Which of the following factor(s) affect reproductive performance of dairy cows: a) milk production, b) bunk space, c) type of bedding used in the far off pen, or d) hoof trimming schedule? Stay tuned - you might be surprised at the answers.
Troubleshooting reproductive performance in dairy herds can be very frustrating. It often appears that herds very similar in management styles have very different reproductive performance. Some recent studies conducted by University of Wisconsin researchers may shed some light on why that might be. This is one of the most comprehensive studies ever conducted to determine the factors affecting reproductive performance in dairy herds. The 153-herd study used DHIA records, surveyed dairy managers regarding their management practices, evaluated body condition score on 63 of the farms, and obtained weather information from weather stations close to the farms. The researcher's objective was to identify the factors that affect the first service conception rate or pregnancy status at 150 days in milk (DIM) on commercial dairy farms. Below are the some of their results.
First Service Conception Rate
Twenty-two factors were included in the model to determine what influenced first service conception rates. The average first service conception rate of the herds was 25.2%. Here are five major factors that had the biggest affect on first service conception rate:
* Bunk space: Herds with less than 2 feet of bunk space per cow in the breeding pens tended to have lower conception rates. Providing cows with two feet of bunk space per cow can be a challenge for some herds but it's important. The study also found that herds with lower dry matter intake in the non-pregnant pens (i.e., fresh cow and breeding pens) had lower conception rates.
* Bedding type in far off dry cow pens: Herds that used sawdust bedding in far off dry cow pens had lower conception rates than herds that used any other kind of bedding. Sawdust bedding may result in an increase in metritis and/or mastitis, both of which have been shown to decrease reproductive performance.
* Milk production: Higher producing herds as well as higher producing cows within herds tended to have lower conception rates. This is really not anything new, as many other studies have also shown the same result.
* Hoof trimming policy: Herds in which cows received a maintenance trim less than once a year had lower conception rates. University of Minnesota research has shown that herds doing maintenance trimming less that once per year had a greater prevalence of lameness.
* Voluntary waiting period length: Herds with a voluntary waiting period of less than 41 days had lower conception rates.
Percent of Cows Pregnant at 150 Days in Milk
Overall, nearly 61% of the cows in this study were pregnant at 150 DIM. Researchers examined 25 factors that had an influence on this parameter. Some of the factors that affect conception rate also affect the percent of cows pregnant, but there were some differences.
* Bunk space: Bunk space per cow in the breeding pens again had an influence cows pregnant by 150 days. Figure 1 shows the predicted probability of a cow being pregnant by 150 DIM as bunk space increases. Other researchers have shown that cows consuming more dry matter in early lactation are more likely to become pregnant by 150 DIM. This may be more likely to affect cows that are more subordinate and less aggressive at the bunk.
Caraviello et al., JDS, 2006
* Body condition score: Body condition thresholds were 3.0 for animals from 60 days pre-calving to 30 days post partum, 2.5 for animals from 31 to 180 DIM and below 2.75 for cows greater than 180 DIM. This confirms several other previous research studies that show cows with low body condition have a more difficult time becoming pregnant.
* Milk production: Cows with low production or high production at the time of first insemination were less likely to be pregnant by 150 DIM (Figure 2). Cows that are lower producing at time of breeding may be cows that had health problems during the transition period or currently have clinical or sub-clinical disease. High producing cows tend to begin cycling later and usually have lower conception rates than lower producing cows.
Caraviello et al., JDS, 2006
* Heat observation: Even though most of these herds used synchronization programs to assist in getting cows pregnant, herds that watched for heat more often had a higher percentage of cows pregnant by 150 DIM.
I think this research points out a couple of interesting points. Reproductive performance is very complicated with many factors potentially affecting whether or not cows become pregnant. There are also many factors that we don't often consider including transition cow management, periparturient diseases, early lactation body weight loss, and compliance with reproductive programs. But this study has shed light on some new factors as described above that may have some influence on reproductive performance of herds.
By Jim Salfer, Regional Extension Educator--Dairy Dairy Connection Articles University of Minnesota Dairy Extension
This study showed reproductive performance of dairy animals with the changing managemeng environment. I am quoting our work from Pakistan.
In Pakistan where peri-urban dairy buffaloes are used as the primary source of milk for the urban pupulation. Indo-Pakistan sub-continent, buffalo farming is practiced on non-scientific lines and there is no tradition of consulting animal health, reproduction or nutritional experts in identifying or addressing the relevant problems. The socio-economic status of the peri-urban dairy farmers is usually low, getting negligible inputs from livestock, financial or marketing institutions or experts. The major causes associated with the under-developed buffalo farms have been identified as: i) calf losses, irregular breeding, imbalanced feeding ii) ungainly loans and iii) a hostile marketing system. The three causes at commercial buffalo herds throughout Pakistan, lead to annual losses to the tune of Rs.1043.67 billions (US$ 1=Rs.60) (Qureshi, 2000).
The normal breeding season in the NWFP begins in August and coincides with the feeding of non-leguminous fodders, such as sorghum and maize. Food proteins arehydrolyzed to peptides and amino acids by rumen microorganisms but some amino acids are degraded to organic acids, ammonia and carbon dioxide. Rumen degradable proteins are either converted by ruminal microflora, to microbial protein and digested in the small intestine or they are hydrolyzed to ammonia and excreted as urea.
Our group concluded that excess intake of crude protein, associated with increasing serum urea levels, may lead to delayed postpartum ovarian activity in Nili-Ravi buffaloes under field conditions. Low energy intake associated with poor body condition of buffaloes (BCS2.75), may be a key factor for low reproductive efficiency in the animals. Improving the pre- and postpartum nutrition of such animals is likely to overcome the problem.
I have same findings in our Murrah Buffalo Herd at National Dairy Research Institute, Karnal, India, where the supply of fodder is seasonally influenced and animals get plenty of Berseem with high crude protein level in Dec to April. Buffaloes calving in winter have longer calving interval and hifh service per conception in comparison to animals calving in other season.
This problem of high blood urea nitrogen is also encountered in our study which is reported by Dr. Qureshi in Nili Ravi Buffaloes. However, in farmers house fresh chaffed Berseem is mixied with wheat Bhusa and concentrate and are generally supplied three to four times a day and had less problem unlike in our farm where Berseem is supplied without chaffing and wheat busa and concentrate supplied at different times without mixing.
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