Arranjo de plantas em milho: análise do estado-da-arte

The interception of photosynthetically active solar radiation has a great effect on plant’s performance, particularly in favorable environments. Solar radiation use efficiency is very low under field conditions. The adequate choice of plant arrangement may enhance radiation interception, increasing grain yield, because it influences leaf area index, leaf angle and light distribution within the canopy. This review aims to analyze the main factors that affect plant arrangement definition in maize, the changes in plant arrangement recommendation and, the modification in plant traits that favored such changes. The choice of plant arrangement in the field must take into account cultivar, grower objective, input availability, planting date and length of the growing season. The major alterations in plant arrangement occurred after the commercial release of maize single-cross hybrids which was followed by an increase in fertilizer use and a more efficient weed control and insects. The association between better crop management and highly productive hybrids favored the increase in plant density and reduction in row spacing. Such cultural practice changes were also boosted by important plant modifications, including reduction in tassel size, decrease in the number of barren plants under high densities, smaller rate of leaf senescence during grain filling, better synchrony between anthesis and silking in stressful environments, smaller plant height and leaf number, lower rates of stem and root lodging and reduction in leaf angle insertion on the stem. These morphological and physiological changes increased maize endurance to high plant populations making possible to change plant display. Increase of maize yield potential will be possible through the increases in the stress tolerance and in the uniformity of plant emergence.

[1]  G. Johnson,et al.  Integrated Weed Management Using Narrow Corn Row Spacing, Herbicides, and Cultivation , 1998 .

[2]  F. P. Gardner,et al.  Responses of maize to plant population density. II: Reproductive development, yield, and yield adjustments , 1988 .

[3]  M. Tollenaar,et al.  Source : sink ratio and leaf senescence in maize:: II. Nitrogen metabolism during grain filling , 1999 .

[4]  P. R. F. D. Silva,et al.  Resposta de híbridos de milho irrigado à densidade de plantas em três épocas de semeadura , 1999 .

[5]  L. Sangoi Arranjo de plantas e características agronômicas de genótipos de milho em dois níveis de fertilidade. , 1990 .

[6]  D. H. Bell,et al.  Chapter 1 – Photosynthesis, Plant Productivity, and Crop Yield , 1980 .

[7]  K. Boote,et al.  Determinate- and indeterminate-type soybean cultivar responses to pattern, density, and planting date , 1989 .

[8]  A. M. Junior,et al.  Incremento na densidade de plantas: uma alternativa para aumentar o rendimento de grãos de milho em regiões de curta estação estival de crescimento , 2000 .

[9]  M. A. Rizzardi,et al.  Distribuição de plantas de milho, na linha de semeadura, e seus efeitos nos componentes de produção , 1994 .

[10]  T. B. Daynard,et al.  EFFECTS OF GENOTYPE, PLANTING PATTERN, AND PLANT DENSITY ON PLANT-TO-PLANT VARIABILITY AND GRAIN YIELD OF CORN , 1974 .

[11]  D. Duvick,et al.  Post–Green Revolution Trends in Yield Potential of Temperate Maize in the North‐Central United States , 1999 .

[12]  C. R. Camp,et al.  Row Spacing, Plant Population, and Water Management Effects on Corn in the Atlantic Coastal Plain1 , 1985 .

[13]  Matthijs Tollenaar,et al.  Yield Improvement in Temperate Maize is Attributable to Greater Stress Tolerance , 1999 .

[14]  V. B. Cardwell,et al.  Fifty Years of Minnesota Corn Production: Sources of Yield Increase1 , 1982 .

[15]  P. Biscoe,et al.  Radiation absorption, growth and yield of cereals , 1978, The Journal of Agricultural Science.

[16]  W. A. Russell,et al.  Genetic improvement of maize yields , 1991 .

[17]  Robert S. Loomis,et al.  Crop Ecology: Productivity and Management in Agricultural Systems , 1992 .

[18]  M. Tollenaar,et al.  Source : sink ratio and leaf senescence in maize:: I. Dry matter accumulation and partitioning during grain filling , 1999 .

[19]  J. H. Ford,et al.  Corn growth and yield in uneven emerging stands , 1992 .

[20]  Luis Sangoi,et al.  UNDERSTANDING PLANT DENSITY EFFECTS ON MAIZE GROWTH AND DEVELOPMENT: AN IMPORTANT ISSUE TO MAXIMIZE GRAIN YIELD , 2001 .

[21]  Kenneth J. Boote,et al.  Physiology and Determination of Crop Yield , 1994 .

[22]  R. Pearce,et al.  Physiology of Crop Plants , 1984 .

[23]  R. J. Salvador,et al.  INFLUENCE OF PLANT HEIGHT AND OF LEAF NUMBER ON MAIZE PRODUCTION AT HIGH PLANT DENSITIES 1 , 1997 .

[24]  M. Ottman,et al.  Planting Patterns and Radiation Interception, Plant Nutrient Concentration, and Yield in Corn , 1989 .

[25]  Matthijs Tollenaar,et al.  Influence of N supply on development and dry matter accumulation of an old and a new maize hybrid , 1994 .

[26]  R. Loomis,et al.  Yield Potential, Plant Assimilatory Capacity, and Metabolic Efficiencies , 1999 .

[27]  N. F. Lopes,et al.  Crescimento, produção de matéria seca e produtividade da soja submetida a quatro níveis de radiação solar , 1989 .

[28]  G. Edmeades,et al.  The importance of the anthesis-silking interval in breeding for drought tolerance in tropical maize , 1996 .

[29]  M. Tollenaar,et al.  Efficiency of Maize Dry Matter Production During Periods of Complete Leaf Area Expansion , 1988 .

[30]  D. Bullock,et al.  A Growth Analysis Comparison of Corn Grown in Conventional and Equidistant Plant Spacing , 1988 .

[31]  Everton Leonardo Forsthofer,et al.  Resposta de híbridos simples de milho à redução do espaçamento entre linhas , 2001 .

[32]  Matthijs Tollenaar,et al.  Grain Yield is Reduced More by Weed Interference in an Old than in a New Maize Hybrid , 1997 .

[33]  D. Reicosky,et al.  Row Spacing Effects on Light Extinction Coefficients of Corn, Sorghum, Soybean, and Sunflower , 1996 .

[34]  A. M. Junior,et al.  Aumento do rendimento de gros de milho atravs do aumento da populao de plantas , 1997 .

[35]  T. Sinclair Crop Yield Potential and Fairy Tales , 1993 .

[36]  A. M. Junior,et al.  A desuniformidade de emergência reduz o rendimento de grãos de milho , 1999 .

[37]  John R. Teasdale,et al.  Influence of Narrow Row/High Population Corn (Zea mays) on Weed Control and Light Transmittance , 1995, Weed Technology.

[38]  R. Loomis,et al.  Maximum Crop Productivity: An Extimate 1 , 1963 .

[39]  Matthijs Tollenaar,et al.  Genetic Improvement in Grain Yield of Commercial Maize Hybrids Grown in Ontario from 1959 to 1988 , 1989 .

[40]  Matthijs Tollenaar,et al.  N uptake, N partitioning, and photosynthetic N-use efficiency of an old and a new maize hybrid , 1994 .

[41]  J. W. Dudley,et al.  Corn and Corn Improvement , 1955 .

[42]  L. M. Dwyer,et al.  GENETIC IMPROVEMENT IN PHOTOSYNTHETIC RESPONSE OF HYBRID MAIZE CULTIVARS, 1959 TO 1988 , 1989 .