NAGPUR HIGH COURT

                                             Dattappa Mahadappa

                                                         Vs

                                        Municipal committee Buldana

                                       Criminal Revn. No. 28 of 1950

                                                 (Mudholkar, J.)

                                                   23.05.1950

                                                  JUDGMENT

Mudholkar, J.

1. This order will also govern the decision of criminal Revn. No 29 of 1950 The applicant in
each case was convicted at a summary trial of an offence under Section 5 (2), C. P. and Berar
Prevention of Adulteration Act and sentenced to pay a fine of Rs. 51. Each of them was ordered
to pay in addition compensation of Rs. 1-12-0 to the non-applicant.

2. The non-applicant is the Municipal Committee at Buldana. Its case is that on 18.1.1949 each
of the applicants offered for sale milk which was not of the standard fixed by the Provincial
Government by the Notification No. 3775 160 XV of 1941, dated 30.6.1943, under Section 5 (1)
of the Act. It is admitted before me that each of the applicants offered milk for sale and that a
sample was taken therefrom and sent by the Municipal Committee for analysis to the Public
Analyst, C. P. and Berar.

3. Each of the applicants, however, denied that the milk was adulterated.

4. The milk in question was buffalo milk, and the standard prescribed therefor by the notification
to which I have already referred is 5% fat and 9% solids excluding fat. According to the report of
the public Analyst the sample of milk sent to him in each case contained 3% fat and 6.74% solids
other than fat.

5. The point raised is that the report of the Public Analyst is of no value in the absence it his own
evidence and in the absence of evidence to show how the sample in each case was sent to him.
While the learned counsel for the applicant admits that under sub-sections (2) of Section 11 of
the Act, the certificate given by the public Analyst may be used in evidence of the facts therein
stated in any inquiry, trial or other proceedings under the Act, he contends that the value to be
attached to the certificate would depend upon the facts and circumstances of every case. He
points out that where the article sent for examination is capable of disintegration or of undergoing
radical change in composition, it must be shown that the composition of the sample sent had not
undergone any change since its transmission. He has relied extensively on a book called 'Milk :
Production and Control' by Harvey and Hill in order to show that milk undergoes rapid and
considerable chemical change unless it is kept under refrigeration.

6. At p. 11 of the book the subject 'Bacteria found in Milk' is dealt with. Among other things the
learned authors have observed :

        "Despite their minute size, bacteria can accomplish a great deal in various directions. It
        has been proved that latic-acid organisms which are present in milk in varying numbers
        even when produced under clean conditions, can consume their own weight of food each
        hour. They absorb food over their entire surface and emit waste products generally acids,
        into the milk."

Then at p. 13 it is stated :

        The acid producing organisms cause an alteration in the character of the milk which ends
        in putrefaction. The factors which decide the rate of this change are (a) the quantity
        originally present in the milk, (b) the temperature at which the milk is kept. If milk with a
        high bacterial content is kept above a temperature of 60 F., conditions are favorable for
        early and raid souring."

Then at p. 16 it is stated :

        "In some milks acid develops to a considerable extent, while in others fermentations take
        place. Seventy degrees F., sees the rapid development of the lactic-acid organisms,
        principally the Streptococcus lactis."

Then at pp. 177-178 they state :

        "The keeping properties of milk depend upon the number of bacteria contained. Bacteria
        multiply more rapidly at high temperatures than at low, and the higher the temperature the
        more rapidly do they increase, this being especially the case with those organisms which
        cause rapid souring and objectionable flavors in milk.....The bacteria most commonly
        found in milk grow more rapidly at temperatures above 60 F. At temperatures above 70
        F., milk speedly sours. If the liquid contains as few as 10,000 bacteria and is held at 60 F.,
        it will become sour in fifty three hours. If the same milk is held at 50 F., it will not sour
        for eighty-six hours. Every effort should therefore, me made to ensure that the milk is
        cooled to a temperature as low as is possible under the prevailing circumstances."

Where milk is kept in its natural condition for a long time, I take it, therefore, that its fat and non-
fat content would be reduced. Since milk is so readily liable to change in composition the learned
authors enjoin upon various precautions in the matter of collection of samples and their
transmission to a laboratory. Thus, at p. 359 they say :

        "It is essential to the proper standardization of sampling that all samples should be
        collected in accordance with principles laid down for Designated Milks in Memo.
        139/Foode (January 1937) issued by the Minister of Health......This sample should be
        delivered intact to the bacteriologist,.......When the milk has been obtained, it should be
        packed in ice in a suitable carrying case, and should be kept under these conditions until it
        arrives at the laboratory. This pre-caution is particularly essential if the samples have to
        travel some distance.... In any case, if milk cannot be delivered to the laboratory within
        fifteen minutes of sampling, ice should always be used except in the case of pasteurised or
        other heat-treated milks."

The authors enjoin that the milk should be collected in sterile glass bottles, which should befitted
with accurately fitting metal or glass stoppers. They also emphasize that the bottles after being
fitted with liquid from the dipper should be securely stoppered and packed in ice in a suitable box
and also say that it is important that each bottle should be filled as full as possible in order to
exclude the maximum amount of air.

8. The learned authors also attach great importance to the fact that milk is tested as soon after the
sample is taken as possible. In this connexion their suggestions to the local authorities are :

        "Whichever method is used, it is advisable that the laboratory should be situated adjacent
        to the district concerned, in order to prevent any delay in transmitting samples ... it would
        appear highly desirable that every Council should provide its own laboratory and not rely
        on testing being carried out by outside bodies as so often is the case."

