Irish Farmers Monthly -Forage & Nutrition Guide 2019

1. FORAGE &
NUTRITION
GUIDE 2019
€5

2. MOLASSES: IMPROVING SILAGE
QUALITY FOR GENERATIONS
Benefits:
• Increases dry matter and lactic acid content of grass silage
• Stimulates fermentation and facilitates natural silage preservation
• Reduces pH and ammonia nitrogen levels of treated forage
• Increases clamp storage capacity
• Rich source of natural sugar and energy

3. Forage & Nutrition Guide 2019
Editorial
Liam de Paor
Automation and technology on a Tipperary farm
Timmy Dwyer(pictured left) is milking a herd of 120
spring-calving cows
Planning for better silage
How to manage riskon the farm
Playing to ourstrengths
The benefits of maximising the contribution of grazed grass
in the diet of the sheep
Planning for next winter’s feeding
How do we value grass, silage oralternative feeds
Weed control in grassland
Weed infestation can reduce value of grassland sward
Remove the bull
Simplify the breeding process by removing the bull
Machinery News
Machinery editorNoel Dunne on the latest machinery news
Nutrition
The role of fibre forbetterfeed utilisation
Feed
Feeding the right fatty acids at the right time to the right cow
Protected urea
What is it and is it cost effective?
Solarsolutions
SolarPump Solutions forwatering livestock
Investment in farm buildings
There is an unprecedented demand fornew infrastructure
Clover and its benefits
Using leguminous crops as a way of reducing costs
Alternative forages
Where do they fit in?
A contractor recommends
Cathal Swan offers some recommendations forbaling
Fodder production strategy
Matt O’Keeffe looks at Westerwolds silage crops
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Editor: Liam de Paor
Design: Martin Whelan
Advertising Manager: Anna Douglas
Advertising Executive: John Sheehan
Machinery Correspondent: Noel Dunne
Chief Executive: Rebecca Markey
Publisher: David Markey
Accounts: Tricia Murtagh
Administration & Subscriptions: Sue Nolan
Publishers: IFP Media
Forage & Nutrition Guide 2019, Castlecourt,
Monkstown Farm, Monkstown, Co. Dublin A96 P924.
Tel: +353 1 709 6900 • Fax: +353 1 709 6933
Email: info@ifpmedia.com • www.irishfarmersmonthly.com
Copyright IFP Media 2019. No part of this publication may be reproduced in any
material form without the express written permission of the publishers.

4. With an estimated 350,000 more dairy cows on farms
since the cessation of milkquotas in 2015, the majority
of dairy farmers are now unwilling to keep and rear
surplus calves as they once did. As a result, more calves
have come onto the market – at a younger age.
Forhealth and economic reasons dairy farmers would be much
betteroff selling theircalves at an olderage. Forexample the
Wicklow Calf Company, which is a majorexporter, does not send
calves abroad until they are 21 days old and weigh approx. 50kg.
Howeverthe problem is that many dairy farmers do not have the
housing orlabourto cope with these extra calves. The increased
numberof calves has put pressure on prices and cross bred Kiwi
calves in particularare practicallyworthless.
While a significant numberof calves are exported, there are
problems with inadequate lairage facilities in France, which limits
the numbers that can be exported and this problem has also
impacted on prices. In addition, the beef sector is on its knees.
Some farmers – particularly those doing bull beef – have also
become disenchanted by the financial viability of such systems.
According to ICBFthe quality of the calves from the dairy herds
is getting worse, which is a real challenge forthe beef industry
so buyers are responding by paying less forthese calves and
weanlings. The ICBFand Teagasc are working towards the
implementation of a new index forthe breeding season of spring
2019 in orderto have high-quality calves forbeef production on
the ground the following year.
This will give the buyers of these calves a reassurance that they
are getting an animal that is capable of efficiently producing
a beef carcass that will hit specs in terms ofweight and
conformation.
In recent months, prominent beef finishers and sucklerfarmers
have raised concerns relating to the price of beef. According to
the farm organisations there is a gap of €140 perhead between
British and Irish cattle prices. In addition there is a lot of concern
overthe possible impact of Brexit on the beef industry.
Fortunately milkprices are looking good for2019 and future
prospects are excellent forthe dairy industry. Indeed, the sales of
more than 60,000t of SMP from the EU’s intervention stockpile is
a majorboost to dairy markets.
Dutch milkproduction has fallen 2.92 percent in the 2018
January to Decemberperiod according to ZuivelNL, the Dutch
dairy industry organisation. This is due to the restriction on the
national dairy herd imposed to reduce phosphate output. Dutch
milksupplies account fora further9.4 percent of EU supplies.
As regards New Zealand, restrictions from environmental
legislation enacted by the current Labourgovernment will likely
reduce scope forgrowth in the medium to longerterm. In its
Quarterly Dairy Report published last December, Rabobank
predicts “double digit” demand growth from China fordairy
products, due largely to excessive production costs restricting
domestic output.
Livestockfarmers’ experience last yearhas again highlighted
the need foradequate forage stocks of good quality to caterfor
increasing livestocknumbers. Indeed, we were very fortunate
to have a late winterand an early spring when grass growth was
exceptional, otherwise there would have been a severe fodder
crisis on most farms.
Using a top class silage additive and protecting the clamp with
betterquality silage covers will greatly minimise fermentation
and storage losses. The new milkquota is on land and labourso
dairy farmers need to significantly improve herd performance
and invest in new technology to make a decent profit from their
investment and increased milkproduction.
Livestockfarmers need to optimise production from grass so
as to increase milkyields/ha, to improve live weight gain and to
conserve more silage. So it makes sense to do more reseeding
with top class grass varieties. In this regard, grass palatability is an
important trait to optimise dry materintakes.
However, it does not make good economic sense to become
over-dependent on grass forage due to the vagaries of ourIrish
weather. It also does not make much sense fordairy farmers to be
competing forscarce rental land with tillage farmers.
A betteroption would be to forward contract with tillage farmers
to purchase fodderbeet, forage maize, barley and straw for
bufferand winterfeeding, using the diet feeders available on
many farms. The various storms overthe last yearand snow
falls in 2018 have highlighted the need forwell-constructed
animal housing. Farmers also need to invest in powergenerators,
heating in the parlourto prevent pipelines freezing and extra
milkstorage to caterforbiggerherds and potential delays in milk
collection.
Liam de Paor, Editor
Planningaheadfor
amoreprofitable2019
Farm incomes under p
for 2018
According to the December 2017 Central Statistics Office
(CSO) Livestock Survey, the number of cattle in Ireland was
6,673,600, an increase of 60,200 (+0.9 per cent) on December
2016. The number of dairy cows increased by 48,100 (+3.7 per
cent), while other cows fell by 23,700 (-2.3 per cent). Cattle
aged two years and over (excluding cows and bulls), increased
by 18,400 (+4.6 per cent). The CSO also reported that in June
last total sheep numbers were up by 73,700 (+1.4 per cent) to
5,252,900.
The earlywinter and late spring has, again, highlighted the
need for adequate forage stocks of good quality to cater for
increasing livestock numbers. Using a top-class silage additive
soil pH (ie. pH 6.3 fo
are applying less th
in the 1970s and ea
is the cornerstone f
It is also well-estab
of swards in Ireland
selenium and iodine
So, to optimise milk
need to improve an
Teagasc adviser or a
worthwhile.
However, it does no
Liam de Paor
4
Forage & Nutrition Guide 2019

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6. Timmy Dwyer is a dairy farmer
from Holycross near Thurles in
Co. Tipperary, milking a herd of
120 spring-calving cows. The
farm is home to 123 acres and an
additional 35 acres are leased.
While 120 cows bring a heavyworkload with them, Timmy
has help and takes every Sunday off to unwind and an
FRS relief milkercomes in during the milking season.
To reduce the workload and make his life easier,
he turned his attention to automation and
technology; something that Timmy believes
has benefited his farm and his system.
Last year, automatic calf feeders were installed on
his farm. In addition to the calf feeders, a drafting
system was also installed. This has helped
greatly in the springtime when it comes to AI.
Moreover, a feed-to-yield system is currently
being installed in the milking parlourbefore
the first cow is due to calve at the end of March.
Afterfirst hearing about Herdwatch five years ago,
Timmy is now a long-term member. He now relies on
Herdwatch to help in the everyday running of his farm.
Some of the features which Timmy uses
Herdwatch forinclude calf registration and animal
movements. As Timmy has to deal with a lot of calves
primarily on his own, he outlined that the scanning
method forcalf registration is a majortime saver.
“I go out and tag the calf and then registerall my calves as
I go along.You have no messing up with breeds ormale or
female; everything comes backproperly on the card.”
He also uses Herdwatch from a breeding perspective.
Through Herdwatch he can trackwhat cows were served and
CaseStudy:
Automationandtechnology
onTipperarydairyfarm
Forage & Nutrition Guide 2019
6
Author: Jane Marks, Herdwatch

