Don Sockett, DVM, Ph.D. at of the University of Wisconsin. (Dairy Herd Management) We have seen excellent results at 240-250 ppm if any of the above steps are marginal.
  4. Let it dry.
  5. Rinse a second time with a solution of 50ppm chlorine dioxide (ClO2)/acidified sodium chlorite (ASC) less than two hours before use, allowing a minimum of one minute of contact with the equipment. This is especially important with nipples/bottles or buckets for milk.

Not all Chlorine Dioxide/Acidified Sodium Chlorites (ClO2/ASC) are the same. It is important to test your germicide regularly with an approved method for the specific product you are using. Understand the chemistry of the product you are using and that there is a verification process to ensure you have the germicidal killing power needed to achieve your calf hygiene goals. Application of ClO2/ASC can be through a drench, spraying or, in some cases, even foamed on calf contact surfaces. Some products on the market do have the ability to foam. Foaming can allow better coverage and will stay wet/active longer, increasing the effective kill of organisms.

Hygiene plays a big part in helping you maintain healthy calves and a healthy bottom line. Dairy operations often have a significant investment in genetics to get a live, healthy calf on the ground. Dialing in the details of the farm hygiene program is one important piece in the puzzle leading to that calf adding to the farm’s income statement.

James Umphrey is currently a Milk Quality Specialist and EUS Udder Care Account Manager for ABS Global Inc. He has worked in the Dairy industry for more than 35 years. Prior to ABS, James was on Faculty at the University of Florida for 18 years. He is a graduate of Auburn University receiving a B.S. in Animal Sciences and M.S. in Nutrition. At ABS he has focused on helping dairymen achieve their goals in all aspects of production and milk quality throughout the Eastern US. Please feel free to contact James at james.umphrey@genusPLC.com.

Source:

Dairy Herd Management. (2012, February). Clean calf feeding equipment in six easy steps. Retrieved from https://www.dairyherd.com/article/clean-calf-feedi…

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Nothing beats Fresh Air and a Clean, Dry Bed

by Kelly Driver

We all know how good it feels to snuggle into a clean, dry bed and breathe the crisp, fresh air that comes with the cooler evening temperatures as we head into the fall months. But let’s pause a bit and consider why these same things are just as important to our calves.

Proper housing provides a healthy environment for calves and includes four key elements: ventilation, comfort, isolation and economy, according to the CalfTrackTM Calf Management Training System from The Pennsylvania State University.

Check the Thermometer

First, let’s consider ventilation. How do we know if it’s acceptable to keep calves comfortable and healthy? Here is a quick checklist:

1. Kneel in the calf’s living area to test the air about 6 inches above the bedding, where the calf’s nostrils would be as they rest.

2. Do you feel fresh air movement?

3. Do you feel any drafts? If yes, be sure to block the openings that are creating the draft during cold weather.

4. Do you notice any odors, like ammonia or a sour smell?

As we have talked about in earlier blogs, newborn calves have a narrow thermoneutral zone, being most comfortable at 55-70oF. Because they are born with very little body fat to draw from for energy, it is vital to avoid both cold stress and heat stress for the youngest herd members. This chart from the CalfTrackTM program is a good visual reminder that extra measures need to be taken to keep calves comfortable when temperatures inside calf housing are outside this range.

AgeMost Comfortable RangeCold Stress at Temps BelowHeat Stress at Temps Above
Less than 1 month55 to 70oF50oF77oF
1 month to weaning46 to 80oF28oF84oF

Source: CalfTrackTM, The Pennsylvania State University

When the temperature inside naturally ventilated housing is no more than 10-15oF warmer than the outside temperature, the system is working properly.

Making the Bed Clean and Comfortable

If the housing area selected for calves is ventilated, free of drafts and well-drained, we can begin to prepare a clean and comfortable bed for them. It is recommended to start by disinfecting the area and allowing it to dry. After the disinfectant dries, add 6-10 inches of bedding. One way to gauge this is that the calf caregiver should be able to drop to their knees on the surface without pain. Some herds sprinkle hydrated lime on the rearing area prior to applying bedding at a rate of 1 pound per 4×8 foot area. I recommend consulting with the herd veterinarian to determine if this is necessary at your facility.

Research studies have compared different types of calf bedding – wood shavings, sand, and long stem wheat straw, as related to the growth and health of dairy calves. The study revealed that the wheat straw bedding could absorb the most moisture and also provided the most insulation for heat. Calves on wheat straw bedding had the highest average daily gain and the lowest reported days of scours of the three bedding materials evaluated. (Viney)

The University of Wisconsin-Madison has studied the correlation between calf bedding and respiratory disease. A “nesting score” system was developed to compare results of different bedding volumes used. A nesting score of 3, where a majority of the calf’s legs are not visible in the bedding, resulted in a significant reduction in the prevalence of respiratory disease.

Source: University of Wisconsin Dairyland Initiative website
Source: University of Wisconsin Dairyland Initiative website

While feeding calves each day, be sure to inspect the bedding. Clean or top-dress with fresh bedding to assure that it remains dry. Keeping the bedding fresh and dry goes a long way toward keeping calves healthy, comfortable and clean. Dry, well-fed calves are also much less susceptible to the effects of cold stress as temperatures drop.

Ammonia is Bad

Ammonia gas is very harmful for a calf’s natural defense system in the trachea. Tiny hair-like fingers, or cilia, line the trachea, working to push foreign materials that the calf has inhaled up and out of the trachea. These cilia work in a wave action and serve as a defense system against respiratory infections. But this natural system can be weakened by persistent exposure to relatively low ammonia levels, allowing pathogens to enter the lungs, as the wave activity of the cilia are disrupted. This leaves calves at a higher risk for bacterial respiratory illness.

Many positive conditions exist in calf housing for the microbial activity that releases ammonia gas. Urine provides both nutrients and liquid, the bedding material often provides a favorable pH environment, and calves warm the soiled bedding when resting. (Leadley)

How do we slow down the ammonia causing bacteria? It’s as simple as clean dry bedding. Making sure calf housing areas are well drained prior to bedding is the first step. Then kneel in the bed for one minute, if your knees get wet, it is not dry enough to slow down ammonia production. Adding plenty of clean, dry bedding will serve two purposes: keeping calves clean and creating anaerobic conditions unfavorable to bacterial growth.

