4 FARLOW ON THE GYMXOSPORANGIA 



connection between tlie uredo forms and other final forms is generally admitted, and the 

 relation of the aecidial stage to the others, as shown by De Bary, is considered to be proved 

 beyond a doubt by neai-ly all continental mycologists, although there are a few exceptions ; 

 but British botanists remain more or less sceptical on the subject. 



In consequence of the prevalent view with regard to the development of the Uredineae, 

 writers have ceased retaining such genera as Uredo and Aecidium except as receptacles for 

 the forms which have not yet been connected with any definite final form, and on the 

 continent a new nomenclature has arisen which has not as yet been adopted by American 

 writers. For the purpose of illustration let us take Puccinia Graminis, the common 

 blight on grass which was minutely studied by De Bary.^ The final form appears as black 

 spots or lines on the leaves and stems of grasses, and is composed of dark colored, rather 

 thick-walled spores, formed of two more or less conical cells united by their bases and at- 

 tached at the lower end to a mycelium. These two-celled spores are called teleutospores 

 and, in the case of Pucei7iia Graminis, are produced in the autumn. When left to them- 

 selves, they germinate the next spring in the following manner. From each cell is given 

 off one, or occasionally two or three, delicate filaments, which scarcely exceed in length the 

 length of the teleutospore. The upper part of the filament becomes somewhat enlarged, 

 and there are generally formed from two to four cross partitions by which the filaments are 

 divided into two to five cells. The upper cells grow out laterally and bear each a small 

 ovoid cell which readily falls from its attachment. The name given by Tulasne to the ger- 

 minating filaments was promycelium, and he called the secondary small ovoid cells sporidia. 

 In the case of Puccinia Graminis, according to De Bary, the sporidia do not grow except 

 on the common barberry, on which plant they produce in the spring or early summer what 

 is popularly called a cluster-cup, or in botanical language an aecidium. The so-called aecid- 

 ium is a complex affair. The mycelium from the germinating sporidia produces in spots a 

 swelling and discoloration of the barberry leaves. The spots are more or less of a reddish- 

 yellow color, and there soon aj^pears on the upper side of the leaves a number of minute, 

 deep brown pustules called spermogonia. A section through the spermogonia shows that 

 they are cavities lined with slender filaments, the tips of which, called spermatia, separate 

 and escape in masses from the spermogonia. Soon after the appearance of the spermogonia 

 on the upper side of the leaves, the lower surface swells and bears a number of cups, 

 the aecidia proper. The cups are really formed inside the leaf, and are sacks com- 

 posed of a cellular covering or peridium, and orange-colored spores arranged in rows 

 arising from the base of the peridium. When they come to the surface, the peridia rup- 

 ture and the spores readily escape. The aecidial spores germinate upon different grasses, 

 and produce in summer what is called the rust, that is, spots or lines containing a rusty 

 colored powder. The rust stage is called by botanists the uredo and consists of rather del- 

 icate, oval, unicellular spores of an orange-red colour, often called stylospores, attached to 

 a mycelium. Like the aecidial-spores, the lu'edo-spores easily fliU from their attachment, 

 and germinate on grass and produce late in the season the pustules which bear the teleuto- 

 spores already described. 



As has already been remarked, these different stages were kept as distinct species by 



' Redierches sur le developpenient de quelques cbampig- Neue Untei'suehungen uberUredineen. M.niatsber. Akad. 



nons parasites. Annales des Sciences naturellcs. 4 Serie. Wiss. Berlin, 1865-66. 

 Tome 20, 1863. 