7. Forage & Nutrition Guide 2019
when; and he can also trackrepeats. Timmy also highlighted
that Herdwatch has a live linkwith ICBFwhich means any
information on yourICBFaccount such as milkrecords, EBI
information, Euro-Stars, past breeding records, AI technician
serves and freeze brands will flow seamlessly into the app.
Notifications on the watch-board will allow Timmy
to generate a calving report in the springtime, so he
can see the list of cows that are calving and when.
“It is very easy to use, and the app will prompt you along the
whole time and – ifyou make a mistake – it’s easy to go back.”
Timmy finds Herdwatch extremely helpful when it comes
to recording remedies forBord Bia inspections. Herdwatch
allows farmers to simply scan theirfarm medicines into
the app using the camera on theirsmartphone. This gives
farmers the confidence that theirrecords are 100 percent
accurate and in the event of a farm inspection, all the farmer
need do is show the Inspectorhis reports from Herdwatch.
“Ifyou vaccinate cattle orinject ordose a cow, you bring out
your phone there and then and it’s recorded. Before, I’d walk
off and say I must do that tomorrow, but I might forget it.”
This Tipperary dairy farmeris a firm believerin
change and has adapted to new technologywhen it
comes to the day-to-day running of his farm.
“Everyyearwe will try and improve on something
just to make life a little bit easierand automation
and technology seem to be the way to go.”
HerdWatch
Timmy is part of a growing community of
over10,000 farms in Ireland and the UKusing
Herdwatch every day to manage theirfarms and
eliminate farm compliance paperwork.
HerdWatch is a specialist in on-farm technology, enabling
everyday farmers to save an average of three hours a
weekon paperwork. The app has won numerous awards,
including the SilverOnline Innovation Award at LAMMA
2019, Best New Product at Dairy Day 2017 and the Prince
Philip Innovation award presented at Buckingham Palace.
The business model is subscription-based, with a
free trial, and according to the company nine out
of 10 farmers that try Herdwatch, keep it. New
features are regularly added, saving farmers valuable
time by recording calf births oranimal health data
on the go and even without internet access.
You too can join Herdwatch by downloading the app
forFREE today from the App/Play Store. To find out
more visit www.herdwatch.ie orcall 0505-34400.
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8. When it comes to silage-making, there are two things to bear
in mind:
XX Having enough silage available, and of good enough
quality, is essential
XX With the weather, always expect the unexpected
So, how do you manage this risk? The answerlies in proper
planning. And it’s nevertoo early to start. Begin by calculating
how much silage you’ll need forthe winter. Forexample, ifyou
need 1,000 tonnes, workout how many acres of grass you’ll need
to cut to produce that, and how many cuts you’ll need to take?
But don’t stop there.
You neverknowwhat the season will bring, so askyourself ifyou
need to make a bit more as a contingency? Perhaps an extra 10
percent?You feed silage forsix orso months of the year, maybe
more. So prioritise silage-making as an important part ofyour
business. The quantity and quality ofwhat you produce can have
a huge impact on yourbottom line.
To make more silage orbetterquality silage, start by considering
reseeding. Overtime, weed grasses creep into olderpastures,
and might only utilise a third of the nitrogen that a good quality
perennial ryegrass can use. When it comes to making silage,
rememberalso that using a good quality, proven additive serves
two purposes.
By improving the fermentation, not only does it reduce the
tonnes of dry matter(DM) lost during storage, giving you more
silage available to feed, it also betterpreserves the quality.
That’s important, because ifyou want to make more milk
from forage, quality silage plays a big part. When considering
an additive, lookforone that comes backed-up with plenty of
scientific research. And make sure you orderin plenty of time.
Also, when planning forthis year’s silage production, why not
examine the silage you made last season? It’s often overlooked,
but carrying out a thorough inspection ofwhat’s in clamps now
can provide a whole list of pointers forhowyou could make
bettersilage this year.You will already know howwell yoursilage is
feeding, and hopefully have a silage analysis.
Combining these two with a clamp inspection provides a
powerful insight into things you could do differently orbetter. To
help, we have put togethera simple five-step process of clamp
inspection.
FIVE-STEP PLAN TO LEARN LESSONS FROM CLAMPS
SEE THE SILAGE
Begin with a visual inspection. If the clamp is emptierthan
normal, you can’t rewind the clockon last year’s grass growth,
but you can take steps to maximise grass yields in the future, by
replacing old leys with new higher-yielding mixtures.
Also, as well as assessing the silage quantity, checkthe colour.
Good grass silage should be a nice olive green. Darkerorblack
areas can indicate excess nitrogen (N) in the sward at harvest,
which leads to poorfermentation as N buffers the beneficial acid
produced during the fermentation process. With all fertiliser,
allow enough time afterapplying it before the grass is cut.
Planningformore&
bettersilagein2019
It’s a fact of life in
farming: when you
ultimately depend on
the weather to earn
your living, you are at
the mercy of risk.
Forage & Nutrition Guide 2019
8
Authors: Liam Gannon and JP Harkin, Ecosyl Business Managers, Volac Ireland

9. Everything you need
to produce quality silage
Volac Ireland
Volac House, Church Street,
Killeshandra, Co. Cavan, Ireland
LoCall No 00800 86522522

10. Remember, fermentation is essentially pickling of the grass in
which desirable acid, such as lactic acid, is produced by beneficial
bacteria, which then inhibits the growth of undesirable microbes.
Checkalso forsigns ofwastage. If there is surface wastage
evident on the clamp, it can mean airpenetration due to an
untidy face. Deeperwaste oran overall brown colourto the silage
can be anothersign of a poorfermentation. In this case, clamp
management needs attention – forexample clamp consolidation,
use of a proven additive, and clamp sealing.
Insufficient consolidation is common on farms – often because
consolidation machinery on the clamp can’t keep pace with how
quickly new trailers arrive with fresh grass. Also, when it comes to
sealing, a lot of farms still omit clamp side sheets. But concrete
clamp walls are porous, so theywill allow air to get in. Side sheets
should also extend all the way down to the floorof the clamp,
and be sufficiently long that they overlap on top of the oxygen
barrierfilm, which should be placed on top of the silage. At
least one blacksilage sheet should then be placed on top of the
overlapping side sheets, and adequatelyweighted to maintain an
air-tight seal.
SMELL THE SILAGE
As well as a visual inspection, checkhow the silage smells. It
should have a nice, clean smell, but should not be sickly sweet. If
it smells like vinegarorunpleasant, it can again be a sign of a poor
fermentation orthe wrong type of fermentation due to the wrong
type of bacteria, such as enterobacteria and clostridia.
A poorfermentation not only reduces silage quality but
also depletes quantity. So it’s important the fermentation is
dominated by the right type of bacteria.
The additive Ecosyl, forexample, drives the fermentation by
delivering 1 million beneficial Lactobacillus plantarum MTD/1
bacteria pergram of forage treated when used correctly.
Trials on grass showed more than 95 percent of the DM ensiled
was retained when treated with Ecosyl. This was 3.7 percent more
than without an additive used.
TEST THE TEXTURE
At the same time as smelling a sample of the silage, checkits
texture. Assess how much leaf material it contains relative to
stem material. Ideallyyou want mainly leaf material because this
is more digestible.
Stemmy, fibrous silage suggests the cutting date of the grass was
too late.You may have delayed cutting last season forextra bulk.
But reallyyou want to cut before heading. Afterheading, there is
a 0.5 percent decline in grass digestibility perday.
If the silage feels slimy, this again can mean excess N in the grass
at harvest, orthat sugars were too low – eitherway leading to
a poorfermentation and a proliferation of bad bugs, which are
starting to breakthe silage down.
TAKE THE TEMPERATURE
Anotherobvious sign that all isn’t well with silage is of the silage
is heating up. Heating is caused by aerobic spoilage caused when
airgets into the clamp and activates the activity ofyeasts and
moulds that start to feed on the silage’s nutrients, releasing heat
Insufficient consolidation is often caused because machinery on the clamp can’t
keep pace with how quickly new trailers arrive with fresh grass
Clamp side sheets should be used and extend all the way down to the floor,
because porous concrete is not as good as plastic for keeping out air
10
Forage & Nutrition Guide 2019

11. Forage & Nutrition Guide 2019
in the process. If this is happening, it’s a sign that consolidation
and clamp sealing need improving to halt the yeast and
mould numbers multiplying at the point of ensiling. Using an
appropriate additive will also keep silage coolerforlonger.
If the silage is slightlywarm but isn’t actually heating up, that
may just be latent heat that’s present. It’s only if the temperature
is increasing that aerobic spoilage is likely to be the culprit.
Therefore, checkclamp temperature at various time intervals and
checkhow quickly silage heats up afterit’s been removed from
the clamp.
MANAGE THE MOISTURE
The last step in the process is to assess the silage’s moisture
content.You knowwhat condition the grass was in when it was
cut. If the silage is drierorwetterthan you were expecting, it may
be a sign it was overorunder-wilted. The optimum is to wilt as
rapidly as possible to a target DM of 28-32 percent. This will not
only minimise the riskof clamp effluent from grass being too wet,
but also minimise losses from it being too dry – forexample from
grass blowing about in the field orlosses from aerobic spoilage
due to it being more difficult to consolidate to squeeze out air.
Alternatively, if the silage is wetterthan the grass originally
ensiled, this can mean the fermentation was inefficient and slow,
because slow fermentation produce excess water. Again, good
clamp management and use of a proven additive will help.
SUMMARY
In summary, grass silage is one of the cheapest feeds available
aftergrazed grass. And it could be providing yourmain forage for
six months of the year, ormore. Taking the time to calculate how
much you need and to evaluate howyou make it, so that you can
improve its production in future, can go a long way to keeping
your business sustainable and profitable.
There’s plenty of good information freely-available on making
consistently bettersilage.
Check the temperature of silage to see whether it is heating up
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12. Sheep, like all ruminants, can take a feed stuff like grass and
convert it into high quality protein and energy, which we can
consume. In addition to this, sheep meat contains a wide
range of essential micronutrients including iron, zinc and
vitamin B12. Pasture-fed lamb also has higherconcentrations
of the beneficial fatty acid CLA, compared to intensively
reared lamb.
This ability to take a human inedible carbohydrate source
and convert it into a human edible food, makes an important
contribution to global food production. Not least in Ireland
where approx. 90 percent of ouragricultural area is dedicated to
grazing. Recent research by Elizabeth Earle in Teagasc Athenry,
reported that when we measure all the feed consumed on
a sheep farm and all the meat produced on that farm, each
kilogram of sheep meat requires 22 kg of grass dry matter(DM),
4kg of silage DM and 0.9 kg of concentrate DM to produce (Earle
et al., 2017). This includes the feed consumed by the ewes, rams
and lambs on the farm. These figures were fora flockof sheep
with an average weaning rate of 1.7 lambs perewe mated.
Interestingly, when the weaning rate (as influenced by ewe type)
dropped to 1.5 lambs perewe mated, feed requirement increased
to 26 kg grass DM, 4 kg silage DM and 1kg concentrate DM perkg
sheep meat produced. This shows that increasing littersize, when
supported by grass grown, is actually a more efficient way of
converting feed to meat on a sheep farm. An increase in weaning
rate from 1.5 to 1.8 lambs perewe also increases profitability by
€440 perha (Bohan et al., 2018) where increased lamb output is
supported by enhanced grass growth and utilisation due to the
lowerrelative costs of grazed grass.
We can sometimes fall into the trap of thinking that sheep are
just like small cattle, but this is not the case. There are different
Playingtoourstrengths
The benefits of maximising the contribution
of grazed grass in the diet of sheep
Forage & Nutrition Guide 2019
12
Author: Assoc. Prof. Tommy Boland, School of Agriculture and Food Science, UCD.

