ฉันรักแปลMicroorganisms may either

ฉันรักแปลMicroorganisms may either directly take up organic N or use the mobilization-immobilization-turnover
(MIT) route to satisfy their N demand. However, there is only little information available about the factors
controlling these two different uptake routes. The objective was to investigate the effects of substrate
quality of corn with different C to N ratios in the presence and absence of mineral N on the N uptake
route of soil microorganisms. Soil from the Static Fertilization Experiment Bad Lauchst€adt was incubated
at 20
C and 60% of its water-holding capacity. The following treatments were used: no addition (control
(C to N ratio ¼ 13), treatment I), addition of corn residues with a C to N ratio of 40 (II), 20 (III), and 40 &
(NH4)2SO4 (IV). We studied the utilization of added amino acids in order to distinguish between the N
uptake routes. The mineralization rate of amino acids increased in the order “addition of corn residues
with a wide C to N ratio” (4% of added amino acids) < “corn residues with a small C to N ratio”
(27%) < “corn residues with a wide C to N ratio & (NH4)2SO4” and “control treatment” (31% and 32%,
respectively) after 21 days of incubation. This means that, under the assumption that all the amino acids
were utilized and that no remineralization of consumed amino acids occurred, 96% (treatment II), 73%
(III), 69 (IV), and 68% (I) of the added amino acids were taken up directly. These results indicate that the
direct route is especially important for substrates with wide C to N ratios in the absence of mineral N
(thus for conditions of high C availability). The proportion of added amino acids mineralized increased
with time in all treatments, suggesting that the MIT route became more important over time. Overall, the
results show that the composition of the residue and the presence or absence of mineral N had a marked
effect on the N uptake route of soil microorganisms.