The Animal By-Products Order 1999

Article 7 and 8

SCHEDULE 1REQUIREMENTS FOR RENDERING PLANTS

General requirements

1.  The approved premises shall be adequately separated from other buildings and from the public highway, except that they may be in the same building as a slaughterhouse provided that they are in a completely separate part.

2.  Animals and unauthorised persons shall not be permitted to enter the premises. Animals shall not be permitted to have access to unrendered animal by-products or any liquid from them. Preventative measures against birds, rodents, insects and other vermin shall be taken systematically.

3.  Floors shall be impervious, cleanable and be laid so that liquids drain away, and cannot seep from the unclean area into the clean area.

4.  The premises shall be drained by a waste water disposal system. Waste water originating in the unclean area shall be treated to ensure that no pathogens remain, except in the case of premises rendering non-mammalian animal by-products for the production of swill for feeding to pigs or poultry.

5.  Adequate lavatories, changing areas and washbasins shall be available for staff.

Clean and unclean areas

6.  There shall be a clean area and an unclean area, adequately separated. The unclean area shall be easy to clean and disinfect. It will have a covered place (the reception area) to receive and store the unrendered animal by-products.

7.  Unrendered animal by-products shall be unloaded in the reception area and either—

(a)rendered immediately; or

(b)stored in the reception area and rendered without undue delay.

8.  If carcases are de-skinned or de-haired, there shall be adequate facilities in the unclean area for doing this, and there shall be a storage room for hides.

9.  Rendered material shall be handled, processed and stored in the clean area in such a way as to preclude recontamination. Rendered material shall not be allowed to come into contact with any unrendered animal by-products.

10.  Persons who have been in the unclean area shall not enter the clean area without first disinfecting or changing their footwear and changing their outer clothing. Equipment and utensils which have been in the unclean area shall not be taken into the clean area unless they have been suitably cleansed and disinfected.

Cleansing and disinfection facilities

11.  There shall be adequate facilities (including a water supply) provided to enable containers and vehicles (including their wheels) to be cleansed and disinfected in accordance with this paragraph. Vehicles (including their wheels) used for the transport of animal by-products shall be cleansed and disinfected before entering the clean area or (if they do not enter the clean area) before they leave the premises. Containers used for animal by-products shall be cleansed and disinfected after each use.

Equipment

12.  If the rendering method requires animal by-products to be reduced in size before rendering, the unclean area shall contain equipment to do this, and also equipment for loading the resulting material into the rendering unit.

13.  The premises shall have equipment capable of producing sufficient hot water and steam if these are used to render animal by-products.

14.—(1) Subject to sub-paragraph (2) below, rendering premises shall be equipped with suitable rendering equipment. Where heat treatment is required, this installation shall be equipped with—

(a)measuring equipment to check temperature and, if necessary, pressure at critical points;

(b)recording devices to record continuously the results of measurements; and

(c)an adequate safety system to prevent insufficient heating.

(2) In the case of premises rendering non-mammalian animal by-products for the production of swill for feeding to pigs or poultry, the premises shall be equipped with a suitable cooker with measuring equipment to check that the animal by-products are rendered to the required temperature.

15.  Installations and equipment shall be kept in a good state of repair. All measuring equipment shall be calibrated at regular intervals.

Laboratories

16.  Where microbiological tests are required under article 9, the premises shall either have their own laboratory approved under this Order or make use of the services of a laboratory approved under this Order.

Articles 3, 7 and 8

SCHEDULE 2RENDERING

PART IRENDERING STANDARDS

Mammalian animal by-products

1.—(1) An operator shall render mammalian animal by-products in accordance with either—

(a)Method 1 of Part II of this Schedule; or

(b)any of the other methods in Part II of this Schedule if, after rendering, the resulting proteinaceous material is disposed of by burial, incineration, or a similar method which ensures that it will not enter any food or feed chain and will not be used as fertiliser.

(2) This paragraph shall not apply in relation to the rendering of the following mammalian material—

(a)low risk material for the production of petfood;

(b)hides, skins, hooves, horns or hair;

(c)blood or blood products;

(d)milk or milk products; or

(e)glands, tissues or organs for pharmaceutical use.

