Explore
Communities in English
Advertise on Engormix

Managing heifer reproduction for improved first lactation

Published: December 8, 2015
By: Gavin Staley, Technical Services Specialist, Diamond V.
How heifers are managed at first breeding (1st breeding) represents a significant economic opportunity on many dairies. DairyComp305 records from four free-stall Holstein dairies in the Central Valley of California show how first breeding selection criteria impact first lactation (1st lactation) and subsequent reproductive performance.
 
Our California Dairies 1, 2, 3, and 4 illustrate how the best overall performance results from criteria for first breeding that include:
 
  • Optimal heifer size at the desired age;
  • A narrow breeding window, which keeps feed costs down; and
  • Weekly or bi-weekly breeding eligibility, rather than monthly or longer.
 
AGEFB criteria: Height and age.
 
If the appropriate physical selection criteria for breeding heifers – such as height at the withers – is consistent across age at first breeding (AGEFB), then it is reasonable to expect that these animals will perform similarly in the first lactation.
 
Dairy 1 demonstrates this outcome as shown in Graph 1 (all graphs generated using DairyComp305 from Valley Ag Software).
 
There is very similar milk production across AGEFR for the majority of test dates (Graph 1). This herd is a 2X-milked, non-rBST-supplemented herd. Note that as first lactation heifers are culled during the lactation, the number of animals in the cohort decreases and the variability of production increases.
 
Graph 1— Dairy1: Test day milk production by age at freshening (AGEFR) for first lactation (Lact=1).
 
PLOT MILK BY AGEFR FOR LACT = 1
 Managing heifer reproduction for improved first lactation - Image 1
 
However, if heifers are bred primarily on age rather than height, then the resultant first lactation milk production is likely to reflect the immaturity of the heifers that were bred early, which is what we see on Dairy 2 (Graph 2).
 
Graph 2 – Dairy 2: Test day milk production by AGEFR for Lact=1.
 
PLOT MILK BY AGEFR FOR LACT = 1
 Managing heifer reproduction for improved first lactation - Image 2
 
For Dairy 1, there is a 2 lb. milk difference at Test 4 between the earliest (21 months) and latest (25 months) AGEFR (Graph 1). Like Dairy 1, Dairy 2 does not supplement with rBST; however, it is a 3X-milked herd (Graph 2). Dairy 2 has a 6 lb. milk difference at Test 4 between the earliest (22 months) and latest (26 months) AGEFR. Note that the difference in test day milk production is apparent from even the earliest test date production.
 
Despite the difference in milking frequency, both Dairy 1 and Dairy 2 show a similar pattern of milk production and AGEFR, with younger animals producing less milk in the first lactation. However, in Dairy 2 the spread across the milk production graphs by AGEFR is very broad. It is possible that the 3X milking frequency accentuates the underlying immaturity of younger animals.
 
If this difference in milk production is extrapolated over the entire lactation, the potential economic opportunity is obvious.
 
Also, we can compare the artificial insemination (AI) patterns at first breeding for Dairy 1 (Graph 3) and Dairy 2 (Graph 4). Note that Dairy 1 has a wide “window” of age at first breeding (380-450 days of age). This wide range of age means that heifers are fed and managed for an extended time period before being bred even once.
 
Graph 3 – Dairy 1: AGEFB by Calendar Month.
 
EGRAPH BRED
 Managing heifer reproduction for improved first lactation - Image 3
 
Under normal circumstances, heifer raising costs are likely to be higher on this dairy. However, based on first lactation performance, the Dairy 1 heifers are being selected consistently for breeding on appropriate physical criteria.
 
On Dairy 2 (Graph 4) there is a similar wide breeding “window” (380-460 days of age). However, the difference in first lactation production suggests that Dairy 2 heifers are not bred consistently based on appropriate physical criteria. Heifers are likely being bred too soon, resulting in relative under performance by AGEFR (Graph 2) and eligibility for breeding criteria on this dairy may favor age more than height.
 
Graph 4 – Dairy 2: AGEFB by Calendar Month.
 
EGRAPH BRED
 Managing heifer reproduction for improved first lactation - Image 4
 
Note: Blue arrow identifies most recent change in breeding management.
 
Dairy 2, therefore, has a wide breeding window suggesting high heifer raising costs and also the largest opportunity to improve first lactation performance.
 
Also, note that Dairy 2 has attempted to address the situation, which can be seen in the most recent breeding window being considerably “tighter” (blue arrow, Graph 4). However, this intervention can be advantageous only if these animals are also of suitable height at the new earlier breeding age.
 
Paradoxically, creating a narrow or “tight” breeding window without maintaining appropriate physical attributes for breeding is going to exacerbate the disparity in performance, not improve it.
 
AGEFB and Consistent Lactation Performance.
 
So is it possible to have a ”narrow” breeding window and also consistent first lactation performance?
 
In Dairy 3 we have an example of a dairy that has both a “narrow” breeding window (Graph 5) and very consistent first lactation performance (Graph 6).
 
Graph 5 – Dairy 3: AGEFB by Calendar Month.
 
