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E74, 4552, unit 738, VPRS 3991/P inward registered correspondence, VA 475 Chief Secretary's Department, Public Record Office, Victoria. 74.04.03

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Ferdinand von Mueller to Thomas Ware, 1874-04-03. R.W. Home, Thomas A. Darragh, A.M. Lucas, Sara Maroske, D.M. Sinkora, J.H. Voigt and Monika Wells (eds), Correspondence of Ferdinand von Mueller, <https://vmcp.rbg.vic.gov.au/id/74-04-03>, accessed September 11, 2025

Melbourne
3/4/74.
Sir
In compliance with the request of the honorable the Chief Secretary, as conveyed in your letter of the March,
1
Space for date left blank. See T. Ware to M, 24 March 1874.
I have the honor of transmitting herewith a copy of my former report on Eucalyptus Globulus.
2
The report appears not to have been published when originally written, but the text of the report given below is published, with very minor differences, in B75.13.06.
I have the honor to be,
Sir, your obedient servant
Ferd. von Mueller
Th Ware Esqr. &c
Acting Undersecretary
Eucalyptus globulus

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,
the genuine Blue Gum-tree.
This important and now widely celebrated tree was discovered in 1792 by the naturalist La Billardiére during Admiral d'Entrecasteaux's expedition, sent out in search of the ships Astrolabe and Boussole, lost under the command of Count La Pérouse. La Billardiére found the tree on the bay, at which subsequently the city of Hobarton arose, while the survey of this great inlet, commenced by Tasman, was continued by d'Entrecasteaux. The genus Eucalyptus having been established on the ordinary Stringy-bark tree (E. obliqua) by l'Heritier (plantae rariores, quae in hortis juxta Londinum excoluntur)
3
L'Heritier Brutelle (1788), fasc. 3, p. 11, t. 20.
in 1788, from specimens gathered by Nelson in 1773 at Adventure Bay of Tasmania during Cook's third voyage, — La Billardiére, in placing his tree in that genus, gave the somewhat curious specific name "globulus" to this new Eucalyptus, and furnished in 1799 a short descriptive note of it, accompanied by a drawing, in his "relation du voyage à la recherche de Lapérouse,"
4
Labillardière (1800), vol. 1, p. 153, t. 13.
of which work two English editions were soon subsequently issued. Of brief diagnosis of the tree also by La Billardiére occurred in the second volume of his "Novae Hollandiae plantarum specimen" in 1806;
5
Labillardière (1804-6), vol. 2, p. 121.
short descriptive notes were published by Sprengel in 1825 (systema vegetabilium vol II)
6
Linnaeus (1825-8), vol. 2, p. 500.
by De Candolle in 1828 (prodromus systematis naturalis regni vegetabilis vol III),
7
A. P. de Candolle (1828), p. 220.
and by Don in 1832 (history of dichlamydeous plants vol II)
8
G. Don (1831-8), vol. 2, p. 820.
; but a fuller description of the tree occurred about 1860 in the first volume of J. Hooker's Flora Tasmanica
9
J. Hooker (1855-60), vol. 1, p. 133.
and a still more extended phytographic account appeared in the second volume of my "Fragmenta phytographiae Australiae" also in 1860,
10
B60.05.01, pp. 68-70.
while about the same time a lithogram with ample analytic details of this species was issued in my "plants of Victoria".
11
B65.02.06, supplementary plate XVI.
In 1866 a full English description was inserted into the third volume of the Flora Australiensis, issued by Mr. G. Bentham and myself.
12
Bentham (1863-78), vol. 3, p. 225.
The geographic limits of
Eucalyptus globulus