High risk material

2.  An operator shall render non-mammalian high risk material, and mammalian high risk material specified in paragraph 1(2) of this Schedule, in accordance with either—

(a)Method 1 of Part II of this Schedule; or

(b)any of the other methods in Part II of this Schedule (either in accordance with the parameters for the selected method set out in the Schedule or in accordance with different parameters set out in the approval) provided that the rendered material complies with the microbiological standards in article 3(2).

Low-risk material

3.  An operator shall render non-mammalian low risk material, and mammalian low risk material specified in paragraph 1(2) of this Schedule, in accordance with either—

(a)paragraph 2 above; or

(b)a method and parameters specified in the approval which ensure that the rendered material complies with the microbiological standards in article 3(2).

Part-rendering

4.  Animal by-products may be part-rendered by any method approved by the appropriate Minister if, after part-rendering, the material is disposed of in accordance with article 5.

Non-mammalian animal by-products used for the production of swill

5.  Notwithstanding the requirements of paragraphs 2 or 3 above, in the case of non-mammalian high risk or low risk material which is being rendered for the production of swill for feeding to pigs or poultry, the material shall be rendered for at least 60 minutes at a temperature of not less than 100°C or by an alternative method specified in the approval.

Gelatin and rendered fats

6.  The preceding methods and parameters shall not apply in relation to the rendering of animal by-products for the production of gelatin or rendered fats. Any animal by-products other than gelatin or rendered fats remaining after production shall be disposed of in accordance with article 5.

Hides

7.  Hides shall be either rendered in accordance with the preceding provisions of this Schedule or salted using sodium chloride.

Re-rendering material

8.  If the required parameters are not achieved during any rendering operation, the material shall be rendered again so that those parameters are achieved.

PART IIRENDERING METHODS

METHOD 1CONTINUOUS OR BATCH PRESSURE

Reduction

1.  If the particle size of the animal by-products to be rendered is more than 50 millimetres, the animal by-products shall be reduced in size using equipment specified in the approval, set so that the particle size after reduction is no greater than 50 millimetres or such smaller size as the approval shall specify. The effectiveness of the equipment shall be checked daily and its condition recorded. If checks disclose the existence of particles larger than is permitted in the approval, the process shall be stopped and repairs made before the process is resumed.

Time, temperature and pressure

2.  After reduction the animal by-products shall be heated to a core temperature of more than 133°C for at least 20 minutes without interruption at a pressure of at least 3 bar.

3.  The rendering may be carried out in batch or continuous systems.

METHOD 2NATURAL FAT BATCH

Reduction

1.  If the particle size of the animal by-products to be rendered is more than 150 millimetres, the animal by-products shall be reduced in size using equipment specified in the approval, set so that the particle size after reduction is no greater than 150 millimetres or such smaller size as the approval shall specify. The effectiveness of the equipment shall be checked daily and its condition recorded. If checks disclose the existence of particles larger than is permitted in the approval, the process shall be stopped and repairs made before the process is resumed.

Time and temperature

2.  After reduction the animal by-products shall be heated to a core temperature greater than 100°C for at least 125 minutes, a core temperature greater than 110°C for at least 120 minutes and a core temperature greater than 120°C for at least 50 minutes.

3.  The rendering shall be carried out in a batch system.

4.  The animal by-products may be cooked such that the time-temperature requirements are achieved at the same time.

METHOD 3NATURAL FATCONTINUOUS OR BATCH

Reduction

1.  If the particle size of the animal by-products to be rendered is more than 30 millimetres, the animal by-products shall be reduced in size using equipment specified in the approval, set so that the particle size after reduction is no greater than 30 millimetres or such smaller size as the approval shall specify. The effectiveness of the equipment shall be checked daily and its condition recorded. If checks disclose the existence of particles larger than is permitted in the approval, the process shall be stopped and repairs made before the process is resumed.

Time and temperature

2.  After reduction, the animal by-products shall be heated to a core temperature greater than 100°C for at least 95 minutes, a core temperature greater than 110°C for at least 55 minutes and a core temperature greater than 120°C for at least 13 minutes.

