MORPHOLOGIC FEATURES OF PEROSOMUS ("SHORT SPINE") IN FARMED SALMON (SALMO SALAR)

This study was done to characterize morphologically the spinal changes in stunted salmon, 1.5–2 years of age, spontaneously appearing in a Swedish fish farm. Radiographic examination and alizarin-alcian blue preparations showed compressed areas of the spine, most often near the dorsal fin. Of the average 50–52 vertebrae, 20–30 were often compressed, resulting in an average shortening of the fish by 23%. The histopathologic character of the shortened spine was a replacement of the chorda (intervertebral pad or disc) with a poorly differentiated hyaline cartilage, in which proliferative and degenerative processes produced a very irregular pattern. The origin of this cartilage, which had severely impaired ossifying capacity, was perichordal and it often had direct connections with the growth centers of the vertebrae. The disappearance of the large strongly convex (spheric) chorda and the arrest of the vertebral endochondral ossification resulted in narrow disc-like vertebrae in contrast to the normal X-shaped ones. The pathologic changes resemble those observed in chondrodystrophic types of perosomus ("short spine") in certain mammals, including humans, and in turkeys.     

The inorganic N requirement,nodulation and yield of common bean (Phaseolus vulgaris L.) as influenced by inherent soil fertility of eastern Ethiopia

Though mineral N application impaired nodulation initiation and function, it improves the productivity of common bean. The effect of inorganic application on common bean productivity, however, is dependent on the availability of plant nutrients including nitrogen (N) in the soils. Therefore, multilocation field experiments were conducted at Babillae, Fedis, Haramaya, and Hirna to evaluate the effect of inherent soil fertility status on responsiveness of common bean to different rates of N fertilizer application and its effect on nodulation, yield, and yield components of common bean. The treatments were six levels of N fertilizer (0, 20, 40, 60, 80, and 100 kg N ha^?1) laid out in randomized completed block design with three replications. The result revealed that 20 kg N ha^?1 application significantly improved the nodule number (NN) and nodule dry weight (NDW) except Hirna site, in which reduction of NN and NDW was observed. Although the remaining investigated yield and yield components were significantly improved due to N fertilizer in all study sites, 40 kg N ha^?1 application resulted in significantly increased GY of common bean at Fedis, Haramaya, and Hirna site, while 60 kg N ha^?1 at Babillae site. The highest total biomass yield (7011.6 kg ha^?1) and GY (2475.28 kg ha^?1) of common bean were recorded at Hirna and Haramaya sites, respectively, indicating the importance of better fertile soil for good common bean production. Hence, it can be concluded that the effect of inorganic N on common bean was irrespective of soil fertility rather the total amount of N in soil would affect the need of different rate of inorganic N.     

Field response of legumes to inoculation with plant growth-promoting rhizobacteria

Carrier-based (soil/FYM, 1:1) plant growth-promoting rhizobacteria (PGPR) isolates (Bacillus subtilis, Klebsiella planticola and Proteus vulgaris) were tested individually and in combination with Bradyrhizobium japonicum and Rhizobium leguminosarum biovar viciae under field conditions on soybean and lentil crops, respectively, under field conditions. Inoculation of soybean (Glycine max) cv. Pusa 22 with B. subtilis produced maximum nodule number, mass and nitrogenase activity (acetylene reduction activity, ARA) followed by B. japonicum (SB 271). Maximum soybean yield was registered with the coinoculation of B. japonicum and B. subtilis over an uninoculated control. Maximum nodulation in the lentil (Lens culinaris) cv. L 4147 was obtained with a combination of R. leguminosarum (L-12-87) and P. vulgaris inoculation followed by a single inoculation with Rhizobium and B. subtilis. None of the PGPR isolates either singly or in coinoculation with R. leguminosarum could significantly influence the yield of the lentil crop.