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Carbon and Nitrogen Supply during Seed Filling and Leaf Senescence in Soybean

Jurusan Budidaya Tanaman, Fakultas Pertanian, Universitas Sriwijaya, J.L. Padang Salasa, Palembang, Indonesia
Dep. of Agronomy, Univ. of Kentucky, Lexington, KY 40546-0091
USDA-ARS, Western Cotton Res. Lab., Phoenix, AZ 85040

^* Corresponding author (agr036{at}ukcc.uky.edu).

Leaf senescence and N redistribution during seed filling may limit soybean [Glycine max (L.) Merr.] yield by restricting the seed filling period. Experiments were conducted in the field and greenhouse to evaluate the relationship between seed N demand and leaf senescence. Plants (cv. McCall) were grown under shade cloth (which reduced insolation by 63%) from R1 to R5 (beginning seed fill), then the shade was removed from some plants with the objective of increasing photosynthesis, seed dry matter, and N accumulation. Experiments included plants grown in soil with no nodules (NO^–₃ as primary source), plants grown in soil with many nodules (N from NO^–₃ and N₂ fixation), and in a hydroponics system (NO^–₃ as primary N source) where N was removed from the media at R5. Increasing photosynthesis at R5 increased seed dry matter accumulation and the response was larger when N was available. Seed N accumulation also increased if N was available. Increasing photosynthesis had no effect on seed N accumulation when N was not available to the plant. Temporal changes in chlorophyll and N of an upper leaf were measured to characterize leaf senescence. Increasing photosynthesis did not accelerate leaf senescence in any of the treatments. If N was available, N uptake increased when photosynthesis increased. If N was not available, seed N concentration decreased. The data suggest that leaf senescence does not occur because of seed N demand, but may be regulated by processes in the leaf.

Received for publication September 20, 1994.

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