Influence of photoperiod and air temperature on the growth, flowering and maturation of soybean (Glycine max (L.) Merrill)

Camara, G M S; Neto, Durval Dourado; Bernardes, Marcos Silveira

doi:10.1590/s0103-90161997000300017

Cited by 40 publications

(32 citation statements)

References 2 publications

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“…The number of nodes on the main stem is greater with the longer is the photoperiod (Câmara et al, 1997;Kantolic & Slafer, 2007). This affirmation explains the results of this study, which the plants sowed in October and November, had longer photoperiod during their growth, and more nodes at main steam.…”

Section: Discussionsupporting

confidence: 86%

Sowing Dates and Soybean Cultivars Influence Seed Yield, Oil and Protein Contents in Subtropical Environment

Pierozan¹,

Kawakami²,

Schwarz³

et al. 2017

JAS

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The sowing date is the crop management practice with higher interference on soybean grain yield, although this interference is dependent on the genotype by environment interaction. This study was carried out to evaluate how soybean genotypes behave at different sowing times in a subtropical environment. We evaluated the grain yield, yield components, plant morphology and grain oil and protein content of four soybean cultivars (FPS Urano RR, BMX Apolo RR, BMX Energia RR and BRS 284) at three sowing dates (early, mid, and late sowing in 2010/2011 season) in Mid-South of Parana State, Brazil. Early cultivars at late sowing may have problems with mechanical harvest. The number of pods and grains differed among cultivars, and the cultivar "BRS 284" showed the best results. As an exception, the cultivar "BRS 284" showed yield stability among sowing dates. Higher amount of grain protein content occurs in middle and late sowing dates. The grain yield decreased with delay of sowing due to the reduction of the grains mass and in Southern Brazil is very important to assure high mass of seed to obtain high grain yields.

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Section: Discussionsupporting

confidence: 86%

Sowing Dates and Soybean Cultivars Influence Seed Yield, Oil and Protein Contents in Subtropical Environment

Pierozan¹,

Kawakami²,

Schwarz³

et al. 2017

JAS

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“…O início do ano hidrológico se dá em agosto e o término em julho do ano seguinte, com 1.335 mm de precipitação anual total, 42% dessa ocorre nos meses de dezembro a fevereiro (HORIKOSHI;FISCH, 2007). O período de estiagem, de 15 a 20 dias, ocorre na época do inverno (FISCH, 1999 (COSTA et al, 2007;PEREIRA-SILVA et al, 2007;CARDOSO, 2009 CAMARA et al, 1997;FERRAZ et al, 1999;TALORA;MORELLATO, 2000;FISCH et al, 2000;SANTOS, 2007;MORELLATO, 2008;PEREIRA et al, 2008;CARDOSO, 2009)…”

Section: áRea De Estudounclassified

Fenologia De Espécies Arbóreas Em Região Urbana, Taubaté, Sp

Santos¹,

Fisch²

2019

revsbau

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O objetivo deste estudo foi caracterizar os eventos fenológicos de espécies arbóreas em praças e parques urbanos da cidade de Taubaté-SP. Foram mensalmente acompanhadas as espécies arbóreas pata-de-vaca (Bauhinia longifolia), paubrasil (Caesalpinia echinata), sibipiruna (Caesalpinia peltophoroides), paineira rosa (Ceiba speciosa), ipê-roxo (Handroanthus impetiginosus), ipê-amarelo (Handroanthus ochraceus), jasmim-manga (Plumeria rubra), ipê-de-jardim (Tecoma stans), quaresmeira (Tibouchina granulosa) e pau-formiga (Triplaris americana), contando com 240 indivíduos. O método aplicado para a análise das observações foi o índice de atividade. Na avaliação da relação entre os elementos climáticos e as fenofases foram estabelecidas as correlações de Spearman, as quais foram realizadas através do programa BioEstat 5.0. Os resultados demonstraram que a queda de folhas entre os indivíduos prevaleceu no período da estação seca e o brotamento foliar na estação chuvosa. A floração apresentou maior índice de atividade no início da estação seca e início da estação chuvosa. A estação seca e início da estação chuvosa foi o período com o maior número de indivíduos com frutos, porém esta fenofase ocorreu ao longo de todo ano entre as espécies Tecoma stans e Tibouchina granulosa. Constatou-se que, a precipitação e a temperatura exercem significativa influência sobre o comportamento fenológico vegetativo e reprodutivo das espécies arbóreas.