13. Forage & Nutrition Guide 2019
types of ruminants. Ifwe thinkof the main evolutionary
advantage of ruminants as being the ability to digest fibrous
feedstuffs, then cattle are actually slightly more evolved than
sheep. This means that cattle are betterat dealing with poorer
quality forages than sheep, and therefore we need to pay
particularattention to the quality of grass we offerto oursheep.
While Irish sheep production systems are nominally pasture
based, recent survey data show that 40 percent of farmers
offerconcentrate supplementation to ewes in early lactation
and only 9 percent of survey respondents neversupplement
lambs with concentrates (Bohan, 2017). As a result, purchased
concentrates are the single largest contributor(~40 percent) to
direct costs on sheep farms (Teagasc, 2017). However, Campion
et al. (2017) reported that concentrate supplementation in early
lactation offered no animal performance benefit and served
only to reduce grass DM intake. Earle et al. (2017) showed that
as much as 90 percent of all lambs can be finished from pasture
alone. A farm must grow approx. 1 tonne of grass DM perewe
on the farm. So, ifyou are stocked at 12 ewes perhectare, then
12 tonnes of grass DM must be grown perha.
So as sheep producers we need to focus on maximising the
quality and quantity of grass available to oursheep at all times
of the year. Some of the key considerations here are grazing
the grass to a low post grazing sward height (approx. 4cm in
spring) and then allowing the grass time to recoverand regrow.
The mantra of grow it in three weeks and graze it in three days
is often cited. These recommendations workverywell from a
grass supply and grass quality point ofview. However, they do
expose oursheep to high levels of parasite burden. The vast
majority of infective larvae in the sward are found on the lower
5 cm of the grass plant. When we manage oursheep to graze
swards down to 4 cm, they are consuming quite a lot of parasite
larvae, but this low grazing height is essential to maintain grass
quality, especiallywith a perennial rye grass sward.
A furtherchallenge with growing 12 tonnes of grass DM per
ha peryearis the high nitrogen (N) requirement to support this
growth. Recent research workat UCD Lyons Farm has looked
at modifying current grassland seed mixtures to address some
of these challenges in sheep farming. A large animal grazing
systems studywas conducted at UCD Lyons Farm to test how
animals performed when offered foursward types overtwo
grazing seasons. Swards were established in September 2014
and were grazed in 2015 and 2016. The swards tested were
a perennial ryegrass only sward (PRG) receiving 163 kg N/ha/
year; a perennial ryegrass plus white cloversward (PRGWC)
receiving 90 kg N/ha/year; a six species sward (6S) containing
perennial ryegrass and timothy, white cloverand red clover,
ribwort plantain and chicory receiving 90kg N/ha/year; and
a nine species sward (9S) including the six species above plus
cocksfoot, greaterbirdsfoot trefoil and yarrow receiving 90 kg
N/ha/year. Each sward type was managed as a separate farmlet,
with 5 grazing divisions perfarmlet and operated undera
rotational grazing system stocked with 12.5 twin rearing ewes
perhectare.
Findings show that lambs grazing the multispecies swards had
highergrowth weights to weaning than lambs grazing perennial
ryegrass only. Lambs from the six species sward swards had a
weaning weight of 33.3kg at 14 weeks of age, and this was 2.5
kg heavierthan the lambs grazing perennial ryegrass. These
lambs grazing the 6S grew at a rate of 350 grams perday from
birth to sixweeks of age. Indeed, lambs on all sward types had
growth rates in excess of 300 grams perday forthe first six
weeks of life, and by including additional species to perennial
ryegrass in the sward lamb performance was improved.
As the lamb is dependent on the mother’s milkforall its energy
requirements at this stage of life, this suggest that these ewes
eitherproduced more milk, orthe milkthey produced had a
highercontent of solids (fat and protein).
Furtherkey findings from this study include the reduced
requirement fordosing to control stomach worms when lambs
were grazing swards containing herbs (chicory and plantain).
This is potentially a very important finding forIrish sheep
farmers. One of the key challenges in pasture-based production
systems is the need to control intestinal parasites such as
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14. stomach worms. This control has largely depended on the use of
chemical anthelmintic, though recent evidence shows there is
huge resistance within the parasites to these drugs.
A recent random sample of Irish sheep farms revealed that
all farms had parasite populations that had resistance to the
benzimadazole anthelmintic class and some farms had parasite
populations with resistance to the three main anthelmintic
classes available in Ireland.
The fact that animals grazing multispecies swards required less
dosing is critical as it points to a lowerreliance on these drugs to
control these parasites, as there are some anthelmintic properties
within the plants themselves.
Finally, the lambs grazing the multispecies swards were
slaughtered at a youngerage (same weight) than the lambs
grazing the perennial ryegrass only sward. This frees up grass at
a key time on sheep farms in the pre-mating season forflushing
ewes, ensuring correcting body condition score at mating and
supporting a good littersize within the flock.
On the environmental side a numberof key benefits are also
evident. More species rich swards support greaterinvertebrate
biodiversity, with earthworm numbers and diversity increased in
multispecies swards. Also some modelling data would suggest
the potential to reduce nitrous oxide emissions perkg of ‘grass’
DM produced when using multispecies swards, largely arising
from the reduced fertiliserN requirements.
There are some issues to considerhowever, these include the
issue of dealing with weeds in newly established swards, and the
persistency of the swards overtime.
Weed encroachment is an issue as there are no chemical
herbicides available in Ireland that would not remove either
the herbs orthe grass from the sward when controlling weeds.
Interestingly though, the multispecies swards were more
resistant to weed encroachment compared to perennial ryegrass
monocultures where no weed spraywas applied. A recent DAFM
funded project including collaborators from UCD, DIT, AFBI and
Massey University in New Zealand, with support from Devenish
Nutrition and Slaney Foods, lead by DrHelen Sheridan and myself
aims to address some of these issues and also examine the role of
multispecies swards in beef and dairy production systems and in
mixed cattle and sheep grazing systems.
With an everchanging policy environment relating to
environmental issues including biodiversity, waterquality, soil
health and climate change, and a more demanding consumer,
a continued drive to improve ouranimal production systems is
necessary, and multispecies swards may help to provide some of
the answers.
14
Forage & Nutrition Guide 2019

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16. According to the June CSO data the number of dairy cows was
up by 48,200 (+3.4 percent). In 2010, we had just over one
million dairy cows in Ireland and in 2017 – seven years later
– we had about 1.4 million cows so we definitely need more
grass, silage oralternative feeds to feed these cows in an
economical manner.
Based on figures from Teagasc, the increased milkproduction
experienced in 2018 was due to the 3.5 per cent increase in cow
numbers, combined with a 38 percent increase in compound
feed /cow used compared to 2017. On the typical dairy farm feed
expenditure was estimated to have increased by about 50 per
cent. Feed costs also rocketed on cattle and sheep farms.
On average 1,400kg of concentrate/cowwas used to fill the
gap left by the reduced grass growth on most farms across the
country during 2018. Renting extra land forgrazing orsilage and
competing forsame with tillage farmers is an expensive exercise.
Afterlast yearwhen most experienced varied quality and yields
in all crops, many livestockfarmers are reassessing theiroptions
forfeed next winter. Before we lookforward, we should make
sure that we have accurate information about the previous year’s
forage production. Many are talking about excellent quality crops
of maize grown in 2018 and a realisation that it was the crop least
affected by the drought. Maize has tested verywell with excellent
dry matter(DM) and starch results very common. It really boils
down to growing maize in the right site, using the right varieties
underfilm and applying the appropriate nutrients to the crop.
Poorcrops of maize in 2018 were generally sown late, under
fertilised and put in average fields without cover. Fodderbeet also
yielded prettywell fora finish despite the poorstart and drought
conditions. Those who grew successful crops of maize and beet
in 2018 are actually considering increasing theiracreage of these
Planningfornextwinter’sfeeding
This spring there was lots of grass on most farms and in general ground
conditions were excellent. There will be, however, in general relatively small
reserves left over to carry into next winter and with this in mind a plan for
forage production in 2019 should be considered sooner rather than later.
Forage & Nutrition Guide 2019
16
Author: Brian Reidy, Nutritionist

17. Forage & Nutrition Guide 2019
crops. The addition of a second forage source along with grass
silage to a livestockdiet such as a beef finisherration will increase
forage DM intake by between 10 and 15 percent. This will result
in reduced and expensive concentrate inputs being required.
Crops such as maize silage and whole-crop cereals will provide
high DM and starch contents forlivestockfarms. Fodderbeet
is also an excellent sugarenergy sources forcattle and cows.
Alternative forages have a huge roll in future beef ormilk
production in Ireland as they are generally farmore reliable
sources of high-quality energy forstockin comparison with the
extremelyvariable grass silages produced here yearly.
A viable option forsome farmers who do not have suitable land to
grow alternative forages orcereals may be to source them locally
from specialised tillage producers. Do yoursums based on a cost
pertonne DM of each forage before any decision is made.
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18. HOW DO WE VALUE OUR FEEDS?
The energy in the ration drives liveweight gain and milk
production. It also determines conformation and fat score in your
cattle along with body condition and fertility in yourdairy herd.
Most farmers lookat the feed cost perTonne of DM howeverfeed
cost perunit of energy is farmore important! The French protein
(PDI) system estimates the quantity of amino acids absorbed in
the small intestine from the dietary protein undegraded in the
rumen and microbial protein synthesised in the rumen. Teagasc,
UCD, the Department of Agriculture, Food and the Marine and
the feed industry have decided to adopt the French system of
feed evaluation incorporating the energy, protein (PDI) and
intake sub-systems. Typically grass and grass silage-based diets
supply an excess of N overenergy to the rumen resulting in the
inefficient conversion of feed N to milkprotein.
A central principle of the PDI system is the balancing of energy
and protein in the rumen and, thus, formulating diets using
this system should result in improved efficiency of utilisation of
feed N and potentially a reduction in the level of supplementary
protein required. The net energy of the feed is the amount of
energy the animal can actually use. The old system spoke about
Metabolisable energy (ME) which included energywhich wasn’t
available to the animal.
Net energy is now measured in UFL and one UFL is the equivalent
to the energy in one kg of air-dried barley.
GRASS SILAGE 2018- LEARNING FROM PREVIOUS YEARS
Of the 2018 silages I have tested on farm with my mobile NIR4
machine the main observations were that a lot of the silage
saved are eithervery dry due to the drought and/oroverwilting,
while the opposite is also true with many extremelywet silages
in pits where it was harvested in late autumn. The dry silage has
generally not preserved well, was heating at feed out and many
had harmful moulds. While the wet silage makes it impossible for
stockto consume sufficient DM.
Silage ideally should not be on the ground more than 24 hrs
unless it is being baled (even with bales the quickerit is wrapped
the better). Grass silage production is getting more and more
expensive everyyearand unfortunately its quality can be variable
depending on weather, cutting date and grassland management/
reseeding policy. Too much poororaverage silage in the pit will in
fact increase overall beef ormilkproduction costs.Year-on-year
we are producing poorersilages and as a result we are reducing
animal performance from forage and depending more on
concentrates which is increasing production costs. The solution is
in yourhands!
Mean grass silage quality parameters from Teagasc clients in 2016
WHAT IS YOUR SILAGE STRATEGY?
Those who are serious about producing quality grass silage have
a plan in place to produce the best silage possible. Any plan
should include an early grazing strategy ornot grazing, a soil
nutrient test, a fertiliserand slurry programme, a weed control
programme, a reseeding programme, a planned cutting date and
a good ensiling strategy.
Now is the time ofyearto set out yourgoals forall of the above
aspects. Those producing quality silage in 2019 will be cutting it
in early May and will have the first application of fertiliserout early
weatherpermitting. With the amount of grass on silage ground
this yeareven earliercutting dates should be aimed for. Is grazing
silage ground this yeara sensible strategy? I would suggest not.
It will potentially delay the first cut date and reduce quality. Once
grass heads out and has a stem it will cost you more money to
balance it correctly as silage.
Silage quality used for comparison
1st Cut Silage 2nd Cut Silage
Dry Matter % 25% 24%
UFL/Kg D.M. 0.76 0.71
D.M.D. % 68% 64%
Crude Protein 12% 11%
Silage quality used for comparison
1st Cut Silage 2nd Cut Silage
Dry Matter % 25% 24%
UFL/Kg D.M. 0.76 0.71
D.M.D. % 68% 64%
Crude Protein 12% 11%
Yields & Costs
Grazed
Grass
1st
Cut
2nd
Cut
Maize
Plastic
Maize
no Plastic
Whole
Crop
Sugar
Beet
Fodder
Beet Kale Rape
Tonnes/ ha 75 20 17.5 50 45.5 24 60 81 37 42
€/ha 855 625 587 1643 1383 940 1894 1894 697 446
Rent/ha 625 250 250 625 625 625 625 625 250 250
DM 17 25 24 30 27 35 20.0 16.0 15 12
Tonnes
DM/ha 12.8 5.0 4.2 15.0 12.3 8.4 12.0 13.0 5.3 3.5
UFL/Kg DM 1.00 0.76 0.71 0.85 0.80 0.75 1.15 1.12 1.12 1.03
18
Forage & Nutrition Guide 2019

