Nitrogen as top-dressing and sowing densities on agronomic characteristics of maize crop

Serpa, Antoniele de F.; Mendes, Marcelo C.; Faria, Marcos V.; Ávila, Fabricio W. de; Szeuczuk, Kathia; Albuquerque, Carlos J. B.

doi:10.1590/1807-1929/agriambi.v21n10p703-708

ABSTRACT

The main objective of this study was to evaluate the agronomic characteristics of commercial maize hybrids with modern and old architecture, under the influence of nitrogen (N) as top dressing with different plant populations. Two independent experiments were conducted, one in the municipality of Guarapuava (reduced spacing = 0.45 m) and the other in the municipality of Laranjeiras do Sul (conventional spacing = 0.90 m), in the Paraná state, Brazil, in the 2012/2013 growing seasons. The experiments were set in a randomized block design, with three replicates, in a factorial scheme (6 x 3 x 3), corresponding to six maize hybrids (with modern and old architecture), three plant populations (60000, 75000 and 90000 plants ha^-1) and three N doses as top dressing (0, 90 and 180 kg ha^-1 of N), both installed in October. N doses as top dressing and sowing density influenced the thousand-grain weight in maize hybrids with modern and old architecture. The increase in sowing density reduced stem diameter in the groups of modern and old architecture in Laranjeiras do Sul. Grain yield was positively influenced by N fertilization, being higher at the N dose of 180 kg ha^-1 in Guarapuava and Laranjeiras do Sul.

Key words:
plant architecture; grain yield; Zea mays

RESUMO

Objetivou-se, neste estudo, avaliar as características agronômicas de híbridos de milho comerciais, com arquitetura moderna e antiga sob influência de níveis de adubação nitrogenada de cobertura em diferentes densidades de semeadura, nos municípios de Guarapuava (espaçamento 0,45 m) e Laranjeiras do Sul (espaçamento 0,90 m), no estado do Paraná, na safra 2012/2013. O delineamento foi de blocos ao acaso, com três repetições, em esquema fatorial (6 x 3 x 3), sendo utilizados seis híbridos simples de milho, divididos em dois grupos (arquitetura moderna e antiga), três densidades de plantas (60.000, 75.000 e 90.000 plantas ha^-1) e três doses de adubação nitrogenada em cobertura (0, 90 e 180 kg ha^-1 de N), instalados em outubro. A densidade de semeadura e as doses de nitrogênio em cobertura influenciaram o peso de mil grãos dos híbridos de arquitetura moderna e antiga, nos municípios de Guarapuava e Laranjeiras do Sul. O aumento da densidade de semeadura reduz o diâmetro de colmo nos grupos de arquitetura de plantas moderna e antiga, em Laranjeiras do Sul. A produtividade de grãos foi influenciada positivamente pela adubação nitrogenada de cobertura sendo maior na dose de 180 kg ha^-1 de N, em Guarapuava e Laranjeiras do Sul.

Palavras-chave:
arquitetura de planta; produtividade de grãos; Zea mays

Introduction

Every growing season, new maize genotypes are being offered in the market, along with the requirements of the consumer market and the search for high crop yield, and the farmers have been increasingly prudent in the choice of the maize hybrid to be cultivated. Considering the innovations of the characteristics in the current maize hybrids, there are modifications in plant architecture that can influence spacing and sowing density, promoting significant increments in grain yield at reduced spacing (Mendes et al., 2013Mendes, M. C.; Matchula, P. H.; Rossi, E. S.; Oliveira, B. R. de; Silva, C. A. da; Sékula, C. R. Adubação nitrogenada em cobertura associada com densidades populacionais de híbridos de milho em espaçamento reduzido. Revista Brasileira de Milho e Sorgo, v.12, p.92-101, 2013. https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101
https://doi.org/10.18512/1980-6477/rbms.... ).

This modern plant architecture stands out for having more erect leaves, which are ideal to increase light capture, serving as reservoirs of nitrogen (N) for grain filling, and the better leaf angle of these modern hybrids also allows a better air circulation under conditions of high plant densities, reducing the level of interference of one plant over the other (Li et al., 2015Li, C.; Li, Y.; Shi, Y.; Song, Y.; Zhang, D.; Buckler, E. S.; Zhang, Z.; Wang, T.; Li, Y. Genetic control of the leaf angle and leaf orientation value as revealed by ultra-high density maps in three connected maize populations. Plos One, p.1-13, 2015. https://doi.org/10.1371/journal.pone.0121624
https://doi.org/10.1371/journal.pone.012... ).

Maize hybrids with old architecture, which normally have longer cycles, late, usually have leaves in a higher number, larger and decumbent, are tall, produce a lot of mass and do not benefit from smaller spacings due to the large vegetative development right in the beginning of the cycle, with possibility of shading in the interrow spacing (Sangoi et al., 2002Sangoi, L.; Almeida, M. L. de; Silva, P. R. F. da; Argenta, G. Bases morfofisiológicas para maior tolerância dos híbridos modernos de milho a altas densidades de plantas. Bragantia, v.61, p.101-110, 2002. https://doi.org/10.1590/S0006-87052002000200003
https://doi.org/10.1590/S0006-8705200200... ).