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according to my personal travels extend from the ranges about Cape Otway to East Gippsland and the bases of the Australian Alps, and northward into New South Wales as far as the Hume River district; it occurs also in various parts of Tasmania, particularly in the southern and south-eastern portion of that island; and it is furthermore found on various isles of Bass' Straits.
Although generally occupying forest-valleys sometimes gregariously, sometimes sparsely, it may be noticed also occasionally in open places, for instance, at the You Yangs and on the islands of Western Port. Trees grown in deep forest-glens not rarely attain 300 feet in height and sometimes rise even still higher; in less favorable localities the height is proportionately less, and on the storm-beaten declivities of Wilson's Promontory I have seen this species profusely flowering though dwarfed to the size of a shrub. It belongs to the technical section Leiophloiae of the genus, embracing the smooth-barked species, as defined by me in the third volume of the proceedings of the Linnean Society of London in 1859.
13
B58.11.01, see p. 99.
The marvellous rapidity of growth of this tree among evergreen and hard wooded kinds (equalling or even excelling the rate of growth of a poplar or a willow) combined with the enormous size of the tree, could not fail to attract early attention, as well in Tasmania as in Victoria, to which two colonies the
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is naturally almost confined. Among the first, who planted it extensively in Victoria was the late General Sir Edward Macarthur; this was fully 20 years ago, and some plantations in Tasmania were formed still earlier. Having had myself an opportunity as far back as 1852 & 1853 to watch our Blue-Gum-trees in the forests of Mount Macedon, Dandenong, Mount Buller, the Buffalo Ranges and in many parts of Gippsland, and having also seen with what facility they could be raised by sowings of seeds obtained then for the Melbourne Botanic Garden, and having also noticed the resistance of the tree to drought, with others I recognized the importance of this valuable gift to us by nature for transferring it in masses to woodless countries in warm temperate climes.
My friend, Monsieur Prosper Ramel, on returning in 1859 from here to France, most enthusiastically and perseveringly advocated the introduction of
Eucalyptus globulus

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into his country and the Algerian colony, and for a series of years he was by every means in my power seconded in his efforts, to give thus timber and fuel to many almost woodless districts at the mediterranean sea, while I endeavoured to find appreciation for the
Eucalyptus globulus

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in Upper India, South Africa, the La Plata States, Chili, California, Virginia and some bare plateaux of Brazil. A gradually increasing demand for seeds arose, and it is no exaggeration when I affirm, that seed-merchants and seed collectors have exported hitherto to the value of £10,000 of seeds of our Blue Gum trees, not to speak of the seeds of other Eucalypts; the rate of export is still increasing, a large quantity having been demanded also for New Zealand since a series of years. The current price of sifted seeds of
Eucalyptus globulus

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is now about 15/ per lb.
The seed is raised with great ease in nursery beds; the seedlings are transplanted after a few months, either at once to permanent positions, or moved for a few months more into new nurseries. The final transplanting should take place at the commencement of the cool season. The use of Heyer's bore-spade is advantageous in this operation.
14
The use of the spade is described in 'A new garden tool', Hamilton spectator (Hamilton, Vic.), 22 July 1871, Supplement, p. 1, which reports that the spade was developed by 'Dr. Heyer, one of the leading Professors of Forestry in Germany', around the 1820s.
Among nearly 150 species of Eucalyptus known to exist in Australia the
Eucalyptus globulus

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is chiefly recognized by the quadrangular stem and the clasping broad opposite and ashy-blue leaves of the young plants, by the sessile often solitary flowers, covered with a crown-shaped somewhat chalky lid, and by the peculiar shape and comparatively large size of its fruit-capsules. All further characteristics are clearly set forth in the works already quoted. The vernacular appellation Blue Gum tree is an ambiguous one, in as much as in New South Wales and South Queensland several other species occur under the name of Blue Gum trees (Euc. eugenioides, E. haemastoma, E. botryoides, E. tereticornis), while in some parts of our own colony a very different tree namely my E. goniocalyx passes under the same popular appellation, and while in West Australia my Euc. diversicolor and E. megacarpa are called Blue Gum trees.
The natural growth of the Eucalypts is often very close in the forests, sometimes from 20 to 40 large trees occur on an acre; but in proportion to their closeness they are also more slender. This shows however how large a yield of timber might thus be obtained from forest areas, either natural or artificial, if carefully worked. In our own western basaltic plains and undulations, which are extensively destitute of timber, enlightened settlers, in forming areas of trees, have predominantly and very successfully chosen the E. globulus for this purpose. In reference to the celerity of growth of this tree under very favorable circumstances we are made aware of some astounding data. So I was informed by Mr. Brace, that in the Neilgherries
15
Nilgheri Hills. Edward Brace; letter not found.
of the Madras Presidency his young trees had attained the height of from 20 to 25 feet in 18 months from the time, when I despatched the seeds; and I have similar records from the Argentine Republic. Even in the comparatively cool clime of Hyéres in France the height attained in eight years was 55 feet. In rich deep soil the same results may here be obtained. The Euc. globulus is not absolutely bound to any geologic formation; but it has a predilection in culture for friable soil of fair quality, and dislikes much stagnant water in the soil, also avoids pure sand and saline ground. Young plants while yet succulent are apt to be attacked by a species of coccus, also by caterpillars of various kinds. In Senegambia, while the locusts destroyed the bark of nearly all other trees, they left the Eucalyptus untouched.
Turning briefly to some of the products, obtainable from
Eucalyptus globulus