Does It Make Sense

Calf housing needs to make sense for the operation. Is it cost effective to build and maintain? Does it allow for timely and efficient care of the calves? Is it well-ventilated and comfortable for the calves? Is it easy to manage for the calf caregivers? As always, we suggest a discussion with both the herd veterinarian and calf care team members as any updates or changes are considered.

Kelly Driver has been involved in the New York dairy industry all her life. In addition to raising dairy calves and replacement heifers, she is the Eastern Territory Manager for Calf-Tel. Feel free to contact her at kellydriver@hampelcorp.com with your calf questions or suggest a topic you would like covered in a future blog.

Resources:

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A Warm Bottle for Baby: Does heat treatment time impact colostrum quality?

by Cari Reynolds, W.H. Miner Institute

Colostrum management on farms is used to prevent the spread of disease, provide optimal nutrition to stimulate growth, and maximize passive transfer of immunity to newborn calves; this is no doubt a focus for every producer. Numerous publications and guidance exist reiterating the significance of clean, high-quality colostrum for calf health, growth, and sufficient transfer of antibodies, as well as best practices on-farm to maintain colostrum quality. This ‘liquid gold’ is influenced by more factors than one can count, including dam’s age, calving season, and even the length of dry period. While there are some factors outside of our control, how we manage colostrum prior to feeding is not, especially with regard to cleanliness. But, could we be potentially eliminating more than just harmful bacteria?

Contamination of colostrum with bacteria not only elevates the calf’s illness risk, but also considerably interferes with passive transfer of immunoglobulin G (IgG), one of the most important factors in immune development and calf survival. In addition to sanitized equipment and proper protocols for colostrum collection, many farms employ heat treatment (lower temperature, longer time) to reduce bacterial count. Several Journal of Dairy Science studies have investigated the effects of temperature and duration of heat treatment on colostrum, and have found that heating above the recommended 60°C (140°F) for 60 min can have a detrimental effect on IgG concentrations.

However, there are still concerns that heat treatments might influence colostrum quality across varying quality levels. Research from The Pennsylvania State University aimed to evaluate the effect of heat treatment times (no treatment, 30, or 60 min) on three different levels of colostrum quality (low, medium, and high) and its effect on passive transfer rates. The authors hypothesized that high quality colostrum would be more affected by heat treatment than lower quality colostrum.

First milking colostrum was pooled by quality according to colostrometer results, and then divided into 3 unique batches. The initial IgG concentrations used to dictate low, medium and high colostrum quality levels were 52.3, 65.7, and 98.1 mg/mL, respectively. Three uniform batches of each quality level were then created. Of these batches, one was frozen untreated at -20°C (-4°F), while 2 were heated to 60°C for either 30 or 60 min, cooled, and immediately frozen at -20°C. Samples from each batch were taken prior to treatment to determine bacterial content and initial IgG concentration. Calves (54 heifers and 54 bulls) were randomized to receive 1 of 9 colostrum batches, stratified by heat treatment (0, 30 and 60 min) and quality (low, medium, high), within 2 h of birth. Blood was collected from each calf prior to colostrum feeding and then 24 h after birth for serum IgG measurement and determination of successful passive transfer.

Results from this study found that colostrum IgG levels in the unheated batches were greater than in those that were heated. When compared to the unheated batches, those heated for 30 and 60 min demonstrated IgG concentration reductions of 9 and 12%, respectively. However, calves fed colostrum heated for either 30 or 60 minutes showed a 3.4 and 27.2% increase in serum IgG concentration over those fed unheated colostrum. Absorption was also improved in those calves fed colostrum heated for 60 min in comparison to 30 min. Ultimately, there was no significant change in IgG concentration with either 30 or 60 minutes of heating time, irrespective of initial colostrum quality.

Regardless of heat treatment’s impact on IgG concentrations in colostrum, there is still considerable benefit to the calf in terms of available IgG antibodies and lower bacterial counts in batches subjected to heat treatment than those that are not. The colostrum used in this study had comparably low bacterial count, so absorption rates may have been attributable to initially higher antibody availability from less bacterial interference, and less so to heat treatment. Other considerations may need to be made for colostrum with variable bacterial presence. Multiple other studies have also highlighted the improvement of passive transfer through heat treatment of colostrum. Difference in duration of heat treatment seemed to have no effect on IgG concentration, but likely still improved absorption and passive transfer rates by lowering the bacterial content of these batches. While this study was unable to positively determine the effect of heating time on colostrum quality, inferences for good colostrum management are still supported by the results. Colostrum quality should still continue to be measured when possible to ensure that IgG levels and bacterial count are within industry-recommended standards, and cleanliness should always be at the forefront from teat to tummy. So keep warming up that bottle for baby!

Cari Reynolds earned a BS in Biology from the University of Scranton and a Master of Public Health from the University of Massachusetts – Amherst. After several years working in the public health sector, Cari returned to her agricultural interests and she is currently a research intern at W.H. Miner Institute. In the fall, Cari will begin a Ph.D. program in Animal Science at the University of Vermont, where her research will focus on management and preventative strategies to mitigate diseases that impact both human and animal health. She can be reached at reynolds@whminer.com.

REFERENCES:

https://www.journalofdairyscience.org/article/S0022-0302(19)30064-5/pdf

https://www.sciencedirect.com/science/article/pii/S0749072007000758?via%3Dihub

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For Dairy Calves, Two (or more) Heads are Better Than One

Benefits of pair or group housing of calves and practical solutions for hutches

Jennifer Van Os, Assistant Professor and Extension Specialist in Animal Welfare
Rekia Salter, Masters student in Dairy Science
Kim Reuscher, PhD student in Dairy Science

Department of Animal and Dairy Sciences, University of Wisconsin-Madison

When it comes to raising dairy calves, two – or more – heads are better than one in several ways. For the past decades, the majority of calves in the U.S. and Canada are housed singly before weaning. In recent years, however, an increasing number of producers have been successfully raising dairy calves in pairs or groups.

The consensus from the research is now that pairs and small groups, when managed well, can provide clear benefits. Housing milk-fed calves with at least one social partner can result in triple-wins for animal welfare, calf growth performance, and consumer perception – all of which are important for the vitality and sustainability of the dairy industry.

