Guide to good dairy farming practice 2011
HIGIENE PROSES
PENGOLAHAN
SUSU & TELUR
C
Tim Teaching Higiene Susu & Telur 2017
Senin, 18 & Rabu, 20 September 2017
HIGIENE PENGOLAHAN SUSU
Good Dairy Farming
Practices
GUIDE TO GOOD
DAIRY FARMING
PRACTICE
2004
• A joint publication of
the International Dairy
Federation and the
Food and Agriculture
Organization of the
United Nations
GUIDE TO GOOD
DAIRY FARMING
PRACTICE
2011
• A joint publication of the
International Dairy
Federation and the Food
and Agriculture
Organization of the United
Nations
• FAO and IDF. 2011.
Guide to good dairy
farming practice.
Animal Production and
Health Guidelines. No.
8. Rome
Guidelines for good dairy farming
practices references :
•
Codex Alimentarius : Food Hygiene and Basic Texts.
• Codex : Recommended International Code of Practice – General Principles of
Food Hygiene.
• Codex : Draft Code of Hygienic Practice for Milk and Milk Products.
• Codex Code of Practice on Good Animal Feeding.
• FAO : Food Quality and Safety Systems – A training manual on food hygiene
and the Hazard Analysis and Critical Control Point (HACCP) system.
• IDF GMP Code for Milking with Automatic Milking Systems (if relevant).
• OIE Code of Animal Health.
The overarching
principles :
• From raw material production to the point of consumption, all dairy products should
be subject to a combination of control measures.
• Good Agricultural Practice – GAP and Good Manufacturing Practice – GMP, should
meet the appropriate level of public health protection.
• Good hygienic practices should be applied throughout the production and processing
chain so that milk and milk products are safe and suitable for their intended use.
• Wherever appropriate, hygienic practices for milk and milk products should be
implemented following the Annex to the Codex Recommended International Code of
Practice – General Principles of Food Hygiene.
• GAP/GMP together should be efective.
GUIDING OBJECTIVE FOR GOOD DAIRY FARMING PRACTICE (2011) :
• Safe, quality milk should be produced from healthy animals using
management practices that are sustainable from an animal welfare,
social, economic and environmental perspective.
• Dairy farmers need to apply GAP in the following areas :
Animal health;
Milking hygiene;
nutrition (feed and water);
Animal welfare;
Environment and
Socio-economic management
Manajemen pre-harvest,
harvest & post-harvest
Pre-Harvest Risk Management :
• Milk is a secretion of animals whose microbial and chemical
content directly refects the environment in which the
animals are farmed.
• Feed safety assurance is a pivotal part of pre-harvest dairy
assurance.
• Concentrates should be produced from high-quality
ingredients and stored in a manner minimizing
contamination by wild animals or growth of deleterious
fungi.
• Herd biosecurity approaches should minimize ingress of
pathogens.
Pre-Harvest Risk Management :
• The prevalence of some enteric pathogens, such as Salmonella
species, can be minimized by ensuring general overall animal health.
• Potential for contamination at harvest of milk by faeces containing
asymptomatically shed enteric pathogens, such as Campylobacter
species or VTECs, may be minimised by ensuring animal hygiene
with adequate bedding and management of parasitic enteritis.
• Udder health should be monitored.
• Antimicrobials should only be used in a targeted therapeutic manner
to minimize selection pressures for resistant organisms.
• All animal remedies should be used prudently, with identifcation and
records of treated lactating animals and active withdrawal of food
that might contain residues.
Harvest Risk Management :
• Hygiene can help minimize contamination from
the general production environment
• Lactating animals should be maintained in a
hygienic manner, with fecal soiling of the udder,
tail, and perineal area not allowed to accumulate
• Visibly contaminated teats should be cleaned and
dried prior to milking
Harvest Risk Management :
• Safe potable water should be provided in the dairy production area.
• Lactating animals treated with any products requiring withdrawal of
milk from human consumption should be clearly identifable, and
milked last to prevent contamination with milk containing residues.
• Milk should be screened prior to storage to remove any particulate
matter, such as fecal or hair material.
• Milk should be cooled rapidly and stored on farm in a manner
minimizing contamination.
Post-Harvest Risk Management :
• Milk must be stored hygienically on farm in bulk tanks until its
collection and delivery to the processing plant.