Regarding plant nutrition, N is of great importance in the management of the maize crop, which is highly responsive in production, being applied in considerable amounts in topdressing fertilization (Dhital & Raun, 2016Dhital, S.; Raun, W. R. Variability in optimum nitrogen rates for maize. Agronomy Journal, v.108, p.2165-2173, 2016. https://doi.org/10.2134/agronj2016.03.0139
https://doi.org/10.2134/agronj2016.03.01... ). Urea has been the most used N fertilizer in maize plantations, due to its cost/benefit per unit of the nutrient, associated with the agronomic efficiency, and there is a large amplitude of application, from 50 to 200 kg ha^-1 (Mota et al., 2015Mota, M. R.; Sangoi, L.; Schenatto, D. E.; Giordani, W.; Boniatti, C. M.; Dall'Igna, L. Fontes estabilizadas de nitrogênio como alternativa para aumentar o rendimento de grãos e a eficiência de uso do nitrogênio pelo milho. Revista Brasileira de Ciência do Solo, v.39, p.512-522, 2015. https://doi.org/10.1590/01000683rbcs20140308
https://doi.org/10.1590/01000683rbcs2014... ).

This study aimed to evaluate the influence of plant architecture (modern and old) of maize hybrids, associated with sowing densities and different levels of top-dressing N fertilization, in the municipalities of Guarapuava (spacing of 0.45 m) and Laranjeiras do Sul (spacing of 0.90 m) in the Paraná state.

Material and Methods

Two independent experiments were conducted in the first season of the 2012/2013 agricultural years, in no-till system stabilized in the Mid-South region of Paraná, where the climate is Cfb (humid mesothermal subtropical), according to Köppen’s classification. The first experiment was installed on October 12, 2012, in the municipality of Guarapuava, PR, at the Três Capões Farm (980 m of altitude, latitude 25º 25’ S and longitude 51º 39’ W), whereas the second experiment was installed on October 20, 2012, in the municipality of Laranjeiras do Sul, PR, at the Rio Almoço Farm (700 m of altitude, latitude 25° 33’ S and longitude 52° 24’ W).

The soils in the experimental areas were classified as typic dystroferric Brown Latosol with very clayey texture and typic eutrophic Red Latosol with clayey texture (EMBRAPA, 2013EMBRAPA - Empresa Brasileira de Pesquisa Agropecuária. Centro Nacional de Pesquisa de Solos. Sistema brasileiro de classificação de solos. 3.ed. Brasília: EMBRAPA, 2013. 306p.), for the municipalities of Guarapuava and Laranjeiras do Sul, respectively, and the results of the soil analyses, according to Raij et al. (1996)Raij, B. van; Cantarella, H.; Quaggio, A. J.; Furlani, A. M. C. (ed.). Recomendação de adubação e calagem para o Estado de São Paulo. 2.ed. Campinas: Instituto Agronômico, 1996. 285p. Boletim Técnico, 100, are presented in Table 1.

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Table 1
Results of the soil analysis before installing the experiments in Guarapuava and Laranjeiras do Sul

Both experiments were set in a randomized block design with three replicates, in a 6 x 3 x 3 factorial scheme, composing 54 treatments in a total of 162 experimental plots. The experiments used six single-cross hybrids of maize, for grain purposes (AG8025Y, DKB240Y, P1630H, P30R50H, DKB390Y, P32R48H), three plant densities (60,000, 75,000 and 90,000 plants ha^-1) and three doses of N fertilization as top-dressing (0, 90 and 180 kg ha^-1). The hybrids AG 8025Y, DKB 240Y and P 1630H are considered to have modern architecture; however, the hybrids P 30R50H, DKB 390Y and P 32R48H show old architecture. The experiment in Guarapuava used a reduced spacing (0.45 m) and the one in Laranjeiras do Sul used the conventional spacing (0.90 m).

After emergence, the plant stands were adjusted to populations of 60,000, 75,000 and 90,000 plants ha^-1, and basal fertilization consisted of 350 kg ha^-1 of the NPK formulation 12-30-10, for all treatments. Urea was used for top-dressing N fertilization, at three doses: 0, 90 and 180 kg ha^-1 of N. The first top-dressing N fertilization was applied when plants reached the stage of three to four leaves, using 200 kg ha^-1 of urea (45% N), thus applying 90 kg ha^-1 of N. The treatments with 180 kg ha^-1 of N received a second topdressing fertilization when plants reached the stage of six to seven leaves, with application of more 200 kg ha^-1 of urea (45% N). The N fertilizer was applied manually, broadcast on soil surface (without incorporation) and under adequate moisture conditions. In both experiments (Guarapuava and Laranjeiras do Sul), after the physiological maturation of the grains (165 days after sowing, approximately), the agronomic characteristics were evaluated: stem diameter (SD) using a caliper (mm), in the second internode above the soil, 1000-grain weight (1000GW) and grain yield (Y), using the following expression Eq. 1:

(1) \[ Y = GY \times \frac{(100 - U)}{87} \]

where:

Y - grain yield, kg ha^-1, corrected for standard moisture of 13%;

GY - grain yield, kg ha^-1; and,

U - water content of the grains at harvest.

The obtained data were subjected to analysis of variance and the means were compared by Scott-Knott test at 0.05 probability level, using the statistical program SISVAR® (Ferreira, 2011Ferreira, D. F. Sisvar: A computer statistical analysis system. Ciência e Agrotecnologia, v.35, p.1039-1042, 2011. https://doi.org/10.1590/S1413-70542011000600001
https://doi.org/10.1590/S1413-7054201100... ). Subsequently, for each experiment (Guarapuava and Laranjeiras do Sul), seven orthogonal contrasts were made (G1 x G2; 0 x 90; 0 x 180; 90 x 180; 60 x 75, 60 x 90 and 75 x 90), to compare the different groups of hybrids (G1 = group of hybrids with modern architecture; and G2 = group of hybrids with old architecture), doses of top-dressing N fertilization (0, 90 and 180 kg ha^-1) and plant densities (60,000, 75,000 and 90,000 plants ha^-1) regarding the evaluated agronomic characteristics.