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, the volatile oil directly yielded by distillation from the foliage, may first be mentioned. The yield is from ⅔ to 1 percent; hence this Eucalyptus is thus far outrivalled by several species, for instance E. amygdalina, E oleosa and some others. The oil of Eucalyptus was brought by me before the first Paris exhibition in 1855, with the view of its adoption in medicine, its resemblance to the Indian oil of Cajput having then become to me very obvious. Mr. Jos. Bosisto of Richmond prepared the oil on that occasion for me and the same Gentleman and Mr. W. Johnson of St. Kilda furnished a whole series of oils from materials supplied by myself on the occasion of the Melbourne exhibition of 1862 and the London exhibition of 1863. Again in 1866 for the intercolonial exhibition and in 1867 for the second Paris exhibition the Eucalyptus oil was produced in a laboratory then recently established in my department, and its qualities carefully investigated on suggestions of myself by Mr. J. Osborne, the discoverer of photo-lithography. Mr. Jos. Bosisto also carried on then extensive tests of the qualities of the oil, and he has the credit of having pushed it into mercantile trade and extensive technologic application, after the value of the oil as an admixture to precious cosmetics in the manufacture of scented soaps and its great utility as a solvent of select resins for superior varnishes had been recognized, partly by himself partly by other investigators. The remarkable fact was then demonstrated of this oil dissolving subterranean Kauri and Amber. 100 parts of the oil of
Eucalyptus globulus

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are saturated with 14 parts of Camphor, 12 parts of Mastic, 7 parts of Janderac 8 parts of Kauri resin, 6 parts of Asphalt. It mixes in all proportions with oil of turpentine, all fat and drying oils, benzole, naphtha, ether and pure alcohol. Its specific weight is 0.917. It boils at from 338 - 347° F., passing off Eucalyptol, first prepared by Dr. Cloëz of Paris, who found for this the chemical formula C24H20O2. The remaining volatile oil boils between 370 and 374° F. Mr. Cloëz obtained from Eucalyptol by application of phosphoric acid the new Eucalyptene and Eucalyptolene. Eucalyptus oil can be used for giving light quite like Kerosene, the best of which it surpasses by its more pleasant odor. In burning it leaves no smoke and does not explode. The trade in Eucalyptus oil, hitherto exported solely from Victoria, as a new resource of the colony represents by this time several or perhaps many thousand pounds, and the demand in the European and American markets will be likely increasing. It is most cheaply driven off from the leaves by steam vapor.
But this is not the only oil obtainable from the Blue Gum tree. In my laboratory I caused tar to be prepared from Blue Gum wood by Mr. Rummel, and this tar subjected to analysis to trace its component parts. The pitch obtained was excellent and can be dissolved for varnishes and be used in other ways technologically. The tar itself, which can be produced cheaply by thousands of tons from waste wood, now lost, will doubtless ere long become an article of export when the supply of wood tar from North Europe and North America fails. The process of its production presents no difficulty, involves no large outlay and requires no trained knowledge of any extent. Dyes of various kinds could likely be obtained from the Eucalyptus tar, but my intended investigations in this direction could with the withdrawal of the necessary working votes and the laboratory not be carried out.
The bark of
Eucalyptus globulus

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contains about 4 percent of tannic acid, and although this is several times less than the yield of wattle bark (from
Acacia decurrens

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and
Acacia pycnantha

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) the copiousness of the supply of Eucalyptus bark will cause it to be utilized even for this purpose. Samples of packing and printing paper were made in my laboratory in 1865 by my order from the bark, also paste-boards. The yield of tannin from the leaves is sufficiently great to induce Count de Marafy to recommend them as a substitute for Sumach.
16
Cited by M in the bibliography for
Eucalyptus globulus

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in B80.13.14, Decade 6, as 'Maillard de Marafy, Comte, L'Eucalyptus, nouvel emploi industriel, 1870'. This is probably an article in Egypte agricole, no. 1 (see Bulletin de la Société d'acclimatation, series 2, vol. 9 (1872), p. 114).
The sawdust at mills from the wood can be converted into a paste for the admixture to the material for the coarser kinds of paper. By simple chemical processes it can also be made to yield alcohol, and by other means oxalic acid and several other substances.
The gum-resin exuding in a fluid state from the stems of
Eucalyptus globulus

