feedingfeeding silage silage and and haylagehaylage to to ... · silage compared to big bale silage...
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XVI International Silage ConferenceXVI International Silage Conference
FeedingFeeding silagesilage and and haylagehaylage to to horseshorses
Dr Cecilia MüllerSenior lecturer /Extension specialist equine
Department of Animal Nutrition and ManagementSwedish University of Agricultural Sciences, Uppsala, Sweden
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IntroductionIntroductionShift f h t d f d i th l t t 10 15• Shift from hay to wrapped forages during the latest 10-15 years
• Respiratory problems, mould spores(e.g. Robinson et al., 1996)( g )
• Wrapped forage generally contains lessrespirable particles than hay (Raymond et al., 1997; Vandenput et al., 1997,1998; McGorum et al., 1998).
• Commonly, haylage is used for horses(Holmquist & Müller, 2002; Enhäll et al., 2012).( q , ; , )
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7120 Relative air humidity Log CFU mould/g hay
6100
580
4
60 Moulds at hay surface log/g
2
3
40
log/gAmbient relative humidity
1
2
20
0
1
0
3
Sundberg et al., 2008
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In Canadian hay, presence of D i l l ( it i ) T2Deoxynivalenol (vomitoxin), T2-toxin and zearalenone as well as of Aspergillus spp., Fusarium spp.,Aspergillus spp., Fusarium spp., Alternaria spp., Cladosporium spp. etc (Raymond et al., 2000). Subjectiveexamination of the hay did not correlate well with objectiveanal sisanalysis.
Field-dried hay may contain heavyField dried hay may contain heavy growth of Aspergillus spp., Penicillium spp. and Rhizopus spp., among others (Clevström & Ljunggren, 1984; Hlödversson, 1985).
4Photo: L. Steiner
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Forage conservation methodsForage conservation methods
18-50 % DM
Silage50-84 % DM
HaylageLactic acidfermentation, low pH, less
y g
Restrictedfermentation, higherresidual WSC
Above 84 % DM
Hayp ,residual WSC content, anaerobic
residual WSC content, anaerobicstorage
y
Conserved by drying, aerobic storage
Increasing dry matter (DM) contentstorage
5
(Gordon et al., 1961; Finner, 1966; Jackson & Forbes, 1970)
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Horses differHorses differ• Forage is the most important feed• Forage is the most important feed
for all horsesl f i h d• At least 1 % of BW in roughage dry
matter daily (NRC, 2007)
• Nutrient requirement differs vastly(NRC, 2007)
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Energy requirement pollEnergy requirement - poll
• Daily requirement of metabolizable energy for a 500 kg bw riding horse in moderate exercise?g g
) 70 MJa) 70 MJb) 150 MJb) 50 Jc) 25 MJd) 200 MJ
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Effect of forage conservation methodson forage digestibility in equines
A di ibili f d i NDF d• Apparent digestibility of dry matter, organic matter, NDF and CP did not differ between silage and hay harvested from the same grass crop, but ADF digestibility was sligthly higher for g p, g y g y gsilage (Muhonen et al., 2009)
• Apparent organic matter digestibility slightly higher for bunker• Apparent organic matter digestibility slightly higher for bunker silage compared to big bale silage and hay from the same grasscrop (Austbø, 1990)
• Similar digestibility coefficients for hay and haylage from the same meadow (Bergero and Peiretti 2011)same meadow (Bergero and Peiretti, 2011)
• Similar hindgut fiber digestion of hay and silage harvested
8
from the same grass sward (Miyaji et al., 2008)
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Athletic horsesAthletic horses• Standarbred yearlings may grow and exercise on a forage-only
diet (grass haylage 500 g DM/kg, 11 MJ ME/kg DM) fed ad libitum (Ringmark and Jansson 2011)libitum (Ringmark and Jansson, 2011)
• Silage had higher digestibility and higher evaporative losses• Silage had higher digestibility and higher evaporative lossesthan hay from the same grass crop when fed to exercisinghorses (Muhonen et al., 2009)( , )
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Equine digestion of grass conserved as silage, haylage or hay
• The microbial profile in the large intestine of the horse is affected by the composition of the diet (e.g. Hintz et al., 1971; Kern et al 1973; Moore and Dehority 1992; de Fombelle et al 2001; Julliandet al., 1973; Moore and Dehority, 1992; de Fombelle et al., 2001; Julliandet al., 2001; Medina et al., 2001 etc).
• Effect of silage, haylage and hay on biochemical (and microbial) composition in the large intestine (RVC)?