• Cooling and maintenance of low temperature during storage, transport,
and holding at the plant.
• The temperature of milk must not be more than 10°C following
transportation to the processing plant
• On arrival it must be cooled to 6°C or less and stored at that
temperature until processed
• The microbiological quality of raw milk samples is also assessed from
delivery vehicles and individual suppliers
Post-Harvest Risk Management :
• The minimum heat treatment required to eliminate bacterial
pathogens is pasteurization, and under most commercial
conditions, the milk is heated to a temperature of 71,7°C and
held for 15s.
• Testing to ensure that pasteurisation or other heat treatments
have been performed satisfactorily should also be performed.
• This can be carried out by examining for the presence of
phosphatase and peroxidase enzymes, which naturally occur in
raw milk.
• Phosphatase is relatively heat sensitive, and is denatured by
pasteurisation. Adequately pasteurised milk should, therefore,
test negative for this enzyme.
HIGIENE PENGOLAHAN
TELUR
Good Dairy Farming
Practices
GOOD FARMING PRACTICES FOR ANIMAL
PRODUCTION FOOD SAFETY, FAO & OIE
2009 :
• Recommended good practices to address the listed hazards are considered
under the following headings :
1. General farm management
2. Animal health management
3. Veterinary medicines and biologicals
4. Animal feeding and watering
5. Environment and infrastructure
6. Animal and product handling
1. General Farm Management :
1.Legal Obligations
2.Record keeping
3.Animal Identifcation
4.Hygiene and Disease Prevention
5.Training for worker
2. Animal Health
Management :
1. Addresing Biohazard
Secara garis besar didasarkan pada keamanan pangan dan biosecurity
2. Addressing physical hazards
Meminimalisir adanya benda asing
3. Veterinary Medicines &
Biologicals
• Menggunakan obat hewan berdasarkan anjuran dokter hewan
• Mengetahui asal usul obat hewan, vaksin & senyawa biologi lain (termasuk
nomor batch, cara kerja, masa paruh obat, dosis, cara penyimpanan)
• Menggunakan obat hewan, vaksin & senyawa biologi lain sesuai ketentuan yang
berlaku & berhati-hati dalam penggunaan
• Selalu memastikan bahwa instrumen & prosedur pengobatan dilaksanakan
dengan metode yang tepat
4. Animal Feeding &
Watering :
•
Pengawasan & pembatasan penggunaan antibiotik sebagai growth promotor
•
Menjaga rantai pakan (transportasi, penyimpanan & saat pemberian pakan) diharapkan
dapat menjaga pakan dari kontaminasi
•
Penggunaan pakan dengan sistem First In First out (FIFO)
•
Pengawasan sumber air minum
•
Pencucian tempat pakan secara rutin & desinfeksi saat kosong kandang
•
Pengawasan untuk pakan yang mengandung feed addictive
5. Environment & Infrastructure :
•
Lokasi kandang jauh dari lokasi industri & sumber cemaran lain
•
Konstruksi kandang sesuai
•
Pagar dan tembok pembatas yang tepat untuk meminimalisir kontak dengan
unggas liar & untuk pest control
•
Koleksi limbah kotoran yang tepat untuk mengurangi amoniak & sumber penyakit.
•
Menggunakan desinfektan yang tepat sesuai kebutuhan
6.
Animal
Handling :
&
Product
•
Pullet yang menghasilkan telur dalam keadaan sehat.
•
Minimalisir kontaminasi silang dari lingkungan.
•
Memastikan kondisi penyimpanan baik untuk menjaga kualitas produk.
•
Recording data telur yang dikirim keluar kandang dan tanggal pengiriman.
•
Telur yang dihasilkan tidak dalam masa pengobatan antibiotik.
•
Menangani produk telur sedemikian rupa untuk mencegah kerusakan.
Manajemen pre-harvest,
harvest & post-harvest
MANAJEMEN PRE-HARVEST
Kesehatan Pullet
Kebutuhan Pakan (Nutrisi, Protein, Feed
Addictives)
Pengawasan Penggunaan Antibiotik (Growth
Promotor)
Biosecurity
Manajemen Kandang
MANAJEMEN HARVEST
1. Eggs shall be candled prior to processing to remove
rejected eggs.
2. Eggs with the shell membrane broken and leaking heavily
shall be discarded and not used in any egg product.
