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Continuous, Automated Acetylene Reduction Assays Using Intact Plants

Overview
Journal Plant Physiol
Specialty Physiology
Date 1977 Jun 1
PMID 16659997
Citations 13
Authors
H J Mederski
J G Streeter
Affiliations
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Abstract

An automated method was developed for continuous, in situ determination of acetylene reduction (N(2) fixation) by intact soybean plants (Glycine max [L.]). The culture vessel containing the roots of intact plants grown in sand culture is sealed at the surface and an air-acetylene mixture continuously injected into the root chamber. The effluent gas is automatically sampled and injected into a gas chromatograph. Continuous acetylene assay at intervals as short as 3.5 min may be made over a period of several days, without attention, except for plant watering. Adverse effects of prolonged exposure of the root system to acetylene were mitigated by pulse injection of acetylene for 20 min followed by 40 min of acetylene-free air. Bare root systems can be suspended in a reaction chamber and sprayed with water or nutrient solution; this permits periodic removal of the root system for sampling nodules.In studies lasting several diurnal cycles, acetylene reduction did not decline more than 50% of the maximum rate in light, thus nitrogenase activity depends on concomitant photosynthesis and on carbohydrate from storage pools.

Citing Articles

Carbohydrate partitioning and the capacity of apparent nitrogen fixation of soybean plants grown outdoors.

Millhollon E, Williams L Plant Physiol. 1986; 81(1):280-4.

PMID: 16664789 PMC: 1075319. DOI: 10.1104/pp.81.1.280.

Analysis of acetylene reduction rates of soybean nodules at low acetylene concentrations.

Denison R, Weisz P, Sinclair T Plant Physiol. 1983; 73(3):648-51.

PMID: 16663275 PMC: 1066523. DOI: 10.1104/pp.73.3.648.

Reversible dark-induced senescence of soybean root nodules.

Pfeiffer N, Malik N, WAGNER F Plant Physiol. 1983; 71(2):393-9.

PMID: 16662836 PMC: 1066043. DOI: 10.1104/pp.71.2.393.

Effect of changes in shoot carbon-exchange rate on soybean root nodule activity.

Williams L, DeJong T, Phillips D Plant Physiol. 1982; 69(2):432-6.

PMID: 16662224 PMC: 426225. DOI: 10.1104/pp.69.2.432.

Effect of Atmospheric CO(2) Enrichment on Growth, Nonstructural Carbohydrate Content, and Root Nodule Activity in Soybean.

Finn G, Brun W Plant Physiol. 1982; 69(2):327-31.

PMID: 16662202 PMC: 426203. DOI: 10.1104/pp.69.2.327.

References
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