10Photo: ENESAD, France
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Effect of forage conservation method on forage composition
Variable, g/kg DM Silage Haylage Hay P
Müller et al., 2008
Dry matter (g/kg) 343 a 548 b 815 c <0.0001
Crude protein 176 a 151 b 165 a 0 0004Crude protein 176 a 151 b 165 a 0.0004
Water soluble carbohydrates 80 a 126 b 116 b <0.0001
Neutral detergent fibre 421 a 468 b 486 b <0.0001
In vitro DOM 905 893 895 0.19
pH 4.40 a 5.60 b 5.96 b <0.0001
i id 43 0 1 3 b 0 3 b 0 0001Lactic acid 43.0 a 1.3 b 0.3 b <0.0001
Total organic acids 50.6 a 2.6 b 0.5 b <0.0001
11Ammonia-N/total-N 7.3 a 2.4 b 1.5 b <0.0001
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Effect of forage conservation method on biochemical composition in right ventral colon in horses fed silagecomposition in right ventral colon in horses fed silage,
haylage and hayMüller et al., 2008
Variable in RVC Silage Haylage Hay PDry matter, g /kg 81 117 50 NSpH 6.81 6.64 6.75 NSLactic acid, mM 0 16 0 08 0 05 NSLactic acid, mM 0.16 0.08 0.05 NSAcetic acid, mM 43 37 48 NSP i i id M 11 12 12 NSPropionic acid, mM 11 12 12 NSi- and n-butyric acid, mM 4.4 4.3 4.7 NSi- and n-valeric acid, mM 1.2 0.8 1.2 NSTotal organic acids, mM 60 54 66 NS
12
Total organic acids, mM 60 54 66 NS
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Fermentation kinetics of right ventral colon- effect of forage conservation method
80
Total organic acids, mM silage
707580
haylage
hay
556065
455055
400h 2h 4h 8h 12h
Sampling time
13
Sampling time
Müller et al., 2008
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Forage intake rate in relation to NDF content(Jansson et al., 2012, compilation of 5 different studies)
700
800
g D
M)
500
600
orag
e (g
/k
300
400
tent
in fo
Y = 0.0964x -23.1 (R2 = 0.73, P = 0 0002)
100
200
ND
F co
n P 0.0002)
00 10 20 30 40 50 60
Forage intake rate (min/kg DM)g ( g )
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Equine intake of haylageEquine intake of haylage
• Plant maturity affects ingestion of haylage:
Variable June haylage
Julyhaylage
Augusthaylage
P
Eating time, min/kg DM 29 a 37 b 36 b <0.0001
N f h / i 84 78 b 77 b 0 0001No. of chews/min 84 a 78 b 77 b <0.0001
Chews/swallowing 51 a 65 b 81 c <0 0001Chews/swallowing 51 a 65 b 81 c <0.0001
No of chews/kg DM 2472 a 2947 b 2969 b <0 0001No. of chews/kg DM 2472 a 2947 b 2969 b <0.0001Müller, 2011
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Equine intake of haylageEquine intake of haylage
• Cut and long stemmed haylage:- Very small differences in ingestionVery small differences in ingestion
Eating time for haylage, min
Eating time, min/kg DM
Chewing rate, no. of chews/min
No. of chews/kg DMy g , g
Cut haylage 32 (4.4) 28 (3.9) 84 (3.8) 2368 (346.9)
Long-stemmed haylage
34 (7.0) 30 (6.2) 82 (3.9) 2441 (454.9)y g
P Forage type NC NC 0.01 <0.0001
Müller, 2009
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Equine preference of silage, haylage, and hay from the same crop
Conservationmethod may 80
no. of timesmethod mayinfluence
f6070
completelypreference(Müller et al., 2007) 40
50completely consumed
smell/taste
2030
first choice
010
HAY HLH HLL SILHAY HLH HLL SILforage
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Hygienic quality of silage and haylage and horse health
Hygienic quality of feeds placed on the market -regulated by EU legislation: g y gEG 183/2005 (implemented in 2006)
• Moulds spores and mycotoxinsMoulds, spores and mycotoxins• Bacterial problems
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MouldsMoulds and and mycotoxinsmycotoxinsyy• Aerobic fungi with filamentous growth• Moulds generally grows at lower aw than bacteria• Haylage of late harvest and high dry matter content –
increased risk of mould growth (O’Brien et al 2008)increased risk of mould growth (O Brien et al., 2008)
- Predominant in Ireland: Penicillium roquefortii, may producemycotoxins roquefortine C, PR-toxin etc (O’Brien et al., 2008) (neurotoxic, immunotoxic, mutagenic etc)
- Predominant in Norway: Aspergillus fumigatus, may producel t i li t i fl t i t (Sk 1996)several mycotoxins e.g. gliotoxin, aflatoxins etc (Skaar, 1996)
Abortion, liver damage in young horses, death, disturbances in central nervous system (Asquith, 1991)
- Predominant visible mould in Sweden: P. roqueforti (Schenck et al., 2012), but also A. fumigatus, Cladosporium spp., Fusariumspp and Mucor spp
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spp. and Mucor spp.
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Schizophyllum spp (?)Schizophyllum spp (?)Schizophyllum spp (?)Schizophyllum spp (?)