3. Cracked eggs with the shell and/or membrane ruptured but
not leaking can be added to pulp that is to be pasteurized,
but must not be used for non-pasteurized egg pulp.
4. Eggs pulled from a carcass, or rejected eggs shall not be
used.
5. Incubated clear eggs shall not be used for human
consumption. These eggs are likely to contain high
numbers of bacteria
6. Recording
MANAJEMEN POST HARVEST
1. Pembersihan
Telur konsumsi dapat dibersihkan
dengan lembut sebelum dilakukan
pengemasan
Pembersihan dengan cara manual dan
otomatis
Untuk telur yang dikirimkan ke hatchery
dapat dilakukan fumigasi
MANAJEMEN POST-HARVEST
2. Pengemasan
Eggtray ke konsumen
Eggtray ke hatchery
Pengemasan dengan kardus atau
stereofoam
MANAJEMEN POST-HARVEST
3. Distribusi
Memperhatikan suhu transportasi
(pertumbuhan jamur karena suhu
selama transportasi tidak sesuai)
MANAJEMEN POST-HARVEST
4. Penyimpanan
With regard to food safety and hygiene
of eggs, they have a shelf life of 28
days from the date of candling–
packaging
After sale in supermarket, they could
be maintained in the fridge
In general, eggs could be used by all
the consumers
The product labels refer to the
following :
• expiry date
• instructions for storage and use of
eggs
MANAJEMEN POST-HARVEST
4. Penyimpanan
Egg yolk is a very good medium for bacteria to grow in
At room temperature, one Salmonella enteriditis bacteria can grow to 16,000 organisms
per-gram of yolk after 24 hours
The egg white exhibits antibacterial properties to most pathogens. However, Listeria
monocytogenes, Yersinia enterocolitica & Aeromonas hydrophila can grow in the egg
white
Salmonella enteriditis will not grow in egg products held at 7°C or less
Listeria monocytogenes will not grow in whole egg or egg white below 5°C
Yersinia enterocolitica will grow in whole egg, egg yolk and egg white below 2°C
Listeria monocytogenes will grow in the egg yolk below 5°C
While refrigeration does not completely STOP pathogen growth, it reduces growth rates very
signifcantly
TERIMA KASIH ...
PENGOLAHAN
SUSU & TELUR
C
Tim Teaching Higiene Susu & Telur 2017
Senin, 18 & Rabu, 20 September 2017
HIGIENE PENGOLAHAN SUSU
Good Dairy Farming
Practices
GUIDE TO GOOD
DAIRY FARMING
PRACTICE
2004
• A joint publication of
the International Dairy
Federation and the
Food and Agriculture
Organization of the
United Nations
GUIDE TO GOOD
DAIRY FARMING
PRACTICE
2011
• A joint publication of the
International Dairy
Federation and the Food
and Agriculture
Organization of the United
Nations
• FAO and IDF. 2011.
Guide to good dairy
farming practice.
Animal Production and
Health Guidelines. No.
8. Rome
Guidelines for good dairy farming
practices references :
•
Codex Alimentarius : Food Hygiene and Basic Texts.
• Codex : Recommended International Code of Practice – General Principles of
Food Hygiene.
• Codex : Draft Code of Hygienic Practice for Milk and Milk Products.
• Codex Code of Practice on Good Animal Feeding.
• FAO : Food Quality and Safety Systems – A training manual on food hygiene
and the Hazard Analysis and Critical Control Point (HACCP) system.
• IDF GMP Code for Milking with Automatic Milking Systems (if relevant).
• OIE Code of Animal Health.
The overarching
principles :
• From raw material production to the point of consumption, all dairy products should
be subject to a combination of control measures.
• Good Agricultural Practice – GAP and Good Manufacturing Practice – GMP, should
meet the appropriate level of public health protection.
• Good hygienic practices should be applied throughout the production and processing
chain so that milk and milk products are safe and suitable for their intended use.
• Wherever appropriate, hygienic practices for milk and milk products should be
implemented following the Annex to the Codex Recommended International Code of
Practice – General Principles of Food Hygiene.
• GAP/GMP together should be efective.
GUIDING OBJECTIVE FOR GOOD DAIRY FARMING PRACTICE (2011) :
• Safe, quality milk should be produced from healthy animals using
management practices that are sustainable from an animal welfare,
social, economic and environmental perspective.
