Empleo de insectos en dietas de aves Achille Schiavone UNIVERSITY of TURIN (Italia)
INSECTS DERIVED PRODUCTS: NEW FEED INGREDIENT
The first scien;fic papers about insect in animal nutri;on Lindner (1919) Production protein and fat by housefly from human excreta 1969
1972
Abdel Gawaad A.A & Brune H. (1979) Insect Protein as a Possible Source of Protein to Poultry
Insect chemical composi;on (%DM)
Hermetia illucens 42,1
7,0
26,0
20,6
Larva
Tenebrio molitor 48,1
5,1
40,0
3,1
Larva
Musca domestica 50,4
70,8
•
High fat quan;;es = problems • Raw material shelf life • Diets formula;on
13,8
18,9
15,7
10,1
Larva
15,5
7,7
Pupa
5,8
http://www.feedipedia.org
Black soldier fly
Mealworm
Housefly
5 – 16 %
40 -70 %
FULL FAT MEAL
15 – 40 %
3 – 20 %
NUTRACEUTICALS FATS
CHITIN
ANTIMICROBIAL PEPTIDES
DEFATTED MEAL FEED ADDITIVES
ANIMAL NUTRITION
Mass produc;on
Circular economy – zero waste
http://www.proteinsect.eu/index.php?id=35
hDp://eur-‐lex.europa.eu/legal-‐content/EN/TXT/PDF/?uri=CELEX:32017R0893&from=en
EU legisla;on Live larvae
PAPs
PeZood Fish
Poultry and swine
hNp://eur-‐lex.europa.eu/legal-‐content/IT/TXT/PDF/?uri=CELEX:32017R0893&from=EN
Lipids
Hydrolised proteins
Raw material
Price of protein-‐rich raw materials
Fishmeal
Price (€/tonne)
1500-‐1900
High protein soya
350-‐620
Peas
320-‐450
TM
4750 (LEI, 2010)
TM
3700 (Kreca, 2014)
TM
2500 (Ynsect)
HI
2500 – 5000 (Hermeea, 2016)
HI
2000 -‐ 2700 (Proex)
HI
800 (1200 CAD) (EnterraFeed, 2014)
HI
1300 (Agriprotein, 2017)
Compe;;ve?
Trading price of different protein sources expressed as times relative to Soy meal 45% (=1) 90 80 70 60 50 40 CP
30
$
20 10 0 soybean meal
fish meal
soybean concentrate
MW larva BSF larva
Tretola et al. in press (Animal)
CP and EE (%) of full fat, par;ally defaNed and defaNed BSF meal
(De Marco et al. 2015; Schiavone et al., 2017)
CP and EE (%) of full fat, par;ally defaNed and defaNed BSF meal
(De Marco et al. 2015; Schiavone et al., 2017)
Energy values (MJ/kg): AME and AMEn of full fat, par;ally defaNed and defaNed BSF meal
18,00 16,00
17,38 16,60
14,40
14,00
14,18
11,87
12,00
11,58
10,00 8,00 6,00 4,00 2,00 0,00
AME AMEn
BSF FullFat
BSF Pdef
BSF Tdef (De Marco et al. 2015; Schiavone et al., 2017)
Effect of the dietary BSF larva meal inclusion level on the growth performances of the broiler chickens Items LW, g
ADG, g
DFI, g
FCR, g/g
Age 1 d 10 d 24 d 35 d 1-‐10 d 10-‐24 d 24-‐35d 1-‐10 d 10-‐24 d 24-‐35 d 1-‐10 d 10-‐24 d 24-‐35 d 1-‐35 d
BSF-‐0 40.23 262.19 1194.91 2269.25 22.20 66.62 97.67 25.89 97.50 176.42 1.17 1.46 1.81 1.60
Dietary treatments BSF-‐5 BSF-‐10 40.20 40.33 259.22 285.23 1199.45 1227.89 2264.11 2278.95 21.90 24.49 67.16 67.33 96.79 95.55 25.64 28.52 96.69 98.70 174.62 174.27 1.17 1.16 1.44 1.47 1.81 1.83 1.59 1.60
BSF-‐15 40.23 267.89 1095.23 2072.15 22.77 59.10 88.81 26.54 95.23 171.73 1.17 1.61 1.93 1.72
SEM 0.020 2.349 10.157 18.173 0.234 0.716 1.187 0.279 0.572 0.988 0.005 0.016 0.018 0.012
