5
Johannes Müller, ‘Physiologie,’ Bd. I. p. 31, Berlin, 1840.
6
Oken, ‘Naturgeschichte,’ Stuttgart, 1837, Bd. IV. Abth. 1.
7
Brehm, ‘Leben der Vögel,’ p. 278.
8
‘Naturwissenschaftliche Thatsachen und Probleme,’ Populäre Vorträge, Berlin, 1880;
9
‘Entomolog. Mag.,’ vol. i. p. 527, 1833.
10
Imhof, ‘Beiträge zur Anatomie der
11
Mr. Edwards has meanwhile published these communications in full; cf. ‘On the length of life of Butterflies,’ Canadian Entomologist, 1881, p. 205.
12
When no authority is given, the observations are my own.
13
In the paper quoted above, Edwards, after weighing all the evidence, reduces the length of life from three to four weeks.
14
‘Entomolog. Mag.,’ vol. i. p. 527, 1823.
15
Ibid.
16
Ibid.
17
‘Recherches sur les mœurs des Fourmis indigènes,’ Genève, 1810.
18
These two female ants were still alive on the 25th of September following Sir John Lubbock’s letter, so that they live at least seven years. Cf. ‘Observations on Ants, Bees, and Wasps,’ Part VIII. p. 385; Linn. Soc. Journ. Zool., vol. xv. 1881.
[Sir John Lubbock has kindly given me further information upon the duration of life of these two queen ants. Since the receipt of his letter, the facts have been published in the Journal of the Linnean Society (Zoology), vol. xx. p. 133. I quote in full the passage which refers to these ants:—
‘Longevity.—It may be remembered that my nests have enabled me to keep ants under observation for long periods, and that I have identified workers of
‘Moreover, what is very extraordinary, she continued to lay fertile eggs. This remarkable fact is most interesting from a physiological point of view. Fertilization took place in 1874 at the latest. There has been no male in the nest since then, and, moreover, it is, I believe, well established that queen ants and queen bees are fertilized once for all. Hence the spermatozoa of 1874 must have retained their life and energy for thirteen years, a fact, I believe, unparalleled in physiology.’
‘I had another queen of
Both the above-mentioned queens may have been considerably older, for it is impossible to estimate their age at the time of capture. It is only certain (as Sir John Lubbock informs me in his letter) that they must have been at least nine months old (when captured), as the eggs of
19
A. von Berlepsch, ‘Die Biene und ihre Zucht,’ etc., 3rd ed.; Mannheim, 1872.
20
E. Bevan, ‘Ueber die Honigbiene und die Länge ihres Lebens;’ abstract in Oken’s ‘Isis,’ 1844, p. 506.
21
Dalyell, ‘Rare and Remarkable Animals of Scotland,’ vol. ii. p. 203; London, 1848.
22
[Mr. J. S. Haldane has kindly obtained details of the death of the sea anemone referred to by the author. It died, by a natural death, on August 4, 1887, after having appeared to become gradually weaker for some months previous to this date. It had lived ever since 1828 in the same small glass jar in which it was placed by Sir John Dalyell. It must have been at least 66 years old when it died.—E.B.P.]
23
Bronn, ‘Klassen und Ordnungen des Thierreichs,’ Bd. III. p. 466; Leipzig.
24
Bronn, l. c.
25
Cf. the article ‘Mort’ in the ‘Encyclop. Scienc. Méd.’ vol. M. p. 520.
26
Roux, in his work ‘Der Kampf der Theile im Organismus,’ Jena 1881, has attempted to explain the manner in which division of labour has arisen among the cells of the higher organisms, and to render intelligible the mechanical processes by which the purposeful adaptations of the organism have arisen.
27
von Berlepsch, ‘Die Biene und ihre Zucht,’ etc.
28
Oken, ‘Isis,’ 1844, p. 506.
29
von Berlepsch, l. c., p. 165.
30
Cf. August Gruber, ‘Der Theilungsvorgang bei Euglypha alveolata,’ and ‘Die Theilung der monothalamen Rhizopoden,’ Z. f. W. Z., Bd. XXXV. and XXXVI., p. 104, 1881.
31
Cf. Victor Hensen, ‘Physiologie d. Zeugung,’ p. 152.
32
Cf. J. Carrière, ‘Ueber Regeneration bei Landpulmonaten,’ Tagebl. der 52. Versammlg. deutsch. Naturf. pp. 225-226.
33
Pflüger, ‘Ueber den Einfluss der Schwerkraft auf die Theilung der Zellen und auf die Entwicklung des Embryo,’ Arch. f. Physiol. Bd. XXXII. p. 68, 1883.
34
Victor Hensen in his ‘Physiologie der Zeugung,’ Leipzig, 1881, p. 216.
35
That is for the preservation of its life.
36
Compare Weismann, ‘Die Entstehung der Sexualzellen bei den Hydromedusen,’ Jena, 1883.
37
It is doubtful whether
38
Or is an exception perhaps afforded by the nutritive cells of the egg, which occur in many animals?
39
Or more precisely, they