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“…The artificial enrichment of the growth environment of soybean plants with CO 2 , O 3 and temperatures according to the forecasts on the atmospheric composition for the year 2100, can allow to know the morphophysiological responses in several levels of the plant organization, long before environmental changes occur.The study of the morphophysiological mechanisms of response of soybean plants to the ecological environment where they develop and produce grains, constitutes the basis of soybean ecophysiology.The factors of the climate (temperature, radiation, rainfall, wind and atmospheric pressure, among others), plus the physicochemical properties of the soil and the cultural practices applied in the field continuously influence the performance of the community of soya plants from germination to the senescence of the plants. Throughout the different phenological stages, the expression of stage-tissue genes defines the course of the development of the plant, the formation of the biomass and its components (roots, stems, leaves, flowers, fruits and seeds) respond simultaneously and hierarchically with the objective of completing its biological cycle and producing seeds for the perpetuation of the plant, and that for humanity represents the basis of agricultural production.The most important climatic factors for the development and production of soybean cultivars are temperature and photoperiod and their interactions, plus other favorable/limiting factors and resources such as precipitation variability, appropriate supply of nutrients and elimination of inter-and intraspecific competition, which also interact to determine the production of soybeans in a given region [3,4].The temperature is directly related to the speed of the metabolic rates and the chronological duration of the different phenological stages of the crop, and in the case of floral induction, in interaction with the photoperiod in plants responsive to the duration of the night to flower. The photothermal influence in the growth stages can be predicted by unit heats method.…”

mentioning

confidence: 99%

“…The most important climatic factors for the development and production of soybean cultivars are temperature and photoperiod and their interactions, plus other favorable/limiting factors and resources such as precipitation variability, appropriate supply of nutrients and elimination of inter-and intraspecific competition, which also interact to determine the production of soybeans in a given region [3,4].…”

mentioning

confidence: 99%

Yield Components and Biomass Partition in Soybean: Climate Change Vision

Pereira-Flores¹,

Justino²

2019

Soybean - Biomass, Yield and Productivity

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Long-term climate change and inter-annual climate variability are events of concern to farmers and humanity. Global warming could affect agriculture in various ways and it is anticipated that agricultural systems will face great pressure from the variability of climate factors and their extreme events, which in most cases are difficult to predict, particularly extreme events of rainfall, higher dry season, hot and cold waves and their interactions. Global warming could also have some positive effects for plants such as increasing the temperature of current cold regions and increasing carbon dioxide with its positive effect on photosynthesis, growth rates, the use of water and production. Meanwhile, there are still many questions that remain about this possible future. This chapter, brings the response of plants to future conditions through specifics alterations in its components of yield on environmental conditions with enrichment of CO 2 and elevated temperature, two climatic factors, which is understood to be the factors of climatic change of greater global extent. The study of the components of yield and their alterations, can guide diverse sectors of the sciences and decision makers, in order to structure strategies of resilience in the cultivation of soybean. 2 level. This anticipated knowledge may be important for the direction of policies and research lines in various areas of agricultural sciences to develop diverse resilience strategies to climate change.The understanding of how climate influences the growth, development and production of soybean plants depends on the understanding of how the yield components respond to the variations of climate factors, which can also be elucidated if studies the plant alterations in the future atmosphere conditions. The plant production is determined by changes in yield components, in last instance. The artificial enrichment of the growth environment of soybean plants with CO 2 , O 3 and temperatures according to the forecasts on the atmospheric composition for the year 2100, can allow to know the morphophysiological responses in several levels of the plant organization, long before environmental changes occur.The study of the morphophysiological mechanisms of response of soybean plants to the ecological environment where they develop and produce grains, constitutes the basis of soybean ecophysiology.The factors of the climate (temperature, radiation, rainfall, wind and atmospheric pressure, among others), plus the physicochemical properties of the soil and the cultural practices applied in the field continuously influence the performance of the community of soya plants from germination to the senescence of the plants. Throughout the different phenological stages, the expression of stage-tissue genes defines the course of the development of the plant, the formation of the biomass and its components (roots, stems, leaves, flowers, fruits and seeds) respond simultaneously and hierarchically with the objective of completing its biological cycle and producing seeds for the...

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Influence of photoperiod and air temperature on the growth, flowering and maturation of soybean (Glycine max (L.) Merrill)

Cited by 40 publications

References 2 publications

Sowing Dates and Soybean Cultivars Influence Seed Yield, Oil and Protein Contents in Subtropical Environment

Sowing Dates and Soybean Cultivars Influence Seed Yield, Oil and Protein Contents in Subtropical Environment

Fenologia De Espécies Arbóreas Em Região Urbana, Taubaté, Sp

Yield Components and Biomass Partition in Soybean: Climate Change Vision

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