Benefits for the Calf

Having companionship is important for calves since dairy cattle are a social species. Calves learn to play well with others of their kind, both literally and figuratively. It’s important to maintain per-calf space allowance, meaning an increase in total space for pairs or groups. This larger space allows calves to show a wider range of natural behaviors, including playing. Having social contact early in life helps them learn appropriate social interactions and also improves their other learning abilities. Calves raised in social groups show flexibility and adaptability to change, including a better willingness to try new feeds such as hay and TMR. This translates into improved resilience to stress and less bellowing during weaning. When regrouped after weaning, they start feeding sooner and don’t show the same growth check that individually raised calves commonly do.

Benefits for Growth Performance

Across a dozen studies, calves raised in pairs or small groups have outperformed single calves in one or more ways. Performance advantages were especially apparent for calves fed higher milk or replacer allowances (such as 8 quarts/day or more at the peak).

  • Solid feed intake: by 1/4 to 1 pound per day pre-weaning and 3/4 to 2.5 pounds per day post-weaning
  • Body weight at weaning: by 5 to 9 pounds
  • Average daily gain: by ¼ pound

Becoming established on solid feeds before weaning is important for stimulating rumen function, and better early-life growth translates to earlier onset of puberty and higher milk production at maturity.

Benefits for Consumer Acceptance

In a Minnesota study, the researchers surveyed over 1300 adults attending the Minnesota State Fair. They were shown photos of calves in single, pair, or small-group pens in a barn. Nearly half of the participants disapproved of individual housing, whereas only 14% of people disagreed with pair housing and only 7% disagreed with group housing. In contrast, two thirds of participants agreed with pair housing and three quarters agreed with group pens, whereas only a third thought single housing was acceptable. Nearly all of these fair-goers consumed dairy products. This is the first study showing that social housing may be important for continued consumer acceptance of dairy production.

Managing Calf Health

Dairy producers who have chosen to shift to social calf raising have found that changing their management sometimes comes with bumps along the way. Nonetheless, many of the principles for promoting good health outcomes are similar whether managing individuals, pairs, or groups. Limiting the spread of disease between different pairs or groups is still a best practice. The risk of respiratory disease is reduced by feeding sufficient high-quality colostrum to promote passive transfer of immunity, feeding sufficient milk or milk replacer for a high plane of nutrition, and ensuring ventilation for good air quality. Sufficient space, clean and dry bedding, good biosecurity and sanitation, limiting age differences within groups, and all-in-all-out practices are also important.

Minimizing Cross Sucking

One of the concerns some producers have about pair or group housing is the opportunity for calves to engage in unwanted behaviors like cross sucking. Excessive cross sucking is thought to lead to frostbitten ears, navel infections, or mastitis or udder damage. Although the little research that has been done has not found a consistent relationship between cross sucking and those negative outcomes, there are nonetheless ways to reduce this nuisance behavior.

When calves begin a milk meal, their instinctive suckling behavior is stimulated and continues for at least 20 minutes. Feeding milk or replacer through a teat instead of an open bucket, especially using a slow-flow nipple, can redirect their suckling instinct more appropriately, both while the calf is drinking and afterward.

Last summer, Ms. Salter tested this concept for pair-housed calves in hutches. Calves were bottle fed until they were 2 weeks old, when they were switched to either open buckets or slow-flow teat buckets. All calves were fed 4 quarts of pasteurized milk per meal twice daily. Step-down weaning occurred over the course of 12 days by halving the milk volume at each meal, then feeding only once daily. Calves were totally weaned by 8 weeks of age. Twice a week, Salter recorded the calves’ behaviors during and after the milk meal. She found that when calves were fed milk using slow-flow teats, they spent more time drinking their milk and less time sucking on the water buckets, hutches, fence, and – mostly importantly – on each other.

Regardless of pre-weaning housing, cross sucking sometimes increases directly after weaning. Calves who are better established on solid feed are less likely to cross suck, so gradual, step-down weaning based on starter intake can help.

Pair or Group Housing Options

Social housing can be done in many ways, either in a calf barn or outdoors in hutches or super hutches. Last year, we surveyed over 200 Wisconsin dairy producers and custom calf raisers. Nearly 20% of farms allow their pre-weaned heifers full social contact, either in pairs or larger groups. These producers use a variety of housing, demonstrating that there are many options for successful pair or group raising.

Often times people picture “group housing,” to mean large group pens with automatic milk feeders. Indeed, about a third of producers in our sample who group house use auto-feeders. The most common method, however, was housing calves in pairs or groups in a barn and feeding them manually, either with mob feeders or with individual bottles or buckets. Interestingly, one in five producers using pairs or groups house their calves outdoors, either with “super hutches” or by connecting individual hutches (Photo 1). For producers who currently use outdoor hutches, connecting pairs of existing hutches allows them a way to dip their toes into pair housing without a substantial investment in new housing infrastructure or a major change to their management style.

Photo 1: Calves can be raised successfully in pairs using various housing types, including connected hutches.
Heat Stress in Hutches

Calves housed in outdoor hutches are more exposed to environmental extremes compared to those housed in barns. In the summer, calves may experience dehydration, poor welfare, and show reduced appetite, feed intake, and growth. Some types of plastic hutches can create a greenhouse effect, gaining heat from the sun and warming up inside. To prevent this, shade is the best defense. Trees or shade cloth blocking at least 80% of UV light have been shown to reduce the temperature inside the hutch.

Hutches can also be ventilated to increase airflow and heat exchange. Researchers in Washington found that on days when hutches were raised with cinder blocks, calves had lower respiration rates. Although elevating the hutch is a simple solution, some producers have expressed concerns about calf safety. An alternative is to prop open the rear bedding door, install adjustable windows (such as Calf-Tel calf hutch vent covers – SHOP NOW), or use a combination of these methods. When Ms. Reuscher was an undergraduate at Tarleton State University, she compared these methods on large heifer-grower operations in Texas.

