A aplicação foliar de molibdênio na fase de enchimento de vagens do feijão-comum pode reduzir a qualidade da semente

Vieira, Rogério Faria; Júnior, Trazilbo José de Paula; Prado, Adalgisa Leles do; Araújo, Roberto Fontes; Lehner, Miller da Silva; Silva, Rhaphael Alves

doi:10.1590/0034-737x201562040012

Cited by 5 publications

(6 citation statements)

References 8 publications

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“…at the R8 stage may reduce seed quality (Vieira et al, 2015). In future studies, doses lower than 200 g Mo ha -1 applied at the R8 stage should be included as a treatment when trying to improve Mo accumulation in seed.…”

Section: Resultsmentioning

confidence: 99%

“…The efficacy of Mo application during the reproductive stage of the common bean has not been confirmed in controlled studies. In a study conducted in the Zona da Mata region, 200 to 300 g Mo ha -1 sprayed at the R8 stage (pod filling) of the common bean reduced seed quality as evaluated by germination and accelerated aging tests (Vieira et al, 2015). Thus, Mo application at the common bean's reproductive stage should concentrate on R5 (pre-flowering), R6 (flowering) and R7 (pod formation) stages in trying to improve SMoC.…”

Section: Introductionmentioning

confidence: 99%

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<b>Split application of molybdic fertilizer at the reproductive stage of common bean increases the molybdenum content in seed

et al. 2016

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ABSTRACT. We evaluated the effects of split molybdenum (Mo) application at the reproductive stage of the common bean on seed Mo content (SMoC) and seed quality in two trials in the Zona da Mata region, Minas Gerais. Plants were sprayed with 100 or 600 g Mo ha -1 at the V4 stage. The higher dose was also split into 100(V4)+500(R5), 100(V4)+500(R7), 100(V4)+250(R5)+250(R7), and 100(V4)+150(R5)+350(R7). SMoC from plants sprayed with 600 g (five treatments) was 3.7-or 62-fold higher than those sprayed with 100 g, with seeds from the former treatments exhibiting slightly poorer quality. Application of 100 g at V4 + 500 g at the reproductive stage (four treatments) increased SMoC 1.6-or 2.7-fold compared with SMoC from plants sprayed with 600 g at V4. Split application of 500 g with two sprays increased SMoC by 11% (p = 0.257) or 16% (p = 0.013) compared with one spray of 500 g. SMoC can be higher with Mo applied at R7 (pod formation) instead of at R5 (pre-flowering), without impairing seed quality. Thus, split Mo application between the R5 and R7 stages of the common bean saves molybdic fertilizer to produce Morich seeds, with only a slight decrease in seed quality.Keywords: Phaseolus vulgaris, seed molybdenum, seed quality, seed vigor, seed germination.Parcelamento da aplicação do adubo molíbdico na fase reprodutiva do feijão-comum aumenta o conteúdo de molibdênio na semente RESUMO. Avaliamos os efeitos de parcelamentos da aplicação de molibdênio (Mo) na fase reprodutiva do feijão-comum no conteúdo de Mo na semente (CMoS) e na sua qualidade fisiológica em dois ensaios na Zona da Mata, Minas Gerais. Pulverizaram-se feijoeiros com 100 ou 600 g Mo ha -1 na fase V4. Esta última dose também foi parcelada: 100(V4)+500(R5), 100(V4)+500(R7), 100(V4)+250(R5)+250(R7) e 100(V4)+150(R5)+350(R7). O CMoS de plantas pulverizadas com 600 g (cinco tratamentos) foi 3,7 ou 62 vezes maior que o das pulverizadas com 100 g; sementes deste tratamento apresentaram qualidade ligeiramente melhor que as daqueles. Aplicação de 100 g em V4 + 500 g na fase reprodutiva (quatro tratamentos) aumentou 1,6 ou 2,7 vezes o CMoS comparativamente ao CMoS de plantas adubadas com 600 g em V4. Parcelamento de 500 g em duas pulverizações aumentou em 11% (p = 0,257) ou 16% (p = 0,013) o CMoS comparativamente a uma pulverização. O CMoS pode ser mais alto quando se pulveriza o Mo em R7 (formação de vagens) comparativamente a R5 (pré-floração), sem prejuízo à qualidade da semente. Logo, o parcelamento do Mo nessas duas fases do feijão-comum economiza fertilizante molíbdico para produzir sementes ricas em Mo, com ligeira redução da qualidade da semente. Palavras-chave:Phaseolus vulgaris, molibdênio na semente, qualidade da semente, vigor da semente, germinação da semente.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

<b>Split application of molybdic fertilizer at the reproductive stage of common bean increases the molybdenum content in seed

et al. 2016

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“…In the study by Vieira et al (2016), Mo was applied at V4, R5 (bud initiation), and R7 (pod formation) growth stages. According to Vieira et al (2015), application of Mo at the seed filling (R8) growth stage should be avoided due to the risk of reducing seed physiological quality (germination and vigor). Vieira et al (2016) found that seed vigor was greater with 100 g ha −1 than with 600 g ha −1 of Mo in one trial.…”