19. Forage & Nutrition Guide 2019
Rushes thrive in wet, acidic conditions and will out-compete
grass on land with low soil fertility. Poached fields and poor
grass growth also allow docks and thistles to multiply. The
seeds left in pasture in 2018 from the above weeds will
readily germinate and spread this yearif action is not taken.
Growing more grass so it can actively compete with weeds such
as rushes, is one way of preventing infestation. An acidic soil
does not directly favorrushes, but it will significantly inhibit grass
growth, so liming low ph. mineral soils is essential. This should be
followed with an application of phosphorus and potassium where
necessary to bring yoursoil nutrient level to the optimum status.
RUSHES
The soft rush is the most common of the many rush species. It
is recognised by the dense tuft of brown flowers coming from
the side of the stems and a continuous white centre (pith) when
the stem is peeled back. Soft rush can be controlled with MCPA
or2,4-D, applied in spring/summerwhen growth conditions
are good and weatheris suitable. Application of Straight
MCPA is prohibited from Octoberthrough to February. Strong
rushes should be cut and removed, with pesticide applied to
the regrowth. Weed wiping with a Glyphosate product such as
Roundup orGallup, using a tractororquad, has the advantage
of the product being applied primarily to the target plant. It
uses about 1/3 of the amount of herbicide, (compared to boom
spraying) and produces much lowerlosses to waters. Forfarmers
with Low Input Permanent Pasture in GLAS, chemical control of
rushes can only be carried out byweed wiping orspot spraying.
MCPA is not licensed foruse with eitherof these application
methods. The only products approved foruse in weed wipers are
those based on the active substance glyphosate.
Weedcontrolingrassland
High levels ofweed infestation can significantly reduce the
digestibility and nutritional value of the grassland sward.
19
Author: Ivan Kelly, Sustainability Programme Advisor, Teagasc Athenry

20. DOCKS
Dockseed can remain viable forover50 years in soil, have a
large root system, and are very opportunistic in terms ofwhere
they germinate. Open swards orswards aftercutting facilitate
light reaching the soil surface which allows germination. Best
control of docks will be achieved when docks are actively growing
and nutrients are actively being transported to new foliage
and roots. If seed stalks are seen on the plant orif the dock
has diseased leaves oris underpest attack, it is betterto cut/
top orgraze and allow re-growth of the docks before applying
chemical. Soil potassium levels should be maintained at Index
3, as oversupply of potash favours the higherneeds of the dock
overgrass. Rotating silage ground can also be an effective dock
control strategy. Use of herbicides based on dicamba, triclopyr
and fluroxypyr(e.g. DockstarPro, Ban Dock) will give season-
long control of docks plus a wide range of common grassland
weeds. Where cloveris of consequence, Eagle orProspect may
be applied. If a suitable herbicide is applied to small docks after
reseeding, long term control is achieved.
CREEPING THISTLES
Creeping thistle is the most widespread and troublesome of
the thistle family. It mainly spreads by creeping roots which can
be meters in length but also spreads bywind-blown feathery
seeds (July and August). To make matters worse, it can grow
new plants from small fragments of its roots, thus appearing to
explode when reseeding is carried out. They cause most damage
by preventing animals grazing around them. Thistles emerge in
the spring at different times, so topping is a useful tactic to even
up the growth stages before spraying. Chemicals such as 2,4-D,
20
Forage & Nutrition Guide 2019

21. MCPA and Dicamba reduce top growth but do not translocate
down to the roots. Formore persistent control use Thistlex, Pastor
orForefront but follow-up sprays will be needed. Many sprays
will kill orseverely slow clovergrowth, so checkproduct labels
carefully.
SUSTAINABLE USE DIRECTIVE
Herbicides commonly used on grassland such as MCPA have
being detected in drinking waterin recent years. Unfortunately,
once the pesticide gets into the watersupply, there is no way
of treating the waterto make it safe. Extreme care is therefore
necessary to ensure that losses are stopped at (i) Point Source -
in the farmyard at storage, filling and washing; and (ii ) Diffuse
Sources - losses at application in the field through run-off and
drift. All farmers that apply pesticide must be registered as a
Professional Userand have completed the appropriate training.
The following precautions should be taken with all herbicide:
XX Read and follow the product label
XX Do not fill sprayers from watercourses
XX Don’t spray if rain orstrong wind is
forecast in the next 48 hours
XX Don’t spray on waterlogged soils
XX Considerweed wiping ordrift reducing nozzles
XX Markout a minimum 5-metre buffer
zone from any riverorlake
XX Containers should be triple rinsed, washings
put in the sprayer& sprayed on grassland.
XX All sprayers that are more than 5 years old having a boom
width of >3m, must have passed a Pesticide Application
Equipment Test by a DAFM approved inspector
When spraying, rememberto keep a record of the products, when
and where theywere applied, and the concentration at which
theywere used.You may be required to furnish this information if
you are selected fora cross compliance inspection. A key message
from the new Agricultural Sustainability Support and Advisory
Programme (ASSAP) is that good weed control is achieved by the
use of all appropriate Integrated Pest Management options. Best
practice on lime, fertilizer, grazing and topping should always be
part of the overall control measures. Ifwe apply herbicide in a
targeted, precise and sustainable manner, it will help minimize risk
to ourenvironment and maximize grassland productivity.
Forage & Nutrition Guide 2019
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21

22. A lot of Irish farmers use bulls forbreeding on theirfarms. A bull
detects cows in heat and will get them pregnant, without the
farmer’s interference. If the bull is fertile and in good condition,
he can get a herd of approx. 40 cows in calf. Ifyou have a larger
herd size, you will need multiple bulls. However, there is a lot of
workinvolved with keeping a bull. Thinkabout the increased
labour(vaccinating, dosing, TB-testing), health and safety
aspects (bulls are very unpredictable) and biosecurity (sexually
transmitted diseases such as Campylobacter, BVD and IBR).
Also, most bulls used on farms are of lowergenetic merit than the
bulls used at AI-stations and they are not able to pickout sickor
cystic cows foryou. Pregnancy dates can get uncertain, because
repeating cows can get caught again a fewweeks later. Because
of this the accuracy of the pregnancy checkwill decrease as you
can only confirm a cow pregnant 30 days afterbulling.
A cow needs to get pregnant and give birth to a calf every 12
months. A cow’s gestation lasts for280 days. This leaves 85 days
to get the cow pregnant again. Aftercalving, a cow’s body must
recover. To conceive again, heruterus needs to repairitself and
restore to its original size. This process usually takes 45 days and is
called the voluntarywaiting period (VWP).
Now the farmeris left with a 40-day interval in which he needs
to breed the animal. A cow’s cycle takes about 21 days, this gives
the breederless than three heats to get his cows backin calf
which is very challenging. However, this is the most profitable way
of producing milkin any system anywhere in the world. The 2018
National average calving interval in Ireland was 387 days (source
ICBF) which means there is plenty of room forimprovement in
Ireland. Getting cows pregnant within the ideal timeframe of the
40 days breeding period depends on many factors. To realise a
calving interval of 365 days you need to have a healthy cow and
optimal heat detection. If using bulls to try to achieve this, it is a
Removethebull
andsimplifythebreedingprocess
Lisa Herlihy at Dairymaster argues the case for removing
the bull to create greater efficiencywhen breeding
Forage & Nutrition Guide 2019
22
Author: Lisa Herlihy, Dairymaster

23. Forage & Nutrition Guide 2019
very labour-intensive option that presents high riskwhich comes
at a time when farmers are very tired aftera busy calving period.
PeterCagney farms in Ballingarry in Co. Limerickin partnership
with his fatherJohn and uncle Pat. They are currently milking just
over350 cows. Peterhas been involved on the farm with the last
10 years. When he first joined the farm, theywere milking approx.
120 cows, they also had beef at that time which they replaced
with cows overtime. They now have a contract rearerwhich
has allowed them to expand even furtheras land has always
been the limiting factor. Petercompleted a three-yearcourse
at Greenmount Ag College in Co. Antrim and afterthat spent a
year travelling and working in farms in New Zealand and Australia
which allowed him to see dairying at scale.
In the past the breeding system used on the Cagney’s farm was
three weeks of artificial insemination with tail paint and then
bulls. However, they found this to be very labourintensive and
were constantlyworried about safety on the farm as many bulls
had turned dangerous in the past and with staff on site this is
always a majorconcern. Requiring someone in the parlourthat
was able to draft bulling cows everydaywas also an issue. When
they looked at how they could improve the working environment
on the farm they decided that theywanted to automate the
whole breeding side of things as it was the most labourintensive
and safetywas such a worrywith the bulls.
They looked at different heat detection systems on the market
and talked to several people about the different system available
during the evaluation period. When it came to decision time the
two most important factors to them were the backup service and
recommendations from otherfarmers in theirdiscussion group
and they chose the DairymasterMooMonitor+ as the choice for
them. Peter’s favourite feature of the MooMonitor+ system is
how simple the app is. “Everything is done foryou, not having to
be there in the morning gives me time to do othermanagement
tasks. In addition to this it has also reduced stress and fatigue
at the busiest time of the year. It has completely simplified the
breeding process in that it is now nearly hands off”
“We use the app forpre-breeding – it’s great!You have all the
information very simply, it removes the labourfrom it.” While
Peterwould be well up on technology, John wouldn’t have been
very familiarhow to use technology howeverJohn is also an avid
userof the app. They both find that the simplicity of the app is key
to the system.
The Cagney’s also have Dairymasterdrafting and he finds that
“the drafting and MooMonitor+ takes care of the breeding side
of things now”. This is theirthird season using MooMonitor+ and
while theirfigures from when theywere tail painting were very
good the MooMonitor+ has reduced empty rates even furtherby
4 percent. The reduction in labouris huge: “Two to three times a
weekit is saving one person permilking tail painting alone”.
Concluding, John notes that MooMonitor+ is now a crucial part
of his business: “I wouldn’t be milking cows without them – with
tail painting you are only guessing and too many bulls around
the place makes it chaotic and too dangerous especiallywhen
you have staff to lookafter. The MooMonitor+ means we can
farm safelywith great peace of mind.You could lookat it and
say it’s an unnecessary expense but, it’s a lot bettervalue than
putting something like a new tractorinto the place. Submissions
were always in the 90s on ourfarm howeverwith MooMonitor+
we have increased submission by a few percent without the
hard labourand hassle.” They also find that they are saving a lot
of straws as in the past when tail painting they used to breed
the “doubtfuls”. When they looked at the return on investment,
removing the seven bulls and replacing them with cows will
pay forthe system in seven years; as faras theywere concerned
everything else is a bonus and it has given them a lot more than
that already in season three.
One of the most important things to the Cagney’s when
evaluating farm purchases is the backup service “With
Dairymasteryou have a brilliant backup service, there is always
someone there to answera question if needed. We relied on the
MooMonitors 100 percent in yearone when we installed the
system and it worked!”
On the breeding side of it, 97 percent or98 percent of the herd
are crossbred, small cows get Friesian straws and big cows get
Jerseys, straws are picked based on kilos of milksolids with high
percentages, fertility and maintenance +15.
“All in all, we considerit moneyverywell spent, we have great
results, a lot saferworkenvironment, a big reduction on the
amount ofworkon the farm and it also makes it a lot easierto
organise coveron the farm.”
Peter Cagney
23

