224 THE PHYSICAL GEOGRAPHY OF THE SEA. 



amounts to about a month at each change. So that the mon- 

 soons of the Indian Ocean prevail really for about five months 

 each W3ij, viz., from May to September from the southwest, in 

 obedience to the influence of the overheated plains, and from 

 November to March inclusive from the northeast, in obedience to 

 the trade- wind force. 



478. The monsoon season may be always known by referring 

 to the cause which produces these winds. Thus, by recollecting 

 where the thirsty and overheated plains are which cause the 

 monsoons, we know at once that these w^nds are rushing with 

 greatest force tow^ard these plains at the time that is the hottest 

 season of the year upon them. 



479. The influence of these heated plains upon the winds at 

 sea is felt for a thousand miles and more. Thus, though the Des- 

 ert of Gobi and the sun-burnt plains of Asia are, for the most 

 part, north of latitude 30°, their influence in making monsoons is 

 felt south of the equator (Plate VIII.). So, too, with the great 

 Desert of Sahara and the African monsoons of the Atlantic ; also, 

 with the Salt Lake country and the Mexican monsoons on one 

 side, and those of Central America in the Pacific on the other. 

 The influence of the deserts of Arabia upon the winds is felt in 

 Austria and other parts of Europe, as the observations of Kriel, 

 Lament, and others show. (See Appendix H.) 



480. It w^ould appear, therefore, that these desert countries ex- 

 ercise a powerful influence in checking, and consequently in Aveak- 

 ening, the force of the northeast trade-winds. There are no such 

 extensive influences at work checking the southeast trades. On 

 the contrary, these are accelerated ; for the same forces that serve 

 to draw the northeast trade-winds back, or retard them, tend also to 

 draw the southeast trade-winds on, or to accelerate them. Hence 

 the ability of the southeast trade-winds to push themselves over 

 into the northern hemisphere. 



481. Hence, also, we infer that, between certain parallels of 

 latitude in the northern hemisphere, the sun's rays, by reason of 

 the great extent of land surface, operate with much more intensity 

 than they do between corresponding parallels in the southern ; 

 and that, consequently, the mean summer temperature on shore, 

 north of the equator, is higher than it is south : a beautiful phys- 

 ical fact which the winds have revealed, in corroboration of what 