3.  The rendering may be carried out in batch or continuous systems.

4.  The animal by-products may be cooked such that the time-temperature requirements are achieved at the same time.

METHOD 4ADDED FATCONTINUOUS OR BATCH

Reduction

1.  If the particle size of the animal by-products to be rendered is more than 30 millimetres, the animal by-products shall be reduced in size using equipment specified in the approval, set so that the particle size after reduction is no greater than 30 millimetres or such smaller size as the approval shall specify. The effectiveness of the equipment shall be checked daily and its condition recorded. If checks disclose the existence of particles larger than is permitted in the approval, the process shall be stopped and repairs made before the process is resumed.

Time and temperature

2.  After reduction the animal by-products shall be placed in a vessel with added fat and heated to a core temperature greater than 100°C for at least 16 minutes, a core temperature greater than 110°C for at least 13 minutes, a core temperature greater than 120°C for at least 8 minutes and a core temperature greater than 130°C for at least 3 minutes.

3.  The rendering may be carried out in batch or continuous systems.

4.  The animal by-products may be cooked such that the time-temperature requirements are achieved at the same time.

METHOD 5DEFATTEDCONTINUOUS OR BATCH

Reduction

1.  If the particle size of the animal by-products to be rendered is more than 20 millimetres, the animal by-products shall be reduced in size using equipment specified in the approval, set so that the particle size after reduction is no greater than 20 millimetres or such smaller size as the approval shall specify. The effectiveness of the equipment shall be checked daily and its condition recorded. If checks disclose the existence of particles larger than is permitted in the approval, the process shall be stopped and repairs made before the process is resumed.

Time and temperature

2.  After reduction the animal by-products shall be heated until they coagulate and then pressed so that fat and water are removed from the proteinaceous material. The proteinaceous material shall then be heated to a core temperature greater than 80°C for at least 120 minutes and a core temperature greater than 100°C for at least 60 minutes.

3.  The rendering may be carried out in batch or continuous systems.

4.  The animal by-products may be cooked such that the time-temperature requirements are achieved at the same time.

METHOD 6AQUATIC ANIMALSCOMBINED ACIDIFICATION AND HEAT TREATMENT

1.  The animal by-products shall be reduced to a size specified in the approval. They shall then be mixed with formic acid to reduce the pH to a level specified in the approval. They shall then be stored for a period specified in the approval.

2.  They shall then be heated to a temperature specified in the approval for a time specified in the approval.

3.  After heat treatment, the product shall be separated into liquid, fat and greaves by mechanical means. In order to obtain an animal protein concentrate, the liquid shall be pumped into two heat exchangers which are steam heated and equipped with vacuum chambers in order for its moisture to be removed in the form of water vapour. The greaves shall then be added to the protein concentrate.

Articles 3, 9 and 16

SCHEDULE 3SAMPLING AND TESTING METHODS

PART IMANNER OF SAMPLING

METHOD 1

1.  In accordance with the following table, samples of approximately equal size shall be extracted evenly from the whole of the rendered material. These samples shall then be divided into groups of approximately equal numbers, the number of groups being the number of aggregate samples specified in the table. The samples in each group shall then be mixed together to form aggregate samples.

2.  Each aggregate sample shall be placed into a separate sterile receptacle and each shall be thoroughly mixed by stirring or shaking.

3.  Approximately equal amounts shall be taken from each aggregate sample and mixed so as to provide a single final sample of approximately 500 grams. This final sample shall be transferred into a suitable sterile screw top container which shall then be sealed and marked to indicate its identity.

METHOD 2

1.  In accordance with the following table, samples of approximately equal size shall be extracted evenly from the whole of the rendered material. These samples shall then be divided into groups of approximately equal numbers, the number of groups being the number of aggregate samples specified in the table. The samples in each group shall then be mixed together to form aggregate samples.

For the purpose of this method “consignment” means the total quantity of rendered material loaded onto a single vehicle or trailer.

2.  Each aggregate sample shall be placed into a separate sterile receptacle and each shall be thoroughly mixed by stirring or shaking.

3.  Approximately equal amounts shall be taken from each aggregate sample and mixed so as to provide a single final sample of approximately 500 grams. This final sample shall be transferred into a suitable sterile screw top container which shall then be sealed and marked to indicate its identity.

