Archive for calving interval

Boosting Dairy Cattle Fertility: The Future of Genetic Selection for Modern Farmers

Boost your dairy herd’s fertility with cutting-edge genetic selection. Discover how modern techniques can enhance pregnancy rates and streamline your farm’s operations.

Consider a dairy farm where cows get pregnant shortly after calving with minimum manipulations. This is not a pipe dream; deliberate fertility selection may make it a reality. High fertility in dairy farming leads to shorter calving intervals, improved milk production cycles, and increased profitability.

Rapid pregnancy following calving is critical for a robust herd and sustainable operations. Pregnancy consists of various stages: the uterus returns to normal after birth, estrous cycles resume, and estrus is recognized. Sperm is subsequently placed and capacitated, ovulation and fertilization occur, and the corpus luteum generates progesterone to keep the pregnancy going. Each phase is heritable and necessary for a successful pregnancy after insemination.

Prioritizing fertility benefits dairy producers by reducing inseminations, lowering veterinary expenses, and increasing herd output. The potential for profitability via genetic selection for features that ensure fast pregnancy after insemination has the potential to change dairy production. This realistic method may improve dairy operations, offering farmers hope and motivation.

Overcoming Fertility Challenges in Modern Dairy Farming: A Path to Sustainability and Profitability 

Modern dairy producers have substantial reproductive issues critical for profitability and sustainability. Reducing the number of inseminations required for pregnancy is vital since each additional effort increases expenses and extends the calving interval, affecting milk output and herd efficiency. ‘Days open,’ or the time from calving to successful insemination is essential in fertility control. Quick pregnancy establishment after calving is critical; delays in uterine involution and estrous cycle re-establishment might impair fertility.

Accurate estrus identification is crucial for maximizing breeding chances and reducing days open. Reproductive management approaches vary in efficacy and depend on cow circumstances and farm management practices. Some systems utilize natural estrus detection, while others use hormonal therapies such as PGF2α and GnRH with timed AI.

Genetics has a significant impact on fertility. While selection tries to minimize the number of days open, the diversity of dairy systems implies that favorable features in one system may not transfer well into another. Understanding reproductive genetics and their interaction with various management approaches is essential for making educated breeding choices. This information gives dairy producers greater confidence and control over their operations.

Achieving high fertility in dairy cows requires careful reproductive management, precise estrus detection, and a thorough grasp of genetics. This knowledge includes identifying heritable features and considering their interactions and possible trade-offs when making breeding choices. Addressing these factors may improve herd reproductive performance, resulting in more sustainable and profitable farming.

The Journey from Uterine Involution to Progesterone Production: A Symphony of Reproductive Success 

The first phase following calving is uterine involution, which restores the uterus to its pre-pregnancy condition and lays the groundwork for future reproductive cycles. After involution, the cow’s reproductive system returns to regular menstrual cycles, preparing for future pregnancies.

The next step involves detecting and expressing estrus. Estrus, sometimes known as ‘heat,’ occurs when a cow is sexually receptive and pregnant. Properly detecting this phase is critical for effective insemination. During estrus, sperm enter the cow’s reproductive canal and undergo capacitation. This process allows the sperm to penetrate and fertilize the egg.

Following capacitation, ovulation occurs when an egg from the ovary enters the oviduct and meets the capacitated sperm. Fertilization is the process of combining sperm and egg to form an embryo. After fertilization, the corpus luteum develops on the ovary and produces progesterone, essential for pregnancy and embryonic development.

Each process, from uterine involution to progesterone production, is critical for obtaining and maintaining pregnancy in dairy cows. Understanding and improving biological processes may boost fertility rates, increasing production and profitability in dairy farming.

