Plant spatial arrangement affects grain production from branches and stem of soybean cultivars

Ferreira, André Sampaio; Zucareli, Claudemir; Werner, Flávia; Balbinot, Alvadi Antônio

doi:10.1590/1678-4499.2017285

Cited by 9 publications

(11 citation statements)

References 23 publications

(32 reference statements)

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“…The single plant biomass was the highest in 2017, the SPlY in both years and single pod grain yield in 2017. Similar to Ferreira et al (2018), who reported a higher production of pods and grains in branches with narrower row spacing, we also observed more pods plant -1 and more grains plant -1 with wider row spacings. Contrary to our observations, Cox and Cherney (2011) reported for three row spacings (19, 38 and 76 cm) no differences in the plant density but a lower AGDM and grain yield with wider row spacing due to a lower pod density, a lower grain density and a lower number of grains plant -1 , whereas grains pod -1 increased as also observed in our study with wider row spacing.…”

Section: Discussionsupporting

confidence: 89%

“…Contrary to that, Envi (1973) observed a decrease of the TKW of side branches with increasing seeding rate. Ferreira et al (2018) reported that with increasing seeding rate, the number of pods plant -1 was reduced in a greater magnitude at the branches than at the main stem whereas grain pod -1 was neither altered in the pods located at the stem or at the branches when the plant arrangement changed. Similar to these observations for soybean, also in faba bean, different plant densities tended not to affect the pod density (Patrick and Stoddard, 2010), as competition between plants generally reduced pods plant -1 rather than grains pod -1 or seed size (Adisarwanto and Knight, 1997).…”

Section: Discussionmentioning

confidence: 99%

“…Our correlation results and similarities or differences to other experiments highlight the high phenotypic plasticity of soybean to undergo changes in morphology during adaption to distinct environmental conditions (cf. Ferreira et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

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Effect of row spacing, seeding rate and nitrogen fertilization on yield and yield components of soybean

Neugschwandtner

Winkler²,

Bernhart³

et al. 2019

Die Bodenkultur: Journal of Land Management, Food and Environment

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Summary Soybean crop management have not been studied much in Central Europe as compared with cereals. We assessed the effect of variety, row spacing, seeding rate and nitrogen (N) fertilization on yields and yield components of soybean in a two-year experiment in Gleisdorf, Austria. The varieties Lenka, Naya and Xonia were tested in row spacings of 13 cm, 38 cm and 76 cm with 30 germinable seeds m−2. Additionally, 60 seeds m−2 were tested at 13 cm row spacing, and 38 cm row spacing was additionally established with N fertilization. Faster soil coverage was obtained with a high seeding rate or narrower row spacings. First pod height differed between varieties and increased with higher seeding rate. Grain yield was not affected by treatments but yield components differed. The widest row spacing resulted in a lower plant density but more pods plant−1, grains plant−1, grains pod−1 (in one year) and a higher thousand kernel weight (TKW). The higher seeding rate resulted in a higher plant density but less pods plant−1 whereas grains pod−1 and TKW did not differ. N fertilization did not affect the grain yield. Correlation analysis showed a high adaptability of soybean to different seeding rates and row spacings through modulation of yield components.

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Section: Discussionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Effect of row spacing, seeding rate and nitrogen fertilization on yield and yield components of soybean

Neugschwandtner

Winkler²,

Bernhart³

et al. 2019

Die Bodenkultur: Journal of Land Management, Food and Environment

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show abstract

“…The low proportion of branches in grain production for plants grown at higher sowing densities is probably due to the rapid closing of the canopy during vegetative growth, leading to an unfavorable environment to branching. Thus, production becomes more dependent on the stems (Ferreira et al, 2018).…”

Section: /9mentioning

confidence: 99%

“…Soybean plants at low densities tend to emit a high number of branches and increase their size, providing an increase in the number of pods per plant, which generates higher production per plant, thus maintaining the crop grain yield, even with a reduction in the number of plants per area (Ferreira et al, 2018). High plant densities and small interrow spacings decrease the contribution of branches to grain yield, increasing the proportion of stems in the production.…”

Section: Introductionmentioning

confidence: 99%

Grain, oil, and protein production on soybean stems and branches under reduced densities

Werner

Silva

Ferreira

et al. 2021

Agraria

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The reduction of sowing density is a strategy that aims to reduce production costs with no losses in grain yield. This study aimed to evaluate the yield components and contents of protein and oil in grains from branches and stems of two soybean cultivars as a function of the reduction in sowing density. The experiments were conducted in two growing seasons (2016/17 and 2017/18) in Londrina, PR, Brazil. Two soybean cultivars were evaluated: BRS 1010 IPRO and NS 5959 IPRO. The experimental design was completely randomized blocks in a split-plot scheme, with five replications. Plots consisted of five sowing densities (100, 80, 60, 40, and 20% of that indicated by the cultivar breeder) and subplots consisted of two plant strata (branches and stems). The number of pods m −2 and grain, protein, and oil yield increased in the branches and decreased in the stems with a decrease in sowing density. The number of grains per pod is higher in the stems than in the branches, regardless of the cultivar. The protein content in the grains is higher in the branches than in the stems for the cultivar BRS 1010 IPRO and decreased with a reduction in sowing density. The thousand-grain weight of the cultivar NS 5959 IPRO decreased with a reduction in sowing density. The oil content in the grains was not influenced by the studied factors.

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The SlTCP26 promoting lateral branches development in tomato

et al. 2021

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Plant spatial arrangement affects grain production from branches and stem of soybean cultivars

Cited by 9 publications

References 23 publications

Effect of row spacing, seeding rate and nitrogen fertilization on yield and yield components of soybean

Effect of row spacing, seeding rate and nitrogen fertilization on yield and yield components of soybean

Grain, oil, and protein production on soybean stems and branches under reduced densities

The SlTCP26 promoting lateral branches development in tomato

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