A Quantitative Method for Analyzing Nitrogen Assimilation in Soybeans

Kakiuchi, Jin; Kobata, Tohru

doi:10.2135/cropsci2016.05.0373

Cited by 4 publications

(3 citation statements)

References 21 publications

(26 reference statements)

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“…Case 1 is that P A continuously and linearly increases with P F , where the slope = 1 (no phosphorus retention and no remaining P in soils) and all P F is apparently absorbed by plants, and P A at P F = when P F is partially xed by and/ or retained in the soil. Case 3 is that the increasing P A in Case 2 has a ceiling; this relationship depends on Blackman's law (Thornley 1976), including observations of the relationship between N A and N F (Kakiuchi and Kobata 2017). In Cases 1 and 2 and the phase below the ceiling in Case 3, the slope [SLOPE = (P A − P S ) / P F ] of the line representing the relationship between P A and P F with an intercept of P S can be used to represent P F use e ciency for P A .…”

Section: Modelling and Statistical Analysismentioning

confidence: 99%

“…To estimate N S , the maximum N A , and N FIX in soybeans, a quantitative N model indicating the relationship between N A and N F was used for each P application rate (Fig. 2, upper graph) (Kakiuchi and Kobata 2017). The relationship between N F and N A was incorporated into the model to estimate the maximum N A (N Amax ) and N FIX .…”

Section: Estimation Of N a And N Fix Using A Quantitative N Modelmentioning

confidence: 99%

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A quantitative analysis of the relationship between absorbed and applied phosphorous and their contribution to seed production in soybeans under various applied nitrogen conditions

Kakiuchi

Kobata

2022

Preprint

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Aims This study aimed to model the relationship between assimilated (PA) and applied (PF) phosphorus under diverse nitrogen applications (NF), and to determine the contribution of P to N assimilation (NA) and seed production in soybeans [Glycine max (L.) Merr.], as this has not been done before. Methods Over three years, pot experiments were conducted using nodulated [Lee(+)] and non-nodulated isoline [Lee(–)] soybeans under multiple levels of basal-dressed PF and top-dressed NF from R2 to R7. Results PA in each NF was represented by a function of PF as a straight line with a positive slope and an intercept (PS, soil P) connecting with a ceiling line of constant height. The slope [SLOPE = (PA – PS) / PF], which represented the efficiency of PF usage for PA, asymptotically increased with NF. As a result, PA was represented by a single function of PF × SLOPE, which consisted of slope = 1 and a ceiling across different NF rates. Seed production each year was explained by NA regardless of PA for both nodulation types, although responses of seed yield to PA in Lee(–) differed due to NA. PA asymptotically increased the maximum NA and N fixation by nodulation which were approximated by the N quantitative model. Conclusion PA can be represented as a function of PF by excluding P retained in soils, which is influenced by NF. Accordingly, PA effects seed production via NA behavior determined by fertilizer, soil and fixed N.

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Section: Modelling and Statistical Analysismentioning

confidence: 99%

Section: Estimation Of N a And N Fix Using A Quantitative N Modelmentioning

confidence: 99%

A quantitative analysis of the relationship between absorbed and applied phosphorous and their contribution to seed production in soybeans under various applied nitrogen conditions

Kakiuchi

Kobata

2022

Preprint

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“…RESEARCH I ncreasing crop yield per unit area is of considerable significance because of the rapidly expanding global population and gradual reduction in farmland area (Xiao et al, 2013), as well as the limited availability of natural resources. The addition of nitrogen (N) fertilizer to agricultural systems is a necessary facet of modern agricultural practices, and such applications can generate ~30 to 50% increases in crop yield (Erisman et al, 2008;Kakiuchi and Kobata, 2017). Generally, in the effort to enhance crop production, the quantities of N applied in China are often larger than the recommended and threshold levels (Yin et al, 2016).…”

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Nutrition Diagnosis for Nitrogen in Winter Wheat Based on Critical Nitrogen Dilution Curves

Yin

et al. 2018

Crop Science

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Accurate and timely diagnosing of nitrogen (N) requirements for crop growth is vital for improving the efficiency of N use and reducing the risk of N losses. This study conducted a comparison of N dilution curves with urea and controlled‐release N fertilizer (CRN) to explore the applicability of critical N curve and to determine the appropriateness of CRN. Experiments on winter wheat (Triticum aestivum L.) with different N applications were conducted during 2013 to 2015 in Shaanxi Province, China. The N applications consisted of urea at 80 (U80), 160 (U160), and 240 kg N ha−1 (U240), with 40% applied as a basal fertilizer and 60% topdressed at the jointing stage, and CRN at 60 (C60), 120 (C120), 180 (C180), and 240 kg N ha−1 (C240), all applied as a basal fertilizer. A treatment with no N application served as a control (CK). The critical N concentration and shoot dry matter of winter wheat fitted a power function for both CRN and urea. The curves were validated with data from another season, and their performances were proved to be stable. The estimated N nutrition index and accumulated N deficit under each N application enabled crop N condition to be well differentiated and suggested that a suitable N application rate for winter wheat was 120 to 180 kg CRN ha−1 and 160 to 240 kg urea ha−1. Moreover, the C180 treatment produced a similar yield as the U240 treatment, but its N physiological efficiency, N agronomic efficiency, partial N productivity, and apparent N recovery were on average 5.87, 35.93, 34.12, and 28.39% higher than the U240 treatment, respectively, in the two seasons. These results are useful for N application management and can offer a theoretical reference for CRN application.

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Crop recovery efficiency of applied phosphorous under different nitrogen applications and the contribution of these two nutrients to seed production in soybeans

Kakiuchi

Kobata²

2022

Plant Soil

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A Quantitative Method for Analyzing Nitrogen Assimilation in Soybeans

Cited by 4 publications

References 21 publications

A quantitative analysis of the relationship between absorbed and applied phosphorous and their contribution to seed production in soybeans under various applied nitrogen conditions

A quantitative analysis of the relationship between absorbed and applied phosphorous and their contribution to seed production in soybeans under various applied nitrogen conditions

Nutrition Diagnosis for Nitrogen in Winter Wheat Based on Critical Nitrogen Dilution Curves

Crop recovery efficiency of applied phosphorous under different nitrogen applications and the contribution of these two nutrients to seed production in soybeans

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