Delving into the Heritability of Fertility Traits: From Uterine Involution to Embryo Development 

Exploring the heritability of fertility characteristics requires understanding how each event in the reproductive sequence contributes to the overall fertility phenotype in dairy cows. This process, which begins with uterine involution, characterizes the early postpartum period and is crucial for restoring normal reproductive function. Genetic variables impacting the rate and effectiveness of uterine involution may be heritable, possibly decreasing the time between calving and the following successful pregnancy.

Another critical event is the restoration of estrous cycles. The capacity to resume regular estrous cycles promptly significantly impacts conception rates. Genetic variation affecting the timing and regularity of these cycles is most certainly heritable, influencing how easily and quickly cows may be inseminated again.

The next step is estrus expression and detection. Cows with apparent indications of estrus are more likely to be effectively inseminated. Traits related to estrus expression, such as the strength and length of behavioral indicators, may be handed down across generations, influencing fertility.

Sperm deposition and capacitation in the reproductive tract are equally important. Efficient sperm capacitation for conception requires both male and female genetic contributions. Genes that affect the uterine environment and sperm cell function may increase the chances of successful sperm capacitation and subsequent conception.

Ovulation, an important occurrence, is governed by hormone cycles and is genetically controlled. The time and predictability of ovulation may be chosen, resulting in more effective inseminations. Following ovulation, the creation and function of the corpus luteum (CL), which generates progesterone, is crucial for pregnancy maintenance. Heritable features that promote robust CL development and sufficient progesterone production are critical for establishing and maintaining pregnancy.

Beyond these phases, the oviduct’s involvement in promoting embryonic cleavage and the uterus’ formation of a receptive environment is potentially heritable. Genetic predispositions that favor specific settings may increase embryo survival and development, eventually enhancing fertility rates.

The phenotypic manifestation of fertility in dairy cows comprises many heritable variables, each influencing a particular event in the reproductive process. Selection for these qualities may increase total fertility, making genetic knowledge and selection an essential component of sustainable and lucrative dairy production.

Optimizing “Days Open”: The Pinnacle of Genetic Selection for Enhanced Dairy Cow Fertility

Genetic selection for fertility in dairy cows primarily focuses on minimizing the number of days between calving and pregnancy, sometimes known as “days open.” This statistic is important because it captures the overall influence of several specific fertility components. Each stage of the reproductive process—from uterine involution, re-establishment of estrous cycles, and successful ovulation to efficient sperm capacitation, fertilization, and the creation of a functioning corpus luteum—is critical in determining whether a cow gets pregnant following insemination. By concentrating on lowering the number of days open, dairy producers and geneticists select cows more efficiently, restarting reproductive cycles and effectively conceiving after calving. This complete method guarantees that selection pressures are equally dispersed, resulting in improved reproductive features for sustainable and prosperous dairy production.

Customizing Reproductive Strategies: Navigating Between Minimal Intervention and Intensive Management Systems 

In dairy farming, reproductive management is vital in determining fertility and total herd output. Different approaches improve breeding efficiency, each with unique benefits and uses. Minimal intervention approaches, for example, depend heavily on recognizing natural estrus. Cows in such systems are watched for indicators of estrus, such as mounting behavior or increased activity, and insemination occurs once estrus is recognized. This strategy may improve breeding accuracy by inseminating cows when they are most fertile, perhaps lowering the number of inseminations necessary for pregnancy. However, detecting modest estrus symptoms requires tremendous effort and experience.

On the other side, more extensive reproductive management approaches include hormone therapies and scheduled artificial insemination (AI). To synchronize a group of cows’ reproductive cycles, procedures may consist of giving PGF2α to induce luteolysis and GnRH to trigger ovulation. This synchronization enables timed AI, where insemination happens at a particular time regardless of obvious estrus signals. This strategy has the benefit of being consistent and predictable, which might lead to increased conception rates and more efficient herd management. Nonetheless, this strategy requires exact timing, extra hormone expenses, and strict protocol adherence.

