| Abstract: | Nodule oximetry, based on spectrophotometric measurements ofleghaemoglobin (Lb) oxygenation in intact nodules, has providednumerous insights into legume nodule physiology. Fractionaloxygenation of Lb (FOL) has been monitored at various wavelengths,but comparisons among wavelengths have not been published previously.Changes in transmittance were monitored simultaneously at 660nm and either 560 or 580 nm as FOL was manipulated by changingthe O2 concentration around nodules of Medicago sativa L. orLotus comiculatus L. Video microscopy at 580 nm was used togenerate two-dimensional maps of FOL gradients in intact nodules.In general, all three wavelengths gave similar results. Smalldiscrepancies between 660 and 580 nm, sometimes seen in noduleswith high O2 permeability, may indicate interference by theferric Lb peak at 625 nm. A slightly longer wavelength, forexample 670 nm, might be preferable. No significant discrepanciesamong wavelengths were seen in nodules whose O2 permeabilityhad been reduced by a 48 h exposure to 10 mM nitrate. Minorgradients in FOL were seen in nodules of M. sativa and Trifoliumrepens L. under air and steeper gradients could be induced byvarious treatments. The existence of these gradients indicatesat least some restriction of longrange O2 diffusion within theinfected zone. The FOL maps do not have enough spatial resolutionto measure gradients within infected cells. Key words: Leghaernoglobin oxygenation, nodules, spectrophotometry, nodule oximetry |