• Dairy farmers need to apply GAP in the following areas :
Animal health;
Milking hygiene;
nutrition (feed and water);
Animal welfare;
Environment and
Socio-economic management
Manajemen pre-harvest,
harvest & post-harvest
Pre-Harvest Risk Management :
• Milk is a secretion of animals whose microbial and chemical
content directly refects the environment in which the
animals are farmed.
• Feed safety assurance is a pivotal part of pre-harvest dairy
assurance.
• Concentrates should be produced from high-quality
ingredients and stored in a manner minimizing
contamination by wild animals or growth of deleterious
fungi.
• Herd biosecurity approaches should minimize ingress of
pathogens.
Pre-Harvest Risk Management :
• The prevalence of some enteric pathogens, such as Salmonella
species, can be minimized by ensuring general overall animal health.
• Potential for contamination at harvest of milk by faeces containing
asymptomatically shed enteric pathogens, such as Campylobacter
species or VTECs, may be minimised by ensuring animal hygiene
with adequate bedding and management of parasitic enteritis.
• Udder health should be monitored.
• Antimicrobials should only be used in a targeted therapeutic manner
to minimize selection pressures for resistant organisms.
• All animal remedies should be used prudently, with identifcation and
records of treated lactating animals and active withdrawal of food
that might contain residues.
Harvest Risk Management :
• Hygiene can help minimize contamination from
the general production environment
• Lactating animals should be maintained in a
hygienic manner, with fecal soiling of the udder,
tail, and perineal area not allowed to accumulate
• Visibly contaminated teats should be cleaned and
dried prior to milking
Harvest Risk Management :
• Safe potable water should be provided in the dairy production area.
• Lactating animals treated with any products requiring withdrawal of
milk from human consumption should be clearly identifable, and
milked last to prevent contamination with milk containing residues.
• Milk should be screened prior to storage to remove any particulate
matter, such as fecal or hair material.
• Milk should be cooled rapidly and stored on farm in a manner
minimizing contamination.
Post-Harvest Risk Management :
• Milk must be stored hygienically on farm in bulk tanks until its
collection and delivery to the processing plant.
• Cooling and maintenance of low temperature during storage, transport,
and holding at the plant.
• The temperature of milk must not be more than 10°C following
transportation to the processing plant
• On arrival it must be cooled to 6°C or less and stored at that
temperature until processed
• The microbiological quality of raw milk samples is also assessed from
delivery vehicles and individual suppliers
Post-Harvest Risk Management :
• The minimum heat treatment required to eliminate bacterial
pathogens is pasteurization, and under most commercial
conditions, the milk is heated to a temperature of 71,7°C and
held for 15s.
• Testing to ensure that pasteurisation or other heat treatments
have been performed satisfactorily should also be performed.
• This can be carried out by examining for the presence of
phosphatase and peroxidase enzymes, which naturally occur in
raw milk.
• Phosphatase is relatively heat sensitive, and is denatured by
pasteurisation. Adequately pasteurised milk should, therefore,
test negative for this enzyme.
HIGIENE PENGOLAHAN
TELUR
Good Dairy Farming
Practices
GOOD FARMING PRACTICES FOR ANIMAL
PRODUCTION FOOD SAFETY, FAO & OIE
2009 :
• Recommended good practices to address the listed hazards are considered
under the following headings :
1. General farm management
2. Animal health management
3. Veterinary medicines and biologicals
4. Animal feeding and watering
5. Environment and infrastructure
6. Animal and product handling
1. General Farm Management :
1.Legal Obligations
2.Record keeping
3.Animal Identifcation
4.Hygiene and Disease Prevention
5.Training for worker
2. Animal Health
Management :
1. Addresing Biohazard
Secara garis besar didasarkan pada keamanan pangan dan biosecurity
2. Addressing physical hazards
Meminimalisir adanya benda asing
3. Veterinary Medicines &
Biologicals
• Menggunakan obat hewan berdasarkan anjuran dokter hewan
• Mengetahui asal usul obat hewan, vaksin & senyawa biologi lain (termasuk
nomor batch, cara kerja, masa paruh obat, dosis, cara penyimpanan)
• Menggunakan obat hewan, vaksin & senyawa biologi lain sesuai ketentuan yang
berlaku & berhati-hati dalam penggunaan
• Selalu memastikan bahwa instrumen & prosedur pengobatan dilaksanakan
dengan metode yang tepat
4. Animal Feeding &
Watering :
•
Pengawasan & pembatasan penggunaan antibiotik sebagai growth promotor
•
Menjaga rantai pakan (transportasi, penyimpanan & saat pemberian pakan) diharapkan
dapat menjaga pakan dari kontaminasi
•
Penggunaan pakan dengan sistem First In First out (FIFO)
•
Pengawasan sumber air minum
•
Pencucian tempat pakan secara rutin & desinfeksi saat kosong kandang
•
Pengawasan untuk pakan yang mengandung feed addictive
5. Environment & Infrastructure :
•
Lokasi kandang jauh dari lokasi industri & sumber cemaran lain
•
Konstruksi kandang sesuai
•
Pagar dan tembok pembatas yang tepat untuk meminimalisir kontak dengan
unggas liar & untuk pest control
•
Koleksi limbah kotoran yang tepat untuk mengurangi amoniak & sumber penyakit.
