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Articles

Reproductive Growth and Dry Matter Production of Glycine max (L.) Merr. in Response to Oxygen Concentration ¹

^a Central Research Department, Experimental Station, E. I. Dupont de Nemours and Co., Wilmington, Delaware 19898

Reproductive as well as vegetative parameters of mature soybean (Glycine max [L.] Merr. cv. Wye) plants grown in chambers in which the aerial portion was exposed to altered pO₂ during all or part of the growth cycle were measured. Oxygen concentration was found to be a key factor controlling all phases of reproductive development. Exposure to 5% O₂ from early seedling stage to senescence increased leaf, stem, and root dry weights and reduced seed yields when compared to 21% O₂; exposure to low O₂ during the vegetative growth stage from early seedling to mid-flowering arrested pod but not seed development; exposure from mid-flowering to mid-pod filling almost completely arrested seed but not pod development; exposure from mid-pod filling to senescence arrested seed development at the mid-filling stage.

Exposures to 5% O₂ initiated at mid-flowering for 1, 2, 3, 5, 10, and 15 days had no effect on seed development when the exposure was up to 3 days and produced almost total arrest when the exposure was 10 or more days, suggesting reversibility. The requirement for O₂ in seed development is independent of CO₂ concentration with similar results produced by subambient O₂ combined with ambient CO₂, elevated CO₂ up to 2000 µl/l or depressed levels of CO₂ with the CO₂/O₂ ratio as in air. An elevated O₂ atmosphere containing 40% O₂ and ambient or elevated CO₂ inhibited total growth but did not affect the balance of vegetative to reproductive growth.

We conclude that an unknown reaction or process requiring at least atmospheric concentrations of O₂ but independent of CO₂ in contrast to photorespiration is necessary for optimization of all phases of reproductive growth and the effect is reversible for exposures of up to 3 days but not for exposures of 10 days or more. We propose that this O₂ phenomenon may be the result of a unique physical process or chemical reaction associated with translocation and accumulation of assimilates in reproductive structures.

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