1801 to 1804 inclusive. A shrewd observer, he saw even at that early period of Australian history that there were unequalled possibilities for her wine. In the course of his interesting narrations he remarks:--"By one of those chances which are inconceivable, Great Britain is the only one of the great maritime powers which does not cultivate the vine, either in its own territories or its colonies; notwithstanding, the consumption of wine on board its fleets and throughout its vast regions is immense."
In the whole of Australia the annual production of wine is only a little over three million gallons; but in France, as well as in Italy, it is nearly 800 million gallons. These two countries together, therefore, every year produce about 1,596 million gallons more wine than Australia. These stupendous figures reveal very plainly what an enormous expansion awaits our wine industry.
The colossal growth of the wool trade is in striking contrast to the puny dimensions of the wine industry. In 1805 the exportation of wool from Australia was "nil." In 1811 it reached to the modest amount of 167 lbs., while Spain exported 6,895,525 lbs. In 1861 the exportation of wool from Australia increased to 68,428,000 lbs., whilst from Spain it fell to 1,268,617 lbs. And lastly, in 1891 the amount of wool exported from Australia reached the majestic figures of 593,830,153 lbs., representing a value of 20,569,093 pounds. If New Zealand be included, the total export attains to 710,392,909 lbs., having a value of 24,698,779 pounds. It must be borne in mind that these figures represent only the wool actually exported, and do not include that kept back for Australian requirements. As I have pointed out in the beginning of the chapter on Australian wine, if the latter industry had increased in similar proportion, Australia's prosperity would be second to none in the world.
There are some other striking figures which are well worth referring to. The city of Paris alone requires nearly 300,000 gallons of wine daily. Now, the total yearly wine production of the whole of Australia is but a little over three million gallons. It will follow from the preceding, then, that the single city of Paris itself would consume in 12 days all the wine which the whole of Australia takes 12 MONTHS to make.
The future prosperity of Australia, at least to a very great extent, is wrapped up in her wine industry; for its development means much more than a large export trade to other countries. It means, in fact, the use of Australian wine as a national and every-day wholesome beverage; it means the covering of the land with smiling vineyards; it means employment and a healthy calling literally to thousands upon thousands; and, lastly, it means settlement upon the land, and a more diffused distribution of the population throughout Australia.
It must be remembered that the nervous system is far more susceptible to the effects of alcohol in a warm than in a cooler climate. It is said that in Southern Europe there are very few water drinkers, but that, on the other hand, there are very few who indulge in strong drink. The system does not feel to want the strong alcohol, so to speak. A weaker wine in a warm climate produces the same feeling of exhilaration that one of greater alcoholic strength does in colder countries. We shall not go far wrong in Australia if we stick to our own natural wines. As it will be found in the chapter on Australian wine, the every-day wine for Australian use is a wine of low alcoholic strength; a wine of which a tumblerful may be taken with benefit; a wine, indeed, which is beneficial, cheering, hygienic, restorative, and wholesome.
By reason of his semi-tropical climate the Australian is bathed in an atmosphere of sunshine. This has a distinct effect upon the blood, for the action of sunlight upon this fluid is to redden it--a fact which has for ages been dwelt upon by the poets. But for a scientific explanation of this effect of sunlight in reddening the blood we must turn to the spectrum analysis. The visible solar spectrum as shown through a prism by the ordinary sunbeam is made up of the seven different colours, namely, red, orange, yellow, green, blue, indigo, and violet. Instead of consisting simply of white light as a whole, it is now universally accepted that in this spectrum different properties belong to different parts. Light or luminous power to one portion; heat or calorific power to another; and chemical power or actinism to a third.
The visible solar or Newtonian luminous spectrum, resulting from the decomposition of white light by a prism, is only the middle portion of the whole solar spectrum. Beyond the red end there are rays possessing still greater-heating effect; and beyond
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