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or lodged in a solid state in fissures and cavities of the wood is rich in tannic acid, and can be used in medicine like Kino; indeed it has long since been drawn thus far into use, particularly in chronic diarrhoea.
The yield of potash from E. globulus is also not unimportant. The fresh foliage, branches, and bark taken together at a weight of one ton give about 8½ lbs. of pure potash; so far as my experiments hitherto have shown. The yield from the wood, as is usual with other trees, proves less. According to soil age and other circumstances the percentage fluctuates. The method of obtaining potash from the wood ashes by maceration and inspissation is of the simplest kind and fully explained in my lecture on forest culture & forest industries.
The
Eucalyptus globulus

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seems destined to sustain itself in many various climes, because it is not destructively affected by mild frosts, so long as these are not of lengthened duration, though the plant is more susceptible to frost in a young state than when the stem has become hardened. A vigorous tree will stand a temperature occasionally as low as 18° Fahr., particularly if the position is not exposed.
Since some years past E. globulus has attracted great attention in respect to hygienic action, not only for the sake of its therapeutic principles, but also as affording the means of meliorating the clime of fever-regions. When planted in masses on malarian swamps very beneficial effects from Eucalypts seem to have arisen, which may be attributed to a threefold action, namely the drying of swampy ground, through the enormous power of absorption and respiration possessed by Eucalypts in a much higher degree than most other trees (as explained in my lecture on forest conservation and wood industries printed nearly three years ago), secondly the diffusion of antimiasmatic vapour of the volatile Eucalyptus oil through the air; thirdly the antiseptic action of the dropping Eucalyptus leaves on other vegetable and also animal substances decaying on the ground, or contained in water near it.
First Dr. Tristany in Madrid,
17
José Tristany: results reported in Texidor (1865), p. 189.
then M. Malingre in Sevilla,
18
Gubler (1871), p. 153, cites a letter from Malingre to the French Société Impériale Zoologique d'Acclimatation. That letter is reported to have been read at the meeting of the Society held on 13 December 1867, when it was 'renvoyé à la Commission médicale' [referred to the Medical Commission], (Bulletin de la Société Impériale Zoologique d'Acclimatation, ser. 2, vol. 4, 1867, p. 757). The letter has not been found.
Dr. Ahumada, M. Rénard,
19
Gubler (1871), p. 154, quotes Ahumada on the efficacy of an infusion of Eucalyptus leaves in treating fever, and also reports Renard as agreeing with the febrifuge properties of Eucalyptus. Ahumada is described as 'directeur du haras d'Aranjuez' [director of the Aranjuez stud], i.e. Real Yeguada de Aranjuez, but no further details of his life have been found.
Professor Guebler
20
Gubler (1871).
in Paris, Dr. Marés in Algiers, Dr. Carlotti of Ajaccio, Dr. Tedeschi in Corte,
21
Carlotti (1869). Gubler (1871), p. 154, cites this work as 'présenté à la Société d'agriculture d'Alger, 1869', but it was published in Ajaccio, Corsica. As in his text Gubler notes that Carlotti was from Ajaccio, his footnote giving Algiers as the place of presentation may have been a mistake. Carlotti, p. 18, quotes a passage from a letter from Tedeschi to him describing those who doubt the efficacy of Eucalyptus as disciples of St Thomas, a passage quoted by Gubler, p. 154.
Dr. Gimbert of Cannes,
22
Gimbert (1870), chapters 5 to 9, including physiological and toxicological experiments on animals.
Dr. Miergues of Bouffarü,
23
Miergues: Gubler (1871), p. 148 cites La science pour tous, 15 January 1870, but the source has not been found.
Dr. Brunel in Montevideo,
24
Brunel (1872).
Dr. Cosson of Paris,
25
Cosson (1875) contains a brief note on the therapeutic value of E. globulus, but unless M had seen a prepublication version of the note, this may not have been the item to which he refers.
have brought the therapeutic value of Eucalyptus leaves as febrifuges into practical medical notice.
The aqueous or vineous infusion, retaining the volatile oil, seems the best form of administration, as the leaves contain no alkaloids and therefore the medicinal properties must rest on the better extractive principle, some resin, the essential oil and perhaps the tannic acid, of the leaves. The leaves can also be administered in the form of powder. In many cases simply the Eucalyptol has been used for various medical purposes. It is particularly in intermittent fevers, in which the Eucalyptus medicines have been administered, and particularly in such cases in which the unsuccessful use of Quinine indicated the trial of some of the various other known febrifugal remedies and among these now, according to the testimony of several physicians in various parts of the globe, Eucalyptus takes a high rank. The treatment with Eucalyptus has overcome in many cases long standing febrile affections. Special physiologic and therapeutic experiments, made by Dr. Claude Bernard, Professor Robin and Dr. Vulpian, have shown that the Eucalyptol diminishes the spinal reflex action, lessens organic combustion and also respiration, facilitates the elimination of urea, stimulates the sympathetic nerves and the capillary circulation, and is eliminated again by the lungs and bladder.