Section: Core Ideasmentioning

confidence: 99%

Split applications of molybdenum fertilizer on common bean increase molybdenum in seed

et al. 2023

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Common bean (Phaseolus vulgaris L.) plants sprayed with molybdenum (Mo) fertilizer produce Mo‐enriched seeds, which may increase yield in Mo‐poor soils. The challenge has been to produce Mo‐enriched seeds with less fertilizer. Split applications of Mo increase seed Mo content (SMoC), but the number of splits that maximize SMoC has not been studied sufficiently. In three sprinkler‐irrigated field trials, we evaluated the effects of split‐applied Mo fertilizer on SMoC and seed physiological quality. All treatments received NPK fertilizer at sowing. In two treatments, 69 kg ha−1 of urea‐N was top‐dressed or not applied. In six treatments, Na2MoO4·2H2O was foliar‐sprayed once at either 90 or 600 g ha−1 of Mo at the 4th trifoliolate leaf (V4) growth stage, or 600 g ha−1 was split equally at V4 and bud initiation (R5); V4, R5, and full flowering (R6); V4, R5, R6, and early pod formation (R7); or V4, R5, R6, and early and late R7 growth stages. Seed yield for each trial ranged from 3723 to 4621 kg ha−1. Site‐treatment interaction was significant for SMoC and seed germination (p < 0.001). SMoC ranged from 0.11 to 0.23 (only NPK‐fertilized), 1.81 to 3.31 (600 g ha−1, no split), and 5.22 to 6.29 μg (four splits). Four and five splits did not differ significantly for any variable. In two trials, seeds from 600 g ha−1 of Mo had a 3.9% higher germination than seeds from 90 g ha−1. In conclusion, SMoC increases as the number of splits increase up to four times. Additionally, Mo applied at 600 g ha−1 may improve seed germination rate.

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“…Therefore, although with a final stand density 19% lower than that obtained with low-Mo seeds (Figure 1d), plants raised from high-Mo seeds yielded 42% more than those originated from low-Mo seeds (Figure 1e). The lower stand density for plants raised from high-Mo seeds may be due to the 400 g ha −1 of Mo applied at the pod-filling stage of the plants from which high-Mo seeds were harvested, as long as, according to Vieira et al (2015), over 200 g ha −1 of Mo applied at common bean pod-filling may have decreased the quality of the seeds. Thus, the effects of rates and split application of Mo in different cowpea reproductive growth stages on both seed Mo content and seed quality should be evaluated in further studies to improve the technology of pro-ducing Mo-enriched seeds.…”

Section: Effects Of Seed Mo Content and Bradyrhizobial Inoculation On Cowpea Yieldmentioning

confidence: 99%

Seeds enriched with molybdenum improve cowpea yield in sub‐humid tropical regions of Brazil

et al. 2021

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The possible benefits of molybdenum (Mo)-enriched seeds for grain legumes have yet to be addressed in sub-humid tropical areas, where cowpea (Vigna unguiculata L.) is an important crop. In 2016, seeds with 0.014 (low), 0.674, or 1.987 (high) μg seed −1 of Mo were harvested from plants sprayed with 0, 250, or 850 g ha -1 of Mo, respectively. These seeds were combined with either Bradyrhizobium inoculation (with or without) in 2017 or nitrogen (0 or 60 kg ha −1 ) in 2018 and evaluated under small farmer management in Maranhão State, Brazil. Maximum nodules plant −1 in these trials was 5.2. In 2017, inoculation acted synergistically with Mo-enriched seeds by increasing nodule weight. Averaged across inoculation levels, plants originated from high-Mo seeds had 36% higher leaf N concentration than those raised from low-Mo seeds. Inoculation did not affect yield, but plants grown from high-Mo seeds yielded 42% more than those raised from low-Mo seeds. In 2018, seed Mo content did not affect nodule and yield where urea was applied. However, without urea, plants raised from high-Mo seeds had 3.5-fold greater values for nodule number and weight and yielded 70% more than those grown from low-Mo seeds. We conclude that using Moenriched seeds associated with Bradyrhizobium inoculation would improve cowpea N nutrition and yield in a sustainable way.How to cite this article: Barbosa EPA, Sodré DN, Braun H, Vieira RF. Seeds enriched with molybdenum improve cowpea yield in sub-humid tropical regions of Brazil.

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A aplicação foliar de molibdênio na fase de enchimento de vagens do feijão-comum pode reduzir a qualidade da semente

Cited by 5 publications

References 8 publications

<b>Split application of molybdic fertilizer at the reproductive stage of common bean increases the molybdenum content in seed

<b>Split application of molybdic fertilizer at the reproductive stage of common bean increases the molybdenum content in seed

Split applications of molybdenum fertilizer on common bean increase molybdenum in seed

Seeds enriched with molybdenum improve cowpea yield in sub‐humid tropical regions of Brazil

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