Use of solar radiation in the improvement of spring canola (Brassica napus L., Brassicaceae) yield influenced by nitrogen topdressing fertilization
Resumo
The objective of the present study was to quantify and evaluate the coefficients of interception, absorption, and use of photosynthetically active solar radiation (PAR), and its effects on grain yield (YLD) of spring canola influenced by N topdressing fertilization. Two experiments were performed in 2013 and 2014 using a randomized block design, with four replicates and five treatments of N: T1-T5 (10, 20, 40, 80, and 160 kg ha-1, respectively). Plant, PAR, and meteorological variables were measured. The lower PAR interception efficiency (εi) occurred in treatment T1. The range of light extinction coefficient (k) was of the 0.55 to 1.09. PAR absorption efficiency (εa) ranged from 86 to 93%, while the PAR use efficiency (RUE) ranging from 1.2 to to 3.7 g m-2 MJ-1. The mean N dose for maximum agronomic efficiency (MAE) for YLD was 99.3 kg ha-1. The YLD varied according to N treatments and was influenced by RUE, dry matter accumulated until flowering (DMF), dry matter after flowering (DMAF) and total dry matter (TDM). Nitrogen fertilization affects the balance of PAR and, consequently, the canola yield.
Palavras-chave
Texto completo:
PDF (English)Referências
ALVARES, C. A.; STAPE, J. L.; SENTELHAS, P. C.; GONÇALVES, J. L. M.; SPAROVEK, G. Köppen’s climate classification map for Brazil. Meteorologische Zeitschrift, v. 22, n.6, p. 711-728, 2013.
ARENDONK, J. J. C. M. V.; NIEMANN, G. J.; BOON, J. J.; LAMBERS, H. Effects of nitrogen supply on the anatomy and chemical composition of leaves of four grass species belonging to the genus Poa, as determined by image-processing analysis and pyrolysis-mass spectrometry. Plant, Cell and Environment, v. 20, p. 881-887, 1997.
ARVIN, P.; AZIZI, M.; FIRUZEH, R. Study of dry matter partitioning into leaf, stem and pod at different oilseed rape cultivars. International Journal of Biosciences, v. 4, n. 10, p. 243-248, 2014.
BOUCHET, A. S.; LAPERCHE, A.; BISSUEL-BELAYGUE, C.; SNOWDON, R.; NESI, N.; STAHL, A. Nitrogen use efficiency in rapeseed. A review. Agronomy for Sustainable Development, v.36, p. 1-20, 2016.
CAVIGLIA, O. P.; SADRAS, V. O. Effect of nitrogen supply on crop conductance, water and radiation use efficiency of wheat. Field Crops Research, v. 69, p. 259-266, 2001.
CHARTIER, M.; BONCHRETIEN, P.; ALLIRAND, J.M.; GOSSE, G. Utilization des cellules au silicium amorphe pour la mesure du rayonnement photosynthíquement actif (400-700 nm). Agronomie, Paris, v. 9, p. 281- 284, 1989.
CHEEMA, M. A.; SALEEM, M. F.; MUHAMMAD, N.; WAHID, M. A.; BABER, B. H. Impact of rate and timing of nitrogen application on yield and quality of canola (Brassica napus L.). Pakistan Journal of Botany, v. 42, p. 1723-1731, 2010.
CHEEMA, M. A.; SATTAR, A.; WAHID, M. A.; SALEEM, M. F.; SADIQ, S. Growth, yield and quality response of various canola cultivars under agro-ecological condition of Faisalabad. Pakistan Journal of Agricultural Sciences, v. 49, n.1, p.35-39, 2012.
CHONGO, G.; MCVETTY, P. B. E. Relationship of physiological characters to yield parameters in oilseed rape (Brassica napus L.). Canadian Journal Plant Science, v. 86, p. 1-6, 2000.
DALMAGO, G. A.; CUNHA, G. R. DA, TOMM, G. O.; SANTI, A.; PIRES, J. L. F. Canola. In: MONTEIRO, J. E. B. A. (Org.). Agrometeorologia dos cultivos: o fator meteorológico na produção agrícola Brasília, DF: INMET. p. 131- 149, 2009.
DELIGIOS, P. A.; FARCI, R.; SULAS, L.; HOOGENBOON, G.; LEDDA, L. Predicting growth and yield or winter rapeseed in a Mediterranean environment: Model adaptation at a field scale. Field Crops Research, v. 144, p. 100-112, 2013.