24. McHale Orbital
Bale Wrapper
The McHale Orbital High Speed Round Bale Wrapper
is the latest addition to the McHale bale wrapper
range. According to the company, they have harnessed
the proven vertical wrapping ring technology used
in the McHale Fusion to deliver a high output
bale wrapper which is capable of keeping up with
multiple balers. “This wrapper also offers farmers and
contractors a high speed wrapping solution which
delivers consistent and even overlap and achieves
optimum levels of fodder preservation and quality
when wrapping bales of fodder from 3 foot 3 inches
or 1 metre up to 4 foot 8 or 1.45 metres.” The McHale
Orbital High Speed Round Bale Wrapper has been
designed with in-built film break sensors, which
immediately detects if the film breaks or runs out on
either dispenser. The machine alerts the operator in
the cab and automatically switches to single dispenser
mode. Film loading can be carried out from the left
hand side of the machine and when the first roll is
loaded and the access door is closed, a button can be
pressed which will index the second dispenser to the
loading position. John Biggins, McHale International
Sales Manager, explains: “We have a number of
machines already at work around the factory and both
farmers and contractors are very happy with them.
The Orbital Bale Wrapper provides an unrivalled
high speed wrapping solution through the use of the
vertical wrapping ring. By harnessing proven Fusion
technology the McHale Orbital offers high speed
wrapping with low running costs.”
McHale’s ProGlide Mower Range
Earlier this year at the FTMTA Farm Machinery Show in
Punchestown, McHale exhibited the latest offerings in the
McHale Pro Glide Mower Range. McHale offer three products
from this range; the McHale ProGlide F3100 Front Mower,
the R3100 Rear Mower and the B9000 Combination Mower.
All Mowers are fitted with 3 metre cutter bars with tine
conditioners and benefit from a number of novel features
which result in better ground following ability and quicker
reaction times to changes in ground conditions. For the 2019
season, the McHale Pro Glide B9000 Combination Mower
comes with an optional Hydraulic Width Adjustment. The
operator can hydraulically adjust the width position of the
rear mowers to eliminate striping on slopes and curves. The
hydraulic rams integrated into the mower beams shift the cutter
bars sideways either together or independently to allow for up
to 400mm overlap on each mower. To achieve the maximum
performance and results from a front and a rear or combination
mower the cutter bar and mower suspension works together
to deliver uncontaminated forage. As a result McHale have
developed unique patented ground adaption technology which
deliver 3 dimensional ground contour tracking for its ProGlide
range of rear and combination mowers which allows an arc of
movement from left to right and forward and back movement
adjusting to changes in the contours of the ground. James
Heanue, Irish Sales Manager for McHale explains: “To maximise
the feed value of forage it is important that grass crops are
cut when the sugar content is highest, and that the mower
leaves clean crop stubble and produces quality forage free
from impurities. Our design team combined there specialist
knowledge of crop harvesting, energy and know-how to
develop the McHale ProGlide range of mowers. I feel these
products offer a number of unique features which will deliver
better ground following ability and better cut quality.”
MACHINERYREPORTMachinery correspondent Noel Dunne reports on the latest developments in the machinery world
24
Forage & Nutrition Guide 2019 MACHINERY

25. Forage & Nutrition Guide 2019
MF RB 3130F and MF RB 3130F Xtracut
The MF RB 3130F features a sleek new appearance,
with redesigned side panels enhancing ergonomics and
numerous improvements under the covers to improve
performance and bale quality. Additional versatility to
produce chopped forage for easier feeding and enhanced
feed quality is offered by the MF RB 3130F Xtracut. The
18 Special Powergrip rollers in the fixed chamber design
ensure constant grip for best bale shape and appearance,
now enhanced by mechanical tail gate locks with
pressure sensors on both sides to help maintain bale
shape. Left-right indication allows the operator to monitor
the outer layers of bale via the in-cab screen.
Xtracut 17 and 25 versions feature two sets of hydraulically
operated knife banks controlled from the cab, allowing
the operator to choose a single knife bank, both knife
banks or the disengagement of all knives for ultimate
flexibility.
MF RB 3130F Protec and
MF RB 4160V Protec
The new MF RB 3130F Protec and MF RB 4160V Protec
balers combine all the benefits of the MF fixed and
variable chamber balers with the addition of an integrated,
specially-designed wrapper device for fast, non-stop
baling and wrapping on the go.
A lower crop elevation angle reduces the overall baler
height, improving stability and allowing safer and faster
hillside operation. The new design features two active
guiding plates on both sides of the baler clearly directing
the bale to the centre of the wrapper plate. Designed
to withstand the heaviest bale loads, the robust frame
operates smoothly for trouble-free wrapping, bale after
bale. The wrapping table is lowered for unloading, thus
minimising the bale-rolling speed, preventing film damage
and maintaining the ideal bale shape. The E-Link Pro
monitor has integrated ISOBUS technology and features
a large bright screen which offers monitoring of multiple
parameters, giving the operator more information and
control of the baler. The MF RB 3130F Protec and RB
4160V Protec can also be controlled via the tractor’s
ISOBUS monitor, where fitted.
Massey Ferguson lead the way
Massey Ferguson (MF) recently unveiled a range of new products in the MF Hay and Forage range, to further strengthen and
expand the range of machines available for farmers and contractors. The new models comprise an upgraded and new-look
MF Fixed Chamber Round Baler range, brand new MF Fixed and Variable Chamber Baler and Wrapper Combination Units
and the brand new Francesco Quaranta, Vice President Sales & Marketing, Massey Ferguson, EME, explained: “Enhancing
our forage range to precisely meet the needs of farmers and contractors is our goal, offering solutions to suit their end use
or market requirements, their crops, and their terrain, and this is clearly demonstrated in these new machines. With this new
introduction and development, we underline our promise of providing our customers and dealers with a full line offer.”
Massey Ferguson lead the way
Massey Ferguson (MF) recently unveiled a range of new products in the MF Hay and Forage range, to further strengthen and
expand the range of machines available for farmers and contractors. The new models comprise an upgraded and new-look
MF Fixed Chamber Round Baler range, brand new MF Fixed and Variable Chamber Baler and Wrapper Combination Units
and the brand new Francesco Quaranta, Vice President Sales & Marketing, Massey Ferguson, EME, explained: “Enhancing
our forage range to precisely meet the needs of farmers and contractors is our goal, offering solutions to suit their end use
or market requirements, their crops, and their terrain, and this is clearly demonstrated in these new machines. With this new
introduction and development, we underline our promise of providing our customers and dealers with a full line offer.”
MF TW 130 trailed wrapper
The MF TW 130 trailed wrapper is a new addition to the
MF hay and forage range and is ideal for operators who
want to wrap bales separately, offering protection and
preservation of fodder quality. A straightforward wrapper
with a rigid frame, the MF TW 130 offers an exceptionally
low wrapping table and semi-automatic controls for fast
and reliable trouble-free operation. A strong, welded
loading arm easily lifts bales up to 1.30m diameter and
a weight of up 1000kg with one press of a button. The
required number of film layers can be adjusted to suit
conditions and crop while the pre-stretching device is
designed to work with 500mm or 750mm rolls and can
be set at 55 per cent or 70 per cent stretch for tighter
wrapping and reduced film consumption.
The versatile MF TW 130 trailed wrapper is built to last
and is capable of handling 1.25m wide bales from 0.9m
to 1.30m in diameter. The simple to use E-Link Basic
control offers semi-automatic control of the wrapper
loading, wrapping and unloading requires only one push
of a button per cycle.
25
MACHINERY

26. During the digestion process ruminant animals may
only absorb 5 per cent - 20 per cent of the nutrients in
their feed, with the reminder passing through in their
manure. Grazing animals naturally recycle this onto the
pasture, while for housed animals’ slurry has to be stored
and applied to the ground in a safe and environmentally
friendly manner. To maximise the nutrient value from
slurry, attention to detail in relation to the timing of
application, choosing the correct application method to
deliver the nutrients required by the crop and selecting
appropriate spreading technology. This will help to reduce
the use of purchased chemical fertiliser and help improve
farm profitability.
There are environmental concerns associated with
applying slurry and to minimise these risks it is important
to consider - the timing of application, weather factors,
soil type, field aspect (ie. hilly vs flat), proximity to water
courses etc. Application systems such as the Abbey Band
Spreader, Abbey Trailing Shoe and Abbey Tri-App and
Abbey Shallow Disc Injector spreading systems maximise
the nutrient recovery value from the slurry and minimise
any negative impact to the environment.
Value of Animal Manure
A dairy cow will product around 1.5 tons of slurry per
month and over a five-month winter this could save over
€50 worth of conventional fertiliser. On the pig side a sow
and her progeny will product 20t of slurry per year, which
could save over €140 worth of conventional fertiliser.
Deciding what tanker to buy
The size of Slurry Tanker depends on the following:
The volume of slurry to be applied
XX The horsepower of the tractor available
XX Distance from the slurry storage area to the fields
XX Soil aspect – level versus hilly
XX Soil type – clay, loam, heavy/light soil
XX Standard, Recess, Tandem or Tri-Axle Tanker
model type
XX Legislation
XX Crop to be fertilised and timing of application –
grass, cereal, maize, root crops etc.
XX Road safety for transportation
XX Slurry Management System
XX Abbey have developed a six-step Slurry Management
System.
Slurry storage and preparation
During storage Phosphorus, organic nitrogen and
micro ingredients tend to segregate and build up in
high concentrations in the bottom layer of the slurry.
Phosphorous levels can be up to five times higher in the
bottom layer than the middle layer.
Ammonium nitrogen and Potassium do not tend to
segregate as they are water soluble. Proper agitation
ensures the concentration of nutrients is consistent from
the first load to the last load of slurry applied. It enables
faster filling of the Abbey Slurry Tanker and more rapid
emptying in the field through the inverted splash plate or
Turningslurryintotheidealnutrientprovider
Author: Michael A.O’Grady, Sales, Marketing & Business
Development Manager, Abbey Machinery
26
Forage & Nutrition Guide 2019 MACHINERY

