Effects of nitrogen forms on dry matter partitioning and nitrogen metabolism in two contrasting genotypes of Catasetum fimbriatum (Orchidaceae)

The effects of either organic (urea and glutamine) or inorganic nitrogen forms (nitrate and ammonium) on dry matter accumulation in shoots and roots and on nitrogen assimilatory enzyme activities were studied in two Catasetum fimbriatum genotypes. Both genotypes, which had inverse patterns of dry matter partitioning between shoots and roots, were aseptically incubated in gelled culture media containing 6 mol m^?3 of nitrogen and incubated in growth chamber for 30 and 60 days. In vivo nitrate reductase, glutamine synthetase, glutamate dehydrogenase activities as well as free ammonium contents were determined in shoots and roots of plants grown in four different nitrogen sources. Nitrogen assimilatory enzyme activities showed the highest values in the genotype that accumulated dry matter predominantly in the shoots. The nitrogen sources supplied affected dry matter accumulation in shoots and roots of both C. fimbriatum genotypes; however, they were not enough to change the characteristic pattern of dry matter partitioning of each genotype. On the other hand, the differences in the root/shoot ratio found among nitrogen treatments were relatively higher in the genotype that directed dry matter mainly to roots than in the genotype that allocates biomass to shoots. Our results suggest that NADH-dependent glutamate dehydrogenase plays an important role in ammonium assimilation in C. fimbriatum plants, particularly in the root system. Nitrogen metabolism and the dry matter partitioning of the two genotypes are discussed.