PART IIMETHOD FOR THE ISOLATION OF CLOSTRIDIUM PERFRINGENS

Time of testing

1.  Tests shall be begun on receipt of the sample or on the first working day which allows this method to be completed. If the test is not begun on the day of receipt the sample shall be stored in a refrigerator at between 2°C and 8°C until required. If the sample has been refrigerated it shall be removed from the refrigerator and stored at room temperature for at least one hour before the test is started.

Samples

2.  Tests shall be carried out using two 10 gram portions of each sample submitted for testing. Each 10 gram sample shall be placed aseptically in a jar containing 90 ml Clostridium perfringensdiluent consisting of 0.1% peptone and 0.8% sodium chloride at a pH of 7 and mixed thoroughly until the sample is evenly suspended.

Inoculations

3.  For each portion of the sample 1 ml of solution shall be transferred to a sterile 90 mm petri dish (in duplicate), to which 15 ml of Shahidi—Ferguson agar (SF agar)(1) at a temperature of 49°C±1°C shall be added and immediately gently mixed by swirling the dish with 5 clockwise and 5 anticlockwise circular movements.

4.  Once the agar has set, each agar plate shall be overlaid with a further 10 ml SF agar at a temperature of 49°C±1°C. Once the overlay has set and with the plate lids uppermost the plates shall be incubated anaerobically at 37°C±1°C for 20 hours±2 hours.

Samples with colonies of Clostridium perfringens

5.  After incubation each set of duplicate plates shall be examined for colonies characteristic of Clostridium perfringens(black). The sample provisionally fails if any colonies characteristic of Clostridium perfringensare present, in which case the following procedure shall be followed to establish whether or not the colonies are Clostridium perfringens.

6.  In the case of each plate, 10 characteristic colonies of Clostridium perfrin gensshall be subcultured on to a further SF agar plate. If there are less than 10 colonies on the plate, all characteristic colonies shall be subcultured on to the further plate. The plates shall be incubated anaerobically at 37°C±1°C for 20 hours±2 hours.

7.  If the surface area of the plates is overgrown and it is not possible to select well isolated characteristic colonies, 10 suspect colonies shall be subcultured on to duplicate SF agar plates and incubated anaerobically at 37°C±1°C for 20 hours±2 hours.

8.  One characteristic colony from each plate shall be subcultured on to SF agar and incubated anaerobically at 37°C±1°C for 20 hours±2 hours.

Subcultured colonies

9.  After incubation each plate shall be examined for colonies characteristic of Clostridium perfringens. All colonies characteristic of Clostridium perfrin gensshall be—

(a)stab inoculated into motility nitrate medium(2); and

(b)inoculated into either lactose gelatin medium(3) or charcoal gelatin discs(4);

and incubated anaerobically at 37°C±1°C for 20 hours±2 hours.

Examination of subcultures

Motility

10.  The motility nitrate medium shall be examined for the type of growth along the stab line. If there is evidence of diffuse growth out into the medium away from the stab line, the bacteria shall be considered to be motile.

Reduction of nitrate to nitrite

11.  After examination of the motility nitrate medium, 0.2 ml to 0.5 ml of nitrite detection reagent shall be added to it. The formation of a red colour confirms that the bacteria have reduced nitrate to nitrite. Cultures that show a faint reaction (i.e. a pink colour) should be discounted. If no red colour is formed within 15 minutes, a small amount of zinc dust shall be added and the plate allowed to stand for 15 minutes. If a red colour is formed after the addition of zinc dust no reduction of nitrate to nitrite has taken place.

Production of gas and acid from lactose and liquefaction of gelatin

12.  The lactose gelatin medium shall be examined for the presence of small gas bubbles in the medium.

13.  The lactose gelatin medium shall be examined for colour. A yellow colour indicates fermentation of lactose.

14.  The lactose gelatin medium shall be chilled for one hour at 2—8°C and then checked to see if the gelatin has liquefied. If the medium has solidified it shall be re-incubated anaerobically for a further 18—24 hours, the medium chilled for a further one hour at 2—8°C and again checked to see if the gelatin has liquefied.

15.  The presence of Clostridium perfringensshall be determined on the basis of the results from paragraphs 10 to 14. Bacteria which produce black colonies on SF agar, are non-motile, reduce nitrate to nitrite, produce gas and acid from lactose and liquefy gelatin within 48 hours shall be considered to be Clostridium perfringens.