27. Forage & Nutrition Guide 2019
applicator. Abbey Tornado range of pumps rapidly mix
slurry into a homogenous mix.
Slurry Transportation
The choice of tanker that rapidly fills and empties is
crucial to reduce workload. Having a tanker that is safely
towed behind the tractor and carries the maximum
volume of slurry, with all the appropriate safety features
and lights for visibility on the road. Abbey have an
extensive range of 37 model to suit from small to large
scale operations.
Application Technologies
It is becoming increasingly popular to spread slurry
through applicators (Abbey Machinery Tri-App, Trailing
Shoe, Band Spreaders or Shallow Disc Injector). Some
of the key benefits of using applicators are that they -
deliver the nutrients directly to the root zone (below the
canopy of the crop); reduce ammonia emissions by up
to 90 per cent; preserve soil structure; reduce odour
emissions; and minimise soiling of grass which reduces
rotation length when grazing.
Environmental Considerations
Whether is protecting water courses or simply applying
slurry where to maximum available Nitrogen in the
slurry to the plant it is vital to protect the environment.
Applicators have enormous benefits in this area. In
addition, timing of application (for example not spreading
after heavy frosts or before heavy rain) is critical.
Minimising soil compaction
Compaction to the top soil and upper subsoil typically
takes one to five years to repair, depending on the
severity of compaction. Lower subsoil compaction can
take from five to ten years to recover. For these reasons,
farmers are getting more conscious of soil compaction
and are looking for ways to minimise field damage. It can
cost as much as €200/hectare in reduced output from
the field. Wheel choice has a major bearing on potential
compaction of both top and sub soil. In general, low
ground pressure tyres can be used to reduce the
potential for compaction. Wheels with larger radius
(longer rolling circumferences) and greater width all have
the potential to reduce the impact of the machines on
the soil. Bigger slurry tankers and higher horse power
tractors require the correct wheel specification to
minimise their impact on the ground.
Nutrient Management
Flow control technology to apply slurry at a given tractor
speed is now available. Along with much more technical
advancements to ensure exacting levels of slurry are
applied to the right areas to get the most from slurry.
CALL ABBEY
TODAY
ABBEY MACHINERY LTD. CLONALEA, TOOMEVARA, NENAGH, CO. TIPPERARY, IRELAND.
TELEPHONE : 00353 67 26677 | FAX : 00353 67 26778 | INFO@ABBEYMACHINERY.COM
www.abbeymachinery.com
SLURRY
MANAGEMENT
SPECIALISTS
• Fully integrated chassis and
tank for a longer working life
• Weight Sensing Sprung
Drawbar System for
operator comfort
• Collared Dish-ends for
increased overall strength
• Patented ‘Double Trap
System’ for maximum pump
protection
• From 1300g to 6000g
ROI SALES: MICHAEL KINSELLA +353 (0)86 854 0365
NI SALES: DAVID O’MALLEY +44 (0)73 931 16850
(Standard, Recess,Tandem and Tridem)
OVER
OFFAR
M
ING MAC
HINERY
OFFA
R
M
ING MACH
INERY
27
MACHINERY

28. The new HIT 8.9 T is a compact,
cost effective, efficient tedder with
a working width of 8.86 m that can
be powered by tractors with as little
as 60 horsepower. Like all tedders
in the latest Pöttinger generation,
the heart of the new HIT 8.9 T is
the innovative Dynatech rotor unit.
Dynatech guarantees clean and
tidy operation: tidy crop pick-up,
clean forage, tidy spread pattern
and a clean machine. A small
rotor diameter of 1.42 m delivers
a cleanly tedded crop. Optimum
ground tracking of the individual
rotors ensures clean forage and
minimises raw ash contamination.
The forage is distributed tidily and
uniformly to form a neat spread
pattern. The spreading angle can
be adjusted on each rotor in five
different positions without the need
for tools, resulting in the best match
to forage conditions. Thanks to
the swept shape of the arms, the
crop cannot snag and there is no
wrapping around the rotor. This
keeps the rotors free of forage,
resulting in a clean machine. The
unique rotor geometry offers even
more advantages: forage is picked
up more easily and is subjected to
less of a beating between the tine
arms, meaning lower losses due to
disintegration. This careful uptake is
achieved by the sweeping arms that
‘pull’ the tines. The tines are under
less stress, so service life is increased
as a result. The proven, closed tine
saver system is also integrated.
The tine carrier arms are precisely
positioned on the rotor dish and are
bolted to the hub for stability. Large
gears and bearings on the Dynatech
rotors ensure smooth operation.
The unique Liftmatic Plus lifting
mechanism gives the tedder
a true headland position that
provides major advantages: high
ground clearance, swaths remain
undamaged when driven over,
unrestricted reversing and improved
manoeuvrability. The new tedder is
also compact in storage: thanks to its
low storage height (2,70 m), it takes
up very little space.
NewSIPAIRcutting edgeswathing
technologyfromFarmec
The new SIP AIR 350F represents the cutting edge
of swathing technology. The SIP AIR concept
combines the patented flexible pick-up with the
cross belt transporter to provide high speed swathing
performance. The camless flexible pick-up spring tines
barely touch the ground to provide cleaner raking
with significantly reduced crop contamination.
The smaller diameter pick-up and its slow rotation enables
better forage flow with zero turbulence and reduced
leaf loss. Pick-up tine saver are standard equipment. The
robust linkage with hydro-pneumatic float system follows
the ground contours perfectly and provides excellent
responsiveness to changes in ground conditions. Height
control is provided by freely rotating discs supports
positioned close to the pick-up reel. The hydraulic drive
enables perfect crop flow to either side of the pick-up.
The AIR swather is available both in tractor mounted
and trailed options with working widths of 3.45 and 4.95
meters respectively. The swath width can be adjusted
between 0.50 and 1.20 meters. With tractor power up
to 120HP capacity is rated at up to 10 ha/h. The SIP
company is one of the leading suppliers of heavy duty
grass harvesting machinery. Based in Slovenia, SIP has
over 60 years’ experience in the manufacture of a full
range of mowers, tedders and rakes. Farmec Ireland Ltd.
are the sole importers for SIP heavy duty grass harvesting
machinery in Ireland including the Northern Ireland.
PöttingerHIT8.9T
28
Forage & Nutrition Guide 2019 MACHINERY

29. Theroleoffibre
forBetterFeedUtilisation
Forage & Nutrition Guide 2019
The role of nutrition
for animals has always
concentrated on dry matter
intake, energy, protein and
minerals amongst other
nutritional parameters. Over
the years we are focusing
on trying to increase
productivity, but this needs
to happen through efficiency
gains otherwise there will be
no margin in it for the farmer.
Research, education and a willingness to learn new techniques
has allowed us to become bettermanagers of ouranimals and
farms overthe years, and so we are learning new methods in
orderto drive this efficiency in oursystems and animals.
Concentrate feeding; higherquality silage and otherideas
have pushed production highersometimes at the expense of
the animal but, more importantly, the rumen orstomach of
the animal. Forthis reason, fibre has become and even more
important parameterwhen it comes to production. Fibre drives
rumen health and in a simplistic way counteracts the energy of
the diet coming in the form of starch and sugars contained with
grain and grass etc. Excesses of these types of energy can lead
to acidosis in both dairy and beef cattle, lowerbutterfat formilk
production and can also lead to secondary issues like lameness. If
we compromise the rumen of the animal, we are shutting down
the engine of the animal and production and weight gain will
follow suit.
There has been increasing emphasis placed on achieving higher
quality and digestible forages, particularly grass silage. The fibre
content of these forages now acts more like energy so there is a
need foreffective long fibre to be added. Fibre can come in many
forms and perfect way to describe the difference is soya hulls
29
Author: Cathal Bohane, Head of InTouch Nutrition, Keenan/Alltech

30. 22
21
Plot Area
20
19
18
17
Apr/Jun 13 Jul/Sept 13 Oct/Dec 13 Jan/Mar 14 Apr/Jun 14
Consistent Fibre PoorFibre and Consistency
and straw. Ifwe sent a sample of both to a laboratory, theywould
have similarlevels of fibre (NDF) but as we know in reality, they are
physicallyvery different. The straw provides a ‘scratch factor’ that
will stimulate cud chewing in the animal and will offera better
quality of fibre to the animal outside of nutrient quality.
The story only begins here as howwe present this to the cowwill
also have an effect. Offering free access to straw if cows have a
stomach upset, are loose orhave dropping butterfat levels will
not solve the issue as straw in itself is not the most palatable or
readily consumed. Hence the deliveryvia a Total Mixed Ration
(TMR) via a diet feederis the ideal way to deliverthis ingredient as
it is mixed with the otheringredients that could cause issues and
there is less opportunity forthe animal to sort the feed and select
the tastierparts of the diet.
Research by Keenan overthe years has furthershown that how
you mixyourTMR also has a large effect. On-farm studies over
a numberof decades has showed a 0.5kg increase in milkwith
0.7kg less dry matterintake (DMI) aftermixing the exact same
diet and ingredient proportions in two different ways. This backs
up the hypothesis that balancing yourration is important, but the
quality of the mix that you produce is equally as important. While
harvesting forages at the properchop length is critical, additional
attention should be paid to the process of feed mixing, as it may
result in large effects on the diet particle size and uniformity. Even
outside of the diet feeder’s ability to mix the feed properly there
are generally three diets fed on the farm: the one the nutritionist
created; the one the farmerthinks he orshe fed; and the one
the cows actually eat. These can be very different diets on some
farms, which is concerning. To reduce this erroron farms, we
need to constantly review and checkthe following in the mixing
process: Working condition of the diet feeder– blades, paddle
rubbers, weighing system, etc.
1. Loading orderof ingredients
2. Margin forerrorin the loading of individual ingredients
3. Mixing times
4. Post examination of total mixed ration (TMR) feed out for:
a. Moisture level
b. Chop length and type – is there effective fibre in there?
c. Consistency – is there equal proportions of feed
throughout?
d. Sorting present during the following 24 hours
e. What are refusals like?
An examination of 600 UK-based farmers who were operating
a diet feederin conjunction with a nutritionist who balanced
the diet versus similarfarmers who also monitoring theirmixing
process, ingredient addition accuracy and loading sequence.
Those that monitored theirprocess and applied best practice on
a daily basis were able to produce an extra 628litres of milk(45kg
MS) percow overthe course of the year.
By using the ideal operating procedure foryourfully functioning
diet feeder, the result is a homogenous mix – both chemically and
physically that leads to betterrumen health and a more efficient
conversion of feed into milkand thus less feed nutrients are lost
to the environment.Yourdiet feederand operatorplay a major
role in maintaining the fibre through the mixing process, and only
until we achieve this can we truly reach the potential of ourdiet.
Figure 1: Milkyield comparison of 600 UK based farms that fed a TMR based on standard operating
procedures for delivery consistency in chop length and type versus those that did not
Under processing of the TMRwill result in long material being sorted by the animal resulting
in the mix being unbalanced and potentially unsafe to feed, whereas over processing of
the TMR increases intake, which can be expensive and with less ‘effective’ fibre in the diet
now, then this can cause less chewing; less saliva to buffer the acidity and pH.
30
Forage & Nutrition Guide 2019