Results and Discussion

Firstly, it is important to point out that the total rainfall and air temperature data along the experimental period in both sites (Guarapuava and Laranjeiras do Sul) were considered as adequate to obtain maximum maize grain yield, since the rainfall exceeded 1000 mm and the temperatures were close to 20 ºC. However, in the experiment conducted in Laranjeiras do Sul, from November 10 to 30, the rainfall volume in the region was considered as low (72 mm) and may have affected crop yield, because in this period plants were in the V8 stage, which is of great importance to define the productive potential. These data and the other values of rainfall and mean temperatures of both experimental sites are shown in Figure 1.

Figure 1
Data of rainfall (mm) and mean temperature (ºC) per ten-day period, in the municipalities of Guarapuava and Laranjeiras do Sul, PR, from October to April in the 2012/2013 growing season

For the characteristics stem diameter (SD) and thousandgrain weight (1000GW), there was significant effect between hybrids, plant densities and groups of hybrids (with modern and old architecture) in both experiments (Guarapuava and Laranjeiras do Sul) (Table 2).

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Table 2
Mean values of stem diameter (SD) and thousand-grain weight (1000GW), obtained for the different maize hybrids associated with plant densities, in the municipalities of Guarapuava (spacing of 0.45 m) and Laranjeiras do Sul (spacing of 0.90 m)

For the characteristic stem diameter (SD), in the experiment of Laranjeiras do Sul (conventional spacing of 0.90 m) (Table 2), Group 2 (hybrids with old architecture) showed higher SD at the three plant densities (60,000, 75,000 and 90,000 plants ha^-1) in comparison to Group 1 (hybrids with modern architecture), leading to the conclusion that the old architecture favors the hybrids at larger spacings, since plants are taller and have leaves with larger size and in greater number (Sá et al., 2002Sá, M. de; Ramalho, M. A. P.; Souza Sobrinho, F. de. Aspectos morfológicos e fisiológicos de cultivares modernas e antigas de milho. Ciência e Agrotecnologia, v.26, p.1082-1091, 2002.), probably resulting in higher efficiency of solar radiation interception to increase SD.

In both experiments (Guarapuava and Laranjeiras do Sul), in the comparison of Groups 1 and 2 at each plant density, the increase from 60,000 to 75,000 and 90,000 plants ha^-1 led to significant reduction in stem diameter and the highest value was obtained at density of 60,000 plants ha^-1 (Guarapuava, Group 1: 25.05 mm and Group 2: 25.70 mm; Laranjeiras do Sul, Group 1: 19.03 mm and Group 2: 20.24 mm). However, there was no significant difference for stem diameter at densities of 75,000 and 90,000 plants ha^-1, demonstrating that higher plant densities can reduce stem diameter, regardless of the spacing between rows and architecture of maize hybrids.

According to Takasu et al. (2014)Takasu, A. T.; Rodrigues, R. A. F.; Goes, R. J.; Haga, K. I.; Arf, O.; Gitti, D. C. Características agronômicas da cultura do milho em função do preparo de solo e arranjo espacial de plantas. Revista Agrarian, v.7, p.485-495, 2014., the increment of density in large populations leads to reduction in stem diameter and leaf area, because plants need to grow above the canopy to avoid shading, using the resources for a greater growth. Other studies indicate that the higher number of plants ha^-1 causes a reduction in stem diameter (Silva et al., 2014Silva, A. F. da; Schoninger, E. L.; Caione, G.; Kuffel, C.; Carvalho, M. A. C. de. Produtividade de híbridos de milho em função do espaçamento e da população de plantas em sistema de plantio convencional. Revista Brasileira de Milho e Sorgo, v.13, p.162-173, 2014. https://doi.org/10.18512/1980-6477/rbms.v13n2p162-173
https://doi.org/10.18512/1980-6477/rbms.... ; Kappes et al., 2011Kappes, C.; Andrade, J. A. da C.; Arf, O.; Oliveira, A. C. de; Arf, M. V; Ferreira, J. P. Desempenho de híbridos de milho em diferentes arranjos espaciais de plantas. Bragantia, v.70, p.334-343, 2011. https://doi.org/10.1590/S0006-87052011000200012
https://doi.org/10.1590/S0006-8705201100... ). Mendes et al. (2013)Mendes, M. C.; Matchula, P. H.; Rossi, E. S.; Oliveira, B. R. de; Silva, C. A. da; Sékula, C. R. Adubação nitrogenada em cobertura associada com densidades populacionais de híbridos de milho em espaçamento reduzido. Revista Brasileira de Milho e Sorgo, v.12, p.92-101, 2013. https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101
https://doi.org/10.18512/1980-6477/rbms.... also observed significant reduction in SD with the increase in plant density from 75,000 to 90,000 plants ha^-1, for the single-cross hybrid DKB 240Y (modern architecture), in the same municipality of cultivation.

For thousand-grain weight in the experiment of Guarapuava, Group 1 showed lower values, statistically, at the densities of 60,000 and 75,000 plants ha^-1 (371.36 and 349.38 g, respectively) in comparison to Group 2 at the same densities (371.36 and 349.38 g, respectively) . In the experiment of Laranjeiras do Sul, the values of thousand-grain weight in Group 2 were 10% higher than those in Group 1, at the three plant densities, which can be related to the old architecture of the hybrids. In addition, the presence of larger leaf area may have caused increase in the photosynthetic activity of the crop and efficiency in the conversion of photoassimilates for greater grain filling.