More recently, Reuscher tested 32 pairs of heifer calves in Wisconsin. Each pair was housed in adjacent individual Calf-Tel hutches with a shared fence. Once the calves were paired at around 1 week old, we added ventilation to one of the hutches in each pair by propping open the back bedding door and opening the 2 rear ventilation windows near the base of the hutch.We looked at hutch use in 20 pairs of calves when they were 8 weeks old, right after they were weaned. During the warmest times of day between 12 and 5 pm, we monitored their behavior using time-lapse footage every 5 seconds. Overall, calves spent 68% of their time in the ventilated hutch (Photo 2), with 16 out of the 20 pairs spending over half of their time in that hutch.

Photo 2: Pair-housed calves sought out ventilated hutches, spending 68% of their time there instead of in a non-ventilated hutch.

On other days during the study, we kept calves inside the hutches for 1 hour of time using a wire fencing panel. They were kept either in separate hutches or in the same hutch together, and we repeated this for both the ventilated and non-ventilated hutch in each pair. Before and after calves were placed inside the hutches, we measured signs of heat stress.

When calves were in the non-ventilated hutch with airflow only through the front door and roof vents, their respiration rates stayed relatively stable over the course of the hour. This indicated that these hutches did not have a greenhouse effect. Calves did not accumulate heat and get hotter over time relative to when they were outdoors – but they did not get cooler either.

In contrast, when calves were in the ventilated hutch, their respiration rates were reduced by 10 to 20 breaths/min over the course of the hour. This demonstrated that hutch ventilation had a cooling effect, helping the calves dissipate heat. These patterns were consistent whether there was only 1 calf in the hutch a time, or both calves in the pair (Photo 3), and whether the calves were in week 4, 6, or 9 of life.

Photo 3: Hutch ventilation cooled the calves down, even when both calves were inside the same hutch.

Our initial results are a promising indication that hutch ventilation translates quickly into reduced respiration rates for calves in hutches, even when they are pair housed. Furthermore, the calves seek out hutches with ventilation. By voting with their feet, the calves indicated a significant preference for the cooler environment.

Reuscher is now further analyzing the calves’ behavior along with rectal, skin, and eye temperatures. She also recently finished a winter study to investigate whether pairing in connected hutches may provide an additional benefit for calves, who can help keep each other warm. We will share this information once available. Our goal is to help more dairy producers join the list of success stories for social raising.

Courtesy of our dealer – CRI REPRODUCCIÓN ANIMAL MÉXICO SA DE CV.

Courtesy of our dealer – Holger & Laue Sales GmbH.

Measure Calf Investment with Cost Per Kilogram of Gain

The dairy industry has made a lot of progress in the past decade or so regarding the care and nutrition of calves. To see how far we’ve come, consider the history of milk replacer. Milk replacer was developed initially as a low-cost alternative to feeding calves whole milk, utilizing cheap fat and protein sources that were not well digested by calves. Many early formulas were very low in fat (Kertz and Loften, 2013). Eventually, formulas with 20% protein and 20% fat with feeding rates of about 0.5 kg/head/day became the norm. At this feeding rate, a 20:20 milk replacer can meet the maintenance requirements of a 50 kg calf, however there is little left for growth. As a calf gains weight, her maintenance requirements increase as well, and she would need to consume dry feed in addition to milk replacer in order to continue growing. The goal of these kinds of programs was to maximize grain intake and often wean calves early. This traditional strategy of restricting nutrients in the liquid diet is effective in keeping feed costs per day low, especially since dry feed is generally much less expensive than milk replacer.

Many producers have changed to a different strategy for raising dairy calves. Instead of trying to minimize total cost/head, they are viewing calves as an investment in the future herd. There have been several studies indicating that an increase in preweaning average daily gain (ADG) is correlated with higher milk production in the first and perhaps subsequent lactations. As a result, many veterinarians and nutritionists recommend the goal of doubling birthweight by 56 days of age, which can be achieved with an ADG of about 0.70 – 0.75 kg/day preweaning. Much of this growth comes from feeding higher amounts of milk replacer or whole milk, and therefore it is common to see feeding rates more than twice the traditional 0.5 kg/day. Along with higher feeding rates, many producers feed milk replacer with higher protein levels, often above 24% crude protein (CP) as fed. The goal with these accelerated feeding programs is to ensure early growth rates are not inhibiting future milk production.

Measuring calf for Average Daily Gain (ADG).

Which strategy makes the most sense economically? It seems that the traditional strategy is to minimize costs per day, whereas the accelerated growth strategy is meant to maximize growth. Nevertheless, you’re missing out if you’re only considering costs without measuring performance or vice versa. Because calves are not yet producing milk, it’s not as easy to put a value on their performance compared to lactating cows. However, you can view each kilogram of growth as a calf’s “output.” In order to get the best value for your feeding program, you want to utilize a program that gets you the lowest cost/kilogram of gain. To calculate your feed cost/kg gain, you need to know your feed costs and your ADG.

Accelerated feeding programs often are much more expensive per day than the traditional feeding program. However, because they are designed to provide more nutrients for growth, they often cost less per kilogram of gain. With this program, you are “diluting” the maintenance costs so that your costs/kg gain are reduced. See Tables 1 and 2 to see an example of how predicted growth and cost/kg gain compare with different milk replacer feeding programs.

Table 1. Predicted growth rates according to different milk replacer programs

20:20 Milk Replacer24:18 Milk Replacer
Feeding rate (kg/d)Predicted ADG for 50 kg calf (kg/d; includes no starter intake)
0.50.190.19
1.00.660.82

Table 2. Predicted milk replacer cost/kg gain according to different milk replacer programs

20:20 Milk Replacer ($2.96/kg)24:18 Milk Replacer ($3.23/kg)
Feeding rate (kg/d)Predicted milk replacer cost/kg gain ($/kg; includes no starter intake)
0.5$7.79$8.50
1.0$4.48$3.94

It’s worth noting that the predicted growth rates in Table 1. differ between the different milk replacers depending on the feeding rate. When designing a feeding program with the goal of having a low cost/kg gain, both the feeding rate and the nutrient composition of the feed must be considered. At a low feeding rate, energy is usually the limiting nutrient. Therefore, feeding a higher protein replacer like a 24:18 will not result in higher ADG compared to a 20:20 at 0.5 kg/day. Because a 24:18 is more expensive than a 20:20, your cost/kg gain will be higher with the higher protein milk replacer at the low feeding rate.