The dairy operation’s unique demands and capacity determine the decision between minimum intervention and extensive reproductive management methods. Minimal intervention techniques may be more practical for smaller herds with enough manpower. At the same time, larger operations may benefit from the efficiency and consistency of timed AI protocols. Understanding each system’s strengths and limitations is critical for improving reproductive results and unlocking the genetic potential of contemporary dairy cows.

Different Management Systems, Different Genetic Pressures: Strategizing ‘Days Open’ for Optimal Fertility 

Different reproductive management systems provide different stresses to the specific fertility components, impacting the selection process for days. Cows are inseminated mainly after estrus is identified in minimum intervention systems, stressing the cow’s inherent ability to have regular cycles and evident symptoms of estrus. Days open to become a composite metric representing several distinct fertility qualities, including estrus detection, sperm capacitation, and ovulation time. Genetic selection in these systems promotes features associated with high natural reproductive success and low human intervention.

In contrast, rigorous management methods that include hormonal therapies like PGF2α and GnRH, followed by scheduled artificial insemination (AI), shift the relevance of reproductive features. In this context, characteristics such as responsiveness to hormone therapies and scheduled AI cycle success rates are relevant. Days open remain crucial, but the various fertility components contributing to it may be weighted differently. For example, the precision and timing of ovulation caused by hormonal treatments may become more important than natural estrus-detecting skills.

Such variances demand a detailed knowledge of fertility genetics to choose cows that perform consistently well across various reproductive management measures. Adaptive genetic selection may retain fertility features across farm operations, leading to better reproductive success and profitability for dairy herds.

Genetic Insights: Paving the Way for Uniform Fertility Performance in Diverse Dairy Management 

Obtaining consistent fertility performance across diverse reproductive management systems will demand a more in-depth knowledge of the genetics of each fertility component. This involves more than simply examining surface-level features; it also necessitates looking into the genetic markers and pathways that regulate each stage of the reproduction process. By identifying and comprehending these genetic characteristics, dairy producers may choose cows that perform well under minimum intervention systems while excelling under more extensive, hormone-based management schemes. Such insights might lead to the establishment of customized breeding plans adapted to the individual needs of various dairy farming operations, improving the herd’s sustainability and profitability. Advanced genomic techniques and technology will be critical in this effort, providing unparalleled accuracy in selecting and breeding tactics. This integrated strategy may improve the reproductive efficiency of dairy cows, leading to a more resilient and productive dairy sector.

Key Takeaways:

  • The primary definition of fertility in dairy systems is the establishment of pregnancy post-insemination.
  • Highly fertile cows establish pregnancy sooner after calving, requiring fewer inseminations.
  • Fertility involves several sequential events: uterine involution, re-establishment of estrous cycles, expression and detection of estrus, sperm capacitation, ovulation, fertilization, and corpus luteum progesterone production.
  • Each fertility event is potentially heritable, collectively contributing to the pregnancy phenotype after insemination.
  • Genetic selection for fertility often focuses on reducing the “days open” period.
  • Dairy systems use varied reproductive management strategies, from minimal intervention to intensive hormonal treatments.
  • Selection pressures on fertility components may differ across systems, impacting overall fertility outcomes.
  • Uniform performance of cows in diverse management systems requires a deeper understanding of the genetic underpinnings of fertility traits.

Summary:

High fertility in dairy farming can lead to shorter calving intervals, improved milk production cycles, and increased profitability. Pregnancy involves various stages, including uterine involution, estrous cycle restoration, estrus recognition, sperm placement, ovulation and fertilization, and progesterone production. Prioritizing fertility benefits dairy producers by reducing inseminations, lowering veterinary expenses, and increasing herd output. Genetic selection for fast pregnancy after insemination can change dairy production, providing farmers with hope and motivation. Reproductive issues are critical for profitability and sustainability, with reducing inseminations increasing costs and affecting milk output and herd efficiency. Understanding reproductive genetics and their interaction with management approaches is essential for making educated breeding choices and improving herd reproductive performance, resulting in more sustainable and profitable farming.