In Group 2, comparing the mean values at the different densities in the experiment of Guarapuava (reduced spacing), there were significant differences and the density of 90,000 plants ha^-1 led to the lowest thousand-grain weight (372.47 g), demonstrating that the old architecture is less favorable to increasing solar radiation interception in dense stands, resulting in greater intraspecific shading (Sangoi et al., 2007Sangoi, L.; Schmitt, A.; Zanin, C. G. Área foliar e rendimento de grãos de híbridos de milho em diferentes populações de plantas. Revista Brasileira de Milho e Sorgo, v.6, p.263-271, 2007. https://doi.org/10.18512/1980-6477/rbms.v6n3p263-271
https://doi.org/10.18512/1980-6477/rbms.... ). Silva et al. (2014)Silva, A. F. da; Schoninger, E. L.; Caione, G.; Kuffel, C.; Carvalho, M. A. C. de. Produtividade de híbridos de milho em função do espaçamento e da população de plantas em sistema de plantio convencional. Revista Brasileira de Milho e Sorgo, v.13, p.162-173, 2014. https://doi.org/10.18512/1980-6477/rbms.v13n2p162-173
https://doi.org/10.18512/1980-6477/rbms.... observed that the density of 80,000 plants ha^-1 caused reduction of 4.7% in grain weight in comparison to the treatment with density of 40,000 plants ha^-1. Similar results were obtained by Ubert et al. (2014)Ubert, I. de P.; Almeida, C. A. S. de; Chiodelli, E.; Bresolin, F.; Castanho, M.; Soligo, S.; Camillo, M. F. Efeito de diferentes densidades na produtividade de grãos de milho (Zea mays L.) em espaçamento reduzido. Revista de Agronomia e Medicina Veterinária do Instituto de Desenvolvimento Educacional do Alto Uruguai - RAMVI, v.1, p.1-20, 2014., who observed reduction in 1000GW proportional to the increase of plant population. Uate et al. (2014)Uate, J. V.; Pinho, R. G. von; Cancellier, L. L. Efeito do espaçamento entre linhas e densidade de plantas na produção da cultura de milho. Revista Científica da UEM, v.1, p.13-20, 2014., evaluating the maize hybrids Dow 2B587, AG 4051, CD 384 HX and GNZ 2004, concluded that there was no statistical difference for 1000GW with the increment in population density.

Regarding the characteristics thousand-grain weight (1000GW) and yield (Y), there was significant effect between hybrids, top-dressing N fertilization and groups of hybrids (modern and old architecture), in both experiments (Guarapuava and Laranjeiras do Sul) according to Table 3.

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Table 3
Mean values of thousand-grain weight (1000GW) and grain yield (Y), obtained for different maize hybrids associated with top-dressing N fertilization in the municipalities of Guarapuava (spacing of 0.45 m) and Laranjeiras do Sul (spacing of 0.90 m)

For thousand-grain weight (1000GW), in the experiments of both Guarapuava and Laranjeiras do Sul, there was statistical difference between Groups (Table 3). The values of 1000GW in Group 2 were approximately 10% higher (Guarapuava: 389.51; 390.62 and 408.40 g; Laranjeiras do Sul: 351.72; 353.54 and 370.10 g), statistically differing from Group 1 (Guarapuava: 347.90; 365.55 and 364.94 g; Laranjeiras do Sul: 303.05; 313.55 and 322.72 g), at the three levels of top-dressing N fertilization (0, 90 and 180 kg ha^-1 of N), respectively. According to Farinelli & Lemos (2012)Farinelli, R.; Lemos, L. B. Nitrogênio em cobertura na cultura do milho em preparo convencional e plantio direto consolidados. Pesquisa Agropecuária Tropical, v.42, p.63-70, 2012. https://doi.org/10.1590/S1983-40632012000100009
https://doi.org/10.1590/S1983-4063201200... , thousand-grain weight is a characteristic influenced by the genotype, availability of nutrients and climatic conditions during the grain filling stage.

When Groups 1 and 2 were analyzed separately, there were no significant differences for the different treatments with top-dressing N fertilization (Table 3). Opposite results were found in the same region of this experiment by Caires & Milla (2016)Caires, E. F.; Milla, R. Adubação nitrogenada em cobertura para o cultivo de milho com alto potencial produtivo em sistema de plantio direto de longa duração. Bragantia, v.75, p.87-95, 2016., who observed linear increment of 1000GW working with interrow spacing of 0.50 m for the modernarchitecture maize hybrid P1630, subjected to different N doses as top-dressing.

Still according to Table 3 for the variable grain yield in the experiment of Guarapuava, Group 2, when cultivated with the highest N dose as top-dressing (180 kg ha^-1) showed higher yield (14,342 kg ha^-1) in comparison to Group 1 (13,407 kg ha^-1). The individual analysis of each Group indicated that Group 1 showed the same behavior in both experiments (Guarapuava and Laranjeiras do Sul). The fertilizations of 90 and 180 kg ha^-1 of N for this Group did not result in statistical differences for grain yield (Guarapuava: 13,182 and 13,407 kg ha^-1; Laranjeiras do Sul: 5,824 and 6,007 kg ha^-1, respectively), but both N doses resulted in higher yields in comparison to the control (treatment with 0 kg ha^-1 of N), whose values for the N fertilizations of 90 and 180 kg ha^-1 were 11,953 kg ha^-1 for Guarapuava and 4,576 kg ha^-1 for Laranjeiras do Sul (Table 3). Other studies conducted with reduced spacing demonstrated that higher N doses as top-dressing result in higher grain yields for the maize crop (Mendes et al., 2013Mendes, M. C.; Matchula, P. H.; Rossi, E. S.; Oliveira, B. R. de; Silva, C. A. da; Sékula, C. R. Adubação nitrogenada em cobertura associada com densidades populacionais de híbridos de milho em espaçamento reduzido. Revista Brasileira de Milho e Sorgo, v.12, p.92-101, 2013. https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101
https://doi.org/10.18512/1980-6477/rbms.... ; Caires & Milla, 2016Caires, E. F.; Milla, R. Adubação nitrogenada em cobertura para o cultivo de milho com alto potencial produtivo em sistema de plantio direto de longa duração. Bragantia, v.75, p.87-95, 2016.).