P-‐value Linear Quadraec 0.443 0.363 0.005 0.030 <0.001 <0.001 <0.001 <0.001 0.005 0.031 <0.001 <0.001 0.007 0.179 0.012 0.040 0.340 0.238 0.115 0.852 0.866 0.900 <0.001 0.001 0.011 0.136 <0.001 <0.001
(Dabbou et al. 2018)
Effect of the dietary BSF larva meal inclusion level on the haematological and serum parameters of the broiler chickens
Items Erythrocyte, 106 cell/µL Leukocyte, 103 cell/µL H/L ra;o Urea, g/dL Uric Acid, mg/dL AST, UI/L Crea;nine, mg/dL Triglycerides, mg/dL Cholesterol, mg/dL Calcium, mg/dL Phosphorus, mg/dL Magnesium, mEq/L Iron, µg/dL TAS, mmol/L GPx, U/g Hb
BSF-‐0 4.18 13.70 0.66 34.88 2.89 379.57 0.29 105.25 81.34 8.77 3.91 1.12 59.89 0.58 88.68
Dietary treatments BSF-‐5 BSF-‐10 3.94 3.93 13.55 13.77 0.68 0.65 39.53 42.59 2.67 2.46 367.52 366.33 0.27 0.27 94.70 97.82 81.07 85.73 7.56 8.43 5.90 6.02 1.04 0.96 61.12 66.03 0.65 0.79 107.27 155.52
BSF-‐15 3.98 14.32 0.69 36.30 2.77 358.78 0.28 84.32 82.64 8.42 5.34 0.92 61.72 0.78 178.14
SEM 0.046 0.246 0.028 1.980 0.180 13.508 0.006 3.541 2.044 0.209 0.172 0.055 3.866 0.044 11.978
Linear 0.132 0.344 0.838 0.712 0.750 0.437 0.546 0.057 0.660 0.947 <0.001 0.186 0.780 0.054 0.002
P-‐value Quadraec 0.122 0.492 0.824 0.177 0.477 0.904 0.542 0.826 0.734 0.155 <0.001 0.837 0.727 0.679 0.884
(Dabbou et al. 2018)
Effects of diet, intestinal segment and interaction between diet and intestinal segment on the intestinal morphometric indices of the broiler chickens Index
Fixed effect Dieta
Vh, mm
Cd, mm
Vh/Cd, mm/mm
Intesenal segmentb Diet × Intesenal segment Diet Intesenal segment Diet × Intesenal segment Diet Intesenal segment Diet × Intesenal segment
d.f.c 3 2
F 2.893 53.448
P-‐value 0.038 < 0.001
6 3 2
0.922 3.223 10.130
0.482 0.040 < 0.001
6 3 2
1.988 5.024 17.858
0.072 0.002 < 0.001
6
2.274
0.040
(Dabbou et al. 2018)
Effects of dietary BSF larva meal inclusion level on the histopathological scores of the broiler chickens
HI0
HI5
HI10
HI15
SEM
Spleen
1.08
1.17
1.33
0.83
0.09
P-‐value 0.259
Thymus
0.17
0.00
0.25
0.33
0.06
0.312
Bursa of Fabricius
1.08
0.75
0.75
0.75
0.09
0.430
Liver
0.92
0.50
0.92
0.33
0.11
0.174
Heart
No alteraeons
Kidney
No alteraeons
(Dabbou et al. 2018)
Effect of the dietary BSF larvae meal inclusion level on the carcass traits of broiler chickens Dietary treatments
SEM
Live weight (LW) (g)
BSF-‐0
BSF-‐5
BSF-‐10
BSF-‐15
2260.56
2259.44
2266.87
2070.12
Carcass weight (g)
1594.84
1601.01
1607.84
Carcass weight (% LW)
70.55
70.86
Breast (% LW)
14.46
Thigh (% LW)
P-‐value
15.69
Linear <0.001
Quadraec <0.001
1469.65
11.73
<0.001
<0.001
70.92
71.00
0.20
0.453
0.785
14.67
14.84
13.57
0.16
0.067
0.018
18.67
18.59
18.79
18.45
0.12
0.676
0.611
Spleen (% LW)
0.11
0.10
0.10
0.11
0.01
0.486
0.262
Liver (% LW)
2.17
2.13
2.08
2.25
0.05
0.707
0.368
Heart (% LW)
0.64
0.60
0.56
0.57
0.01
0.078
0.400
Bursa of Fabricius (% LW)
0.29
0.26
0.26
0.26
0.01
0.532
0.476
Abdominal fat (% LW)
1.21
1.17
1.43
1.44
0.05
0.042
0.813
(Schiavone et al. 2019 in press)
