EFEITO DA DESFOLHA NA ALTURA DE PLANTAS E PRODUTIVIDADE DE GRÃOS DE CANOLA (Brassica napus L.)

Abstract: A redução da área foliar das plantas interfere no potencial fotossintético e ocasiona perdas significativas no potencial de rendimento de grãos das culturas agrícolas. O objetivo desse trabalho foi avaliar o efeito da desfolha total na altura de plantas e produtividade final de grãos de canola em solo que apresenta má drenagem natural. Foi utilizado o delineamento inteiramente casualizado, com parcelas de 0,4 m de largura x 1 m de comprimento sub-subdivididas (trifatorial 2 x 4 x 4, onde fator A = solo com e s… Show more

“…Zou et al (2014) and Nabloussi et al (2019) and 56.0% in Asia. In southern Brazil, Santos et al (2020) observed grain yield reductions of 194.9 kg ha -1 in soils without the removal of excess surface and subsurface water, whereas the use of drains increased the canola grain yield by 126.9%. Therefore, the drainage of excess surface water is essential to mitigate the adverse effects of rainy periods on canola-growing areas in poorly drained soils (Goulart et al, 2020).…”

“…Studies developed in the field by Zhou et al (2014) and Santos et al (2020) under waterlogging conditions, highlighted reductions in plant height of 50 and 57%, respectively. In a controlled environment, Rossi et al (2015) found similar results as the growth of canola plants was affected in aerated soil layers no deeper than 0.20 m, whereas restrictions at 0.10 m significantly compromised plant height.…”

“…The decrease in the aerated soil layer caused by water table rise modulates biochemical and physiological changes in plants, directly impacting plant morphology (Liu et al, 2020;Ploschuk et al, 2020). The decrease in leaf area index (LAI) due to leaf senescence in response to ethylene accumulation (Santos et al, 2020) reduced the synthesis of photoassimilates and resulted in the availability of more energy for growth.…”

Modification of canola cultivation conditions in a waterlogging-susceptible subtropical environment

“…Zou et al (2014) and Nabloussi et al (2019) and 56.0% in Asia. In southern Brazil, Santos et al (2020) observed grain yield reductions of 194.9 kg ha -1 in soils without the removal of excess surface and subsurface water, whereas the use of drains increased the canola grain yield by 126.9%. Therefore, the drainage of excess surface water is essential to mitigate the adverse effects of rainy periods on canola-growing areas in poorly drained soils (Goulart et al, 2020).…”

“…Studies developed in the field by Zhou et al (2014) and Santos et al (2020) under waterlogging conditions, highlighted reductions in plant height of 50 and 57%, respectively. In a controlled environment, Rossi et al (2015) found similar results as the growth of canola plants was affected in aerated soil layers no deeper than 0.20 m, whereas restrictions at 0.10 m significantly compromised plant height.…”

“…The decrease in the aerated soil layer caused by water table rise modulates biochemical and physiological changes in plants, directly impacting plant morphology (Liu et al, 2020;Ploschuk et al, 2020). The decrease in leaf area index (LAI) due to leaf senescence in response to ethylene accumulation (Santos et al, 2020) reduced the synthesis of photoassimilates and resulted in the availability of more energy for growth.…”

Modification of canola cultivation conditions in a waterlogging-susceptible subtropical environment

“…Apresenta boa adaptabilidade aos sistemas de produção, como na rotação de culturas, reduzindo problemas fitossanitários (SANTOS et al, 2020), o que a torna uma excelente planta de cobertura no período do inverno. Além disso, a canola surge como uma alternativa econômica com a realização de sua semeadura como segunda safra anual, no período de outono-inverno, melhorando condições físicas do solo devido ao seu sistema radicular agressivo (HECK, 2015).…”

Potencial produtivo de culturas anuais produtoras de óleo vegetal: linho, canola e girassol

“…No Brasil, o cultivo da canola é realizado em mais de 35 mil hectares com produção superior a 43 mil toneladas (CONAB, 2020). O Rio Grande do Sul é o principal Estado produtor devido as condições ambientais de temperatura, radiação solar e precipitação favoráveis ao crescimento e desenvolvimento da cultura (DOS SANTOS et al, 2020).…”

Aumento Da Velocidade De Semeadura Altera a Distribuição De Plantas De Canola