For Group 2, in the experiment of Laranjeiras do Sul, grain yield increased with the increment in the doses of topdressing N fertilization, showing differences of 20 and 30% between the control and the N doses of 90 and 180 kg ha^-1, respectively. Higher grain yields have also been observed in other studies conducted using interrow spacing of 0.90 m (Kappes et al., 2014Kappes, C.; Arf, O.; Dal Bem, E. A.; Portugal, J. R.; Gonzaga, A. R. Manejo do nitrogênio em cobertura na cultura do milho em sistema plantio direto. Revista Brasileira de Milho e Sorgo, v.13, p.201-217, 2014.; Lana et al., 2014Lana, M. do C.; Rampim, L.; Ohland, T.; Fávero, F. Espaçamento, densidade populacional e adubação nitrogenada na cultura do milho. Revista Ceres, v.61, p.424-433, 2014. https://doi.org/10.1590/S0034-737X2014000300018
https://doi.org/10.1590/S0034-737X201400... ).

In general, the grain yield obtained in the experiment of Guarapuava was much higher than that relative to Laranjeiras do Sul (50 to 60%), possibly due to the water deficit that occurred in Laranjeiras do Sul in the beginning of the crop development, as previously highlighted.

Table 4 shows the seven orthogonal contrasts (G1 x G2; 0 x 90; 0 x 180; 90 x 180; 60 x 75, 60 x 90 and 75 x 90), comparing the different groups of hybrids: Group 1 (with modern architecture) and Group 2 (with old architecture), levels of top-dressing N fertilization (0, 90 and 180 kg ha^-1) and plant densities (60,000, 75,000 and 90,000 plants ha^-1), regarding the agronomic characteristics evaluated in both experiments (Guarapuava, with interrow spacing of 0.45 m, and Laranjeiras do Sul, with interrow spacing of 0.90 m).

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Table 4
Probability of significance of the contrasts for stem diameter (SD), thousand-grain weight (1000GW) and grain yield (Y), obtained for the different hybrids, levels of top-dressing N fertilization and plant densities, in the experiments conducted in the municipalities of Guarapuava (spacing of 0.45 m) and Laranjeiras do Sul (spacing of 0.90 m)

In the contrasts involving the evaluated agronomic characteristics (Table 4) and, based on the contrast G1 x G2, it is once again evident the response of the maize hybrids evaluated for plant architecture, which was expected, because of the genetic modifications of the cultivars. Most of the evaluated agronomic characteristics were significant for this contrast, in both experiments (Guarapuava and Laranjeiras do Sul).

According to the analysis of the contrasts between the levels of top-dressing N fertilization 0 x 90, 0 x 180 and 90 x 180, there was significance of more than 95% for grain yield (Y). Similar results were found by Mota et al. (2015)Mota, M. R.; Sangoi, L.; Schenatto, D. E.; Giordani, W.; Boniatti, C. M.; Dall'Igna, L. Fontes estabilizadas de nitrogênio como alternativa para aumentar o rendimento de grãos e a eficiência de uso do nitrogênio pelo milho. Revista Brasileira de Ciência do Solo, v.39, p.512-522, 2015. https://doi.org/10.1590/01000683rbcs20140308
https://doi.org/10.1590/01000683rbcs2014... , who observed that grain yield showed a linear increment in response to the increase in the N doses applied as topdressing.

Conclusions

Sowing densities and top-dressing N doses influenced the thousand-grain weight of hybrids with modern and old architecture, in the municipalities of Guarapuava and Laranjeiras do Sul, in the Paraná state.
The increase in sowing density reduces stem diameter in the groups of modern and old architecture, in Laranjeiras do Sul.
Grain yield was positively influenced by top-dressing N fertilization, being higher at the N dose of 180 kg ha^-1 in Guarapuava and Laranjeiras do Sul.