Control Tests

16.  Control tests shall be carried out each day that a test is initiated using

(a)Clostridium perfringensno more than seven days old at the time of use;

(b)Escherichia coliNCTC 10418(5) or equivalent not more than seven days old at the time of use; and

(c)rendered animal protein which is free of Clostridium perfringens.

17.  10 gram portions of the rendered animal protein shall be placed aseptically in each of two jars containing 90 ml Buffered Peprone Water (BPW)(6) and mixed thoroughly until the samples are evenly suspended.

18.  One colony of Clostridium perfringensshall be placed in 10 ml BPW and mixed to form an even suspension. 0.1 ml of the suspension shall be added to the suspension in the preceding paragraph. This shall be repeated for Escherichia coli.

19.  These are then treated and examined in the same way as test samples. If no typical colonies are formed then that day’s testing shall be invalid and shall be repeated.

PART IIIMETHODS FOR THE ISOLATION OF SALMONELLA

A. BACTERIOLOGICAL METHOD

1.  Tests shall be begun on receipt of the sample or on the first working day which allows this method to be completed. If the test is not begun on the day of receipt the sample shall be stored in a refrigerator until required. If the sample has been refrigerated it shall be removed from the refrigerator and stored at room temperature for at least four hours before the test is started.

Day 1

2.  Tests shall be carried out in duplicate using two 25 gram portions of each sample submitted for testing. Each 25 gram sample shall be placed aseptically in a jar containing 225 ml Buffered Peptone Water (BPW) and incubated at 37°C for 18 hours.

Day 2

3.  0.1 ml from the jar of incubated BPW shall be inoculated into 10 ml Rappaports Vassiliadis broth (RV broth)(7) and incubated at 41.5°C±0.5°C for 24 hours.

Day 3

4.  The RV broth shall be plated out on to two 90 millimetre plates of Brilliant Green Agar (BGA)(8) or on to one 90 millimetre plate of BGA and one 90 millimetre plate of Xylose Lysine Deoxycholate Agar (XLD)(9) using a 2.5 mm diameter loop. The plates shall be inoculated with a droplet taken from the edge of the surface of the fluid by drawing the loop over the whole of one plate in a zig zag pattern and continuing to the second plate without recharging the loop. The space between the loop streaks shall be 0.5 cm—1.0 cm. The plates shall be incubated at 37°C overnight.

5.  The residual RV broth shall be reincubated at 41.5°C±0.5°C for a further 24 hours.

Day 4

6.  The plates shall be examined and a minimum of 3 colonies from each plate showing suspicion of Salmonella growth shall be subcultured—

(a)on to a blood agar plate;

(b)on to a MacConkey agar plate(10); and

(c)into biochemical media suitable for the identification of Salmonella.

These media shall be incubated at 37°C overnight.

7.  The reincubated RV both shall be plated out as described in paragraph 4.

Day 5

8.  The incubated composite media or equivalent shall be examined and the findings recorded, discarding cultures which are obviously not Salmonella. Slide serological tests shall be performed using Salmonella polyvalent “O” and polyvalent “H” (phase 1 and 2) agglutinating sera on selected suspect colonies collected from the blood agar or MacConkey plates. If reactions occur with one or both sera, the colonies shall be typed by slide serology and a subculture sent (in Scotland) to the Veterinary Laboratory, Lasswade, Midlothian and (in England and Wales) to a Veterinary Investigation Centre of the Ministry of Agriculture, Fisheries and Food for further typing.

9.  The plates referred to in paragraph 7 shall be examined and further action taken as in paragraph 6 and 8.

B. ELECTRICAL CONDUCTANCE METHOD

1.  Tests shall be begun on receipt of the sample or on the first working day which allows the following method to be completed. If the test is not begun on the day of receipt the sample shall be stored in a refrigerator until required. If the sample has been refrigerated it shall be stored at room temperature for at least four hours before the test is started.

Day 1

2.  Tests shall be carried out in duplicate using two 25 gram portions of each sample submitted for testing. Each 25 gram sample shall be placed aseptically in a jar containing 225 ml Buffered Peptone Water/Lysine/Glucose (BPW/L/G)(11) and incubated at 37°C for 18 hours.