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From Data to Dollars: Small Steps to Maximize Dairy Profits Through Accurate Herd Management

Maximize dairy profits with accurate data. Discover how small steps in herd management can transform efficiency and profitability. Ready to optimize your farm’s success?

Even a single percentage point can have a big impact on the ever-changing realm of modern dairy farming. Think of the inspirational example of a Wisconsin dairy farm that, following a thorough data management system, saw a startling 15% rise in general profitability. From careful data collecting to strategic analysis, the path this farm takes shows the transforming power of accurate data. Such success stories highlight how precisely data management can help your dairy farm to reach hitherto unattainable levels of profitability and efficiency. Regardless of its scope, every bit of data can revolutionize the profitability and efficiency of your farm.

Little actions like accurately noting a cow’s health event or updating pen counts add to significant changes in herd health and feeding practices, increasing farm profitability.

“A small mistake can become a major problem, but accurate data will guide your farm toward unheard-of success.”

The foundation of reasonable herd control is accurate data. Correct data entering produces insightful reports, trend analysis, and benchmarks to guide your decisions. Making the effort to gather accurate data opens quick insights that can change your business.

All set to delve into your daily records? Little adjustments might pay off enormously for a dairy farm to run more profitably and effectively.

The Cascade Effect of Data Accuracy in Herd Management 

Every herd management event depends on data capture accuracy. One small mistake—such as a nutritional need or a wrong health treatment—may have a domino effect throughout your dairy. For instance, the herd manager may make poor decisions if a breeder misses an insemination date, producing erroneous dry-off lists and calving schedules. As a result, the feeder might use the wrong pen counts, which results in improperly made rations. This first error can affect output and raise feed costs, compromising the farm’s profitability and efficiency.

Dairy producers must understand that exact data collection is absolutely vital. It improves productivity and efficiency and forms the basis of wise decisions. Any deviation from the norm should prompt quick research and correction.

Imagine a situation when a sick cow’s prescription is not precisely recorded on a farm. The monitoring produces missed production targets, rising medical expenses, emergency veterinary intervention, and changed reproductive plans. The situation worsens when the nutritionist changes feed based on erroneous data, resulting in nutritional imbalances. Such errors might turn into expensive mistakes avoided with careful record-keeping.

Little changes in inaccurate data recording can greatly enhance herd health and farm performance in dairy farming. Reliable data reveals trends, guides your farm toward its full potential using benchmarks, and supports better decisions.

Plugging Data Gaps: Ensuring Every Detail is Captured 

Examine every element of your farm to find holes in your present data procedures and avoid the traps of erroneous data. Reports, trend identification, benchmark setting, and cost analysis for more profitable decisions can all be produced by herd management tools. These tools are only as valuable as the data you enter. Accurate data records give your herd and farm quick insights. For instance, your herd management system’s alerts and key performance indicators help you intervene early when some cows exceed recommended health levels. Timeliness and accuracy of insight help you reach your objectives and strengthen your bottom line. To avoid the pitfalls of inaccurate data, scrutinize every aspect of your farm to identify gaps in your current data practices. Herd management tools can generate reports, identify trends, set benchmarks, and evaluate costs for more profitable decisions. However, these tools are only as effective as the data you input. Recording accurate data provides timely insights for your herd and farm. For example, setting key performance indicators and alerts within your herd management software system enables early intervention when sure cows surpass custom health thresholds. Accurate, timely insights help improve your bottom line and achieve your goals.

Herd Management Tools: The Foundation of Modern Dairy Farm Efficiency 

Modern dairy farm profitability and efficiency are within your control, thanks to the power of herd management tools. When used correctly, these tools can produce thorough reports, reveal trends, and offer benchmarks to evaluate herd management expenses. The key to unlocking their potential lies in the accuracy of the data you input. By ensuring accurate data entry, you can prevent adverse chain reactions that could lead to poor decisions impacting the whole farm. This control over your data and its impact on your farm’s performance is in your hands.