Literature Cited

Caires, E. F.; Milla, R. Adubação nitrogenada em cobertura para o cultivo de milho com alto potencial produtivo em sistema de plantio direto de longa duração. Bragantia, v.75, p.87-95, 2016.
Dhital, S.; Raun, W. R. Variability in optimum nitrogen rates for maize. Agronomy Journal, v.108, p.2165-2173, 2016. https://doi.org/10.2134/agronj2016.03.0139
» https://doi.org/10.2134/agronj2016.03.0139
EMBRAPA - Empresa Brasileira de Pesquisa Agropecuária. Centro Nacional de Pesquisa de Solos. Sistema brasileiro de classificação de solos. 3.ed. Brasília: EMBRAPA, 2013. 306p.
Farinelli, R.; Lemos, L. B. Nitrogênio em cobertura na cultura do milho em preparo convencional e plantio direto consolidados. Pesquisa Agropecuária Tropical, v.42, p.63-70, 2012. https://doi.org/10.1590/S1983-40632012000100009
» https://doi.org/10.1590/S1983-40632012000100009
Ferreira, D. F. Sisvar: A computer statistical analysis system. Ciência e Agrotecnologia, v.35, p.1039-1042, 2011. https://doi.org/10.1590/S1413-70542011000600001
» https://doi.org/10.1590/S1413-70542011000600001
Kappes, C.; Andrade, J. A. da C.; Arf, O.; Oliveira, A. C. de; Arf, M. V; Ferreira, J. P. Desempenho de híbridos de milho em diferentes arranjos espaciais de plantas. Bragantia, v.70, p.334-343, 2011. https://doi.org/10.1590/S0006-87052011000200012
» https://doi.org/10.1590/S0006-87052011000200012
Kappes, C.; Arf, O.; Dal Bem, E. A.; Portugal, J. R.; Gonzaga, A. R. Manejo do nitrogênio em cobertura na cultura do milho em sistema plantio direto. Revista Brasileira de Milho e Sorgo, v.13, p.201-217, 2014.
Lana, M. do C.; Rampim, L.; Ohland, T.; Fávero, F. Espaçamento, densidade populacional e adubação nitrogenada na cultura do milho. Revista Ceres, v.61, p.424-433, 2014. https://doi.org/10.1590/S0034-737X2014000300018
» https://doi.org/10.1590/S0034-737X2014000300018
Li, C.; Li, Y.; Shi, Y.; Song, Y.; Zhang, D.; Buckler, E. S.; Zhang, Z.; Wang, T.; Li, Y. Genetic control of the leaf angle and leaf orientation value as revealed by ultra-high density maps in three connected maize populations. Plos One, p.1-13, 2015. https://doi.org/10.1371/journal.pone.0121624
» https://doi.org/10.1371/journal.pone.0121624
Mendes, M. C.; Matchula, P. H.; Rossi, E. S.; Oliveira, B. R. de; Silva, C. A. da; Sékula, C. R. Adubação nitrogenada em cobertura associada com densidades populacionais de híbridos de milho em espaçamento reduzido. Revista Brasileira de Milho e Sorgo, v.12, p.92-101, 2013. https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101
» https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101
Mota, M. R.; Sangoi, L.; Schenatto, D. E.; Giordani, W.; Boniatti, C. M.; Dall'Igna, L. Fontes estabilizadas de nitrogênio como alternativa para aumentar o rendimento de grãos e a eficiência de uso do nitrogênio pelo milho. Revista Brasileira de Ciência do Solo, v.39, p.512-522, 2015. https://doi.org/10.1590/01000683rbcs20140308
» https://doi.org/10.1590/01000683rbcs20140308
Raij, B. van; Cantarella, H.; Quaggio, A. J.; Furlani, A. M. C. (ed.). Recomendação de adubação e calagem para o Estado de São Paulo. 2.ed. Campinas: Instituto Agronômico, 1996. 285p. Boletim Técnico, 100
Sá, M. de; Ramalho, M. A. P.; Souza Sobrinho, F. de. Aspectos morfológicos e fisiológicos de cultivares modernas e antigas de milho. Ciência e Agrotecnologia, v.26, p.1082-1091, 2002.
Sangoi, L.; Almeida, M. L. de; Silva, P. R. F. da; Argenta, G. Bases morfofisiológicas para maior tolerância dos híbridos modernos de milho a altas densidades de plantas. Bragantia, v.61, p.101-110, 2002. https://doi.org/10.1590/S0006-87052002000200003
» https://doi.org/10.1590/S0006-87052002000200003
Sangoi, L.; Schmitt, A.; Zanin, C. G. Área foliar e rendimento de grãos de híbridos de milho em diferentes populações de plantas. Revista Brasileira de Milho e Sorgo, v.6, p.263-271, 2007. https://doi.org/10.18512/1980-6477/rbms.v6n3p263-271
» https://doi.org/10.18512/1980-6477/rbms.v6n3p263-271
Silva, A. F. da; Schoninger, E. L.; Caione, G.; Kuffel, C.; Carvalho, M. A. C. de. Produtividade de híbridos de milho em função do espaçamento e da população de plantas em sistema de plantio convencional. Revista Brasileira de Milho e Sorgo, v.13, p.162-173, 2014. https://doi.org/10.18512/1980-6477/rbms.v13n2p162-173
» https://doi.org/10.18512/1980-6477/rbms.v13n2p162-173
Takasu, A. T.; Rodrigues, R. A. F.; Goes, R. J.; Haga, K. I.; Arf, O.; Gitti, D. C. Características agronômicas da cultura do milho em função do preparo de solo e arranjo espacial de plantas. Revista Agrarian, v.7, p.485-495, 2014.
Uate, J. V.; Pinho, R. G. von; Cancellier, L. L. Efeito do espaçamento entre linhas e densidade de plantas na produção da cultura de milho. Revista Científica da UEM, v.1, p.13-20, 2014.
Ubert, I. de P.; Almeida, C. A. S. de; Chiodelli, E.; Bresolin, F.; Castanho, M.; Soligo, S.; Camillo, M. F. Efeito de diferentes densidades na produtividade de grãos de milho (Zea mays L.) em espaçamento reduzido. Revista de Agronomia e Medicina Veterinária do Instituto de Desenvolvimento Educacional do Alto Uruguai - RAMVI, v.1, p.1-20, 2014.

Publication Dates

Publication in this collection
Oct 2017

History

Received
15 Jan 2017
Accepted
07 Apr 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Caires, E. F.; Milla, R. Adubação nitrogenada em cobertura para o cultivo de milho com alto potencial produtivo em sistema de plantio direto de longa duração. Bragantia, v.75, p.87-95, 2016.

[2] Dhital, S.; Raun, W. R. Variability in optimum nitrogen rates for maize. Agronomy Journal, v.108, p.2165-2173, 2016. https://doi.org/10.2134/agronj2016.03.0139
» https://doi.org/10.2134/agronj2016.03.0139

[3] EMBRAPA - Empresa Brasileira de Pesquisa Agropecuária. Centro Nacional de Pesquisa de Solos. Sistema brasileiro de classificação de solos. 3.ed. Brasília: EMBRAPA, 2013. 306p.

