&lt;b&gt;Di-nitrogen fixation at the early and late growth stages of soybean

Hamawaki, Raphael Lemes; Kantartzi, Stella K.

doi:10.4025/actasciagron.v40i1.36372

Cited by 9 publications

(9 citation statements)

References 36 publications

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“…Although nodule size has been suggested to influence BNF more than other nodule traits (de Araujo et al, 2017; Tajima et al, 2007; Voisin, Salon, Jeudy, & Warembourg, 2003b), contrarily greater fixation was seen in DM50I17 with smaller nodules than DM40R16. We confirm a genotypic effect on the timing of BNF (Hamawaki & Kantartzi, 2018) and additionally show this occurs for nodulation; however, nodulation and the timing of BNF were not correlated (Tables 3 and 4). Low RZT delays BNF and nodule formation (Zhang et al, 1995) in both genotypes (Tables 3 and 4) and therefore does not explain differences in N supply across sowing dates.…”

Section: Discussionsupporting

confidence: 80%

Genotype and cytokinin effects on soybean yield and biological nitrogen fixation across soil temperatures

Kempster

Barat

Bishop

et al. 2020

Annals of Applied Biology

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High nitrogen (N) supply is required for high‐yielding soybean, but low soil temperatures in either early production systems or cool environments delay nodulation and limit biological nitrogen fixation (BNF). Because cytokinins are key signalling hormones in mediating nodule formation and our initial controlled environment experiment indicated that seed cytokinin treatment increased early BNF and total nodule area, it was used in field trials. Cytokinin was applied (seed or foliar) to two commercial soybean genotypes (DM50I17 and DM40R16) in field trials with early (September and early November) and conventional (late November) sowing dates in Argentina. In the field, DMR50I7 achieved consistent yields across sowing dates because increased BNF compensated for limited soil N uptake in early sowing dates, also leading to 25% higher nitrogen use efficiency (NUE). Surprisingly, soil N uptake was more cold‐sensitive than BNF with greater and prolonged N fixation in early sowing, perhaps through delayed nodulation, leading to improved N harvest index. Cytokinin seed treatment increased BNF (26%) in DM40R16 especially in early sowing dates. Although cytokinin improved cold tolerance of BNF, this was not explained by altered nodulation and did not increase yield. Here we show genetic differences in N supply in commercial soybean genotypes and the importance of BNF to maintain yield in early sown soybean.

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Section: Discussionsupporting

confidence: 80%

Genotype and cytokinin effects on soybean yield and biological nitrogen fixation across soil temperatures

Kempster

Barat

Bishop

et al. 2020

Annals of Applied Biology

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“…Indeed, UFPI59 contributed for increasing the N content in lima bean and it can be correlated to the higher nodule size found with this strain. There is a strong correlation between nodule size and N accumulation in plants (Deliae et al, 2010;Voisin et al, 2015;Hamawaki & Kantartzi, 2018) and it corroborates with the results observed in this study. It can indicate that UFPI59 presents high effectiveness in contributing with N to lima bean.…”

Section: Resultssupporting

confidence: 92%

Inoculation of rhizobia increases lima bean (Phaseolus lunatus) yield in soils from Piauí and Ceará states, Brazil

et al. 2020

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“…Doubled plant population of mungbean and lower intra-row spacing between sweet sorghum and mungbean have aggravated the competitive ability between sweet sorghum and mungbeanand thus led to a reduction of growth and yield parameters. Sweet sorghum would have been non-competitive and cooperative with soybean as it hasa greater ability to fix atmospheric nitrogen (range of 56-89 % of total plant N) compared to mungbean (45-76% of total plant N) and being able to make available a part of such N to associated plants [42]. The LAI, plant height and grain yield of intercropped sweet sorghum were significantly decreased by 10.5, 8.4, and 8.5 %, respectively, when N dose was reduced to 30 kg ha -1 compared to 60 kg ha -1 .…”

Section: Discussionmentioning

confidence: 99%

Growth, Yield and Nutritional Performance of Sweet Sorghum and Legumes in Sole and Intercropping Influenced by Type of Legume, Nitrogen Level and Air Quality

Arshad¹,

Nawaz²,

Ahmad³

et al. 2019

Pol. J. Environ. Stud.

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Sweet sorghum is a drought-tolerant cereal widely grown as pure stand in water-scarce areas. In the context of ongoing climate change, some agronomic adjustments are required for sustainable food production. Intercropping sweet sorghum with mungbean and soybean was assessed under three N levels (30, 60, 120 kg ha-1) and two types of air quality environments (charcoal filtered air and ambient air). Grain yield of sweet sorghum was significantly (P≤0.001) reduced in intercropping with mungbean (4.5 t ha-1), but remained on par (P>0.05) between sole cropping (5.1 t ha-1) and intercropping with soybean (5.1 t ha-1). Nitrogen application at 60 kg ha-1 optimized the grain yield, LER (1.8-1.9) and nutritional outputs of carbohydrate, protein, fat, and energy in intercropping (4.7 t, 1.0 t, 0.2 t, and 102.5 MJ ha-1 , respectively) compared to that in sole cropping of sweet sorghum (3.6 t, 0.5 t, 0.1 t, and 74.6 MJ ha-1 , respectively). Charcoal-filtered air with reduced air pollutants of O 3 , NO 2 and SO 2 significantly (P≤0.05) improved the growth and seed yield of intercropped mungbean (2.1 tha-1) and soybean (1.8 tha-1), and overall land productivity compared to ambient air (1.7 and 1.2 t ha-1 , respectively).

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<b>Di-nitrogen fixation at the early and late growth stages of soybean

Cited by 9 publications

References 36 publications

Genotype and cytokinin effects on soybean yield and biological nitrogen fixation across soil temperatures

Genotype and cytokinin effects on soybean yield and biological nitrogen fixation across soil temperatures

Inoculation of rhizobia increases lima bean (Phaseolus lunatus) yield in soils from Piauí and Ceará states, Brazil

Growth, Yield and Nutritional Performance of Sweet Sorghum and Legumes in Sole and Intercropping Influenced by Type of Legume, Nitrogen Level and Air Quality

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