•
Menggunakan desinfektan yang tepat sesuai kebutuhan
6.
Animal
Handling :
&
Product
•
Pullet yang menghasilkan telur dalam keadaan sehat.
•
Minimalisir kontaminasi silang dari lingkungan.
•
Memastikan kondisi penyimpanan baik untuk menjaga kualitas produk.
•
Recording data telur yang dikirim keluar kandang dan tanggal pengiriman.
•
Telur yang dihasilkan tidak dalam masa pengobatan antibiotik.
•
Menangani produk telur sedemikian rupa untuk mencegah kerusakan.
Manajemen pre-harvest,
harvest & post-harvest
MANAJEMEN PRE-HARVEST
Kesehatan Pullet
Kebutuhan Pakan (Nutrisi, Protein, Feed
Addictives)
Pengawasan Penggunaan Antibiotik (Growth
Promotor)
Biosecurity
Manajemen Kandang
MANAJEMEN HARVEST
1. Eggs shall be candled prior to processing to remove
rejected eggs.
2. Eggs with the shell membrane broken and leaking heavily
shall be discarded and not used in any egg product.
3. Cracked eggs with the shell and/or membrane ruptured but
not leaking can be added to pulp that is to be pasteurized,
but must not be used for non-pasteurized egg pulp.
4. Eggs pulled from a carcass, or rejected eggs shall not be
used.
5. Incubated clear eggs shall not be used for human
consumption. These eggs are likely to contain high
numbers of bacteria
6. Recording
MANAJEMEN POST HARVEST
1. Pembersihan
Telur konsumsi dapat dibersihkan
dengan lembut sebelum dilakukan
pengemasan
Pembersihan dengan cara manual dan
otomatis
Untuk telur yang dikirimkan ke hatchery
dapat dilakukan fumigasi
MANAJEMEN POST-HARVEST
2. Pengemasan
Eggtray ke konsumen
Eggtray ke hatchery
Pengemasan dengan kardus atau
stereofoam
MANAJEMEN POST-HARVEST
3. Distribusi
Memperhatikan suhu transportasi
(pertumbuhan jamur karena suhu
selama transportasi tidak sesuai)
MANAJEMEN POST-HARVEST
4. Penyimpanan
With regard to food safety and hygiene
of eggs, they have a shelf life of 28
days from the date of candling–
packaging
After sale in supermarket, they could
be maintained in the fridge
In general, eggs could be used by all
the consumers
The product labels refer to the
following :
• expiry date
• instructions for storage and use of
eggs
MANAJEMEN POST-HARVEST
4. Penyimpanan
Egg yolk is a very good medium for bacteria to grow in
At room temperature, one Salmonella enteriditis bacteria can grow to 16,000 organisms
per-gram of yolk after 24 hours
The egg white exhibits antibacterial properties to most pathogens. However, Listeria
monocytogenes, Yersinia enterocolitica & Aeromonas hydrophila can grow in the egg
white
Salmonella enteriditis will not grow in egg products held at 7°C or less
Listeria monocytogenes will not grow in whole egg or egg white below 5°C
Yersinia enterocolitica will grow in whole egg, egg yolk and egg white below 2°C
Listeria monocytogenes will grow in the egg yolk below 5°C
While refrigeration does not completely STOP pathogen growth, it reduces growth rates very
signifcantly
TERIMA KASIH ...