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Nitrogen limitation in high-yield soybean: Seed yield, N accumulation, and N-use efficiency
- Source :
- Field Crops Research. 237:74-81
- Publication Year :
- 2019
- Publisher :
- Elsevier BV, 2019.
-
Abstract
- Recent reviews about soybean nitrogen (N) requirement have speculated about a possible N limitation in high-yield environments (>4.5 Mg ha−1). However, these studies did not provide definitive experimental data to test that hypothesis and results from the literature are conflicting. To fill this knowledge gap, we evaluated N limitation across 13 high-yield soybean environments in Argentina and USA. Each experiment included a ‘zero-N’ treatment, which forced the crop to rely on biological N2 fixation and indigenous soil N, and a ‘full-N’ treatment, which provided an ample fertilizer N supply during the entire crop cycle based on site-specific yield potential. Accumulated N in aboveground dry matter (ADM) measured in a N-omission maize plot grown adjacent to the soybean experiments was used to determine indigenous soil N supply. Soybean seed yield, protein and oil concentration, ADM, harvest index (HI), accumulated N in ADM, N harvest index (NHI), and seed N were measured in both treatments at physiological maturity. A simple conceptual framework relating ADM with accumulated N was used to assess treatment differences in ADM, accumulated N, and N-use efficiency (NUE). To account for treatment differences in seed biomass composition, mass-based ADM was expressed in glucose equivalents (ADMe). Seed yield ranged from 4.6 to 6.7 Mg ha−1 (full-N) and 4 to 5.8 Mg ha−1 (zero-N), with the full-N treatment averaging 12% (0.6 Mg ha−1) and 3% (9 g kg−1) higher seed yield and protein concentration, respectively. The full-N treatment exhibited 18% (70 kg N ha−1) and 14% (1.6 Mg ha−1) greater accumulated N and ADM, respectively, compared with the zero N treatment, without changes in HI and NHI, but slightly lower NUE (29 versus 30 kg ADM kg−1 N in full and zero-N, respectively). However, NUE differences between treatments became indistinguishable when ADM was expressed as ADMe (45 kg glucose kg−1 N). The (full-N minus zero-N) seed yield difference and the indigenous soil N supply were negatively associated. This research documented (i) the existence of N limitation in high-yield soybean, (ii) that seed yield and protein concentration increases were physiologically associated with changes in accumulated N (but not in NUE and/or NHI), and (iii) that the degree of N limitation is modulated by indigenous soil N supply. Findings from this study can serve as a basis to identify environments with the largest N limitation and thus guide N management in soybean.
- Subjects :
- 0106 biological sciences
food and beverages
Soil Science
chemistry.chemical_element
04 agricultural and veterinary sciences
engineering.material
01 natural sciences
Nitrogen
Crop
Animal science
chemistry
Negatively associated
Yield (chemistry)
040103 agronomy & agriculture
engineering
0401 agriculture, forestry, and fisheries
Dry matter
Fertilizer
Oil concentration
Agronomy and Crop Science
010606 plant biology & botany
Biomass composition
Subjects
Details
- ISSN :
- 03784290
- Volume :
- 237
- Database :
- OpenAIRE
- Journal :
- Field Crops Research
- Accession number :
- edsair.doi...........1fbe14f9037b32f93a2202effe8111f6
- Full Text :
- https://doi.org/10.1016/j.fcr.2019.04.009