31. Forage & Nutrition Guide 2019
Starch, fibre, protein, sugars and Fats
are all essential nutrients the dairy
cow requires daily, with Professor
Palmquist stating manyyears ago
that in terms of fat nutrition, ‘Fat Out’
needs to be matched with ‘Fat In’!
Forexample, a cow giving 40 litres at 4 per cent butterfat
produces 1.6 kg of milk fat/day and therefore this is the
dietary fat requirement of the cow per day assuming no
change in bodyweight.
A basal diet typically contains 3 to 3.5 per cent fat in the dry
matter (DM), though very high yielding cows may require 6 to
8 per cent fat in the total DM diet. So, yes, fat is an essential
nutrient in every diet, but choose your supplementary fat with
care. Fats are made up of different fatty acids, and researchers
such as Professor Adam Lock at Michigan State University
(USA), have identified the differing role of individual fatty acids
in improving cow performance. This is ground-breaking work
that has helped extend the range of rumen-protected fats to
enable farmers and their animal nutrition advisers to amend
diets to suit individual farm circumstances, be it early, mid or
late lactation or indeed particular herd problems such as poor
fertility.
There are over400 fatty acids in milk, but only a handful of diet
fatty acids, such as C16:0, C18:1 and C18:3, allow us to improve
milkoutput and composition, fertility, herd health and even dairy
farming’s impact on the environment.
It has been proven that not only does the C16:0 (palmitic) fatty
acid boost milkfat percent, but it also favours partitioning of
nutrients towards milkproduction ratherthan the cow’s body fat
stores (body condition). By contrast, highly digestible C18:1 (oleic)
fatty acid, relative to C16:0 can favourpartitioning of nutrients
towards body tissue reserves (increased body condition score).
And of course it was already understood that C18.3 (linolenic)
fatty acid has a role in protecting embryo survival. One of the
more exciting aspects of ourincreased knowledge of fatty acids
is how the ratio of these to each otherin the dairy diet offers
opportunities forextra herd income.
By applying recent majoradvances in ourunderstanding of how
fatty acids workin the bovine digestive system, farm businesses
can gain extra yield and a highermilkfat percent plus improve
calving indexes. Megalac of course has been shown in many
studies to reduce average calving index.
But remember, ‘unprotected’ fats are at riskof rumen
biohydrogenation which means that the valuable C18:1 and
C18:3 fatty acids are converted to the less digestible C18:0. So a
rumen-protected product such as Mega-Max, the new product
from *Volac Wilmarwith an optimum balance of C16:0 and C18:1
fatty acids is a guaranteed way of ensuring dietary C18:1 fatty
acids are delivered to the abomasum to have a positive effect on
bovine metabolism: optimum milkproduction, fertility and body
condition throughout lactation.
Feed the right balance of fatty acids to meet yourherds
requirements and balance the total fat in the diet to meet
the daily fat need - remember‘Fat Out’ needs to be matched
with ‘Fat In’ (at zero energy balance) and ensure yourchosen
supplementary feed fat is fully rumen-protected.
*Volac WilmarFeed Ingredients is a new global company jointly
owned byVolac and WilmarInternational Ltd.
Feedingtherightfattyacidsat
therighttimetotherightcow
31
Author: Dr Richard Kirkland, Global Technical Manager,
Volac Winter Feed Ingredients Ltd.

32. In relation to gaseous emissions agriculture accounts for33 per
cent of national GHG emission and 98 percent of ammonia
emissions and as a consequence is underthe spotlight to reduce
emissions. The use of protected urea nitrogen fertiliseris the
largest single avenue currently open to Irish agriculture to meet
these commitments to reduce GHG and ammonia emissions.
UNDERSTANDING PROTECTED UREA AND HOW IT WORKS
What is protected urea?
Protected urea is urea which is treated with an active ingredient
called a urease inhibitor. The urease inhibitorcan be either
a) coated onto the outside of the fertilisergranule orb)
incorporated into the urea granule melt during manufacture.
How does a urease inhibitorworkand what role does it play in
stopping ammonia loss?
Urease is the enzyme which catalyses the conversion of urea
to ammonium. It is during this conversion that ammonia gas
is lost from untreated urea (Figure 2). A urease inhibitorblocks
the active site of the urease enzyme. This moderates the rate at
which urea converts to ammonium. In so doing ammonia loss is
reduced to low levels.
Figure 2. Conversion of nitrogen forms and N loss avenues
Protectedurea:
whatisit,doesitwork,andisitcosteffective?
Ireland has a very favourable climate for growing its largest crop, grass.
To achieve grass growth potential, fertiliser nitrogen (N) is a key input.
However, fertiliser nitrogen also plays a role in gaseous N losses and
water quality. The Irish Government has committed to reduce national
losses of both ammonia and the potent greenhouse gas nitrous oxide
(Figure 1) while achieving good status for all waters.
Figure 1. Greenhouse gas and Ammonia sources and reduction commitments
Energy 19.7%
Residential 10.1%
Manufacturing 7.6%
Services 2.9%
Transport 19.8%
Industry 3.3%
Gases 1.9%
Agriculture 33%
Waste 1.7%
Amonia Gas Greehouse Gas
Urea
O
C
H2
N NH2
Ammonium
H
N
H
H
H
+
Nitrate
O
N
O O
-
NitrificationHydrolysis
Urease
Unrease inhibitor
Leaching
EU Commission’s
Climate and Energy
Package 20% below
2005 levels by 2020
30% below by 2030
National Emissions
Ceiling Directive 1%
below 2005 to 2030
5% below 2005 from
2030 onwards
Forage & Nutrition Guide 2019
32
Authors: Patrick Forrestal, Cathal Somers,
Mark Plunkett,
David Wall,
Tom O’Dwyer, Teagasc

33. Forage & Nutrition Guide 2019
WON’T A SLOWING OFTHE CONVERSION FROM UREA
AFFECT THE AVAILABILITY OFN FOR THE GRASS CROP?
No, because the conversion of protected urea to ammonium
begins as soon as the fertilisergranule starts to melt. The urease
inhibitormoderates the rate at which the urea-N converts to
ammonium. The result is that the conversion occurs overperiod
of a few days ratherthan a few hours, as would be the case with
conventional urea. Remember, when fertiliserN is applied to soil
its aim is to supply the grass orcrop with N overa period of days
to weeks ratherthan hours.
Are there different urease inhibitors used to manufacture
protected urea? What are they?
Yes, the following products are recognised as acting effectively
as urease inhibitors: a) NBPT b) 2-NPT, c) NBPT+NPPT. Teagasc
has conducted research with all three inhibitoroptions, most
extensivelywith NBPT and NBPT+NPPT.
Are these approved foruse in Ireland?
Yes, these active ingredients are approved foruse by the
European Chemicals Agency through the Registration,
Evaluation, Authorisation and Restriction of Chemicals (REACH)
process.
Can I spread protected urea throughout the growing season?
Yes, you can spread protected urea across the growing season
at times when you would otherwise spread calcium ammonium
nitrate (CAN) orunprotected urea. This may potentially simplify
the fertiliserspreading programme on the farm and setting up of
fertiliserspreaderforonly 1 straight N product each year.
PROTECTED UREA EFFECTS ON PRODUCTION
Will using protected urea reduce yields?
No, published Teagasc trials (Figure 3) have shown that protected
urea consistentlyyields as well as CAN in Irish grasslands with no
difference in annual production between the two fertilisers.
14000 Summary of 30 application timings at 3 sites over 2 years
12000
10000
8000
6000
4000
2000
0
Adapted fromForrestal et al . (2017) Soil Use & Mgt. 33:243:241
0 100 200 300
Annual N rate (kg N/ha)
Grassdrymatteryield(kg/ha)
Urea +NBPT
CAN
Figure 3a. Summary of total annual grass dry matteryield (kg/ha)
for CAN and protected urea evaluated across 2 growing seasons (2 years) on
three soils (locations)
33

34. Will using protected urea reduce efficiency?
No, published Teagasc trials conducted in different areas of
Ireland have shown that the nitrogen recovery efficiency of
protected urea and CAN are consistently the same (Figure 4).
350 Summary of 30 application timings at 3 sites over 2 years
300
250
200
150
100
50
0
Adapted fromForrestal et al . (2017) Soil Use & Mgt. 33:243:241
0 100 200 300
Annual N rate (kg N/ha)
Nitrogenuptakebygrass(kgN/ha)
Urea +NBPT
CAN
Figure 3b. Summary of N recovery (off take kg/ha N) for CAN and protected urea
evaluated on 30 occasions (application timings) conducted across the growing
season on three soils over two years.
Is protected urea cost effective?
On 14 March 2019 the following costs detailed in Table 1 were
quoted. These costs show protected urea to be less costly than
CAN while performing just as well in terms ofyield (Figure 2) and
N recovery efficiency (Figure 3). Bearin mind that fertilisercosts
fluctuate but always make the cost comparison on the basis of
cost perkg N forstraight N products.
FertiliserNproduct Ncontent(%) Costpertonne(€) Cost/kgN(€)
Urea 46% 391 0.85
Protected urea 46% 437 0.95
CAN 27% 284 1.05
Table 1. Prices in € per tonne fertiliser and € per kg N delivered for the three main
fertiliser N types available as per 14 March 2019
Does protected urea reduce Emissions? Does protected urea
reduce loss of the potent greenhouse gas nitrous oxide?
Yes, published Teagasc trials have shown that protected urea has
71 percent lowernitrous oxide emissions than CAN (Figure 4).
Figure 5. Effect of fertiliser N selection on emissions of ammonia (NH3)
Does protected urea reduce loss of Ammonia?
Yes, based on published Teagasc research protected urea has
comparable ammonia loss to CAN and ammonia loss is reduced
by 79 percent compared to urea (Figure 5).
Is there potential forprotected urea to reduce nitrate
loss to water?
Yes, during periods when leaching occurs nitrate present in the
soil is vulnerable to leaching loss. Protected urea does not deliver
N directly as nitrate to the soil, therefore reducing the riskof
nitrate losses occurring with rainfall post fertiliserapplication.
Reduced ammonia loss compared to urea will also reduce the
riskof ammonia N being deposited from the atmosphere onto
sensitive habitats orinto sensitive waterbodies.
SUMMARY
Use of protected urea can reduce agricultural greenhouse gas
emissions and ammonia emissions while maintaining yield and
saving cost.
GHG
EMISSIONS
AMMONIA EMISSIONS
LEVEL HIGH LOW
HIGH CAN
LOW UREA PROTECTED
UREA
Table 2. Relative greenhouse gas and ammonia emissions from three N fertilisers
25
20
15
10
5
0
CAN Urea Urea + NBPT
Urea: EMEP/EEA emission inventoryvalue used in Irish NH3 inventory
CAAN and Urea+NBPT: by applying NH3 abatement of Forrestal et al.,
Soil Use & Mgt. 32:92-100
Ammonia-Nlossfromfertilisers(%)
85%
Reduction
79%
Reduction
Figure 4. Effect of fertiliser N selection on emissions of the potent
greenhouse gas nitrous oxide (N2O)
2.0
Indirect N20 from NH3 Direct N20
1.5
1.0
0.1
0.5
0
CAN Urea Urea + NBPT
Direct N20: Harty et al., 2016 Science of the Total Environment 563-564-586 Indirect N20
from NH3 based on EMEP, Forrestal et al., 2016 Soil Use & Mgt. 32:92-100 &IPCC Default EF
NitrousOxide-(N20)lossfromFertilisers(%)
73%
Reduction
71%
Reduction
34
Forage & Nutrition Guide 2019