EGRAPH BRED
 Managing heifer reproduction for improved first lactation - Image 5
 
In Graph 5, the days of age (y-axis) show that the variability in age at first breeding is very “narrow” (approximately 25 days).
 
Graph 6 – Dairy 3: Test day milk production by AGEFR for Lact=1.
 
PLOT MILK BY AGEFR FOR LACT = 1
 Managing heifer reproduction for improved first lactation - Image 6
 
Note that there is also very little difference at Test 4 milk production for animals that freshened at different ages. The lactation curves diverge later in lactation. Notice that there still appears to be some benefit of later AGEFR, as the lactation curves maintain the AGEFR age pattern.
 
These results for Dairy 3 suggest that it is possible to breed heifers over a “narrow” breeding window and in a consistent manner based on physical criteria, such that the first lactation production performance is very similar.
 
AGEFR and Reproductive Performance.
 
A further consideration is that AGEFR may impact reproductive performance.
 
The days open (DOPN) survival curves comparing the first lactation (Lact=1) and the subsequent lactation (Lact>1) for Dairy 1 and Dairy 2 show a marked difference.
 
Graph 7— Dairy 1: Survival graph of DOPN for Lact=1 (blue line) with Lact>1 (red line).
 
GRAPH DOPN FOR LACT>1 WITH LACT =1
 Managing heifer reproduction for improved first lactation - Image 7
 
Graph 8 – Dairy 2: Survival graph of DOPN for Lact=1 (blue line) with Lact>1 (red line).
 
GRAPH DOPN FOR LACT>1 WITH LACT =1
 Managing heifer reproduction for improved first lactation - Image 8
 
Both dairies have a similar pre-synch timed AI protocol. In Graph 7, we see that the Lact=1 animals are more fertile than Lact>1 animals and the survival curves are clearly separate. Also, the Lact=1 curve of DOPN drops quickly.
 
This is not the case in Dairy 2 where there is no difference in fertility across parities. There are other management factors (such as 3X milking) and nutritional factors that can impact differences in parity performance. However, it is reasonable to assume that the differences in managing heifers at breeding may impact both milk production and reproduction efficiency in the subsequent lactation.
 
Heifer Breeding.
 
Another important factor to consider on all dairies is the frequency at which heifers are made eligible for breeding. Heifers should be managed so that they become eligible for breeding at the earliest opportunity.
 
Dairy 4 makes heifers available for breeding on a monthly (or even longer) basis (Graph 9). This creates “slugs” of heifers (shown with blue arrows) and delays AGEFR, representing a considerable inefficiency and increase in costs to raise the heifers.
 
Graph 9 – Dairy 4: AGEFB by Calendar Month.
 
EGRAPH BRED
 Managing heifer reproduction for improved first lactation - Image 9
 
Note: Blue arrows show “slugs” of heifers available for breeding.
 
In summary, opportunities to improve first lactation performance on dairies would include:
 
1. Managing heifers such that they reach the appropriate physical size (e.g. 51-52 inches at the withers) at the desired age at first breeding;
2. Basing eligibility to breed on criteria of height, not age;
3. Limiting feed costs by maintaining a narrow (“tight”) breeding window, so that animals are bred aggressively soon after becoming eligible, for which prostaglandin programs can be beneficial;
4. Making heifers eligible for breeding as soon as they reach the physical goal; and,
5. Achieving weekly or bi-weekly eligibility (based on pen availability), which represents an advantage over monthly or even longer intervals (as shown in Graph 9).
Related topics
Authors:
Gavin Staley
Diamond V
Follow
Join to be able to comment.
Once you join Engormix, you will be able to participate in all content and forums.
* Required information
Would you like to discuss another topic? Create a new post to engage with experts in the community.
Create a post
akrammarth
9 de enero de 2016
thanks for useful informations
Kunal Mallick
31 de diciembre de 2015
Good for beginners
Patrick Spencer
PIC Genetics
11 de diciembre de 2015
Hello Gavin, interesting data with some good comparisons & with some large data sets. Just interested to know how you created the Survival graph of DOPN for Lact=1 (blue line) with Lact>1 (red line), how have you set that up in D Com 305? Also is there a command to show a sum by AAFC i.e. 23 months AAFC total milk produced in Lact 1? Thanks Patrick.
Rajan Gupta
8 de diciembre de 2015
Dear Mr. Gavin, It's a very interesting topic and there is much to lern from it. Thanks for sharing it. Very recently I met Dr. Tilak Dhiman, of Diamond V from USA, in India and just today i have placed an order for the XPC to be used very first time in my farm. I have been using Yeasec and Actisef regularly, so let's see how the XPC performs at our place. By the way, i couldnt see all the graphs illustrated in your above report, would you be kind enough to send me this complete report along with the graphs in a mail to me at - gupta.k.rajan@gmail.com Thnaking you in advance, With Regards, Rajan Gupta
Rudra Desai
8 de diciembre de 2015
if any dairy farm or business interested in getting products contact E-mail rudra_dsi@rediffmail.com and Mobile:+919886890980
Rudra Desai
8 de diciembre de 2015
This can only be done with balanced feed management without hormones in just two months period rudra_dsi@rediffmail.com
Join Engormix and be part of the largest agribusiness social network in the world.
LoginRegister