26
Sources for these statements have not been identified.
Dr. Gimbert recommends the use of Eucalyptol in asthma,
27
Gimbert (1873).
against which disease also Monsieur Ramel's patented cigarrettes of Eucalyptus leaves have come into much use;
28
See patent application, in this edition as 66-03-24e; P. Ramel to M, 29 November 1869, and George (2012). Gubler (1871), p. 208, noted this use but in the absence of experimental evidence wondered whether the irritating effect of the smoke and empyreumatic products would not produce greater damage than the relief attrubutable to the unburnt eucalytus oils.
further to assuage the cough in various pulmonary affections and convulsions and spasms generally; thus also a new efficient remedy was found against hooping cough, chorea, vesical catarrhs, uraemia, fevers of all types, dyspepsia, chronic rheumatism and gout and even against entozoa. In cholera, the inclination to vomit is diminished by this remedy and the infusoria are destroyed. Against inflammation of and probably any fungus vegetation the mucous membranes generally it has proved most useful. Dr. Gimbert finds the Eucalyptol as an antiseptic most advantageously applicable as an external remedy in putrid suppurations. Injected into the veins of an animal it retards the decomposition of the cadaver for a long time, differing in this respect from the oil of turpentine, which exercises only a passing preservative effect. The coagulated blood of rabbits was preserved for three months after an injection of Eucalyptol without perceptible alteration; the tissues dried up and exhaled the odour of Eucalypts.
We possess thus in the Eucalyptol an antiseptic as powerful in its effect, though perhaps appliable in larger quantity, and one less dangerous, as carbolic acid. In this colony many of these observations of Spanish and French physicians have been verified, and I may add that the distilled oil of Eucalyptus leaves has proved here the most quickly acting remedy for healing the sores of horses. Dr. Brunel in Montevideo had patients coming from Brazil and West Africa, to obtain relief from fever by the Eucalyptus treatment, and has published a treatise on his clinical observations respecting the use of this plant.
29
See above, n. 23.
Eucalyptol cannot however surpass in all cases the quinine.
The industrial value of the timber of
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is multifarious; in the woodwork of buildings, for planks, railway sleepers (lasting a dozen of years and more, if cut at the right time and well seasoned) for shafts, spokes etc. Ships' keels of lengths of as much as 120 feet have been obtained from it. Blue Gum tree wood has been shown in some instances to carry 14 lbs weight more than English Oak and 17 lbs more than Indian Teak on the square inch. For many other observations on the uses of the Blue Gum tree timber reference may be had to the successive exhibition volumes issued here since 1854, as a detailed explanation of all its uses would be beyond the scope of this brief document.
30
See, for example, B67.13.03.
From researches instituted by Mr. C. Hoffmann under my order the wood of the Blue Gum tree when heated with exclusion of air, is converted into about 29 percent charcoal, 46 percent crude wood vinegar with wood spirit, 6 percent tar and 19 percent of gases. These proportions are however not absolute, as they depend on the nature of the particular quality and age of the wood, and on the degree of heat adopted; for it was ascertained in the progress of similar enquiries by Mr. Rummel in my laboratory, that with at once increased heat a larger volume of light-gas is evolved, at the expense of the other products, a discovery which promises to lead to extensive application of wood instead of coal in any gasworks.
Samples of the tar, vinegar, pure acetic acid, alcohol, coal, the volatile oils, pitch, paper of various kinds, potash, as well as various products obtained by utilizing for instance the acetic acid for dye material, the alcohol and oils for varnishes, etc. were shown in former exhibitions, and a large series of products of this kind is rendered accessible by me for inspection in the Industrial Museum in Melbourne. The last work in my laboratory has been to separate the constituent parts of the Eucalyptus tar, which gave several distinct oils, each of a particular boiling point and special specific gravity, and all readily available as distinct solvents for various technologic uses.
Important memoirs on the
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and other species of that almost exclusively Australian genus have appeared in the journals of various nations, but nowhere has the value of these trees been more carefully observed and tested than in France, and among those who have recorded the observations most extensively stand foremost there Monsieur Prosper Ramel, Dr. Raveret-Wattel and M. Ernest Lambert.
31
See, for example, Ramel (1861), reprinted as Ramel (1870); Raveret-Wattel (1871); E. Lambert (1873).