Abstract
Introduction
Non-infectious causes of reproductive failure are most often detected when farms report an increased rate of return to oestrus (RTO) with a regular interval between inseminations. However, non-infectious causes can result in RTO with an irregular interval between inseminations due to early embryonic death (EED) because of chronic physical stress.
Methods
This case report considers the data analysis, farm inspection and evaluation of feed, feeding, behaviour, climate and housing with regard to a farm of 500 sows experiencing an increased rate of return to oestrus.
Results
Data analysis an increased rate of RTO (average 11%) in sows of all parity. In addition an increased rate of too small litters was found. Finally, in 2nd cycle sows, a classical second litter syndrome was observed . The data, nor the anamnesis revealed any increased rates of abortions, mummies, decreased gestation length or diseased sows thereby excluding infectious causes of RTO and thereby suggesting EED. An evaluation of stressors for gestating sows was
needed to detect the cause of EED. A thorough evaluation of feed and feeding (in electronic sow feeding stations), as well as human-sow interaction did not reveal any abnormalities. However, video behaviour analysis revealed that -75% of
gestating sows rest in a sternal position, when instead lying in flank position is considered to be normal. Analysis of the climate analysis revealed a slightly increased ambient temperature (25ć) as well as an elevated aerial ammonia
concentration (75 - 112 ppm) due to the fact that incoming air fell into the manure pit. Analysis of the manure pit construction and housing revealed an improper design to fit housing of gestating sows.
Conclusion
As no other cause of EED was found it was concluded that the high aerial ammonia is the likely cause of EED on this farm. Advice is currently being implemented to reduce ambient temperature and pit ventilation. However, improper housing design restricts this farmer to implement a scientific based and sustainable solution. This case shows that combining extensive data analysis and a thorough evaluation of stressors enables the identification of causes of EED on farms.
Non-infectious causes of reproductive failure are most often detected when farms report an increased rate of return to oestrus (RTO) with a regular interval between inseminations. However, non-infectious causes can result in RTO with an irregular interval between inseminations due to early embryonic death (EED) because of chronic physical stress.
Methods
This case report considers the data analysis, farm inspection and evaluation of feed, feeding, behaviour, climate and housing with regard to a farm of 500 sows experiencing an increased rate of return to oestrus.
Results
Data analysis an increased rate of RTO (average 11%) in sows of all parity. In addition an increased rate of too small litters was found. Finally, in 2nd cycle sows, a classical second litter syndrome was observed . The data, nor the anamnesis revealed any increased rates of abortions, mummies, decreased gestation length or diseased sows thereby excluding infectious causes of RTO and thereby suggesting EED. An evaluation of stressors for gestating sows was
needed to detect the cause of EED. A thorough evaluation of feed and feeding (in electronic sow feeding stations), as well as human-sow interaction did not reveal any abnormalities. However, video behaviour analysis revealed that -75% of
gestating sows rest in a sternal position, when instead lying in flank position is considered to be normal. Analysis of the climate analysis revealed a slightly increased ambient temperature (25ć) as well as an elevated aerial ammonia
concentration (75 - 112 ppm) due to the fact that incoming air fell into the manure pit. Analysis of the manure pit construction and housing revealed an improper design to fit housing of gestating sows.
Conclusion
As no other cause of EED was found it was concluded that the high aerial ammonia is the likely cause of EED on this farm. Advice is currently being implemented to reduce ambient temperature and pit ventilation. However, improper housing design restricts this farmer to implement a scientific based and sustainable solution. This case shows that combining extensive data analysis and a thorough evaluation of stressors enables the identification of causes of EED on farms.
| Original language | English |
|---|---|
| Publication status | Published - 11 Jun 2018 |
| Event | 25th International Pig Veterinary Society Congress 2018: Healthy pig Safe pork - Chonqqing, China Duration: 11 Jun 2018 → 14 Jun 2018 http://www.ipvs2018.net/ |
Conference
| Conference | 25th International Pig Veterinary Society Congress 2018 |
|---|---|
| Abbreviated title | IPVS2018 |
| Country/Territory | China |
| City | Chonqqing |
| Period | 11/06/18 → 14/06/18 |
| Internet address |