[4] Farinelli, R.; Lemos, L. B. Nitrogênio em cobertura na cultura do milho em preparo convencional e plantio direto consolidados. Pesquisa Agropecuária Tropical, v.42, p.63-70, 2012. https://doi.org/10.1590/S1983-40632012000100009
» https://doi.org/10.1590/S1983-40632012000100009

[5] Ferreira, D. F. Sisvar: A computer statistical analysis system. Ciência e Agrotecnologia, v.35, p.1039-1042, 2011. https://doi.org/10.1590/S1413-70542011000600001
» https://doi.org/10.1590/S1413-70542011000600001

[6] Kappes, C.; Andrade, J. A. da C.; Arf, O.; Oliveira, A. C. de; Arf, M. V; Ferreira, J. P. Desempenho de híbridos de milho em diferentes arranjos espaciais de plantas. Bragantia, v.70, p.334-343, 2011. https://doi.org/10.1590/S0006-87052011000200012
» https://doi.org/10.1590/S0006-87052011000200012

[7] Kappes, C.; Arf, O.; Dal Bem, E. A.; Portugal, J. R.; Gonzaga, A. R. Manejo do nitrogênio em cobertura na cultura do milho em sistema plantio direto. Revista Brasileira de Milho e Sorgo, v.13, p.201-217, 2014.

[8] Lana, M. do C.; Rampim, L.; Ohland, T.; Fávero, F. Espaçamento, densidade populacional e adubação nitrogenada na cultura do milho. Revista Ceres, v.61, p.424-433, 2014. https://doi.org/10.1590/S0034-737X2014000300018
» https://doi.org/10.1590/S0034-737X2014000300018

[9] Li, C.; Li, Y.; Shi, Y.; Song, Y.; Zhang, D.; Buckler, E. S.; Zhang, Z.; Wang, T.; Li, Y. Genetic control of the leaf angle and leaf orientation value as revealed by ultra-high density maps in three connected maize populations. Plos One, p.1-13, 2015. https://doi.org/10.1371/journal.pone.0121624
» https://doi.org/10.1371/journal.pone.0121624

[10] Mendes, M. C.; Matchula, P. H.; Rossi, E. S.; Oliveira, B. R. de; Silva, C. A. da; Sékula, C. R. Adubação nitrogenada em cobertura associada com densidades populacionais de híbridos de milho em espaçamento reduzido. Revista Brasileira de Milho e Sorgo, v.12, p.92-101, 2013. https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101
» https://doi.org/10.18512/1980-6477/rbms.v12n2p92-101

[11] Mota, M. R.; Sangoi, L.; Schenatto, D. E.; Giordani, W.; Boniatti, C. M.; Dall'Igna, L. Fontes estabilizadas de nitrogênio como alternativa para aumentar o rendimento de grãos e a eficiência de uso do nitrogênio pelo milho. Revista Brasileira de Ciência do Solo, v.39, p.512-522, 2015. https://doi.org/10.1590/01000683rbcs20140308
» https://doi.org/10.1590/01000683rbcs20140308

[12] Raij, B. van; Cantarella, H.; Quaggio, A. J.; Furlani, A. M. C. (ed.). Recomendação de adubação e calagem para o Estado de São Paulo. 2.ed. Campinas: Instituto Agronômico, 1996. 285p. Boletim Técnico, 100

[13] Sá, M. de; Ramalho, M. A. P.; Souza Sobrinho, F. de. Aspectos morfológicos e fisiológicos de cultivares modernas e antigas de milho. Ciência e Agrotecnologia, v.26, p.1082-1091, 2002.

[14] Sangoi, L.; Almeida, M. L. de; Silva, P. R. F. da; Argenta, G. Bases morfofisiológicas para maior tolerância dos híbridos modernos de milho a altas densidades de plantas. Bragantia, v.61, p.101-110, 2002. https://doi.org/10.1590/S0006-87052002000200003
» https://doi.org/10.1590/S0006-87052002000200003

[15] Sangoi, L.; Schmitt, A.; Zanin, C. G. Área foliar e rendimento de grãos de híbridos de milho em diferentes populações de plantas. Revista Brasileira de Milho e Sorgo, v.6, p.263-271, 2007. https://doi.org/10.18512/1980-6477/rbms.v6n3p263-271
» https://doi.org/10.18512/1980-6477/rbms.v6n3p263-271

[16] Silva, A. F. da; Schoninger, E. L.; Caione, G.; Kuffel, C.; Carvalho, M. A. C. de. Produtividade de híbridos de milho em função do espaçamento e da população de plantas em sistema de plantio convencional. Revista Brasileira de Milho e Sorgo, v.13, p.162-173, 2014. https://doi.org/10.18512/1980-6477/rbms.v13n2p162-173
» https://doi.org/10.18512/1980-6477/rbms.v13n2p162-173

[17] Takasu, A. T.; Rodrigues, R. A. F.; Goes, R. J.; Haga, K. I.; Arf, O.; Gitti, D. C. Características agronômicas da cultura do milho em função do preparo de solo e arranjo espacial de plantas. Revista Agrarian, v.7, p.485-495, 2014.

[18] Uate, J. V.; Pinho, R. G. von; Cancellier, L. L. Efeito do espaçamento entre linhas e densidade de plantas na produção da cultura de milho. Revista Científica da UEM, v.1, p.13-20, 2014.

[19] Ubert, I. de P.; Almeida, C. A. S. de; Chiodelli, E.; Bresolin, F.; Castanho, M.; Soligo, S.; Camillo, M. F. Efeito de diferentes densidades na produtividade de grãos de milho (Zea mays L.) em espaçamento reduzido. Revista de Agronomia e Medicina Veterinária do Instituto de Desenvolvimento Educacional do Alto Uruguai - RAMVI, v.1, p.1-20, 2014.