Essential tools for herd management consist of the following:

  • DairyComp305: Excellent for tracking reproductive metrics, health records, and production data. Its reports help identify trends for better management decisions.
  • PCDART: Integrates production, reproduction, and health data for thorough herd analysis and benchmarking against industry standards.
  • Afimilk: Features milk meters and cow activity monitors for precise data collection and insightful analysis.
  • BoviSync: A cloud-based system offering real-time data access and integration of various herd activities to optimize operations.

By applying these tools, farmers can set automated alerts for important performance indicators, guaranteeing timely response when necessary. Standardizing data entry throughout the team helps lower mistakes and preserve data integrity, guiding better decisions and enhancing farm operations.

Strategic Imperatives: Using KPIs and Alerts for Proactive Herd Management

Setting key performance indicators (KPIs) and alerts within your herd management system is vital in the ecology of a dairy farm. Correct data helps you create quantifiable goals for improved herd health and early intervention. For disorders like mastitis, establishing thresholds can set off alarms that let you respond quickly to avoid complications.

KPIMeaningIdeal Score Range
Milk Yield per CowThe average amount of milk produced by each cow in a specified period.8,000 – 10,000 lbs per lactation
Reproductive Success RateThe percentage of cows that become pregnant within a specific timeframe after breeding.30% – 35%
Feed EfficiencyThe ratio of milk produced to the amount of feed consumed.1.4 – 1.6 lbs of milk per lb of dry matter intake
Somatic Cell Count (SCC)A measurement of cell concentration in milk, indicating udder health and milk quality.< 200,000 cells/ml
Calving IntervalThe average time period between successive calvings in the herd.13 – 15 months

KPIs support your tracking of performance indicators, including feed conversion ratios and milk yield. These benchmarks help make data-driven decisions, enhancing management techniques and resource allocation. Alerts provide early warnings for deviations, enabling proactive rather than reactive control. This structure maintains your agility, responsiveness, and alignment with profitability objectives, guaranteeing your dairy business’s success.

Standardization: The Keystone of Accurate Data Management in Dairy Farms 

Effective treatments and accurate data are not just a possibility, but a certainty when you standardize protocols within your herd management system. Clear, consistent procedures ensure that every staff member can enter and apply treatments precisely, leading to accurate herd health data tracking. For example, following a standard process for treating a cow with mastitis guarantees exact data collection. This standardization provides a sense of security and confidence, knowing that your data is reliable and your decisions are based on accurate information. 

Differentials develop without standardization. Data discrepancies can hide treatment efficacy and trend identification if one employee notes treatments immediately. At the same time, another waits until the end of the day, perhaps aggravating minor problems into major health crises.

Without set procedures, comparing health trends to industry benchmarks also becomes challenging. For instance, a farm that neglected to standardize calving event records experienced underreported complications, distorting health statistics and postponing required treatments.

On the other hand, standardized data entry and treatment approaches produce clear, practical health insights. Regular records allow one to spot trends in seasonal diseases, facilitating proactive management and enhancing general farm profitability and efficiency. The long-term success of your dairy operations depends on your using consistent procedures. 

On the other hand, clear, practical health insights are produced by standardized data entry and treatment approaches. Regular records allow one to spot seasonal disease trends, facilitating proactive management and enhancing general farm profitability and efficiency. The long-term success of your dairy operations depends on your consistent use of procedures.  However, the reality remains that the number of dairy farms continues to shrink, making it imperative for existing farms to optimize every possible aspect of their operations to stay competitive.   (Read more:  ‘Once plentiful in Skagit County, the number of dairy farms continues to shrink‘)

Transforming Daily Operations with Mobile Apps: Enhancing Dairy Farm Efficiency Through Real-Time Data Entry and Retrieval 

Including mobile apps in herd management systems transforms daily operations by allowing on-the-go data entry and retrieval. These applications save time spent on hand data entry by allowing real-time data capture straight from the parlor, barn, or offsite site. Farm teams can immediately record health events, treatments, and other vital data points by using mobile capabilities, guaranteeing constant accuracy.