However, at a higher feeding rate like 1.0 kg/day, protein will become the limiting nutrient if you’re feeding a 20:20. For that reason, the additional protein in the 24:18 will result in higher ADG when fed at the higher feeding rate. Even though 24:18 is more expensive per kilogram, and in effect, more expensive per head per day, the additional growth you can expect from a 24:18 at a feeding rate of 1.0 kg/day will cause your cost/kg gain to be lower than it would be with the 20:20 milk replacer.

For the sake of simplicity, the above milk replacer example does not account for additional factors that will affect calf maintenance requirements. Increased bodyweight, cold environmental temperatures, and other stressors will increase energy requirements for maintenance, therefore affecting ADG. This example also did not consider starter intake. We can assume in most cases that calves will consume less starter when fed high amounts of milk replacer compared to low amounts. Each of these factors should be considered when designing a calf feeding program. You should work with your nutritionist to determine which feeds and feeding rates will work best on your farm to result in a low cost/kg gain.

The dairy industry has made great progress in the area of pre-weaned calf nutrition and growth. With so much focus on increasing preweaning ADG, many farms have adopted accelerated feeding programs resulting in larger, healthier calves at weaning. However, it seems that less focus is on the performance of calves postweaning. One of the largest challenges with feeding high rates of milk/milk replacer is that calves may not consume much starter prior to weaning. This could put them at risk for a “post wean slump,” in which calves grow more slowly or lose weight in the weeks following weaning. If this happens, it is detrimental to cost/kg gain. Unfortunately, many producers that invest a lot in growing calves quickly with an accelerated milk or milk replacer program often are at high risk for this post wean slump. It’s a good idea to not only collect calf weights at weaning, but also several weeks after weaning to identify whether calves maintain an adequate ADG.

The good news is that a post wean slump often can be avoided through good management practices. Keep in mind that change is stressful for calves, so make their transitions to new feed, groups, and facilities gradual. If you’re trying an accelerated liquid feed program, you should gradually wean calves over a minimum of 14 days. Make sure calves are eating at least 1.5 kg of starter for three consecutive days before completely weaning them, and consider continuing to feed the same starter for a week or two after weaning. Make sure feed and water are kept fresh and are easily accessible after weaning. Pay attention to all the things that are new and different to a calf in the post-weaned environment and make sure they don’t become an obstacle for eating and drinking. You may have to make modifications. For example, if calves are in a pen where they have to reach through slant bars to reach feed for the first time, you could hang a trough of feed on the inside of the pen for a few days to make sure calves can find feed easily after arriving in the new pen.

Measuring both your feed costs and your calf ADG to determine feed cost/kg gain will help you understand the efficiency of your calf program. If you don’t know your current cost/kg gain, try calculating it to see where you are today. Any time you make changes to your calf program, evaluating that number will help you decide whether those changes are worth it or not.

Alyssa Dietrich is a calf and heifer specialist with Cargill, based in Pennsylvania. She holds a B.S. in Animal Science from Penn State and M.S. in Dairy Science from Virginia Tech. She can be reached at alyssa_dietrich@cargill.com.

Sources

Kertz, A. F., and J. R. Loften. 2013. Review: a historical perspective of specific milk-replacer feeding program in the United States and effects on eventual performance of Holstein dairy calves. Prof. Anim. Sci. 29:321–332

Courtesy of our dealer – CRI REPRODUCCIÓN ANIMAL MÉXICO SA DE CV.

Keep Them Cool: Managing Heat Stress in Calves

The temperature on the thermometer is rising as spring is shifting to summer, causing calf managers to think about ways to minimize heat stress for the animals. Let’s visit about some things we might consider as ways to keep the youngest calves comfortable this season. A calf’s body will naturally attempt to maintain a constant body temperature, regardless of the temperature or weather conditions, within their thermoneutral zone; they can accomplish this without expending extra energy. Often, we think about the thermoneutral zone in conjunction with cold stress and the need for calf jackets or extra energy. However, the hot sun, climbing summer temperatures, and higher humidity can also take a calf out of its thermoneutral zone, increasing maintenance energy needs, reduced feed intakes, and lowered immune systems.

How Hot is Too Hot? When compared to cows, calves seem better able to cope with warmer temperatures. This can be attributed to their larger surface area relative to their body weight and the lower amount of heat generated compared to cows that are digesting fibrous feedstuffs and metabolizing to support high milk production levels. (Penn State) In a study completed by Gebremedhin et al., heat production by calves and water lost through evaporative cooling increased as temperatures approached 75oF, while water lost through respiration increased when temperatures were above 68oF. In another study, calves were exposed to treatment temperatures for seven hours and signs of heat stress were not observed until temperatures neared 90oF with 60% relative humidity (Neuwirth et al., 1979). A 2012 study completed by Bateman et al. suggests calves may not be able to dissipate accumulated heat when daily low temperatures in calf housing exceed 77oF. (Penn State) In all of this it is important to remember that temperature is not the sole indicator. Other factors that can influence heat stress are air movement, moisture, direct sunlight, bedding, rumination, and even hair coat.

Recognize the signs. Calves suffering from heat stress may exhibit any of these important visible signs:

  • Faster breathing rate
  • Open-mouthed panting
  • Reduced movement
  • Decreased feed intake
  • Increased water consumption

Heat Stress Impacts. In a series of studies conducted by Provimi, data indicated that calves exposed to higher air temperatures (70-80oF) had trouble dissipating heat and were unable to return to their normal body temperature during a 24-hour period. Because cattle pant and sweat to dissipate heat and this increases their maintenance energy requirement, there is less energy from the diet to advance bodyweight gains. Additionally, animals will normally experience a voluntary decrease in feed intake during times of heat stress, reducing the total energy available further. (Bateman)

Research from the University of Arizona concluded that calves in hot conditions had impaired immune systems when compared to calves living in more moderate temperatures. The study measured immunoglobulin concentrations in serum in 2- and 10-day old calves, which could cause an increase in disease for calves in hot conditions. According to Gale Bateman II of Provimi Animal Nutrition, nutritional supplements that assist in maturing the immune system may help these calves, as medium-chain fatty acids have been shown to have antimicrobial and antiviral properties. Short-chain fatty acids and linolenic acid are recognized to stimulate immune function and be anti-inflammatory. By supplementing the diet of calves in hot conditions, the number of disease-causing organisms, like cryptosporidia and rotavirus shedding, should decrease and reduce the incidence of scouring. (Bateman)

Ideas to Help Calves Beat the Heat.