Day 2

3.  The incubated BPW/L/G shall be added to Selenite Cystine Trimethylamine-N-Oxide Dulcitol (SC/T/D)(12) and Lysine Decarboxylase Glucose (LD/G)(13) media in electrical conductance cells or wells. For cells or wells containing more than 5 ml medium 0.2 ml of the BPW/L/G shall be added and for cells or wells containing 5 ml or less medium 0.1 ml of the BPW/L/G shall be added. Cells or wells shall be connected to appropriate electrical conductance measuring equipment set to monitor and record changes in electrical conductance at 6 minute intervals over a 24 hour period. The temperature of cells and wells shall be kept at 37°C.

Day 3

4.  At the end of the 24 hour period, the information recorded by the conductance measuring equipment shall be analysed and interpreted using criteria defined by the manufacturers of the equipment. Where a well or cell is provisionally identified as being positive for Salmonella, the result shall be confirmed by subculturing the contents of the well or cell on to two 90 millimetre plates of BGA or on to one 90 millimetre plate of BGA and one 90 millimetre plate of Xylose Lysine Deoxycholate Agar (XLD) using a 2.5 mm diameter loop. The plates shall be inoculated with a droplet taken from the edge of the surface of the fluid by drawing the loop over the whole of one plate in a zig zag pattern and continuing to the second plate without recharging the loop. The space between the loop streaks shall be 0.5 cm—1.0 cm. The plates shall be incubated at 37°C overnight.

Day 4

5.  The plates shall be examined and a minimum of 3 colonies from each plate showing suspicion of Salmonella growth shall be subcultured—

(a)on to a blood agar plate;

(b)on to a MacConkey agar plate; and

(c)into biochemical media suitable for the identification of Salmonella.

These media shall be incubated at 37°C overnight.

Day 5

6.  The incubated composite media or equivalent shall be examined and the findings recorded, discarding cultures which are obviously not Salmonella. Slide serological tests shall be performed using Salmonella polyvalent “O” and polyvalent “H” (phase 1 and 2) agglutinating sera on selected suspect colonies collected from the blood agar or MacConkey plates. If reactions occur with one or both sera, a subculture shall be sent (in Scotland) to the Veterinary Laboratory, Lasswade, Midlothian, and (in England and Wales) to a Veterinary Investigation Centre of the Ministry of Agriculture, Fisheries and Food for further typing.

PART IVMETHOD FOR THE ISOLATION OF ENTEROBACTERIACEAE

1.  Tests shall be begun on receipt of the sample or on the first working day which allows this method to be completed. If the test is not begun on the day of receipt the sample shall be stored in a refrigerator until required at between 2°C and 8°C. If the sample has been refrigerated it shall be removed from the refrigerator and stored at room temperature for at least one hour before the test is started.

Samples

2.  Tests shall be carried out using five 10 gram portions of each sample submitted for testing. Each 10 gram sample shall be placed aseptically in a jar containing 90 ml Buffered Peptone Water and mixed thoroughly until the sample is evenly suspended.

Inoculations

3.  For each portion of the sample 1 ml of solution shall be transferred to a sterile 90 mm petri dish (in duplicate). The plates shall be labelled to identify the portion of sample they were taken from. 15 ml of Violet Red Bile Glucose Agar (VRBGA)(14) at a temperature of 49°C±1°C shall be added to each petri dish and immediately gently mixed by swirling the dish with five clockwise and five anticlockwise circular movements.

4.  Once the agar has set, each agar plate shall be overlaid with a further 10 ml VRBGA at a temperature of 49°C±1°C. Once the overlay has set, the plates shall be inverted and incubated aerobically at 37°C±1°C for 20 hours±2 hours.

Samples with colonies of Enterobacteriaceae

5.  After incubation each set of duplicate plates shall be examined for colonies characteristic of Enterobacteriaceae(purple colonies 1—2 mm in diameter). All characteristic colonies on each plate shall be counted and the arithmetic mean of the duplicate plates taken.

The sample provisionally fails if either–

(a)any arithmetic mean is above 30(15); or

(b)three or more arithmetic means are above 10;

in which case the following procedure shall be followed to establish whether or not the colonies are Enterobacteriaceae.