9. As regards the fat content of milk, the learned authors observed as fallows at p. 394

        "It is important to remember that the Sale of Milk Regulations, 1939 provides that a
        sample of milk containing less than 3 per cent. of fat or less that 3.5 per cent. of other
        solids is to be presumed, for the purposes of the Food and Drugs Act, 1938, not to be
        genuine until the contrary is proved. This limit for fat is exceedingly low when modern
        scientific principles of farming are considered as the average fat cement of milk from a
        mixed herd rarely falls below 3.5 per cent. Milk of individual animals, however,
        frequently fails to reach the standard fixed, this discrepancy being very noticeable
        amongst pedigree animals from which it might be expected that milk would be of the
        highest obtainable standard. Because of these variations and to prevent injustice,
        provision has been mane for 'appeal to the cow' samples to be taken when necessary.
        Should such samples fall below the specified standard, an appeal may be allowed."

Thus, the mere fact that fat and non fat solids in any given sample of milk are below those
prescribed does not lead to the inevitable inference of adulteration. In this case there is evidence
to show that there was 'an appeal to the she-buffalo' (if I may so put it) and that the sample of
milk taken at the instance of the owner of the buffalo gave an analysis which showed fat and not-
fat solids to be well below the prescribed percentages. In England, therefore, 'the appeal' would
have been allowed. Here too that should be done and for identical reasons.

10. Then at p. 405 the learned authors observe as follows :

        'Added water may be suspected under the following circumstances : (a) Fat percentage
        below 3 per cent. (b) Percentage of non-fatty solids below 3.5 per cent. (c) Percentage of
        total solids below 11.5 per cent. (d) Percentage flash below 0.65 per cent. (e) Freezing
        point nearer to zero than 0.550 0 (f) Specific gravity less than 1.027. (g) Retractive index
        less than 37.
        It must be reiterated that the above facts only point to suspicion of added water it being
        impossible to differentiate between watered milk and milk which is naturally poor in fatty
        or non-fatty solids by the practical use of the above data.
        *****
        Although genuine milk usually contains some 87.5 per cent. of water, other sample,
        though genuine, may contain more or less."
        These observations indicate how difficult it is to prove adulteration in a given case.

11. The learned authors then state :

        "Because of changes which occur in lactose, even before souring takes place, the
        percentage of this substance can only be determined when milk is fresh. For this reason it
        is desirable that milk should reach the analyst at the earliest possible moment after
        sampling, maintained, if necessary, in a sweet condition by means of ice."

This increases the importance of refrigeration of samples and of avoidance of delay in analysing
them.

12. In the present case, the samples were taken on 18.1.1949 and despatched to Nagpur the same
day. They were received by the Public Analyst on 20-11949 and analysed by him apparently on
24.1.1919. There is no evidence to show whether the bottles which were used were sterlized and
were securely stoppered and whether milk was sent under refrigeration. Further, there is nothing
whatever to show about the condition in which the samples were received by the Public Analyst.
Bearing in mind that the milk was analysed by the Analyst almost a week after the samples were
taken, the absence of proof of the manner in which the samples were sent and the condition in
which the milk was when the samples were received by him detracts, in my judgment, from the
value of his certificates.

13. No doubt, sub-sections (1) of Section 5 creates a presumption of adulteration in respect of an
article of food examined by the Public Analyst; but whether such a presumption must be drawn
must necessarily depend upon the facts established in each case. For, it is clear from the opinion
of Harvey and Hill, that the composition of milk undergoes a rapid change unless the milk is
either pasteurised or unless it is sent under refrigeration. Therefore, it had to be established that
the sampler in question were sent under refrigeration. They have led no evidence to that effect. In
the circumstances, I am of the opinion that no presumption under Section 5 (1) can properly be
raised in this case.

14. That apart, in this case the applicant had made an application to the Court below for
examining the Public Analyst as a witness, either in Court or on commission. This request was,
however, disallowed by the trial Magistrate without assigning any reason for it. It seems to me
that it was highly improper to turn down the request and that too in a summary way, particularly
because the whole case depended upon the opinion of the Analyst.

15. I may here refer to a decision of the Allahabad High Court in Happu v. Emperor1, where
dealing with a case in which a person had died of arsenic poisoning the learned Judges held that
where a case depended solely upon the opinion of the Chemical Examiner, he should be
examined as a witness in the case. This case was later followed Ujagir Singh v. Emperor2, I
would say with respect that these cases lay down a salutary rule, and that in a case like the
present one it would not be in consonance with the well-established principles of administration
of justice to deny the right to an accused person to test the opinion of an expert on the basis of
which he is sought to be condemned. When such opportunity was not afforded to the accused
person, the opinion of the Public Analyst can carry little weight, and so cannot be regarded as an
adequate basis for conviction of the accused person.

16. In the view I take it would follow that little value can be attached to the report of the Public
Analyst on which reliance is placed on behalf of the non-applicant in both these cases. I,
therefore, allow the applications for revision made by each of the applicants and set aside the
conviction and the sentence passed on each of them. The fine and the compensation, if paid, are
ordered to be refunded.
Convictions set aside.

156 All 228 : ( AIR 1983 All 837 : 35 Cr LJ 280)
2 AIR 1939 Lah 149 : (40 Cr LJ 576)