the Mer de Glace moves past the edges in a very considerable proportion, quite contrary to the opinion generally entertained." This communication, as I have said, bears the date of July 4th; but it was first published in the October number of the journal to which it was addressed. My reason, therefore, for mentioning Agassiz first in the "Forms of Water" is, that, apart from all personal complications, his experiment was begun ten months prior to that of his rival, and that he had also two months' priority of publication.
Neither in his "Travels in the Alps," nor in his "Occasional Papers," does Principal Forbes, to my knowledge, make any reference to this communication of Agassiz. I am far from charging him with conscious wrong, or doubting that he justified this reticence to his own mind. But my duty at present lies with objective facts, and not with subjective judgments. And the fact is that, for eighteen years subsequent to this campaign of 1842, Agassiz, as far as the glaciers are concerned, was practically extinguished in England. The labors of the following years failed to gain for him any recognition. His early mistake regarding the quicker motion of the sides of a glacier, and other weaknesses, were duly kept in view; but his positive measurements, and his Atlas, which prove the observations upon the glacier of the Aar to be far more complete than those made upon any other glacier, were never permitted to yield the slightest credit to their author. I am no partisan of Agassiz, but I desire to be just.
Here, then, my case ends as regards the first reference to Principal Forbes, in section 20 of the "Forms of Water."
In section 48 I describe the dirt-bands of the Mer de Glace, and ascribe the discovery of them to Principal Forbes. There can be no thought of a "charge" here.
The next reference that has any bearing upon this discussion occurs in sections 59 and 60 of the "Forms of Water." I quote it fully:
"Still the idea found its advocates. In a little book, published in 1773, and entitled 'Picturesque Journey to the Glaciers of Savoy,' Bordier, of Geneva, wrote thus: 'It is now time to look at all these objects with the eyes of reason; to study, in the first place, the position and the progression of glaciers, and to seek the solution of their principal phenomena. At the first aspect of the ice mountains an observation presents itself, which appears sufficient to explain all. It is that the entire mass of ice is connected together, and presses from above downward after the manner of fluids. Let us, then, regard the ice, not as a mass entirely rigid and immobile, but as a heap of coagulated matter, or as softened wax, flexible and ductile to a certain point.' Here probably for the first time the quality of plasticity is ascribed to the ice of glaciers.
"To us, familiar with the aspect of the glaciers, it must seem strange that this idea once expressed did not at once receive recognition and development. But in those early days explorers were few, and the 'Picturesque Journey' probably but little known, so that the notion of plasticity lay dormant for more than half a century. But Bordier was at length succeeded by a man of far greater scientific grasp and insight than himself. This was Rendu, a Catholic