Mobile apps reduce pointless office visits, thus improving efficiency. Multiple pass tasks become one pass, lowering the inherent error risks in paper-based systems. For a veterinarian’s visit, for instance, accessing and updating a cow’s history guarantees accurate and timely entries, enhancing decision-making.

Mobile apps also reduce data entry mistakes. Direct information recording at the source lowers the possibility of miswriting cow IDs or inaccurate entries. This real-time data capture results in more accurate reports and analyses, guaranteeing data integrity. Mobile apps enable the whole team by making herd management systems available from any point on the farm, improving output and supporting operational objectives.

Optimizing Herd Management Through Tailored User Access Levels

Control of user access in your herd management system guarantees that every team member possesses the precise information required to perform their roles. Customized permissions support data integrity and simplify processes. For example, a breeder must have access to cow performance and breeding statistics to guide their breeding decisions. The herd manager needs complete access to oversee dry-offs and track health events. Updated pen counts and nutrition information help the feeder create exact ration formulations. The veterinarian also requires access to health records and guidelines for accurate treatment. Customizing these access levels will help your team members concentrate on their particular responsibilities, thus improving the general farm performance.

Managing user access levels within your herd management system ensures each team member has the data they need to excel in their roles. Tailored permissions streamline operations and uphold data integrity. For instance, breeders need access to cow performance and breeding data to make informed breeding decisions. The herd manager requires comprehensive access to monitor health events and manage dry-offs—the feeder benefits from updated pen counts and nutrition info for precise ration formulations. Meanwhile, the veterinarian needs access to health records and treatment protocols for accurate care. By customizing these access levels, your team members can focus on their specific tasks, enhancing overall farm efficiency.

The Indispensable Role of Early Life Data in Calf Management

Every early event of a calf fundamentally determines her future as a cow. Accurate and consistent data entering from birth prepares the ground for lifetime health and productivity. Recording specifics on her weight, diet, and health interventions helps build a profile that directs the following actions. This painstaking record exposes trends and ideas helpful for nutrition, breeding, and health planning. 

Early data sets the standard for all subsequent measurements; thus, its accuracy is quite important. Standardizing data entry increases dependability, reduces mistakes, and guarantees consistency. Digitally capturing calf-side data boosts accuracy and streamlines workflows for real-time adjustments. 

Data management tools that support protocol-driven capture reduce errors, ensuring protocol compliance. Monitoring data access and calibrating user levels maintains data integrity. Over time, this approach enhances the calf’s transition to a productive cow, boosting overall efficiency and profitability.

Fostering a Culture of Continuous Improvement: Unlocking Dairy Farm Potential

The significance of a culture of continuous improvement on a dairy farm cannot be understated. Engage your team and regularly evaluate your practices to unlock new efficiencies. Foster an environment where asking questions is championed. Equip staff with the skills through ongoing education and training programs focused on data management. 

Collaborate with herd management partners to stay updated on industry advancements. These professionals offer invaluable insights and innovative solutions that can profoundly impact your farm’s operations. You’ll find areas ripe for optimization as you explore your herd management systems. 

Maintain an inquisitive mindset and a commitment to learning. This proactive approach ensures your farm’s data remains a powerful asset, driving profitability and achieving long-term goals. Recognize that every incremental improvement contributes to your dairy’s broader success, empowering your team to strive for excellence.

The Bottom Line

Accurate data management is the cornerstone of dairy farm efficiency. Every action, from data capture to health trend analysis, supports informed decision-making and farm performance. Minor inaccuracies can trigger chain reactions across operations, affecting everything from feeding routines to health management. By strategically using herd management tools, setting critical KPIs, and leveraging mobile apps, farms can streamline operations, ensure data integrity, and maintain a healthier, more productive herd. 