Ventilation. If calves are housed in hutches, be sure to open the vents in the back or retrofit additional vents into your hutches. Calf-Tel provides a hutch vent kit that can be easily added to any style of plastic hutch. In some hot weather climates, calf managers also lift the back of the hutch 4-6 inches to provide more air movement. Some farms have had success mitigating heat stress by installing a shade cloth above the hutches. “In a Missouri study (Spain and Spiers, 1996), 80% shade cloth positioned about 3 feet above plastic hutches reduced the temperature inside the hutch by 4oF.” (Penn State)

If calves are housed in barns or sheds, be sure the facility has plenty of air exchange and ventilation from open curtain walls, fans, or positive pressure ventilation tubes. As the summer temperatures are approaching, now is the time to clean any dust from fans and ventilation tubes to assure proper air movement. Check that all side wall curtains are working properly and that the barn ridge openings are clear of dust and debris. A few minutes of maintenance time can really assure that clean, quality air can move through the facilities as it is designed to.

Additional ventilation can be added to hutches using the easy-to-install Calf-Tel vent kit.
For calf barns, Airmax Pen Sides can be added to some or all pens to allow for additional airflow.

Lots of clean water. Remember the 1 to 4 rules of water feeding: for each 1 pound of calf starter fed, provide at least 4 pounds (2 quarts) of water. (Leadley) Calves eating calf starter grain require plenty of clean water to efficiently ferment their feed and move their rumen contents into the other stomach compartments. In hot weather, even more water will be needed by calves to help maintain normal body temperatures. Delivering an extra feeding of cool water to any calves without access to free-choice water can really help encourage them to drink more during hot weather.

Feed good, palatable calf starter grains. During hot weather, calf starter grain containers need daily attention. The goal is to keep that fresh grain smell to encourage calves to eat more. Even small amounts of liquid, whether it is milk, water or urine, splashed in the grain can create an environment for mold and hot weather can cause the fats in grain to become rancid. (Leadley) Because calves are very sensitive to smells, keeping grain fresh is key to maintaining intake levels and keeping average daily gains levels on pace. In the hottest days of summer, it has been my experience that calves will tend to eat more during the night when the temperatures are more agreeable for them to be active and moving about. Having enough fresh water and calf starter grain available during the evening hours also will help maintain intake levels.

Use the Calf-Tel starter bowl to keep fresh calf starter within easy reach and encourage intakes for the youngest calves.

Bedding. Some calf raisers prefer to use inorganic bedding, such as sand, in warmer temperatures as it absorbs and then dissipates the calf’s body heat, rather than retaining it. Other producers will switch from straw bedding to dried wood shavings or sawdust as the temperatures begin to rise. Regardless of the type of bedding used, it is critical to maintain a clean, dry resting area for calves.

Work Calves in the Morning. The calf’s body temperature and the environmental temperatures are both at the lowest point for the day in the morning. This makes it the optimal time to complete any stressful activities, such as vaccinations, dehorning, and pen moves.

Kelly Driver has been involved in the New York dairy industry all her life. In addition to raising dairy calves and replacement heifers, she is the Northeast Territory Manager for Calf-Tel. Feel free to contact her at kellydriver@hampelcorp.com with your calf questions or suggest a topic you would like covered in a future blog.

Sources

Courtesy of our dealer – CRI REPRODUCCIÓN ANIMAL MÉXICO SA DE CV.

Calf Starter Grain: Critical to the Weaning Transition

by Kelly Driver, MBA

As many calf providers and caretakers know, the success of any farm’s operation hinges on the health and vigor of its calves. A critical aspect of calf rearing that often goes overlooked is the pivotal role that calf starter grain plays in the weaning process. It’s not just about providing them with sustenance; it’s about setting the foundation for a lifetime of productivity and robust health.

Let’s delve into why calf starter grain is a game-changer in calf management strategies, and how its proper introduction and utilization can make a significant difference in the well-being and long-term success of a young stock.

What is Starter Grain?

Starter grain is a specially formulated feed for young calves, designed to help them transition from a diet of milk to solid food. It’s a mix of grains, proteins, vitamins, and minerals that provides essential nutrients for growth and development. Think of it as the first solid meal for our calves, setting them on the path to becoming strong and healthy members of our herd.

The consumption of calf starter not only bolsters rumen development, but it can help assure a smooth weaning transition for calves, bridging the change from a liquid ration to a diet of solely dry feeds and water. Maintaining targeted growth rates and animal health can be dependent on calf starter intakes through this time.

According to Dairy Calf and Heifer Association Gold Standards, calves should at least double their birth weight by 56 days of age. The post-weaning growth rate depends on the target mature size, taking into account breed and genetic factors (DCHA). Calf starter is important to the pre-weaned calf for two reasons – it stimulates rumen development and as consumption increases, more nutrients are available to support growth.

Calves that are being weaned at about six weeks of age will be smaller and should each be consuming 2-3 pounds of starter per day for three consecutive days before weaning, according to the DCHA’s Gold Standards. We should expect calves being weaned at eight weeks of age to be eating 4-5 pounds of starter grain per calf each day for three consecutive days before weaning (DCHA).