Effect of the dietary BSF larvae meal inclusion on the meat quality and chemical composition in breast meat of broiler chickens pHu Color Lightness (L*) Redness (a*) Yellowness (b*) Drip loss (%) Cooking loss (%) Allo Kramer shear force (kg/g) Proximate composi;on Moisture (%) Protein (%) Lipid (%) Ash (%)
BSF-‐0 6.03 55.07 2.72 11.80 1.24 20.11
Dietary treatments BSF-‐5 BSF-‐10 5.99 6.04 55.46 54.29 3.18 2.87 9.68 8.19 1.36 1.26 20.49 19.31
BSF-‐15 5.98 53.41 3.71 7.57 1.39 19.71
1.86 76.14 22.37 1.56 1.23
2.24 75.51 22.28 1.76 1.33
2.06 75.24 23.09 1.75 1.31
2.14 75.50 22.42 1.85 1.24
SEM 0.05 0.38 0.14 0.39 0.06 0.36 0.06
P-‐value Linear Quadraec 0.650 0.777 0.074 0.400 0.030 0.469 <0.001 0.174 0.211 0.928 0.480 0.990 0.375
0.074
0.13 0.12 0.05 0.02
0.016 0.035 0.134 0.427
0.460 0.118 0.110 0.718
(Schiavone et al. 2019 in press)
Effect of the dietary HI larvae meal inclusion on the fatty acid profile in breast meat of broiler chickens (g/100g of total fatty acids)
SEM
Dietary treatment
BSF-‐0
BSF-‐5
BSF-‐10
BSF-‐15
P-‐value Linear
Quadraec
ΣSFA
29.13
28.97
29.24
29. 88
0.29
0.352
0.507
C12:0
nd
0.33
0.61
1.03
0.06
<0.001
0.367
C14:0
0.23
0.43
0.54
0.74
0.03
<0.001
0.965
C16:0
17.63
18.24
18.74
19.24
0.20
0.002
0.887
C18:0
9.55
8.48
7.98
7.61
0.21
<0.001
0.352
C20:0
0.19
0.24
0.23
0.23
0.01
0.152
0.245
C24:0
1.38
1.09
0.96
0.85
0.06
0.001
0.416
27.61
30.00
31.57
32.17
0.47
<0.001
0.279
nd
0.02
0.10
0.14
0.01
<0.001
0.630
C16:1 n7
1.79
2.24
2.62
3.13
0.12
<0.001
0.870
C18:1 c9
25.26
27.08
28.28
28.21
0.36
0.001
0.152
C20:1
0.20
0.26
0.28
0.34
0.01
<0.001
0.330
C24:1
0.28 40.06
0.22 37.89
0.26 36.65
0.01
ΣPUFA
0.31 42.36
0.182 0.524
C18:2 n6
31.44
30.62
29.61
28.32
0.51 0.41
0.091 <0.001 0.004
0.763
C18:3 n6
0.20
0.24
0.22
0.25
0.01
0.355
0.974
C18:3 n3
2.31
2.40
2.47
2.20
0.06
0.641
0.150
C20:4 n6
5.86
4.76
3.90
4.05
0.24
0.002
0.152
C20:5 n3 (EPA)
0.13
0.17
0.17
0.17
0.01
0.207
0.375
0.002
0.039
0.001
0.004
ΣMUFA C14:1
C22:5 n3 (DPA)
1.09
0.81
0.62
0.72
0.05
C22:6 n3 (DHA)
0.76
0.49
0.34
0.46
0.04
Others FA
0.90
0.97
1.29
1.30
0.08
0.032
0.814
ΣPUFA/SFA
1.46
1.40
1.30
1.23
0.03
<0.001
0.901
Σn3
4.30
3.87
3.60
3.56
0.08
<0.001
0.162
Σn6
38.06
36.19
34.29
33.08
0.45
<0.001
0.646
9.40
0.13
0.140
0.169
Σn6/n3
8.93
9.39
9.63
(Schiavone et al. 2019 in press)
Heavy metals in HI larvae meal
HI meal
MRL (Direc;ve 2002/32/EC)
As (mg/Kg 12% h)
< 0.05
2
Cd (mg/Kg 12% h)
0.32
2
Pb (mg/Kg12% h)
0.07
10
Hg (mg/Kg 12% h)
< 0.02
0.1
Cr (mg/Kg)
0.23
Not legislated
Fe (mg/Kg)
189
Not legislated
Ni (mg/Kg)
0.18
Not legislated
Cu (mg/Kg)
10
Not legislated
Zn (mg/Kg)
157
Not legislated
Co (mg/Kg)
< 0.05
Not legislated
Se (mg/Kg)
< 0.02
Not legislated
(Schiavone et al. 2019 in press)
Heavy metals in breast meat of broiler chickens
MRL (Regula;on 881/2006/EC)
Dietary treatments
BSF-‐0
BSF-‐5
BSF-‐10
BSF-‐15
As (mg/Kg 12% h)
< 0.05
< 0.05
< 0.05
< 0.05
Not legislated
Cd (mg/Kg 12% h) Pb (mg/Kg 12% h)
< 0.05 < 0.05
< 0.05 < 0.05
< 0.05 < 0.05
< 0.05 < 0.05
0.050 (EU n. 488/14) 0.10 (EU n. 1005/15)
Hg (mg/Kg 12% h)
< 0.02
< 0.02
< 0.02
< 0.02
Not legislated
Cr (mg/Kg)