DRECCER, M. F.; SCHAPENDONK, A. H. C. M.; SLAFER, G. A.; RABBINGE, R.; 2000. Comparative response of wheat and oilseed rape to nitrogen supply: absorption and utilization efficiency of radiation and nitrogen during the reproductive stages determining yield. Plant and Soil, v. 220, p. 89-205. 2000.
EDWARDS, J.; HERTEL, K. Canola growth and development. Available at: . Accessed on: 30/03/2013. 2011.
FAGAN, E. B.; MIQUELANTI, N. P.; BONFIM, T. S.; PEREIRA, I. S.; CORRÊA, L. T.; SOARES, J. N. Lei de Beer e sua relação com a ecofisiologia de plantas. Revista do Centro Universitário de Patos de Minas, v. 4, p. 78-97, 2013.
FAN, J.; MCCONKEY, B.; JANZEN, H.; SMITH, L. T.; WANG, H. Harvest index-yield relationship for estimating crop residue in cold continental climates. Field Crops Research, v. 204, p. 153-157, 2017.
FOCHESATTO, E.; NIED, A. H.; BERGAMASCHI, H.; DALMAGO, G. A.; PINTO, D. G.; KOVALESKI, S.; CUNHA, G. R. DA, GOUVÊA, G. A. Interception of solar radiation by the productive structures of spring canola hybrids. Ciência Rural, v. 46, n.10, p. 1790-1796, 2016.
GAN, Y.; HARKER, K. N.; KUTCHER, H. R.; GULDEN, R. H.; IRVINE, B.; MAY, W. E.; O’DONOVAN, J. T. Canola seed yield and phenological responses to plant density. Canadian Journal Plant Science, v. 96, p. 151-159, 2016.
GOMEZ, N. V.; MIRALLES, D. J. Factors that modify early and late reproductive phases in oilseed rape (Brassica napus L.): Its impact on seed yield and oil content. Industrial Crops and Products, v. 34, p. 1277- 1285, 2011.
IRIARTE, L. B.; VALETTI, O. E. Cultivo de colza. Buenos Aires: Instituto Nacional de Tecnologia Agropecuária – INTA. 2008. 156 p.
KAEFER, J. E.; GUIMARÃES, V. F.; RICHART, A.; TOMM, G. O.; MÜLLER, A. L. Produtividade de grãos e componentes de produção da canola de acordo com fontes e doses de nitrogênio. Pesquisa Agropecuária Brasileira, v. 49, n. 4, p. 273-280, 2014.
KIRKEGAARD, J. A.; LILLEY, J. M.; BRILL, R. D.; SPRAGUE, S. J.; FETTELL, N. A.; PENGILLEY, G. C. Re-evaluating sowing time of spring canola (Brassica napus L.) in south-eastern Australia – how early is too early? Crop & Pasture Science, v. 67, p. 381-396, 2016.
KUAI, J.; SUN, Y.; ZHOU, M.; ZHANG, P.; ZOU, Q.; WU, J.; ZHOU, G. The effect of nitrogen application and planting density on the radiation use efficiency and the stem lignin metabolism in rapeseed (Brassica napus L.). Field Crops Research, v. 199, p. 89-98, 2016.
LACK, S.; POUR, N. E.; MOJADAM, M.; HEIDARNEJAD, M.; 2011. As evaluation of the effects of different nitrogem levels and densities on grain andd oil yields of canola cv. Hayola 401. Avances in Environmental Biology, v. 5, n. 10, p. 3110-3116, 2011.
LAKE, L.; SADRAS, V. Associations between yield, intercepted radiation and radiation-use efficiency in chickpea. Crop & Pasture Science, v. 68, p. 140-147, 2017.
LEMAIRE, G.; OOSTEROM, E. V.; JEUFFROY, M.; GASTAL, F.; MASSIGNAM, A. Crop species present different qualitative types of response to N deficiency during their vegetative growth. Field Crops Research, v. 105, p. 253-265, 2008.
LILLEY, J. M.; BELL, L. W.; KIRKEGAARD, J. A. Optimising grain yield and grazing potential of crops across Australia’s high-raingall zone: a simulation analysis. Crop & Pasture Science, v. 66, p. 349-364, 2015.
MA, B. L.; BISWAS, D. K.; HERATH, A. W.; WHALEN, J. K.; RUAN, S. Q.; CALDWELL, C.; EARL, H.; VANASSE, A.; SCOTT, P.; SMITH, D. L. Growth, yield, and yield components of canola as affected by nitrogen, sulfur, and boron application. Journal of Plant Nutrition and Soil Science, v. 178, n. 4, p. 658-671, 2015.
MA, B. L.; HERATH, A. W. Timing and rates of nitrogen fertilizer application on seed yield, quality and nitrogen-use efficiency of canola. Crop & Pasture Science, v. 67, p. 167-180, 2016.