6.  After counting the colonies, characteristic colonies shall be taken at random from the agar plates, the number being at least the square root of the colonies counted. The colonies shall be subcultured onto a blood agar plate and incubated aerobically at 37°C±1°C for 20 hours±2 hours.

Examination of subcultures

7.  An oxidase test and a glucose fermentation test shall be performed on each of the five subcultured colonies. Colonies which are oxidase-negative and glucose fermentation-positive shall be considered to be Enterobacteriaceae.

8.  If not all of the colonies prove to be Enterobacteriaceae, the total count in paragraph 5 shall be reduced in proportion prior to establishing whether or not the sample should fail.

Controls

9.  Control tests shall be carried out each day that a test is initiated using—

(a)Escherichia coliNCTC 10418 no more than seven days old at time of use; and

(b)rendered animal protein which is free of Enterobacteriaceae.

10.  A 10 gram portion of the rendered animal protein shall be placed aseptically in a jar containing 90 ml BPW and mixed thoroughly until the sample is evenly suspended.

11.  One colony of Escherichia colishall be placed in 10 ml BPW and mixed to form an even suspension. 0.1 ml of the suspension shall be added to the suspension in the preceding paragraph.

12.  This is then treated and examined in the same way as test samples. If no typical colonies are formed then that day’s testing shall be invalid and shall be repeated.

Articles 14 and 15

SCHEDULE 4REQUIREMENTS FOR KNACKERS' YARDS

General requirements

1.  The approved premises shall be adequately separated from the public highway and other premises such as slaughterhouses.

2.  Preventive measures against birds, rodents, insects and other vermin shall be taken systematically.

3.  Floors shall be laid so that liquids drain away. The premises shall be drained by a waste-water disposal system.

4.  Adequate lavatories, changing rooms and washbasins shall be available for staff.

Clean and unclean areas in premises producing feedingstuffs for animals whose flesh is not intended for human consumption

5.—(1) In premises producing feedingstuffs for animals whose flesh is not intended for human consumption there shall be a clean area and an unclean area, adequately separated. The unclean area shall be easy to clean and disinfect. It shall have a covered place (the reception area) to receive and store the untreated animal by-products.

(2) Untreated animal by-products shall be unloaded in the reception area and either—

(a)treated immediately; or

(b)stored in suitable containers in the reception area and treated without undue delay.

(3) Treated animal by-products shall be handled and stored in the clean area in such a way as to preclude recontamination. Treated animal by-products shall not be allowed to come into contact with any untreated animal by-products.

Reception and storage facilities in premises not producing feedingstuffs

6.—(1) In premises not producing feedingstuffs for animals whose flesh is not intended for human consumption there shall be a covered place (the reception area) to receive and store the animal by-products. The premises shall be easy to clean and disinfect.

(2) Animal by-products shall be unloaded in the reception area and stored in suitable containers until disposal. They shall be disposed of without undue delay.

Hides

7.  If carcases are de-skinned or de-haired there shall be adequate facilities for doing this, and there shall be a storage room for hides. Hides shall be salted using sodium chloride.

Cleansing and disinfection facilities

8.—(1) There shall be adequate facilities (including a water supply) provided to enable containers and vehicles (including their wheels) to be cleansed and disinfected in accordance with this paragraph.

(2) Containers used for animal by-products shall be cleansed and disinfected after each use.

(3) In premises producing feedingstuffs for animals whose flesh is not intended for human consumption, vehicles (including their wheels) used for the transport of animal by-products shall be cleansed and disinfected before entering the clean area or (if they do not enter the clean area) before they leave the premises.

(4) In premises which do not produce feedingstuffs, vehicles (including their wheels) used for the transport of animal by-products shall be cleansed and disinfected before they leave the premises.

Repair of installations

9.  Installations and equipment shall be kept in a good state of repair and any measuring equipment shall be calibrated at regular intervals.

Products of knackers' yards

10.  A product of a knacker’s yard shall be either—

(a)disposed of in accordance with article 5; or

(b)treated in accordance with paragraph 11 below and marketed within Great Britain as feedingstuffs for animals whose flesh is not intended for human consumption.