Local	pH	P-Mehlich mg dm^-3	K⁺	Ca²⁺	Mg²⁺	Al³⁺	H⁺ + Al³⁺	CEC	V %	OM g dm^-3
Local	pH	P-Mehlich mg dm^-3	cmol_c dm^-3						V %	OM g dm^-3
Laranjeiras do Sul	5.2	6.3	0.40	5.7	2.9	0	5.0	14.1	64.2	69.6
Guarapuava	5.0	2.6	0.18	3.9	2.3	0	5.1	11.51	55.2	42.9

Hybrids	SD (mm)			1000GW (g)
Hybrids	60000	75000	90000	60000	75000	90000
Guarapuava - 0.45 m
AG 8025Y	25.49 aA	24.28 aA	23.99 aA	412.59 aA	390.37 bA	397.04 aA
DKB 240Y	25.70 aA	24.61 aA	24.00 aA	352.59 bA	333.33 cA	357.41 bA
P 1630H	23.96 aA	22.42 bA	22.45 aA	348.89 bA	324.44 cA	318.52 bA
Group 1*	25.05 aA	23.77 aB	23.48 aB	371.36 bA	349.38 bA	357.65 aA
P 30R50H	25.36 aA	24.19 aA	23.56 aA	442.22 aA	405.93 bB	390.37 aB
DKB 390Y	26.23 aA	24.59 aA	24.99 aA	377.04 bA	344.44 cB	335.93 bB
P 32R48H	25.52 aA	24.59 aA	23.07 aB	430.37 aA	448.15 aA	391.11 aB
Group 2*	25.70 aA	24.45 aB	23.87 aB	416.54 aA	399.51 aA	372.47 aB
Laranjeiras do Sul - 0.90 m
AG 8025Y	20.33 aA	18.02 bB	17.73 bB	382.11 aA	354.04 aB	335.56 aB
DKB 240Y	19.32 aA	18.67 aA	17.16 bB	310.37 bA	314.64 bA	303.66 bA
P 1630H	17.44 bA	17.07 bA	16.23 bA	274.20 cA	272.98 cA	270.40 cA
Group 1*	19.03 bA	17.92 bB	17.04 bB	322.22 bA	313.89 bA	303.21 bA
P 30R50H	19.49 aA	18.78 aA	18.93 aA	354.64 aA	365.22 aA	336.44 aA
DKB 390Y	20.64 aA	20.26 aA	19.46 aA	364.60 aA	365.67 aA	344.42 aA
P 32R48H	20.59 aA	19.19 aA	17.75 bB	368.00 aA	363.34 aA	363.75 aA
Group 2*	20.24 aA	19.41 aB	18.72 aB	362.41 aA	364.74 aA	348.20 aA

Hybrids	1000GW (g)			Y (kg ha^-1)
Hybrids	0N	90N	180N	0N	90N	180N
Guarapuava - 0.45 m
AG 8025Y	394.81 aA	395.55 aA	409.63 aA	13275 aA	13932 aA	14196 aA
DKB 240Y	337.04 bA	358.15 bA	348.15 bA	12511 aB	14108 aA	14095 bA
P 1630H	311.85 bA	342.96 bA	337.04 bA	10073 bB	11506 bA	11931 aA
Group 1*	347.90 bA	365.55 bA	364.94 bA	11953 aB	13182 aA	13407 bA
P 30R50H	411.11 aA	402.22 aA	425.19 aA	13423 aA	14373 aA	15057 aA
DKB 390Y	338.89 bA	358.52 bA	360.00 bA	12359 aA	12684 bA	13570 aA
P 32R48H	418.52 aA	411.11 aA	440.00 aA	12602 aB	12465 bB	14399 aA
Group 2*	389.51 aA	390.62 aA	408.40 aA	12795 aB	13173 aB	14342 aA
Laranjeiras do Sul - 0.90 m
AG 8025Y	345.57 aA	362.75 aA	363.40 aA	4406 aB	5986 aA	6399 aA
DKB 240Y	313.79 bA	305.70 bA	309.17 bA	5122 aB	5843 aA	6167 aA
P 1630H	249.80 cB	272.19 cB	295.59 bA	4199 aB	5642 aA	5455 bA
Group 1*	303.05 bA	313.55 bA	322.72 bA	4576 aB	5824 aA	6007 aA
P 30R50H	344.64 aA	345.28 aA	366.37 aA	4080 aC	5173 aB	6121 aA
DKB 390Y	363.74 aA	342.73 aA	368.21 aA	4800 aB	5661 aA	6423 aA
P 32R48H	346.78 aA	372.59 aA	375.72 aA	4505 aB	5555 aA	5575 bA
Group 2*	351.72 aA	353.54 aA	370.10 aA	4462 aC	5463 aB	6040 aA

Contrasts	Agronomic characteristics
Contrasts	SD	1000GW	Y
Guarapuava - 0.45 m
G1 X G2	0.03	0.01	0.02
0 x 90	0.72	0.17	0.01
0 x 180	0.13	0.01	0.01
90 x 180	0.06	0.21	0.02
60 x 75	0.01	0.01	0.06
60 x 90	0.01	0.01	0.49
75 x 90	0.19	0.17	0.22
Laranjeiras do Sul - 0.90 m
G1 X G2	0.01	0.01	0.27
0 x 90	0.11	0.35	0.01
0 x 180	0.12	0.01	0.01
90 x 180	0.96	0.05	0.02
60 x 75	0.01	0.65	0.45
60 x 90	0.01	0.01	0.06
75 x 90	0.02	0.04	0.26

Brasil

Brasil

Nitrogen as top-dressing and sowing densities on agronomic characteristics of maize crop

Adubação nitrogenada de cobertura e densidades de semeadura em caracteres agronômicos na cultura do milho

ABSTRACT

RESUMO

Introduction

Material and Methods

Results and Discussion

Conclusions

Literature Cited

Publication Dates

History