Every data point is crucial for dairy farmers. Capturing and analyzing accurate data helps identify gaps, evaluate trends, and implement timely interventions to enhance profitability and efficiency. Focusing on data standardization and optimizing user access levels fosters continuous improvement. This ensures that each calf’s early life events are precisely recorded, maximizing future milk production and cow longevity. 

Small steps in tightening data management can lead to substantial payoffs. Accurate data entry links the current herd state to its historical data. It sets the foundation for future success, making diligent data management vital for any dairy farmer aiming for long-term prosperity.

Key Takeaways:

  • Accurate Data Entry: Ensure every herd management event is captured accurately to avoid cascading errors.
  • Identify Data Gaps: Conduct regular audits of your data management practices to identify and rectify any gaps.
  • Implement Herd Management Tools: Use robust tools to generate reports, discover trends, and make informed decisions.
  • Set KPIs and Alerts: Use key performance indicators and alerts for early intervention on health events and other critical metrics.
  • Standardize Protocols: Establish and maintain standardized protocols for data entry and treatment administration.
  • Utilize Mobile Apps: Leverage mobile herd management apps to enable real-time data entry and reduce the risk of errors.
  • Manage User Access: Adjust user access levels within your herd management system to ensure team members have the data they need.
  • Capture Early Life Data: Digitally recording data during the early life stages of a calf can significantly impact future performance.
  • Foster Continuous Improvement: Encourage a culture of continuous learning and improvement in data management practices.
  • Collaborate with Partners: Work closely with herd management partners and support teams to optimize data usage.


Summary: Data management is crucial in modern dairy farming, as it significantly impacts profitability and efficiency. A Wisconsin dairy farm saw a 15% increase in profitability after implementing a comprehensive data management system. Accurate data provides insights into herd health and feeding practices, leading to significant changes in farm profitability. Herd management tools generate reports, identify trends, set benchmarks, and evaluate costs for more profitable decisions. Key performance indicators (KPIs) and alerts are essential for tracking performance indicators. Standardization ensures accurate data entry and treatment application. Incorporating mobile apps into herd management systems transforms daily operations by allowing on-the-go data entry and retrieval. A culture of continuous improvement and collaboration with herd management partners can optimize farm data and drive profitability and long-term goals.

Let’s Talk Longevity

Herd profitability is front and centre in the minds of breeders as they build their genetic base for the future. Current and future profit does not come by chance. It takes both breeder instinct and skilled management. Two important factors breeders and managers must consider is how long the workers stay on the job and how productive they are. And when it comes to workers on dairy farms it starts with the cows. Longevity along with productivity go hand in hand with making a profit.

What is Longevity?

According to our current indexes longevity is productive life (PL) or herd life (HL). But what does that mean? Is it one more month in the herd for an average daughter of a bull? What makes the difference?

Let’s take a moment and think about how great it is when your workers stay with your organization for at least five years. Instead of frequently giving new staff basic training, the organization can spend more time on advanced skills training. Productivity will increase and thereby profit can be pushed to new heights.

When it takes 1.0 to 1.5 lactations before a heifer you have raised or purchased to start to show a net lifetime profit, then culling heifers before the end of two lactations means just breaking even. A couple of months longer stay before the end of the 2nd lactation is really no big thing. Especially if the cow is below average for productivity.

When considering longevity how “long” is long enough?

What is Ideal Longevity?

Let’s start with what it is not. On a highly bred, fed and managed farm, averaging 25,000 lbs and 13.0 month calving interval, longevity is not a cow that stays around for five lactation yielding 20,000 lbs and calving every 14 months. She has two problems – her volume of output is below average and she takes a month longer off work than her contemporaries. In short she is a free-loader.