Feedingstuffs

11.—(1) Animal by-products intended for use as feedingstuffs for animals whose flesh is not intended for human consumption shall be—

(a)sterilised, either by being boiled or by being steamed under pressure, until every piece of meat is cooked throughout;

(b)denatured by being stained with a solution of the colouring agent Black PN or Brilliant Black BN (E 151, Colour Index 197 No. 28440), the solution being of such a strength that the colouring on the stained meat is clearly visible and applied so that the whole surface of all pieces of meat have been covered with the solution either by immersing the meat in, or spraying or otherwise applying, the solution and, in the case of a piece of meat weighing 25 kilograms or more, applying the solution after the surface of the meat has been opened by multiple and deep incisions; or

(c)reduced to a particle size of no more than 50 millimetres and then heated to a core temperature of more than 133°C at a pressure of at least 3 bar for at least 20 minutes without interruption.

(2) Feedingstuffs shall be packaged before distribution and sale and the packaging shall include the name and address of the knacker’s yard and be clearly and legibly marked “Not for human consumption”.

Articles 3, 22 and 23

SCHEDULE 5REQUIREMENTS FOR PREMISES PROCESSING CATERING WASTE

General requirements

1.  The approved premises shall be adequately separated from other buildings and from the public highway.

2.  Animals and unauthorised persons shall not be permitted to enter the premises. Animals shall not be permitted to have access to unprocessed catering waste or any liquid from it. Preventive measures against birds, rodents, insects and other vermin shall be taken systematically.

3.  Floors shall be impervious, cleanable and laid so that liquids drain away and cannot seep from the unclean area into the clean area.

Clean and unclean areas

4.  There shall be a clean area and an unclean area, adequately separated. The unclean area shall be easy to clean and disinfect. It shall have a covered place (the reception area) to receive and store the unprocessed catering waste. There shall be adequate hand washing facilities in the reception area.

5.  Unprocessed catering waste shall be unloaded in the reception area and either—

(a)processed immediately; or

(b)stored in suitable containers in the reception area and processed without undue delay.

6.  Processed catering waste shall be handled and stored in the clean area in such a way as to preclude recontamination. Processed catering waste shall not be allowed to come into contact with any unprocessed catering waste.

7.  Persons who have been in the unclean area shall not enter the clean area without first disinfecting or changing their footwear and changing their outer clothing. Equipment and utensils which have been in the unclean area shall not be taken into the clean area unless they have been suitably cleansed and disinfected.

Processing standards

8.  Catering waste shall be processed for at least 60 minutes at a temperature of not less than 100°C or by an alternative method specified in the approval.

Cleansing and disinfection facilities

9.  There shall be adequate facilities (including a water supply) provided to enable the premises, containers and vehicles (including their wheels) to be cleansed and disinfected in accordance with this paragraph. Vehicles (including their wheels) used for the transport of catering waste shall be cleansed and disinfected before entering the clean area or (if they do not enter the clean area) before they leave the premises. Containers used for catering waste shall be cleansed and disinfected after each use. The premises shall be cleansed at the end of each day on which processing has taken place.

Equipment

10.  The premises shall have a suitable cooker with measuring equipment, calibrated at regular intervals, to check that the catering waste is processed to the required temperature.

11.  Installations and equipment shall be kept in a good state of repair.

Article 35

SCHEDULE 6REVOCATIONS AND CONSEQUENTIAL AMENDMENTS

PART IREVOCATIONS

• The Diseases of Animals (Waste Food) Order 1973(16)

• The Diseases of Animals (Waste Food) (Amendment) Order 1987(17)

• The Diseases of Animals (Waste Food) (Amendment) Order 1996(18)

• The Processed Animal Protein Order 1989(19)

• The Animal By-Products Order 1992(20)

• The Animal By-Products (Amendment) Order 1996(21)

• The Animal By-Products (Amendment) Order 1997(22)

PART IIAMENDMENTS

The Bovine Spongiform Encephalopathy (No. 2) Order 1996(23)

1.  In article 4(1) of the Bovine Spongiform Encephalopathy (No. 2) Order 1996 (Interpretation) for the definition of “rendering” there shall be substituted—

““rendering” means treating material at a rendering, fishmeal or other plant in accordance with Schedule 2 to the Animal By-Products Order 1999;”.