6 Tips to Boost Calf Starter Intakes

  1. Begin with a calf starter grain that is palatable to the calf. There are a wide variety of feedstuffs available in different regions that will determine the list of possible, economical ingredients (Leadley). Consult your nutritionist and veterinarian on a regular schedule to find an option that the calves want to eat.
  2. Starter grain should be fed continuously by three days of age, beginning with just a handful for those young calves.
  3. Begin with the Calf-Tel starter bowl. Young calves shy away from putting their heads down into deep buckets and for smaller calves, they may not even be able to reach the bottom of the pail. The new Calf-Tel starter bowl is shallower and sits on top of the bucket, keeping the calf starter where they can see, smell and taste it.
  4. Change calf starter frequently. For the youngest calves, it is recommended to change the grain out daily to keep it fresh. Staleness, flies and contamination all discourage calves from beginning to eat starter. I have seen calf raisers put a small amount of grain from their hand right into a calf’s mouth after they finish drinking their milk to introduce the taste. In other cases, I have seen the starter changed midday for the youngest calves, giving caregivers one more observation of this group. It is important to find what works best for your farm team and labor situation and follow it consistently.
  5. Calves that are eating larger volumes of milk may begin eating calf starter at an older age than those fed just four quarts per day, but it is crucial that each calf is eating at least two pounds per day for at least three consecutive days prior to weaning.
  6. Provide access to clean, free-choice water as it helps with calf starter intake. This is why Calf-Tel hutches and pen kits come with two pail holders and pails, providing the calf access to both starter and water. One rule of thumb, shared by Dr. Sam Leadley of the Attica Veterinary Associates in New York, is the calf needs four pounds of water for each pound of grain.

Introducing calf starter to young calves with Calf-Tel’s starter bowl allows them to reach the starter easier than a deeper pail to begin smelling and tasting it. Calf-Tel recommends refreshing the starter daily to encourage intakes that support rumen development in young calves.

Here is a guideline for Target Calf Starter Intake from John K. Bernard, a professor in dairy nutrition at the University of Georgia:

Days 1-140.12 lbs./day
Days 15-210.25 lbs./day
Days 22-280.50 lbs./day
Days 29-351.00 lbs./day
Days 36-422.00 lbs./day
Days 43-604.45 lbs./day

There may be variations from this based on volumes of milk fed, so always consult with your nutritionist and veterinarian regularly.

Now available from Calf-Tel the Universal Starter Bowl. Fits directly in any pail holder.

About the Author

Kelly Driver has been involved in the New York dairy industry all her life. In addition to raising dairy calves and replacement heifers, she is the Northeast Territory Manager for Calf-Tel. Feel free to contact her at kellydriver@hampelcorp.com with your calf questions or suggest a topic you would like covered in a future blog.

Sources

  • Dairy Calf and Heifer Association. (2016). Gold Standards I and II.
  • Dairy Herd Management. (2018, November 2). Promote calf starter intake. Retrieved from https://www.dairyherd.com/article/promote-calf-starter-intake
  • Gilles, M. (2018, September 24). Starter intake drives calf gains. Hoard’s Dairyman. Retrieved from https://hoards.com/article-24007-starter-intake-drives-calf-gains.html
  • Hanson, M. (2019, September 4). Hints for starting calves on starter. Dairy Herd Management. Retrieved from https://www.dairyherd.com/article/hints-starting-calves-starterLeadley, S. (2019, October). Getting better calf starter intake. Calving Ease. Retrieved from http://atticacows.com/library/newsletters/CEOctober2019.pdf

Courtesy of our dealer – CRI REPRODUCCIÓN ANIMAL MÉXICO SA DE CV.

Are We Feeding Enough for Success?

The newborn calf receives her feeding of 4 quarts of high quality, clean and fresh colostrum within three hours after birth. This should provide both the immunity and energy needed for a successful launch in life. But are we providing enough energy after the colostrum feedings to support healthy calves through growth and continued development of her immune system?

Feeding for Calf Maintenance

Each calf must first meet her maintenance requirement which includes the energy necessary to breathe, eat, maintain their core body temperature at 101℉, and replace cells as needed. Additionally, calf raisers have a goal to double her body weight before weaning, as the correlation of higher preweaning average daily gains and future milk production is high.

Temperature’s Effect on Calf Feeding

Yet as we prepare to feed to meet all these needs, we must also be mindful of the environmental temperature, as a drop below 60℉ (15.5℃) increases the energy required to meet those basic maintenance requirements.

Source: Dr. M. Steele, Hoard’s Dairyman webinar

Do you see how the requirement numbers get higher as the temperatures drop in cold weather? Four-quart feedings, delivered at least twice daily, may be the calf’s best friend as they grow, allowing the calf to meet requirements for both maintenance and growth. If we think about this pictorially, do the two calves below have the same maintenance needs?

This calf is enjoying 80oF, sunshine and a light breeze.
Conditions for these calves are 15oF, overcast skies and breezy.

Increasing Calf Feedings

One key consideration when increasing milk (or calf milk replacer) feeding volumes is the ability to feed different volumes of milk to different bottle-feeding calves. Many calf caregivers use a step-up approach to the 4-quart feedings, following with a step-down in quantity fed as calves approach weaning. One such example comes from Mikayla Bullman, calf feeder at Fisher-Clark Dairy Farm in Wisconsin, as seen on the Vita Plus website. The farm’s program follows the feeding chart below:

Feeding 4 quarts is easy with the Calf-Tel 4-quart bottle. Available now on Calf-Tel’s online SHOP

I know some dairies that are offering the 4-quart feedings by day 10 and others that deliver the milk in 3 daily feedings, rather than two. There is no perfect system to deliver the feed and it is best to discuss with your calf care team and nutritionist to determine what best suits your farm’s situation, but there are some key points to keep in mind to avoid the concern of a hungry calf:

Consistent Volumes of Milk

Be sure to feed consistent volumes of milk at each feeding. Often calf raisers will mark individual or groups of calves to indicate the specific amount to be fed. Sometimes this is accomplished with colored bands fastened to hutch fences or bottle feeders.

Milk Replacer Concentrations

When feeding milk replacer, be sure that everyone is mixing it at the same concentration. Sometimes when we encounter a scours problem on a farm, we find that each feeder is mixing the powder differently. This problem can be solved relatively easily by using scales to measure the milk replacer powder for each feeding.

Bottle-Feeding Temperatures

Along with consistent volumes and concentrations, we need to deliver milk at the same temperature at every feeding. The goal here is to deliver milk in the range of 100-105oF (38-41oC). If the weather is cold, this may mean making more trips to be able to deliver the milk at the desired temperatures or mixing milk replacer with warm water.

As calf raisers, we often hear discussions about whether to feed pasteurized milk or milk replacer, feed twice or three times daily, how many days of age to wean calves, the best cleaning and sanitation products to use, and more. But, ultimately, none of it matters if we aren’t delivering adequate amounts of good quality milk to allow calves to thrive and grow.

Calf-tel offers the tools and support you need to grow healthy bottle-fed calves. Check out their calf bottle accessories to support your calf feeding journey.

