THE WONDER OF LIFE 483 



occurred, though microscopic examination would show 

 that some of the cells were ahve. But how much more 

 difficult the question becomes when we pass to dried up 

 paste-eels, small thread-worms or Nematodes of the family 

 Anguilluhdse, which can remain dry and brittle fot as 

 long as fourteen years, and yet become lively again when 

 restored to water ! What is hfe in these inert threads, 

 which exhibit no sign of Uving ? What has happened in 

 the fifteenth year, when although no visible change has 

 occurred, the threads are no longer susceptible to the 

 reviving influence of water ? They are dead ; but what 

 has happened ? 



Latent Life. — The famiUar sight of bags of dry seeds 

 in the seedsman's shop raises many questions. In what 

 state is the life of these seeds — for it is to be hoped that 

 most of them are still ahve ? Can they remain ahve 

 without actually hving ? Vital processes involve chemical 

 change (metabohsm) : has metabohsm come to a stand- 

 still or is it going on very slowly ? It is not so easy to test 

 this as might be imagined, for the fire of hfe may be kept 

 burning so very, very low that no change is detectable in 

 the surrounding medium. Some plants can respire without 

 taking in oxygen from outside, and some others, e.g. 

 succulents, can respire without giving out any carbon 

 dioxide. Of course if the protoplasm is actually hving it 

 is transforming energy, and if it has no income it must be 

 hving on its own resources, therefore the life of seeds must 

 be limited. We know securely from Becquerel's careful 

 testing that seeds may germinate after resting for eighty- 

 seven years in a herbarium — a, hortus siccus indeed. 



Becquerel has made important experiments on the 

 latent hfe of dry seeds. He showed, for instance, that the 