< 0.05
< 0.05
< 0.05
< 0.05
Not legislated
Fe (mg/Kg)
9.1
6.5
6.5
6.7
Not legislated
Ni (mg/Kg)
0.08
< 0.05
< 0.05
< 0.05
Not legislated
Cu (mg/Kg)
0.64
0.46
0.41
0.46
Not legislated
Zn (mg/Kg)
13
13
13
13
Not legislated
Co (mg/Kg)
< 0.05
< 0.05
< 0.05
< 0.05
Not legislated
Se (mg/Kg)
0.28
< 0.25
< 0.25
< 0.25
Not legislated
(Schiavone et al. 2019 in press)
Insect meal in ducks
(Gariglio et al. 2019 in press)
Growing performance: Live weight 3000
2500
*
2000
g
* 1500
* 1000
500
0 0d
7d
14d
21d BSF0
BSF3
28d BSF6
35d BSF9
42d
47d
* P<0.05 (Gariglio et al. 2019 in press)
Digestibility of insect diets at different age in Muscovy Duck Age
13-‐17 d
34-‐38 d
46-‐50 d
Apparent diges;bility DM CP EE OM DM CP EE OM DM CP EE OM
HI0 0.960 0.852 0.945 0.963 0.953 0.800 0.958 0.958 0.943 0.733 0.953 0.950
Dietary treatments1 HI3 HI6 0.960 0.960 0.872 0.828 0.967 0.963 0.963 0.966 0.956 0.962 0.802 0.802 0.966 0.968 0.964 0.967 0.948 0.952 0.682 0.715 0.958 0.965 0.953 0.958
HI9 0.953 0.817 0.962 0.962 0.960 0.828 0.977 0.963 0.953 0.718 0.983 0.958
SEM 0.002 0.007 0.002 0.001 0.002 0.005 0.002 0.001 0.002 0.012 0.003 0.002
P -‐value Linear Quadraec 0.174 0.315 0.010 0.195 0.003 0.085 0.853 0.453 0.086 0.511 0.085 0.269 <0.001 0.891 0.215 0.168 0.099 0.703 0.913 0.259 <0.001 0.092 0.072 0.642
(Gariglio et al. 2019 in press)
Intestinal morphometric indices in the ducks in relation to diet and intestinal segment Index Vh, mm Cd, mm Vh/Cd
HI0 1.55 0.16 9.80
Diet (D)1 HI3 HI16 1.51 1.52 0.14 0.15 11.06 10.67
HI19 1.63 0.15 10.83
Intes;nal segment (IS)2 DU JE IL 2.12a 1.41b 1.14c 0.18a 0.15b 0.13c 12.62a 9.67b 9.48b
SEM D IS 0.06 0.06 0.01 0.01 0.60 0.45
P-‐value D IS D × IS 0.442 <0.001 0.508 0.346 <0.001 0.782 0.469 <0.001 0.966
(Gariglio et al. 2019 in press)
INSECTS and GUT HEALTH
(Biasato et al. 2018)
GUT MICROBIOTA: FEMALE HYBRIDS TM
POSITIVE modulaeon by TM meal inclusion
Ø ↑Clostridium
One of the most abundant genera in the chicken caecum (Gong et al., 2007)
Ø ↑Oscillospira Ø ↑Ruminococcus Ø ↑Coprococcus
Ruminococcaceae and Lachnospiraceae family: produceon of SCFAs (++ butyrate) (Liu et al., 2008; Danzeisen et al., 2011)
(Biasato et al. 2018)
CHITIN
POULTRY BEHAVIOUR
ANTI-‐MICROBIAL PEPTIDES
FATS Lauric acid (C 12:0)
Aneoxidant > Immune system < Cholesterol < Obesity
GUT MICROBIOTA modulaeon > ANIMAL WELFARE
Take home message! Ø
Ø
Ø
Ø
MW or BSF meals have no negative effects on animal health and food quality and safety Low percentages of MW and BSF meal inclusion (5.0% or 7.5 %) are preferable in terms of animal performance and gut health Higher MW inclusion (> 10%) may negatively affect performance and gut traits A multidisciplinary post mortem approach is needed for the evaluation of gut health
www.esvcn2019.unito.it Mail to: achille.schiavone@unito.it
Kit Supervivencia nutriForum Puede Copiar/ Pegar cualquier icono de esta página…… no borre esta página hasta el final
Cada 5 diapo Use una llamada a preguntar
Use los iconos para ilustrar su temá9ca