Each of us will have our own definition of longevity. Years back for many breeders longevity was the cow that won the county show, produced okay and from which daughters could be sold. For other breeders it is the cow that causes no problem, conceives on 1st or 2nd service and produces at least 10% above her contemporaries.  For today’s profit oriented breeders it is the cow that produces 200,000 lbs (90,909 kgs) in 8-9 lactations, that calves back within 13 months. It is the cow that, after calving quickly and smoothly, moves into lactation, does not require vet visits, maintains a low SCS as she ages and operates without problems within the herd’s housing and milk systems. Now that is longevity that is measurable and profitable!

Breeding for the Ideal

We can all see what we like when we look at the twelve year old cow but breeding is not a retrospective matter. Breeding is about creating the future. Idealizing the past is not breeding. Breeding is creating that heifer calf that arrives healthy without causing momma any problems, is able to resist illness and then calves before 24 months of age, is functionally correct and can cost effectively produce above her contemporaries and stays for many lactations.

Achieving ideal longevity takes more than genetics. Management plays a major role. When breeders get both genetics and management on longevity right they are able to have low herd turn-over (25%), save considerable dollars by raising fewer heifers (every heifer not raised saves $2200), and less expense for drugs, insemination, labor, feed, ..etc.

Current Tools Available

Two overall indexes currently published are PL (USA) and HL (Canada). Many other supporting indexes assist in interpreting PL and HL. Those include: SCS, DPR/DF, Udder Depth, Feet, Rear Legs Rear View and Maternal Calving Ease.  Of course yields of fat and protein (Link – Is Too Much Water Milking Your Profits) are important however a few more pounds of fat and protein in a lactation can in no way compare to getting that fifth, sixth and seventh lactation from a cow. Lactations where yield and profit are at their peak. Total merit indexes, like NM$, TPI™ and LPI, do factor in longevity but if breeders have genetically overlooked length of herd life, by placing their focus on show type or production, then these indexes will under estimate the emphasis that should be placed on longevity.

Future Tools Needed

What our current PL and HL indexes fail to do is to place emphasis of getting cows that make it to those fifth, sixth and seventh lactations. Adding a couple more months to cows that stay for 2 to 3 lactations is not what breeders need. They need some way of knowing which bulls leave daughters that profitably make it to those later lactations. Hopefully our genetic evaluation researchers will study some accurate way to identify bulls that produce long lived productive cows.

Let’s Talk Bulls

In breeding it always comes down to which bulls to use. Should I use Atwood or Bookem or should I use Windbrook or Fever?

Atwood, a current popular bull of show type, has  PL of –0.5 while Bookem, a newly daughter proven bull, has a PL of 5.7. Bookem’s stay in the herd over six months longer. How does Bookem do that? Well it is by having higher DPR, superior calving ease and maternal calving ease, lower stillbirths and higher production.  If show winnings are not important to you then Bookem should be your choice.

Both Windbrook (+15) and Fever (+16) sire superior conformation, yet Fever has a HL of 116 compared to Windbrook’s HL of 103.  Fever’s significant superiority in SCS, DF, milking speed and daughter calving ability give him the distinct advantage. DCA is often not used by breeders but Fever at 111 is in the top 2% of the breed for his daughters to calve without difficulty.

So in breeding for longevity breeders must dig deeper and find out all the facts. Bulls that have a PL over 5.5 or a HL over 110 are unlikely to produce daughters that have problems for somatic cell count, daughter fertility, milking speed, maternal calving ease, depth of udder or mobility.

The Bullvine Bottom Line

Longevity is a lot easier to describe than it is to achieve. What are our choices? We could sit and anticipate a ‘genomic-like’ breakthrough in this area of dairy breeding and management. That would be easy. But that way we are losing dollars and productive animals every day. Or we can act to immediately incorporate strategies that keep our animals, trouble free, healthy and producing longer. When it comes to longevity proactive means profitable.


The Dairy Breeders No BS Guide to Genomics

 

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