lO 



BACTERIA IN RELATION TO PLANT DISEASES. 



Under («) there should be niiinerous observations on man)' plants, with very 

 careful microscopic examination of stained and unstained material. The cells of 

 man}' plants contain granules which often dance about so actively (pedesis or 

 Brownian movement) as to be verv deceptive, and yet they are not bacteria. Living 

 bacteria in plant tissues can alwa^'s be stained so as to stand out distinctly if the 

 sections are well prepared and sufficiently thin. When bacteria occur in plants as 

 parasites they are usually very abundant in the vascular system, or the parenchyma, 

 or both, and there is, so far as yet known, always a distinct breaking down (solution) 

 of some portion of the tissues (see iigs. 6 and 7, and plate 3). If the parenchymatic 

 tissues are sound, if there is no bacterial ooze on making sections, if the vascular 



Fig. 5.* 



system is not occupied, and if bacteria can not be demonstrated in the tissues by 

 proper staining, then it is very unsafe to infer their existence from dancing particles, 

 no matter how many may be visible in the unstained sections. Moreover, bacteria 

 may be present in some of the plants and not in others, /'. c, not constantly present, 

 and so not the cause of the disease. It is conceivable that the)- might also be present 



*PiG- S-—Bacteriitin campcstre parasitic in a turnip-root ('inoculated plant No. 53). TJiis figure 

 shows the bacteria crowding out Into the cells surrounding the reticulated vessels. The lignified 

 portion of each vessel is indicated by fine dots. Material fixed in strong alcolhol, 'infiltrated with 

 paraffin, cut on the microtome, stained with earhol-fuchsin, and the excess of stain removed in 

 dilute alcohol, section then dehydrated and mounted in xylol-balsam. Drawn from a photomicro- 

 graph, the contrast here 'indicated being not greater 'than that shown in the section. X 500 circa. 