MANEVSKI, K.; LAERKE, P. E.; JIAO, X.; SANTHOME, S.; JØRGENSE, U. Biomass productivity and radiation utilization of innovative cropping systems for biorefinery. Agricultural and Forest Meteorology, v. 233, p. 250-264, 2017.
MARJANOVIĆ JEROMELA, A.; NAGL, N.; GVOZDANOVIĆ VARGA, J.; HRISTOV, N.; KONDIĆ-ŠPIKA, A.; VASIĆ, M.; MARINKOVIĆ, R. Genotype by environment interaction for seed yield per plant in rapeseed using AMMI model. Pesquisa Agropecuária Brasileira, v. 46, n, 2, p. 174-181, 2011.
MONSI, M.; SAEKI, T. The light factor in plant communities and its significance for dry matter producton. Japanese Journal of Botany, Tokyo, v. 14, p. 22-52, 1953.
MORRISON, M. J.; STEWART, D. W. Radiation use efficiency in summer rape. Agronomy Journal, v. 87, p. 1139-1142, 1995.
NIED, A. H. Parâmetros bioclimáticos e resposta da canola ao ambiente físico. 135f. Tese (Doutorado Fitotecnia/agrometeorologia) – Programa de Pós-Graduação em Fitotecnia, Faculdade de Agronomia, Universidade Federal do Rio Grande do Sul, Porto Alegre, RS. 2013.
NORTON, R. M. Nitrogen management to optimise canola production in Australia. Crop & Pasture Science, v. 67, p. 419-438, 2016.
OMETTO, A. C. Bioclimatologia vegetal. São Paulo: Ed. Agronômica Ceres. 1981. 440 p.
PETTER, F. A.; SILVA, J. A. DA, ZUFFO, A. M.; ANDRADE, F. R.; PACHECO, L. P.; ALMEIDA, F. A. Elevada densidade de semeadura aumenta a produtividade da soja? Resposta da radiação fotossinteticamente ativa. Bragantia, v. 75, n. 2, p. 173-183, 2016.
RIFE, C. L.; ZEINALI, H. Cold tolerance in oilseed rape over varying acclimation durations. Crop Science, v. 43, p. 96-100, 2003.
RIFFKIN, P.; POTTER, T.; KEARNEY, G. Yield performance of late-maturing winter canola (Brassica napus L.) types in the High Rainfall Zone of southern Australia. Crop & Pasture Science, v. 63, p. 17-32, 2012.
ROBERTSON, M. J.; HOLLAND, J. F.; BAMBACH, R. Response of canola and indian mustard to sowing data in the grain belt of north-eastern Australia. Australian Journal of Experimental Agriculture, v. 44, p. 43-52, 2004.
RONDANINI, D. P.; GOMEZ, N. V.; AGOSTI, M. B.; MIRALLES, D. J. Global trends of rapessed grain yield stability and rapessed-to-wheat yield ration in the last four decades. European Journal of Agronomy, v. 37, p. 56-65, 2012.
SIDLAUSKAS, G.; BERNOTAS, S. Some factors affecting seed yield of spring oilseed rape (Brassica napus L.). Agronomy Research, v. 1, n. 2, p. 229-243, 2003.
SINGER, J. W.; MEEK, D. W.; SAUER, T. J.; PRUEGER, J. H.; HATFIELD, J. L. Variability of light interception and radiation use efficiency in maize and soybean. Field Crops Research, v. 121, p. 147-152, 2011.
SLAUENWHITE, K. L. I.; QADERI, M. M. Single and interactive effects of temperature and light quality on four canola cultivars. Journal of Agronomy and Crop Science, v. 199, p. 286-298, 2013.
STEFANOWSKA, M.; KURA´S, M.; KUBACKA-ZEBALSKA, M.; KACPERSKA, A. Low temperature affects pattern of leaf growth and structure of cell walls in winter oilseed rape (Brassica napus L.; var. oleifera L.). Annals of Botany, v. 84, p. 313-319, 1999.
THAPA, S.; STEWART, B. A.; XUE, Q.; CHEN, Y. Manipulating plant geometry to improve microclimate, grain yield, and harvest index in grain sorghum. PLoS ONE, v. 12, n.3, p. 1-14, 2017.
DOI: http://dx.doi.org/10.31062/agrom.v26i1.26368
Apontamentos
- Não há apontamentos.
Embrapa Trigo
Rodovia BR-285, km 294, Caixa Postal: 3081
CEP 99050-970 Passo Fundo/RS