About the Author

Kelly Driver has been involved in the New York dairy industry all her life. In addition to raising dairy calves and replacement heifers, she is the Northeast Territory Manager for Calf-Tel. Feel free to contact her at kellydriver@hampelcorp.com with your calf questions or suggest a topic you would like covered in a future blog.

References

Courtesy of our dealer – CRI REPRODUCCIÓN ANIMAL MÉXICO SA DE CV.

Courtesy of our dealer – Global Farming Technology Co., Ltd.

Preparing Your Calf Hutch Site

Are you considering making a new calf housing site or changing an existing one? Taking time to weigh options and put together a plan that best meets your management needs, while maximizing labor efficiency and calf performance, is crucial.

Here are some considerations as part of the plan:

Who, what and where? Start by making a list of items that will be important to your calf care-giving team. Is the goal of the change to increase efficiency, improve drainage, ease cleaning, reduce bedding needs, or another area to improve? We suggest starting with this checklist:

  • How will you be delivering feed and water to the calf area?
  • What type of bedding will be used and where will it be stored?
  • Is the site in close enough proximity to deliver warm milk (or water) to the calves at optimal feeding temperatures?
  • Is there water readily available for cleaning hutches? Will there be a designated wash area for equipment?
  • How easily can the site itself be cleaned? Is disinfecting required there as well?

This is a great discussion for the calf care team to share ideas and suggest changes as well.

How many? Having enough hutches to allow for a stress-free weaning process is very important and a benchmark often used is 10 percent of the milking herd will be in hutches at any given time. For example, my neighboring 1200-cow dairy normally has about 120 calves in hutches. This number should be adjusted up or down based on how long the calves are in hutches and if your operation is raising any bull calves.

Some farms also like to have enough hutches to allow 7-10 days for cleaning, sanitation and drying between calves in an effort to reduce any opportunities for bacteria or illness.

Drainage and Cleaning. Gravel, stone and concrete are the most common options for hutch pad sites. Raising calves off the ground on a well-drained foundation helps keep calves dry and improves overall health, keeps them cleaner while reducing the amount of bedding used.

Gravel and stone pads normally have larger stones at the bottom of the pad and are topped with smaller stone or gravel. The best way to clean a gravel or stone site is to scrape the bedding material off and then let the area sit idle for 7-10 days, allowing the site to dry in the sunshine.

While requiring a significant upfront investment to create the site, concrete pads are the easiest to clean and disinfect. It is highly recommended that the pad has a 3% slope and drainage grooves to be most effective. In some areas, these pads slope to a catch basin capturing the fluid runoff for spreading on fields. Concrete can be power washed and disinfected, delivering the best option for minimizing disease outbreaks. Using a concrete base locks in one location for hutches, so before proceeding with this option, be sure that the site corresponds with any future growth plans for the business as well.

Simply setting directly on the ground or dirt creates some significant challenges to the calf care team as urine and moisture from precipitation has no way to drain away quickly and ends up collecting under and around the hutch. The challenge then becomes keeping the calf dry and healthy, using much more bedding, and in some environments, a distinct increase in fly activity around the calves.

A stone base is used at this dairy to assure excellent drainage at the hutch site. Additionally, many farms have a 3 percent slope on the pad to enhance movement of fluids away from the calves.

Location. Fresh air is the most important consideration when planning the layout of plastic Calf-Tel hutches. Place hutches in an open area, away from any barns or silo bunkers that will block the wind and away from manure lagoons, feed bunks or other items, preventing any fumes from reaching the calves as well. It is also recommended that the hutch cleaning area be separate as pressure washing can scatter bacteria and dirt in the area.

Calf-Tel recommends spacing hutch rows 10 feet apart and keeping 1 foot between hutches within the row to prevent calves from touching and assure that there is enough room to access hutches to feed and bed them easily. Prior to establishing a hutch site, measure the equipment being used to deliver feed and bedding, as well as cleaning the site, to assure ample room for equipment to turn easily among the rows.

Hutches should be positioned to maximize airflow in the summer and protect against the wind in the winter. In the Dairy Calf & Heifer Association Gold Standards, it is recommended to orient hutches rows facing east to west to maximize shade. In the summer, Calf-Tel recommends positioning hutches to take advantage of natural airflow, while opening rear bedding doors, lower rear vents and ridge vents to help flush hot air out of the hutch. Some calf raisers also prop the back of the hutch a few inches off the ground for extra ventilation in hot weather as well.

In the winter, it is recommended to face hutches away from the prevailing winds. Ideally the winds would hit the side of the hutch. Depending on wind speeds in the area, some producers run a cable along the top of hutches to help hold them in place during storms or provide windbreaks, like a row of stacked straw or corn stalk bales, or windscreens as pictured below.

This windscreen was made from shade cloth with wood attached at both ends. It is hung over the fence panel to provide a wind break at the start of each row to minimize snow drifting into the hutch or fence area. Based on the winds at the facility, they only need to place one every tenth hutch or so to help keep calves comfortable.
In areas with strong windstorms, calf raisers sometimes choose to secure hutches by attaching a latch similar to this to the top of the hutch and run a cable the length of the row of hutches, anchoring it at both ends.

As the plan is formulated for your hutch site, our Calf-Tel team encourages discussion with your calf care team, veterinarian, and contractor to best determine the layout that suits your situation and assures that calves are healthy, growing and the team caring for them can work efficiently and smoothly.

Kelly Driver has been involved in the New York dairy industry all her life. In addition to raising dairy calves and replacement heifers, she is the Northeast Territory Manager for Calf-Tel. Feel free to contact her at kellydriver@hampelcorp.com with your calf questions or suggest a topic you would like covered in a future blog.

References:

Dairy Calf and Heifer Association. (2016). Gold Standards I and II.

Broadwater, Neil. (2010, December 6). Top five considerations for superior calf housing. Retrieved from https://hoards.com/article-1800-top-five-considera…

Sowder, Brandon. (2018, August 7). Five best practices for laying out calf hutches. Retrieved from https://www.progressivedairy.com/topics/calves-hei…

Courtesy of our dealer – CRI REPRODUCCIÓN ANIMAL MÉXICO SA DE CV.

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