Nitrogenase activity on the roots of tropical forage grasses

Abstract

Nitrogen fixation in the rhizospheres of field grown tropical forage grasses was studied by the acetylene reduction method. Values varied considerably between sites but indicate the possible economic importance of several of the species studied. Maximal nitrogenase activity measured (nmoles C 2H 4g −1 dry roots h −1) was 754 for Pennisetum purpureum, 750 for Brachiaria mutica, 341 for Digitaria decumbens, 299 for Panicum maximum, 283 for Paspalum notatum, 269 for Cynodon dactylon, 41 for Melinis minutiflora and 29 for Hyparrhenia rufa. Nitrogenase activity varied considerably with season and was maximal during active vegetative growth of two of the grasses. Significant differences between Paspalum notatum ecotypes and cultivars. in Azotohacter paspali occurrence and nitrogen fixation, indicate the possibility of plant breeding to enhance nitrogen fixation in grass rhizospherc associations. Other research lines of agronomic importance are fertilizer effects. In intact soil plant cores with the Paspalum system 10 parts/10 6 NH 4 + J-N inhibited nitrogenase activity within 2 h and 10 parts/10 6 NO − 3-N within 4 h. but after 1 week these effects were negligible. In the field, nitrogenase activity on roots of P. purpureum and D. decumbens, assayed 2 weeks after top dressings of 20 kg N ha −1 as NH 4NO 3. was not affected even after eight such dressings.