35. Forage & Nutrition Guide 2019
SPS was the overall winner of the Enterprise Ireland
innovation arena awards at the National Ploughing
Championships in 2017 and also won first place in the young
innovatorcategory of the competition.
Solarpump sales have been very strong since the launch, with
subsequent media attention and word of mouth driving sales.
Timing has also helped sales too. Overthe last three years, many
farmers entering GLAS had to fence off theirrivers and streams
from cattle. The GLAS scheme would not accept drinking points
either, which meant an alternative approach forsourcing water
had to be found. Applicants with out- farms were particularly
impacted as electricity might not be available to set up a bored
well and a mains supply might not be available close by. However,
the SPS pumps takes waterfrom a bored well and supplies water
troughs forcattle in paddocks using the free solarenergy.
ORIGINAL SOLUTION
The original solarpump was mainly designed to workusing water
from streams and rivers. It could also be used in wells. The solar
pump unit was fixed to the ground besides the stream facing
south (this can be bolted down to a concrete base orcattle slat if
desired). The main components include photovoltaic (PV) solar
panels, which operate all year-round, a waterpressure vessel,
waterpump, solarbattery, suction pipe and a lockable galvanised
steel container. The solarpanel provides enough energy during
the day to keep the large 12Vbattery charged to powerthe water
pump, even in dull weather. Wateris sucked in through the inlet
pipe and pumped through the outlet pipe at high pressure.
The pump is automatically operated by a pressure switch, the
same way as a mains electrical waterpump. When the pressure
in the vessel drops, i.e. when the troughs are no longerfull, the
pressure switch turns on the waterpump.
The waterpump runs until the maximum preset pressure is
reached in the vessel. This allows numerous troughs to be
supplied at one time. This system is ideal forout farms and means
farmers can divide theirout farms into paddocks and make better
use of grass because they are no longerrelying on one drinking
point in a field. The largerunit is capable of powering a 1.5hp
submersible pump with the capacity to supply up to 24,000 litres/
day. This system can operate with wells of up to 400ft in depth. It
can pump water2.5km in distance and up to 200ft above ground.
Until recently a farmermight have had had to run a petrol
generatorto powera submersible pump to supplywaterfrom a
deep well on the farm every day. The generatorand fuel obviously
cost money as did boring the well.
Now the SPS system arrives on site ready to use. A submersible
pump is lowered into the existing well and the steel unit with
three solarpanels, with a fold-out design, is placed beside the
well to powerthe pump. The new system supplies high-pressure
waterforthe cattle, with no need forthe generatororexpensive
fuel. The farmeris very happywith his newwatersystem, as it
frees up his time, takes less effort and has reduced costs.
All systems come with a 12-month warranty and are delivered to
site ready to use. An SPS-35, capable of supplying waterfor50
adult cattle, costs €1,595 excludingVAT. A largerSPS-70 costs
€1,995 excludingVAT, which can caterforup to 100 cattle.
An SPS-250 costs €4,500 to €5,500 excludingVAT, depending on
the type of pump used which is subject to the depth of the well.
This system can caterforup to 150 dairy cows or350 adult cattle.
The price of the system is dependent on the size of the batteries,
the size of the pump and numberof solarpanels needed.
Additions such as GSM remote control and monitoring of the
systems are also now available.
Batteries and pumps have a usable life of six to eight years and
solarpanels have a design life of 25 years. The largerunits can
also run a mains electric fencerof up to 10 output joules.
Solarsolutions
forwateringlivestock
Since the launch of Solar
Pump Solutions (SPS),
Bryan Davis and Katie King
have been very busy. The
company designs and
manufactures a range of
solar-powered pumps
that can drive water from
watercourses and wells to
drinking troughs and tanks.
35

36. This article outlines some of the factors driving the increase
in farm building recently and looks at ways to finance this
investment. We review the impact of theVAT refund, a grant,
capital allowances, interest relief and the marginal income
tax rate on the out-of-pocket cost of an investment.
DRIVERS AND REASONS FOR INVESTING
The regulatory frameworkdriving environmental requirements
such as the Nitrates Directive combined with cross compliance
and the threat to a farmer’s Basic Payment, have acted as ‘push’
factors driving the increase in building activity. The obvious ‘pull’
factors are expansion in dairying by existing dairy farmers and
new entrants. In addition, TAMS 2 grants combined with capital
allowances, and the relatively low interest rates in historical terms
have generated building investment. Other‘pull’ factors include:
a need forincreased labourefficiency on dairy and part-time
farms; the need to retain staff on largerfarms; orimproving the
efficiency of the farm system.
VALUE OFFARM BUILDINGS
The value of a building from a purely financial return perspective
may be difficult to determine. This is largely due to the fact that
at the time of the investment it is unknown how long the useful
life of the investment will be and the difficulty in determining
its residual orterminal value afterthis time. Slurry storage
and animal housing may be of use to an existing farmernow
who plans to farm forthe next ten years, afterthat point these
facilities will still have a value and will undoubtedly increase
the rental demand forthe farmer’s whole farm. In the future it
may be difficult to rent out this land without slurry storage and
animal housing and the cost of putting it in place at that stage
may be prohibitive. In general, buildings done to a high standard
will be useful fora long time and maywell hold theirvalue as
replacement costs increase overtime.
Farmers will continue to invest on farms provided they believe,
that they can finance the investment, that the new investment
will allow them to betterutilise theirexisting resources, orthat the
non-financial benefits, combined with the financial benefits, will
make the investment worthwhile.
FINANCING THE INVESTMENT
The most obvious is a loan, the cost ofwhich is the interest to be
Investmentinfarm
buildingsandfacilities
Farming in Ireland is changing rapidly. Dairy farmers are expanding and Teagasc is getting
numerous queries from farmers who want to start a dairy business. All of this means
unprecedented demand for new or expanded milking facilities, cow housing and paddock
infrastructure. Hundreds of partnerships and farm companies have been formed.
Forage & Nutrition Guide 2019
36
Authors: Tom Ryan, Teagasc (retired); Kevin Connolly and Fintan Phelan, Teagasc Financial
Specialists; and Tom Fallon, Teagasc Farm Buildings and Infrastructure Specialist

37. Forage & Nutrition Guide 2019
repaid. A site orotherasset may be sold to generate cash. There
may be a loss of some income from the asset and there may also
be transaction costs and capital taxation. Personal funds may be
used but there is an opportunity cost of savings forgone, and any
return these funds were earning.
When meeting the financial institution it is important to have
one’s home workdone.You need to knowwhat the total cost
of the building is includingVAT.You need to know how much of
the cost isVAT and how much of a grant you will receive. This will
need to be financed in the short-term until theVAT is repaid and
the grant can be claimed. Forthis amount of money a short-term
loan orbridging loan should be set up. It should be possible to
reclaim this moneywithin six months but in some cases there
can be delays, it is therefore advised to put the bridging facility in
place forup to 12 months. When negotiating the rate of the main
loan aim also to get the bridging finance at that rate.
The period of the loan should be set so as not to put too much
pressure on the business. When calculating the repayment
period, take into account living costs and any othercosts that
may be expected overthe period. Decide the frequency of the
repayments and the time ofyearof the payment.
Trying to pay off a loan too quickly can put pressure on the
business cash flow and impact on otherfinancial commitments.
If possible aim to repay the loan overthe period of reclaiming
capital allowances as the cash flow benefit from tax savings will
help with repayments. Repayment periods of up to 15 years are
available forfarm building loans. Interest rates can be negotiated
and are presently in the region of 5 to 6 percent. However, the
new low interest loan (4.5 percent) recently introduced can be
used forfunding farm building investment.
INCOME TAX AND CAPITAL ALLOWANCES
Capital allowances are the method forallowing income tax
relief forlarge capital expenditure. The Revenue Commissioners
have criteria detailing what can be claimed and the period for
those claims. Buildings attract aVAT rate of 13.5 percent on the
gross cost of the building when constructed by a builder. Any
expenditure on the building at the 23 percentVAT rate can also
be reclaimed. TheVAT can be reclaimed straight away forflat rate
farmers who are not registered forVAT. Capital allowances are
allowed on the net cost of the building so theVAT reclaim and any
grant paid are excluded from the allowance. Capital allowances
can be claimed overa seven yearcycle. The net cost of the
building is allowed as an expense against income tax at a rate of
15 percent perannum forthe first sixyears and 10 per cent in the
final year. The tax relief forloan repayments is only on the interest
portion of the loan, so the principal portion must be met by the
farmerout of aftertax income. Trying to pay off a loan too quickly
can therefore put extreme pressure on cash flow in the business.
This can lead to a requirement forshort-term debt, e.g. overdraft,
to finance working capital which is generallyvery expensive and
in effect means you are paying interest on two loans.
EXAMPLE
In ourexample we lookat farm partnership investing in facilities
costing €136,000 includingVAT or€120,000 excludingVAT. It
could be a farm partnership between father/motherand son/
daughterwho applied fora grant underthe young farmercapital
investment scheme (YFCIS) of TAMS 2. The parent is eligible for
a 40 percent grant and the son/daughteris eligible fora 60 per
cent grant. The maximum ceiling on investment is €80,000 for
each partner. In this example the value of the grant potentially
is €64,000 (€80,000 @ 60 percent and €40,000 @ 40 percent),
so the net cash cost to the farmeris €56,000. Table 1 outlines
the benefit theVAT refund, the grant, the capital allowances and
interest relief all have on the cash cost of the investment at both
low and high marginal tax rates. The marginal income tax rate
has a huge impact on the overall cash cost of the investment.
The cash cost on the low tax rate is €52,059 and is €36,980 for
someone on the high rate.
1. Vat reclaim @ 13.5 per cent
2. If the reference costs lag behind the actual costs the grant
will be smaller, so the loan needed and interest paid will be
higher. Any tax saving from capital allowances and interest
reliefwill be greater and the after tax cost will be higher.
Lowrate20%plus7.5%levies Highrate40%plus8.5%levies
Totalcost€ 136,000 136,000
VATreclaim€(1) 16,000 16,000
Grant€(2) 64,000 64,000
Netcost€ 56,000 56,000
Bridgingfinancecostfor @6%for6months
forVATandgrant(3)€
2400 2400
Mainloaninterest;€56,000@6%for7years€(3) 13405 13405
Costbeforeinterestreliefandcapitalallowances;netcost+interestpaid€ 71,805 71,805
Taxsavingduetocapitalallowanceson€56,000atthetax+leviesrate€ 15,405 27,160
Taxsavingduetotaxreliefonloaninterest;interestpaidatthetax+leviesrate€ 4346 7665
Aftertaxcost€ 52,059 36,980
Table 1. Effect of the VAT refund, grant, capital allowances and interest relief on the cash cost of the
investment at low rate and high rate marginal tax rates
37