Ph t J Möll D L l
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Photo: Jenny Möller, DeLaval Sweden
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BacterialBacterial problemsproblemsBacterialBacterial problemsproblems• Contamination by soil decaying plant material manure and• Contamination by soil, decaying plant material, manure and
cadavres causing malfermentation (pH over 5, butyricacid/ammonia)
• Presence of Clostridia spp. and/or Enterobacteria spp.which may cause gastrointestinal disorders and/or toxicosis( b 1988 i l 1991 ijk l 2000)(Roberts, 1988; Browning et al., 1991; van Duijkeren et al., 2000)
• Clostridia spp. are anaerobic, gram-positive, spore-d i b t i f d b hi h H hi h hi hproducing bacteria, favoured by high pH, high aw, high
temperature, high buffer capacity in the crop etc
Th i h i f l idi l i (C• Three main phenotypic groups of clostridia: proteolytic (C. sporogenes, C. bifermentans, C. botulinum), saccharolytic(C. butyricum), both proteo- and saccharolytic (C.
21
( y ), p y (tyrobutyricum) (Pahlow et al., 2003).
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ClostridiumClostridium botulinumbotulinum and and botulinbotulin
• Produces the toxin botulin, causing botulism• Rarely found in silage (Notermans, 1979; Spoelstra, 1981)y g ( , ; p , )
• Toxin production with only grass as substrate requires aw>0.94 at pH ≥5.8, and aw >0.985 if pH = 5.3 (Notermans et al., p ≥ , w p ( ,1979)
• Common factor in case reports of botulism in horses is poor feed hygieneo ses s poo eed yg e eirrespective of feed, or achieved on pasture (US) (S abo t l 1974; Johnson t l 2010)
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pasture (US) (Szabo et al., 1974; Johnson et al., 2010)
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Haesebrouck et al., 1990 Lucerne silage pH 6,7-8,9, lots of visible mould
Type BHollandvisible mould Holland
Heath et al., 1990 Hay, oats – decaying feed in manger/feed through
Type CCanadag g Canada
Hunter et al., 2002 Round bale hay, stored outdoors. Rotten and mouldy.
Type C? USA
Kelly et al., 1984 Oat chaff with cadavre Type C or DAustralia
Gudmundsson, 1987 Round bale silage with bird cadavres, fed ad lib.
Type BIceland
Müll J 1963 C d i h t il ( T CMüller, J. 1963 Cadavre in hay, straw, silage (cowsand horses)
Type CDenmark
Switzer et al 1984 Heated lawn clippings in a big heap Type D ?Switzer et al., 1984 Heated lawn clippings in a big heap Type D ?California
Ricketts et al., 1984 Big bale silage with high pH and Type B
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strong smell of ammonia UK
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EnterobacteriaEnterobacteriaEnterobacteriaEnterobacteria• Large group! E.g. Salmonella spp. and E. coli
• Usually dies off during the first days of ensiling, sensitive y g y g,for lowering of pH (Heron et al., 1993), can persist in haylageand hay (Müller et al., 2007)
• E. coli is suspected to be able to cause diarrhoea in bothfoals (Browning et al 1991) and adult horses (van Duijkeren etfoals (Browning et al., 1991) and adult horses (van Duijkeren et al., 2000).
• Not much knowledge of relation between enterobacteria in• Not much knowledge of relation between enterobacteria in feed and health problems in horses
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Aerobic storage stability of balesAerobic storage stability of bales
• Equine population differ from other livestock - >0.75 of Swedish horses are housed at farms with 1-4 horses (Persson, 2005) = low daily consumption rate
I ddi i hi h DM f h l hi h• In addition, high DM content of haylage = higherresidual WSC content (e.g. Müller et al., 2008), and larger
iporosity (McGechan & Williams, 1994)
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Aerobic storage stability in haylage bales after opening (Müller, 2009)
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Yeast and mould counts in silage 300 g DM/kg (SIL), haylage 500 g DM/kg (HLL) and haylage 700 g DM/kg (HLH) after 7 days of
8
g ( ) y g g g ( ) yaerobic storage , P<0.0001 (Müller & Johansen, 2012, unpubl.)
a
6
7 Yeast Mouldb ba
a
4
5
og C
FU/g
b c
2
3
lo
cc c
cc
c
dd
d ddd d
c
cc
d
0
1
0
Treatments (cont = control; fill = additive at silo filling; open = additive at silo opening; fill + open = additive at silo filling and silo opening). Acid based additive.
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Summary and further researchSummary and further research
• Forage conservation methods may influencepreference but not digestion/digestibility of forage to the same extent (in horses fed for maintenance)
• Haylage more commonly fed to horses – challengesinclude keeping wrapping intact due to high drymatter content, late harvest and during transport of bales etc
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Summary and further research, cont.
• Low daily rate of consumption - Aerobic storagestability in bales important – additives helpful? Bale size? Other?
• Increased knowledge of microbial and biochemicalcommunity in haylage required (e.g. moulds andcommunity in haylage required (e.g. moulds and mycotoxins?), and development of methods for assessment of hygienic quality of foragesassessment of hygienic quality of forages