Sheep farmers are losing almost a third of big bale silage at feeding out – up to £9.45 a bale at current values – but by cutting bales in half and feeding from two ring feeders instead of one, losses can be greatly reduced.
The trial involved two groups of sheep at Cae Haidd, a 125-hectare (310 acre) Farming Connect Demonstration Farm in the Snowdonia National Park.
Working with silage specialist, Dr David Davies, and Farming Connect, the farmers, Paul and Dwynwen Williams, embarked on a trial to measure losses.
Two feeding groups of 30 and 60 ewes were established to examine if the sheep numbers and the length of time a bale took to consume influenced nutritional losses.
Silages was sampled and weighed after each bale was opened; samples were also taken from the silage in the feeder and on the ground and this was weighed and analysed.
Five bales were fed in succession to each group - the 30-ewe group took 8.25 days to consume this quantity and the 60-ewe group, 4.25 days.
At 29.54% DM/bale or 2.31kg DM/ewe, waste was highest in the small group, which compared to 20.99% DM/bale or 0.94kg DM/ewe in the big group.
The daily total intake per ewe was 0.86kg in the 60-ewe group and 0.69kg in the small group.
Dr Davies says that if the cost of producing a tonne of silage DM was valued at £120, the losses would be £35.45/t DM for the big group and £25.19/t DM for the small group.
If a bale costs £32 to produce, the DM losses equate to a monetary value per bale of £9.45 for the 30-ewe group and £6.75 for the 60 ewes.
These results also mean that approximately 30% and 21% more silage is required to be produced than is utilised.
Rain may also be an important consideration in smaller groups; the longer silage is exposed to the elements the more water sheep consume therefore their intakes are lower.
Dr Davies says the longer a bale is open, the more likely are changes to its microbial population, putting sheep at risk of disease.
“Taking this risk alongside the potential for reduced silage intakes then the sheep could have a lower immune response, making them more vulnerable to infections and disease,’’ Dr Davies warns.
At Cae Haidd, the Williams’s had already switched to a different feeding system four years ago in a bid to reduce losses.
“In the year before we changed the system we were cleaning up the area around the feeders at the end of the feeding period and were really taken aback by how much had been wasted,’’ Mr Williams recalls.
Since then, silage has been chopped in a TMR feeder and deposited in lidded hay feeders for the flock of 600 Fonteira crossbreds and Penderyn ewes.
Not only does the small wire mesh prevent sheep from pulling out more silage than they need but the lids protect silage from rain.
The only downside, says Mr Williams, is that the feeders needs topping up more frequently than ring feeders – two days instead of four.
But Dr Davies cautions that putting bales through a chopper can increase issues with listeria.
“If there is contamination in a small part of the silage and you chop it, then the whole of the silage becomes contaminated rather than a small part,’’ he says.
“It takes less than 100 listeria to cause disease in sheep, so rather than one or two being infected you run the risk of all being infected.’’
Good quality silage is important to the system at Cae Haidd Ucha. Ewes receive no supplementary feed until they are housed three weeks before lambing. Silage used in the trial analysed at 48% DM, an ME of 9.6 MJ/kg DM and a crude protein of 12.2%.
After scanning in mid-January, ewes carrying twins or triplets graze swedes with supplementary silage as roughage whilst the singles receive silage only.
Mr Williams says the trial demonstrated the value of silage. “The silage fell onto rubber mats around the feeder to help with the collection and weighing process. Because of this we could feed it to the cattle but it was a visual reminder of the losses that do occur.’’
Tips for reducing silage losses
Cut bales in half and feed in two ring feeders
Chop silage in a bale chopper and feed out as needed
Alter the design of the ring feeder to allow any silage pulled out of the ring to fall into a trough