Danso, S.K.A. (1995) Assessment of biological nitrogen fixation. Fertilizer research, 42 (1-3). pp. 33-41.
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Abstract
The four commonly used methods for measuring biological nitrogen fixation (BNF) in plants are: the total nitrogen difference (TND) method, acetylene reduction assay (ARA) technique, xylem-solute (or ureide production) method and the use of 15N labelled compounds. The TNr) method relies on a control non-N2-fixing plant to estimate the amount of N absorbed by the fixing plant from soil. It is one of the simplest and least expensive methods, but works best under low soil N conditions. The ARA technique measures the rate of acetylene conversion to ethylene by the N2-fixing enzyme, nitrogenase. The ethylene produced can then be converted into N2 fixed, using a conversion ratio, originally recommended as 3. Although the method is inexpensive and highly sensitive, its major disadvantages are, the short-term nature of the assays, the doubtful validity of always using a conversion ratio of 3 and the auto-inhibition of acetylene conversion to ethylene. The ARA technique is therefore not a method of choice for measuring BNF. The xylem-solute technique can be used to measure BNF for those species that produce significant quantities of ureide as product of BNF. Although simple and relatively inexpensive, it is an instantaneous assay and also needs to be calibrated against a known method. The most serious limitation is, that only a small proportion of N2-fixing plants examined are ureide exporters, and the method is therefore not widely applicable. The 15N methods, classified into the isotope dilution and A-value methods, appear to be the most accurate, but also the most expensive. They involve labelling soil with 15N fertilizer and using a non-N2-fixing reference plant to measure the 15N/14N ratio in the soil. The 15N isotope dilution approach is both operationally and mathematically simpler than the A-value approach. To limit potential errors in the selection of reference crops, it is recommended to use 15N labelled compounds or soil labelling methods that result in the slow release of I5N or the slow decline Of 15N/14N ratio in the soil. Additionally, the use of several reference plants rather than a single one can improve the accuracy of the results.
| Item Type: | Article |
|---|---|
| Uncontrolled Keywords: | Acetylene, 15N, nodules, reference plant, ureide, biological nitrogen fixation |
| Author Affiliation: | FA O/IAEA Division, Wagramerstrasse 5, P.O. Box 100, A-1400 Vienna, Austria |
| Subjects: | Plant Physiology and Biochemistry > Biochemistry |
| Divisions: | General |
| Depositing User: | Mr T L Gautham |
| Date Deposited: | 21 Aug 2018 04:29 |
| Last Modified: | 21 Aug 2018 04:30 |
| URI: | http://eprints.icrisat.ac.in/id/eprint/15554 |
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